【注意事項】
* 生態影響に係る有害性情報更新日が2019年9月以前はRead-acrossデータに○を記載しておらず、被験物質が標記の物質ではない可能性がある。
**各情報源における信頼性評価スコアの定義は下記のとおりである。
| 生物種 | 学名 | 影響内容 | エンドポイント | 暴露期間(値) | 暴露期間(単位) | 毒性値 | 毒性値(単位) | 毒性値(単位)種別 | 試験中の 被験物質 濃度測定 あり:○ なし:× |
情報源 | 情報源による 信頼性評価** |
著者 | タイトル | 記載誌 | 発行年 | 情報更新日 | |||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| subject type | scientific name | effect | endpoint | exposure duration value |
exposure duration unit |
toxicity value | toxicity unit | toxicity unit type | Read-across* | QSAR | GLP | measurement of the test material |
original work type | original work reliability rank |
author | title | referenced journal | publication year | Information update date |
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Population | LOEC | 10 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fargasova,A. | The Green Alga Scenedesmus quadricauda - a Subject for the Study of Inhibitory Effects of Cd, Cu, Zn, Pb and Fe | Biologia (Bratisl.)54(3): 303-308 | 1999 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sorokiniana | Population | LOEC | 2 | days | 100 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cedeno-Maldonado,A., and J.A. Swader | Studies on the Mechanism of Copper Toxicity in Chlorella | Weed Sci.22(5): 443-449 | 1974 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 3 | days | 0.09 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, R.P. Lim, and P. Petocz | Toxicity of Metal Mixtures to a Tropical Freshwater Alga (Chlorella sp.): The Effect of Interactions Between Copper, Cadmium, and Zinc on Metal Cell Binding and Uptake | Environ. Toxicol. Chem.21(11): 2412-2422 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sorokiniana | Population | LOEC | 1 | days | 100 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cedeno-Maldonado,A., and J.A. Swader | Studies on the Mechanism of Copper Toxicity in Chlorella | Weed Sci.22(5): 443-449 | 1974 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sorokiniana | Population | LOEC | 4 | days | 100 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cedeno-Maldonado,A., and J.A. Swader | Studies on the Mechanism of Copper Toxicity in Chlorella | Weed Sci.22(5): 443-449 | 1974 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sorokiniana | Population | LOEC | 0.08 | hours | 500 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cedeno-Maldonado,A., and J.A. Swader | Studies on the Mechanism of Copper Toxicity in Chlorella | Weed Sci.22(5): 443-449 | 1974 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 3 | days | 26 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sorokiniana | Population | LOEC | 0.08 | hours | 100 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cedeno-Maldonado,A., and J.A. Swader | Studies on the Mechanism of Copper Toxicity in Chlorella | Weed Sci.22(5): 443-449 | 1974 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 13 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Flow Cytometry-Based Algal Bioassays for Assessing Toxicity of Copper in Natural Waters | Environ. Toxicol. Chem.20(1): 160-170 | 2001 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 3 | days | <1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 3 | days | 13.9 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Simpson,S.L., M.G.E. Roland, J.L. Stauber, and G.E. Batley | Effect of Declining Toxicant Concentrations on Algal Bioassay Endpoints | Environ. Toxicol. Chem.22(9): 2073-2079 | 2003 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 3 | days | 4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Simpson,S.L., M.G.E. Roland, J.L. Stauber, and G.E. Batley | Effect of Declining Toxicant Concentrations on Algal Bioassay Endpoints | Environ. Toxicol. Chem.22(9): 2073-2079 | 2003 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 2 | days | 11.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Simpson,S.L., M.G.E. Roland, J.L. Stauber, and G.E. Batley | Effect of Declining Toxicant Concentrations on Algal Bioassay Endpoints | Environ. Toxicol. Chem.22(9): 2073-2079 | 2003 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | NOEC | 3 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sorokiniana | Population | LOEC | 0.08 | hours | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cedeno-Maldonado,A., and J.A. Swader | Studies on the Mechanism of Copper Toxicity in Chlorella | Weed Sci.22(5): 443-449 | 1974 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 3 | days | 4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 3 | days | 7.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Simpson,S.L., M.G.E. Roland, J.L. Stauber, and G.E. Batley | Effect of Declining Toxicant Concentrations on Algal Bioassay Endpoints | Environ. Toxicol. Chem.22(9): 2073-2079 | 2003 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | LOEC | 3 | days | 5.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Angel,B.M., S.L. Simpson, A.A. Chariton, J.L. Stauber, and D.F. Jolley | Time-Averaged Copper Concentrations from Continuous Exposures Predicts Pulsed Exposure Toxicity to the Marine Diatom, Phaeodactylum tricornutum: Importance of Uptake and Elimination | Aquat. Toxicol.164:1-9 | 2015 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | NOEC | 20 | days | 124 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | LOEC | 20 | days | 12.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Biochemical | NOEL | 7 | days | 1500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abd-el-Monem,H.M., M.G. Corradi, and G. Gorbi | Toxicity of Copper and Zinc to Two Strains of Scenedesmus acutus Having Different Sensitivity to Chromium | Environ. Exp. Bot.40(1): 59-66 | 1998 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Biochemical | NOEL | 7 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abd-el-Monem,H.M., M.G. Corradi, and G. Gorbi | Toxicity of Copper and Zinc to Two Strains of Scenedesmus acutus Having Different Sensitivity to Chromium | Environ. Exp. Bot.40(1): 59-66 | 1998 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | NOEC | 20 | days | 12.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | NOEC | 20 | days | 12.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | NOEC | 7 | days | 124 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | NOEC | 20 | days | 124 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Biochemical | LOEC | 2 | days | 0.67 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Biochemical | LOEL | 7 | days | 1500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abd-el-Monem,H.M., M.G. Corradi, and G. Gorbi | Toxicity of Copper and Zinc to Two Strains of Scenedesmus acutus Having Different Sensitivity to Chromium | Environ. Exp. Bot.40(1): 59-66 | 1998 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | NOEC | 20 | days | 1.24 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | NOEC | 1 | days | 124 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | NOEC | 20 | days | 1.24 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Enzyme | LOEC | 1 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., M.S. Adams, J.L. Stauber, and R.P. Lim | Development of an Improved Rapid Enzyme Inhibition Bioassay with Marine and Freshwater Microalgae Using Flow Cytometry | Arch. Environ. Contam. Toxicol.40(4): 469-480 | 2001 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Biochemical | LOEL | 7 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abd-el-Monem,H.M., M.G. Corradi, and G. Gorbi | Toxicity of Copper and Zinc to Two Strains of Scenedesmus acutus Having Different Sensitivity to Chromium | Environ. Exp. Bot.40(1): 59-66 | 1998 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Biochemical | LOEL | 7 | days | 2000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abd-el-Monem,H.M., M.G. Corradi, and G. Gorbi | Toxicity of Copper and Zinc to Two Strains of Scenedesmus acutus Having Different Sensitivity to Chromium | Environ. Exp. Bot.40(1): 59-66 | 1998 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Biochemical | NOEC | 2 | days | 1.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu | Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription | Aquat. Toxicol.94(1): 56-61 | 2009 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | NOEC | 20 | days | 124 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | NOEC | 1 | days | 124 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | NOEC | 20 | days | 1.24 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Enzyme | LOEC | 2 | days | 0.64 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Growth | EC50 | 6 | days | 0.963 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Perales-Vela,H.V., S. Gonzalez-Moreno, C. Montes-Horcasitas, and R.O. Canizares-Villanueva | Growth, Photosynthetic and Respiratory Responses to Sub-lethal Copper Concentrations in Scenedesmus incrassatulus (Chlorophyceae) | Chemosphere67(11): 2274-2281 | 2007 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Genetic | NOEC | 4 | days | 0.75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Osborn,H.L., and S.E. Hook | Using Transcriptomic Profiles in the Diatom Phaeodactylum tricornutum to Identify and Prioritize Stressors | Aquat. Toxicol.138/139:12-25 | 2013 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Genetic | NOEC | 4 | days | 6.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Osborn,H.L., and S.E. Hook | Using Transcriptomic Profiles in the Diatom Phaeodactylum tricornutum to Identify and Prioritize Stressors | Aquat. Toxicol.138/139:12-25 | 2013 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Genetic | NOEC | 4 | days | 6.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Osborn,H.L., and S.E. Hook | Using Transcriptomic Profiles in the Diatom Phaeodactylum tricornutum to Identify and Prioritize Stressors | Aquat. Toxicol.138/139:12-25 | 2013 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 4 | days | 48.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blaise,C., R. Legault, N. Bermingham, R. Van Coillie, and P. Vasseur | A Simple Microplate Algal Assay Technique for Aquatic Toxicity Assessment | Toxic. Assess.1:261-281 | 1986 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 5 | days | 0.02 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roberts,S., P. Vasseur, and D. Dive | Combined Effects Between Atrazine, Copper and pH, on Target and Non Target Species | Water Res.24(4): 485-491 | 1990 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Cellular | EC50 | 3 | days | >70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Flow Cytometry-Based Algal Bioassays for Assessing Toxicity of Copper in Natural Waters | Environ. Toxicol. Chem.20(1): 160-170 | 2001 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Growth | LOEC | 6 | days | 0.629 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Perales-Vela,H.V., S. Gonzalez-Moreno, C. Montes-Horcasitas, and R.O. Canizares-Villanueva | Growth, Photosynthetic and Respiratory Responses to Sub-lethal Copper Concentrations in Scenedesmus incrassatulus (Chlorophyceae) | Chemosphere67(11): 2274-2281 | 2007 | 2018/03/20 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Cellular | EC50 | 2 | days | 8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Flow Cytometry-Based Algal Bioassays for Assessing Toxicity of Copper in Natural Waters | Environ. Toxicol. Chem.20(1): 160-170 | 2001 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | LOEC | 20 | days | 124 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Growth | EC50 | 4 | days | 237 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosko,J.J., and J.W. Rachlin | The Effect of Copper, Zinc, Cobalt and Manganese on the Growth of the Marine Diatom Nitzschia closterium | Bull. Torrey Bot. Club102(3): 100-106 | 1975 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | LOEC | 20 | days | 124 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Dunaliella tertiolecta | Cellular | EC50 | 2 | days | >980 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Flow Cytometry-Based Algal Bioassays for Assessing Toxicity of Copper in Natural Waters | Environ. Toxicol. Chem.20(1): 160-170 | 2001 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 3 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vasseur,P., P. Pandard, and D. Burnel | Influence of Some Experimental Factors on Metal Toxicity to Selenastrum capricornutum | Toxic. Assess.3(3): 331-444 | 1988 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Growth | EC50 | 4 | days | 62 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jouany,J.M., J.F. Ferard, P. Vasseur, J. Gea, R. Truhaut, and C. Rast | Interest of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Ecotoxicol. Environ. Saf.7:216-228 | 1983 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | NOEC | 7 | days | 124 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | LOEC | 20 | days | 124 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | EC50 | 0.17 | days | 420 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hickey,C.W., C. Blaise, and G. Costan | Microtesting Appraisal of ATP and Cell Recovery Toxicity End Points After Acute Exposure of Selenastrum capricornutum to Selected Chemicals | Environ. Toxicol. Water Qual.6(4): 383-403 | 1991 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Enzyme | LOEC | 1 | days | 0.5 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Genetic | NOEC | 2 | days | 0.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu | Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription | Aquat. Toxicol.94(1): 56-61 | 2009 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | LOEC | 20 | days | 124 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Cellular | EC50 | 2 | days | 8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Flow Cytometry-Based Algal Bioassays for Assessing Toxicity of Copper in Natural Waters | Environ. Toxicol. Chem.20(1): 160-170 | 2001 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Biochemical | LOEC | 6 | days | 0.629 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Perales-Vela,H.V., S. Gonzalez-Moreno, C. Montes-Horcasitas, and R.O. Canizares-Villanueva | Growth, Photosynthetic and Respiratory Responses to Sub-lethal Copper Concentrations in Scenedesmus incrassatulus (Chlorophyceae) | Chemosphere67(11): 2274-2281 | 2007 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Genetic | NOEL | 3 | days | 6 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bozhkov,A.I. | Three Dose-Dependent Stages of the Effect of Copper Ions on Functional Activity of Biological Systems | Biochemistry (Wash.)62(2): 149-157 | 1997 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Enzyme | LOEC | 1 | days | 0.56 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Enzyme | LOEC | 2 | days | 0.74 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Biochemical | EC50 | 12 | days | 410 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fargasova,A., A. Bumbalova, and E. Havranek | Ecotoxicological Effects and Uptake of Metals (Cu+, Cu2+, Mn2+, Mo6+, Ni2+, V5+) in Freshwater Alga Scenedesmus quadricauda | Chemosphere38(5): 1165-1173 | 1999 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Biochemical | EC50 | 12 | days | 260 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fargasova,A., A. Bumbalova, and E. Havranek | Ecotoxicological Effects and Uptake of Metals (Cu+, Cu2+, Mn2+, Mo6+, Ni2+, V5+) in Freshwater Alga Scenedesmus quadricauda | Chemosphere38(5): 1165-1173 | 1999 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Biochemical | EC50 | 12 | days | 390 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fargasova,A., A. Bumbalova, and E. Havranek | Ecotoxicological Effects and Uptake of Metals (Cu+, Cu2+, Mn2+, Mo6+, Ni2+, V5+) in Freshwater Alga Scenedesmus quadricauda | Chemosphere38(5): 1165-1173 | 1999 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Biochemical | LOEC | 10 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fargasova,A. | The Green Alga Scenedesmus quadricauda - a Subject for the Study of Inhibitory Effects of Cd, Cu, Zn, Pb and Fe | Biologia (Bratisl.)54(3): 303-308 | 1999 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | LOEC | 20 | days | 12.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | LOEC | 20 | days | 124 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus var. acutus | Enzyme | EC50 | 1 | days | >103 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yu,Y., F. Kong, M. Wang, L. Qian, and X. Shi | Determination of Short-Term Copper Toxicity in a Multispecies Microalgal Population Using Flow Cytometry | Ecotoxicol. Environ. Saf.66(1): 49-56 | 2007 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Enzyme | EC10 | 2 | days | 0.77 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Biochemical | LOEC | 10 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fargasova,A. | The Green Alga Scenedesmus quadricauda - a Subject for the Study of Inhibitory Effects of Cd, Cu, Zn, Pb and Fe | Biologia (Bratisl.)54(3): 303-308 | 1999 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Biochemical | LOEC | 10 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fargasova,A. | The Green Alga Scenedesmus quadricauda - a Subject for the Study of Inhibitory Effects of Cd, Cu, Zn, Pb and Fe | Biologia (Bratisl.)54(3): 303-308 | 1999 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Biochemical | LOEC | 2.5 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Biochemical | LOEC | 6 | days | 0.629 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Perales-Vela,H.V., S. Gonzalez-Moreno, C. Montes-Horcasitas, and R.O. Canizares-Villanueva | Growth, Photosynthetic and Respiratory Responses to Sub-lethal Copper Concentrations in Scenedesmus incrassatulus (Chlorophyceae) | Chemosphere67(11): 2274-2281 | 2007 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus sp. | Biochemical | LOEC | 9 | days | 0.1 | mM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Burgos,A., J. Maldonado, A. De los Rios, A. Sole, and I. Esteve | Effect of Copper and Lead on Two Consortia of Phototrophic Microorganisms and Their Capacity to Sequester Metals | Aquat. Toxicol.140/141:324-336 | 2013 | 2018/03/20 | |||||
| 藻類 | Anabaena sp. Anabaena sp. | Biochemical | LOEC | 10 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harish, S. Sundaramoorthy, D. Kumar, and S.G. Vaijapurkar | Response of Anabaena PCC 7120 to Copper Stress | J. Plant Biol. (New Delhi)34(3): 179-183 | 2009 | 2018/03/20 | |||||
| 藻類 | Anabaena sp. Anabaena sp. | Biochemical | LOEC | 10 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harish, S. Sundaramoorthy, D. Kumar, and S.G. Vaijapurkar | Response of Anabaena PCC 7120 to Copper Stress | J. Plant Biol. (New Delhi)34(3): 179-183 | 2009 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | LOEC | 20 | days | 12.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Anabaena sp. Anabaena sp. | Biochemical | LOEC | 10 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harish, S. Sundaramoorthy, D. Kumar, and S.G. Vaijapurkar | Response of Anabaena PCC 7120 to Copper Stress | J. Plant Biol. (New Delhi)34(3): 179-183 | 2009 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Genetic | NOEC | 4 | days | 6.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Osborn,H.L., and S.E. Hook | Using Transcriptomic Profiles in the Diatom Phaeodactylum tricornutum to Identify and Prioritize Stressors | Aquat. Toxicol.138/139:12-25 | 2013 | 2018/03/20 | |||||
| 藻類 | Anabaena sp. Anabaena sp. | Biochemical | NOEC | 10 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harish, S. Sundaramoorthy, D. Kumar, and S.G. Vaijapurkar | Response of Anabaena PCC 7120 to Copper Stress | J. Plant Biol. (New Delhi)34(3): 179-183 | 2009 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Genetic | NOEL | 2 | days | 0.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu | Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription | Aquat. Toxicol.94(1): 56-61 | 2009 | 2018/03/20 | |||||
| 藻類 | Anabaena sp. Anabaena sp. | Biochemical | LOEC | 10 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harish, S. Sundaramoorthy, D. Kumar, and S.G. Vaijapurkar | Response of Anabaena PCC 7120 to Copper Stress | J. Plant Biol. (New Delhi)34(3): 179-183 | 2009 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Biochemical | EC10 | 2 | days | 0.72 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Enzyme | EC10 | 1 | days | 0.67 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Biochemical | EC10 | 2 | days | 0.82 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Biochemical | NOEC | 3 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Enzyme | NOEC | 1.5 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Enzyme | NOEC | 2 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | LOEC | 20 | days | 124 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson | Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids | Phytochemistry49(5): 1241-1247 | 1998 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Biochemical | NOEC | 0 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Biochemical | LOEL | 7 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abd-el-Monem,H.M., M.G. Corradi, and G. Gorbi | Toxicity of Copper and Zinc to Two Strains of Scenedesmus acutus Having Different Sensitivity to Chromium | Environ. Exp. Bot.40(1): 59-66 | 1998 | 2018/03/20 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus sp. | Biochemical | NOEC | 9 | days | 0.05 | mM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Burgos,A., J. Maldonado, A. De los Rios, A. Sole, and I. Esteve | Effect of Copper and Lead on Two Consortia of Phototrophic Microorganisms and Their Capacity to Sequester Metals | Aquat. Toxicol.140/141:324-336 | 2013 | 2018/03/20 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Enzyme | NOEC | 1 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yu,Y., F. Kong, M. Wang, L. Qian, and X. Shi | Determination of Short-Term Copper Toxicity in a Multispecies Microalgal Population Using Flow Cytometry | Ecotoxicol. Environ. Saf.66(1): 49-56 | 2007 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Enzyme | LOEC | 1 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Enzyme | LOEC | 2.5 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Biochemical | LOEC | 2 | days | 0.76 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Biochemical | LOEC | 1 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Biochemical | LOEC | 0.5 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Enzyme | LOEC | 0.5 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Biochemical | LOEC | 2 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Enzyme | NOEC | 0 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Growth | EC50 | 3 | days | 240 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jouany,J.M., J.F. Ferard, P. Vasseur, J. Gea, R. Truhaut, and C. Rast | Interest of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Ecotoxicol. Environ. Saf.7:216-228 | 1983 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 3 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vasseur,P., P. Pandard, and D. Burnel | Influence of Some Experimental Factors on Metal Toxicity to Selenastrum capricornutum | Toxic. Assess.3(3): 331-444 | 1988 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 3 | days | 19 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vasseur,P., P. Pandard, and D. Burnel | Influence of Some Experimental Factors on Metal Toxicity to Selenastrum capricornutum | Toxic. Assess.3(3): 331-444 | 1988 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Cellular | EC50 | 3 | days | >70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Flow Cytometry-Based Algal Bioassays for Assessing Toxicity of Copper in Natural Waters | Environ. Toxicol. Chem.20(1): 160-170 | 2001 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Growth | EC50 | 3 | days | 85 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jouany,J.M., J.F. Ferard, P. Vasseur, J. Gea, R. Truhaut, and C. Rast | Interest of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Ecotoxicol. Environ. Saf.7:216-228 | 1983 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 3 | days | 65 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vasseur,P., P. Pandard, and D. Burnel | Influence of Some Experimental Factors on Metal Toxicity to Selenastrum capricornutum | Toxic. Assess.3(3): 331-444 | 1988 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 3 | days | 28 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vasseur,P., P. Pandard, and D. Burnel | Influence of Some Experimental Factors on Metal Toxicity to Selenastrum capricornutum | Toxic. Assess.3(3): 331-444 | 1988 | 2018/03/20 | |||||
| 藻類 | Dunaliella tertiolecta | Growth | NOEC | 3 | days | <1000 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., B.M. Angel, J.L. Stauber, W.L. Poon, S.L. Simpson, S.H. Cheng, and D.F. Jolley | Uptake and Internalisation of Copper by Three Marine Microalgae: Comparison of Copper-Sensitive and Copper-Tolerant Species | Aquat. Toxicol.89(2): 82-93 | 2008 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Genetic | NOEC | 4 | days | 6.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Osborn,H.L., and S.E. Hook | Using Transcriptomic Profiles in the Diatom Phaeodactylum tricornutum to Identify and Prioritize Stressors | Aquat. Toxicol.138/139:12-25 | 2013 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Genetic | NOEC | 2 | days | 0.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu | Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription | Aquat. Toxicol.94(1): 56-61 | 2009 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Genetic | LOEL | 2 | days | 1.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu | Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription | Aquat. Toxicol.94(1): 56-61 | 2009 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 4 | days | 46.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blaise,C., R. Legault, N. Bermingham, R. Van Coillie, and P. Vasseur | A Simple Microplate Algal Assay Technique for Aquatic Toxicity Assessment | Toxic. Assess.1:261-281 | 1986 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 3 | days | 41 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vasseur,P., P. Pandard, and D. Burnel | Influence of Some Experimental Factors on Metal Toxicity to Selenastrum capricornutum | Toxic. Assess.3(3): 331-444 | 1988 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Genetic | LOEC | 2 | days | 1.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu | Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription | Aquat. Toxicol.94(1): 56-61 | 2009 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Growth | EC50 | 4 | days | 265 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jouany,J.M., J.F. Ferard, P. Vasseur, J. Gea, R. Truhaut, and C. Rast | Interest of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Ecotoxicol. Environ. Saf.7:216-228 | 1983 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 14 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4): 1461-1468 | 2009 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Growth | EC50 | 4 | days | 32.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosko,J.J., and J.W. Rachlin | The Effect of Copper, Zinc, Cobalt and Manganese on the Growth of the Marine Diatom Nitzschia closterium | Bull. Torrey Bot. Club102(3): 100-106 | 1975 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Cellular | EC50 | 2 | days | 12 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Flow Cytometry-Based Algal Bioassays for Assessing Toxicity of Copper in Natural Waters | Environ. Toxicol. Chem.20(1): 160-170 | 2001 | 2018/03/20 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Cellular | EC50 | 2 | days | 8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Flow Cytometry-Based Algal Bioassays for Assessing Toxicity of Copper in Natural Waters | Environ. Toxicol. Chem.20(1): 160-170 | 2001 | 2018/03/20 | |||||
| 藻類 | Dunaliella tertiolecta | Cellular | EC50 | 2 | days | >980 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Flow Cytometry-Based Algal Bioassays for Assessing Toxicity of Copper in Natural Waters | Environ. Toxicol. Chem.20(1): 160-170 | 2001 | 2018/03/20 | |||||
| 藻類 | Dunaliella tertiolecta | Growth | NOEC | 3 | days | <1000 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., B.M. Angel, J.L. Stauber, W.L. Poon, S.L. Simpson, S.H. Cheng, and D.F. Jolley | Uptake and Internalisation of Copper by Three Marine Microalgae: Comparison of Copper-Sensitive and Copper-Tolerant Species | Aquat. Toxicol.89(2): 82-93 | 2008 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Genetic | NOEC | 4 | days | 6.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Osborn,H.L., and S.E. Hook | Using Transcriptomic Profiles in the Diatom Phaeodactylum tricornutum to Identify and Prioritize Stressors | Aquat. Toxicol.138/139:12-25 | 2013 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Genetic | LOEL | 4 | days | 2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Osborn,H.L., and S.E. Hook | Using Transcriptomic Profiles in the Diatom Phaeodactylum tricornutum to Identify and Prioritize Stressors | Aquat. Toxicol.138/139:12-25 | 2013 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Genetic | LOEL | 4 | days | 2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Osborn,H.L., and S.E. Hook | Using Transcriptomic Profiles in the Diatom Phaeodactylum tricornutum to Identify and Prioritize Stressors | Aquat. Toxicol.138/139:12-25 | 2013 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Genetic | LOEC | 2 | days | 1.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu | Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription | Aquat. Toxicol.94(1): 56-61 | 2009 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 3 | days | 280 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vasseur,P., P. Pandard, and D. Burnel | Influence of Some Experimental Factors on Metal Toxicity to Selenastrum capricornutum | Toxic. Assess.3(3): 331-444 | 1988 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 3 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4): 1461-1468 | 2009 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Growth | EC50 | 3 | days | 65 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jouany,J.M., J.F. Ferard, P. Vasseur, J. Gea, R. Truhaut, and C. Rast | Interest of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Ecotoxicol. Environ. Saf.7:216-228 | 1983 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 3 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vasseur,P., P. Pandard, and D. Burnel | Influence of Some Experimental Factors on Metal Toxicity to Selenastrum capricornutum | Toxic. Assess.3(3): 331-444 | 1988 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Growth | EC50 | 4 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jouany,J.M., J.F. Ferard, P. Vasseur, J. Gea, R. Truhaut, and C. Rast | Interest of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Ecotoxicol. Environ. Saf.7:216-228 | 1983 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 5 | days | 0.028 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roberts,S., P. Vasseur, and D. Dive | Combined Effects Between Atrazine, Copper and pH, on Target and Non Target Species | Water Res.24(4): 485-491 | 1990 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 4 | days | 44.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blaise,C., R. Legault, N. Bermingham, R. Van Coillie, and P. Vasseur | A Simple Microplate Algal Assay Technique for Aquatic Toxicity Assessment | Toxic. Assess.1:261-281 | 1986 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Genetic | LOEC | 4 | days | 1.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Osborn,H.L., and S.E. Hook | Using Transcriptomic Profiles in the Diatom Phaeodactylum tricornutum to Identify and Prioritize Stressors | Aquat. Toxicol.138/139:12-25 | 2013 | 2018/03/20 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 2 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wong,M.H., and D.C.H. Pak | Removal of Cu and Ni by Free and Immobilized Microalgae | Biomed. Environ. Sci.5(2): 99-108 | 1992 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus var. acutus | Population | NOEC | 1 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yu,Y., F. Kong, M. Wang, L. Qian, and X. Shi | Determination of Short-Term Copper Toxicity in a Multispecies Microalgal Population Using Flow Cytometry | Ecotoxicol. Environ. Saf.66(1): 49-56 | 2007 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus var. acutus | Population | NOEC | 1 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yu,Y., F. Kong, M. Wang, L. Qian, and X. Shi | Determination of Short-Term Copper Toxicity in a Multispecies Microalgal Population Using Flow Cytometry | Ecotoxicol. Environ. Saf.66(1): 49-56 | 2007 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Population | NOEC | 2 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wong,M.H., and D.C.H. Pak | Removal of Cu and Ni by Free and Immobilized Microalgae | Biomed. Environ. Sci.5(2): 99-108 | 1992 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 4 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wong,M.H., and D.C.H. Pak | Removal of Cu and Ni by Free and Immobilized Microalgae | Biomed. Environ. Sci.5(2): 99-108 | 1992 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | IC10 | 3 | days | 4.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,H.L., J.L. Stauber, M.S. Adams, and D.F. Jolley | Copper and Zinc Tolerance of Two Tropical Microalgae After Copper Acclimation | Environ. Toxicol.22(3): 234-244 | 2007 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Population | IC10 | 0.67 | hours | 510 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bengtson Nash,S.M., P.A. Quayle, U. Schreiber, and J.F. Muller | The Selection of a Model Microalgal Species as Biomaterial for a Novel Aquatic Phytotoxicity Assay | Aquat. Toxicol.72(4): 315-326 | 2005 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC10 | 0.58 | hours | 540 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bengtson Nash,S.M., P.A. Quayle, U. Schreiber, and J.F. Muller | The Selection of a Model Microalgal Species as Biomaterial for a Novel Aquatic Phytotoxicity Assay | Aquat. Toxicol.72(4): 315-326 | 2005 | 2018/03/22 | |||||
| 藻類 | Scenedesmus subspicatus | Population | IC10 | 1 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bengtson Nash,S.M., P.A. Quayle, U. Schreiber, and J.F. Muller | The Selection of a Model Microalgal Species as Biomaterial for a Novel Aquatic Phytotoxicity Assay | Aquat. Toxicol.72(4): 315-326 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 4 | days | 7900 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gregor,J., D. Jancula, and B. Marsalek | Growth Assays with Mixed Cultures of Cyanobacteria and Algae Assessed by In Vivo Fluorescence: One Step Closer to Real Ecosystems? | Chemosphere70(10): 1873-1878 | 2008 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 4 | days | 7180 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gregor,J., D. Jancula, and B. Marsalek | Growth Assays with Mixed Cultures of Cyanobacteria and Algae Assessed by In Vivo Fluorescence: One Step Closer to Real Ecosystems? | Chemosphere70(10): 1873-1878 | 2008 | 2018/03/22 | |||||
| 藻類 | Skeletonema costatum | Population | EC50 | 10 | days | 1450 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gowrinathan,K.P., and V.N.R. Rao | Physiological Responses of Some Plankton Diatoms to Heavy Metals | Indian J. Microbiol.29(4): 293-302 | 1989 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 3 | days | 4.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,H.L., J.L. Stauber, M.S. Adams, and D.F. Jolley | Copper and Zinc Tolerance of Two Tropical Microalgae After Copper Acclimation | Environ. Toxicol.22(3): 234-244 | 2007 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | NOEL | 2 | days | 0.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu | Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription | Aquat. Toxicol.94(1): 56-61 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | EC50 | 3 | days | 1.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.J. Markich, and R.P. Lim | pH-Dependent Toxicity of Copper and Uranium to a Tropical Freshwater Alga (Chlorella sp.) | Aquat. Toxicol.48(2/3): 275-289 | 2000 | 2018/03/22 | |||||
| 藻類 | Thalassiosira pseudonana | Population | EC50 | 4 | days | 770 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bao,V.W.W., K.M.Y. Leung, J.W. Qiu, and M.H.W. Lam | Acute Toxicities of Five Commonly Used Antifouling Booster Biocides to Selected Subtropical and Cosmopolitan Marine Species | Mar. Pollut. Bull.62(5): 1147-1151 | 2011 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Population | EC50 | 1 | days | 0.0005 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Guanzon,N.G.,Jr., H. Nakahara, and Y. Yoshida | Inhibitory Effects of Heavy Metals on Growth and Photosynthesis of Three Freshwater Microalgae | Fish. Sci.60(4): 379-384 | 1994 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Population | EC50 | 1 | days | 0.00027 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Guanzon,N.G.,Jr., H. Nakahara, and Y. Yoshida | Inhibitory Effects of Heavy Metals on Growth and Photosynthesis of Three Freshwater Microalgae | Fish. Sci.60(4): 379-384 | 1994 | 2018/03/22 | |||||
| 藻類 | Thalassiosira pseudonana | Population | EC50 | 4 | days | 970 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bao,V.W.W., K.M.Y. Leung, K.W.H. Kwok, A.Q. Zhang, and G.C.S. Lui | Synergistic Toxic Effects of Zinc Pyrithione and Copper to Three Marine Species: Implications on Setting Appropriate Water Quality Criteria | Mar. Pollut. Bull.57(6-12): 616-623 | 2008 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | EC50 | 2 | days | 0.09 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, R.P. Lim, and P. Petocz | Toxicity of Metal Mixtures to a Tropical Freshwater Alga (Chlorella sp.): The Effect of Interactions Between Copper, Cadmium, and Zinc on Metal Cell Binding and Uptake | Environ. Toxicol. Chem.21(11): 2412-2422 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | EC50 | 3 | days | 0.124 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, R.P. Lim, and P. Petocz | Toxicity of Metal Mixtures to a Tropical Freshwater Alga (Chlorella sp.): The Effect of Interactions Between Copper, Cadmium, and Zinc on Metal Cell Binding and Uptake | Environ. Toxicol. Chem.21(11): 2412-2422 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 3 | days | 0.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.J. Markich, and R.P. Lim | pH-Dependent Toxicity of Copper and Uranium to a Tropical Freshwater Alga (Chlorella sp.) | Aquat. Toxicol.48(2/3): 275-289 | 2000 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Population | NOEL | 27 | days | 115 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Le Jeune,A.H., M. Charpin, V. Deluchat, J.F. Briand, J.F. Lenain, M. Baudu, and C. Amblard | Effect of Copper Sulphate Treatment on Natural Phytoplanktonic Communities | Aquat. Toxicol.80(3): 267-280 | 2006 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Population | NOEC | 1 | days | 103 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yu,Y., F. Kong, M. Wang, L. Qian, and X. Shi | Determination of Short-Term Copper Toxicity in a Multispecies Microalgal Population Using Flow Cytometry | Ecotoxicol. Environ. Saf.66(1): 49-56 | 2007 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 4 | days | 7380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gregor,J., D. Jancula, and B. Marsalek | Growth Assays with Mixed Cultures of Cyanobacteria and Algae Assessed by In Vivo Fluorescence: One Step Closer to Real Ecosystems? | Chemosphere70(10): 1873-1878 | 2008 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Population | NOEL | 27 | days | 123.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Le Jeune,A.H., M. Charpin, V. Deluchat, J.F. Briand, J.F. Lenain, M. Baudu, and C. Amblard | Effect of Copper Sulphate Treatment on Natural Phytoplanktonic Communities | Aquat. Toxicol.80(3): 267-280 | 2006 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 35.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 65.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 2 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wong,M.H., and D.C.H. Pak | Removal of Cu and Ni by Free and Immobilized Microalgae | Biomed. Environ. Sci.5(2): 99-108 | 1992 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 6.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Population | LOEC | 4 | days | 2000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wong,M.H., and D.C.H. Pak | Removal of Cu and Ni by Free and Immobilized Microalgae | Biomed. Environ. Sci.5(2): 99-108 | 1992 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | NOEL | 3 | days | 6 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bozhkov,A.I. | Three Dose-Dependent Stages of the Effect of Copper Ions on Functional Activity of Biological Systems | Biochemistry (Wash.)62(2): 149-157 | 1997 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | NOEC | 2 | days | 0.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu | Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription | Aquat. Toxicol.94(1): 56-61 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | IC50 | 4 | days | 164 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferard,J.F., P. Vasseur, and J.M. Jouany | Value of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Can. Tech. Rep. Fish. Aquat. Sci.1163:38-56 | 1983 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | LOEL | 2 | days | 1.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu | Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription | Aquat. Toxicol.94(1): 56-61 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | LOEL | 2 | days | 0.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu | Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription | Aquat. Toxicol.94(1): 56-61 | 2009 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Population | LOEL | 7 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abd-el-Monem,H.M., M.G. Corradi, and G. Gorbi | Toxicity of Copper and Zinc to Two Strains of Scenedesmus acutus Having Different Sensitivity to Chromium | Environ. Exp. Bot.40(1): 59-66 | 1998 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 17.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 19.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 3 | days | 4.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 46.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 3 | days | 0.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Radix,P., M. Leonard, C. Papantoniou, G. Roman, E. Saouter, S. Gallotti-Schmitt, H. Thiebaud, and P. Vasseur | Comparison of Four Chronic Toxicity Tests Using Algae, Bacteria, and Invertebrates Assessed with Sixteen Chemicals | Ecotoxicol. Environ. Saf.47(2): 186-194 | 2000 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | National Association of Photographic Manufacturers | Environmental Effect of Photoprocessing Chemicals Vol I and II (557) | EPA/OTS Doc. #40-8469216:536 p. | 1974 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 4 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6): 1589-1596 | 2000 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 4 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6): 1589-1596 | 2000 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 97.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 52.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | <20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 15.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 4 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Garten,C.T.,Jr. | Multispecies Methods of Testing for Toxicity: Use of the Rhizobium-Legume Symbiosis in Nitrogen Fixation and Correlations Between Responses by Algae and Terrestrial Plants | ASTM Spec. Tech. Publ.:69-84 | 1990 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | IC50 | 3 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferard,J.F., P. Vasseur, and J.M. Jouany | Value of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Can. Tech. Rep. Fish. Aquat. Sci.1163:38-56 | 1983 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | EC50 | 3 | days | 35 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.J. Markich, and R.P. Lim | pH-Dependent Toxicity of Copper and Uranium to a Tropical Freshwater Alga (Chlorella sp.) | Aquat. Toxicol.48(2/3): 275-289 | 2000 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | IC50 | 2 | days | 4.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Multispecies Algal Bioassays Using Flow Cytometry | Environ. Toxicol. Chem.23(6): 1452-1462 | 2004 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 47 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Radix,P., M. Leonard, C. Papantoniou, G. Roman, E. Saouter, S. Gallotti-Schmitt, H. Thiebaud, and P. Vasseur | Comparison of Four Chronic Toxicity Tests Using Algae, Bacteria, and Invertebrates Assessed with Sixteen Chemicals | Ecotoxicol. Environ. Saf.47(2): 186-194 | 2000 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 7.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 17 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Population | LOEL | 7 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abd-el-Monem,H.M., M.G. Corradi, and G. Gorbi | Toxicity of Copper and Zinc to Two Strains of Scenedesmus acutus Having Different Sensitivity to Chromium | Environ. Exp. Bot.40(1): 59-66 | 1998 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 3 | days | 6.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | IC50 | 3 | days | 85 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferard,J.F., P. Vasseur, and J.M. Jouany | Value of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Can. Tech. Rep. Fish. Aquat. Sci.1163:38-56 | 1983 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | LOEC | 2 | days | 1.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu | Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription | Aquat. Toxicol.94(1): 56-61 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | LOEC | 4 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Garten,C.T.,Jr., and M.L. Frank | Comparison of Toxicity to Terrestrial Plants with Algal Growth Inhibition by Herbicides | Interagency Agreement No.40-1067-80, Prepared for the U.S.EPA, Washington, D.C., by the Oak Ridge Natl.Lab., Oak Ridge, TN:32 p. | 1984 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 4 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Garten,C.T.,Jr., and M.L. Frank | Comparison of Toxicity to Terrestrial Plants with Algal Growth Inhibition by Herbicides | Interagency Agreement No.40-1067-80, Prepared for the U.S.EPA, Washington, D.C., by the Oak Ridge Natl.Lab., Oak Ridge, TN:32 p. | 1984 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 7 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | National Association of Photographic Manufacturers | Environmental Effect of Photoprocessing Chemicals Vol I and II (557) | EPA/OTS Doc. #40-8469216:536 p. | 1974 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | LOEC | 1 | days | 0.2 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | LOEC | 2 | days | 0.21 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 4 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6): 1589-1596 | 2000 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 6.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Champia parvula | Reproduction | IC50 | 2 | days | 11.82 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 4 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6): 1589-1596 | 2000 | 2018/03/22 | |||||
| 藻類 | Champia parvula | Reproduction | IC50 | 2 | days | 11 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 藻類 | Champia parvula | Reproduction | IC50 | 2 | days | 2.827 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 藻類 | Champia parvula | Reproduction | IC50 | 2 | days | 3.008 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 33.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Champia parvula | Reproduction | IC50 | 2 | days | 8.08 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | IC50 | 4 | days | 110 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferard,J.F., P. Vasseur, and J.M. Jouany | Value of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Can. Tech. Rep. Fish. Aquat. Sci.1163:38-56 | 1983 | 2018/03/22 | |||||
| 藻類 | Champia parvula | Reproduction | IC50 | 2 | days | 2.066 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 3 | days | 9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | IC50 | 4 | days | 137 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Oliveira-Filho,E.C., R.M. Lopes, and F.J.R. Paumgartten | Comparative Study on the Susceptibility of Freshwater Species to Copper-Based Pesticides | Chemosphere56(4): 369-374 | 2004 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | NOEC | 3 | days | <1.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., B.M. Angel, J.L. Stauber, W.L. Poon, S.L. Simpson, S.H. Cheng, and D.F. Jolley | Uptake and Internalisation of Copper by Three Marine Microalgae: Comparison of Copper-Sensitive and Copper-Tolerant Species | Aquat. Toxicol.89(2): 82-93 | 2008 | 2018/03/22 | |||||
| 藻類 | Navicula sp. Navicula confervacea | Population | EC50 | 10 | days | 970 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rao,V.N.R. | Adaptation of Algae to Heavy Metal Toxicity | In: A.K.Kashyap and H.D.Kumar (Eds.), Recent Advances in Phycology, Rastogi Publications, Meerut, India:261-264 | 1994 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Population | EC50 | 5 | days | 0.00159 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petersen,R. | Influence of Copper and Zinc on the Growth of a Freshwater Alga, Scenedesmus quadricauda: The Significance of Chemical Speciation | Environ. Sci. Technol.16(8): 443-447 | 1982 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | EC50 | 2 | days | 5.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., M.S. Adams, J.L. Stauber, and R.P. Lim | Development of an Improved Rapid Enzyme Inhibition Bioassay with Marine and Freshwater Microalgae Using Flow Cytometry | Arch. Environ. Contam. Toxicol.40(4): 469-480 | 2001 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | EC50 | 2 | days | 7.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., M.S. Adams, J.L. Stauber, and R.P. Lim | Development of an Improved Rapid Enzyme Inhibition Bioassay with Marine and Freshwater Microalgae Using Flow Cytometry | Arch. Environ. Contam. Toxicol.40(4): 469-480 | 2001 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella autotrophica | Population | EC50 | 3 | days | 19.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Moreno-Garrido,I., L.M. Lubian, and A.M.V.M. Soares | Influence of Cellular Density on Determination of EC50 in Microalgal Growth Inhibition Tests | Ecotoxicol. Environ. Saf.47(2): 112-116 | 2000 | 2018/03/22 | |||||
| 藻類 | Champia parvula | Reproduction | IC50 | 2 | days | 8.08 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 2 | days | 0.05 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, R.P. Lim, and P. Petocz | Toxicity of Metal Mixtures to a Tropical Freshwater Alga (Chlorella sp.): The Effect of Interactions Between Copper, Cadmium, and Zinc on Metal Cell Binding and Uptake | Environ. Toxicol. Chem.21(11): 2412-2422 | 2002 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 16.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 4 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nyholm,N., and B.M. Damgaard | A Comparison of the Algal Growth Inhibition Toxicity Test Method with the Short Term 14C-Assimilation Test | Chemosphere21(4-5): 671-679 | 1990 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEL | 27 | days | 123.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Le Jeune,A.H., M. Charpin, V. Deluchat, J.F. Briand, J.F. Lenain, M. Baudu, and C. Amblard | Effect of Copper Sulphate Treatment on Natural Phytoplanktonic Communities | Aquat. Toxicol.80(3): 267-280 | 2006 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sorokiniana | Population | NOEC | 4 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cedeno-Maldonado,A., and J.A. Swader | Studies on the Mechanism of Copper Toxicity in Chlorella | Weed Sci.22(5): 443-449 | 1974 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sorokiniana | Population | NOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cedeno-Maldonado,A., and J.A. Swader | Studies on the Mechanism of Copper Toxicity in Chlorella | Weed Sci.22(5): 443-449 | 1974 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sorokiniana | Population | NOEC | 0.08 | hours | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cedeno-Maldonado,A., and J.A. Swader | Studies on the Mechanism of Copper Toxicity in Chlorella | Weed Sci.22(5): 443-449 | 1974 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sorokiniana | Population | NOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cedeno-Maldonado,A., and J.A. Swader | Studies on the Mechanism of Copper Toxicity in Chlorella | Weed Sci.22(5): 443-449 | 1974 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 4 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6): 1589-1596 | 2000 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 3 | days | 0.07 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, R.P. Lim, and P. Petocz | Toxicity of Metal Mixtures to a Tropical Freshwater Alga (Chlorella sp.): The Effect of Interactions Between Copper, Cadmium, and Zinc on Metal Cell Binding and Uptake | Environ. Toxicol. Chem.21(11): 2412-2422 | 2002 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | NOEC | 3 | days | <1.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, and D.F. Jolley | Sensitivity of Marine Microalgae to Copper: The Effect of Biotic Factors on Copper Adsorption and Toxicity | Sci. Total Environ.387(1-3): 141-154 | 2007 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 3 | days | 1.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 3 | days | 2.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 36.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 113 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 4 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6): 1589-1596 | 2000 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 3 | days | 4.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Skeletonema costatum | Population | IC50 | 5 | hours | 8530 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gilbert,F., F. Galgani, and Y. Cadiou | Rapid Assessment of Metabolic Activity in Marine Microalgae: Application in Ecotoxicological Tests and Evaluation of Water Quality | Mar. Biol.112(2): 199-205 | 1992 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Population | NOEC | 12 | days | 300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fargasova,A. | Interactive Effect of Manganese, Molybdenum, Nickel, Copper I and II, and Vanadium on the Freshwater Alga Scenedesmus quadricauda | Bull. Environ. Contam. Toxicol.67(5): 688-695 | 2001 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 48.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Radetski,C.M., J.F. Ferard, and C. Blaise | A Semistatic Microplate-Based Phytotoxicity Test | Environ. Toxicol. Chem.14(2): 299-302 | 1995 | 2018/03/22 | |||||
| 藻類 | Skeletonema costatum | Mortality | LC50 | 12 | days | 5000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rao,V.N.R., and G.M. Latheef | Effect of Copper on Artemia salina Linn. and of Skeletonema costatum (Grev.) Cleve as Feed | Comp. Physiol. Ecol.14(2): 41-48 | 1989 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella autotrophica | Population | EC50 | 3 | days | 9.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Moreno-Garrido,I., L.M. Lubian, and A.M.V.M. Soares | Influence of Cellular Density on Determination of EC50 in Microalgal Growth Inhibition Tests | Ecotoxicol. Environ. Saf.47(2): 112-116 | 2000 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella autotrophica | Population | EC50 | 3 | days | 38.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Moreno-Garrido,I., L.M. Lubian, and A.M.V.M. Soares | Influence of Cellular Density on Determination of EC50 in Microalgal Growth Inhibition Tests | Ecotoxicol. Environ. Saf.47(2): 112-116 | 2000 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | EC50 | 3 | days | 34.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Moreno-Garrido,I., L.M. Lubian, and A.M.V.M. Soares | Influence of Cellular Density on Determination of EC50 in Microalgal Growth Inhibition Tests | Ecotoxicol. Environ. Saf.47(2): 112-116 | 2000 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Physiological | NOEL | 3 | days | 6 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bozhkov,A.I. | Three Dose-Dependent Stages of the Effect of Copper Ions on Functional Activity of Biological Systems | Biochemistry (Wash.)62(2): 149-157 | 1997 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 245 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Thalassiosira pseudonana | Population | EC10 | 4 | days | 550 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bao,V.W.W., K.M.Y. Leung, J.W. Qiu, and M.H.W. Lam | Acute Toxicities of Five Commonly Used Antifouling Booster Biocides to Selected Subtropical and Cosmopolitan Marine Species | Mar. Pollut. Bull.62(5): 1147-1151 | 2011 | 2018/03/22 | |||||
| 藻類 | Skeletonema costatum | Mortality | 12 | days | 20000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rao,V.N.R., and G.M. Latheef | Effect of Copper on Artemia salina Linn. and of Skeletonema costatum (Grev.) Cleve as Feed | Comp. Physiol. Ecol.14(2): 41-48 | 1989 | 2018/03/22 | ||||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 1 | days | 6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Angel,B.M., S.L. Simpson, A.A. Chariton, J.L. Stauber, and D.F. Jolley | Time-Averaged Copper Concentrations from Continuous Exposures Predicts Pulsed Exposure Toxicity to the Marine Diatom, Phaeodactylum tricornutum: Importance of Uptake and Elimination | Aquat. Toxicol.164:1-9 | 2015 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 54.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Radetski,C.M., J.F. Ferard, and C. Blaise | A Semistatic Microplate-Based Phytotoxicity Test | Environ. Toxicol. Chem.14(2): 299-302 | 1995 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 4 | days | 21.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Murray-Gulde,C.L., J.E. Heatley, A.L. Schwartzman, and J.H.,Jr. Rodgers | Algicidal Effectiveness of Clearigate, Cutrine-Plus, and Copper Sulfate and Margins of Safety Associated with Their Use | Arch. Environ. Contam. Toxicol.43(1): 19-27 | 2002 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 239 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dvorakova,D., R. Rojickova-Padrtova, and B. Marsalek | Is the Replacement of Scenedesmus quadricauda L. by Selenastrum capricornutum L. in Toxicity Tests Reasonable? | Pol. Arch. Hydrobiol.46(3/4): 345-352 | 1999 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | EC50 | 2 | days | 0.66 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | EC50 | 1 | days | 0.66 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 163 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 2 | days | 4.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., M.S. Adams, J.L. Stauber, and R.P. Lim | Development of an Improved Rapid Enzyme Inhibition Bioassay with Marine and Freshwater Microalgae Using Flow Cytometry | Arch. Environ. Contam. Toxicol.40(4): 469-480 | 2001 | 2018/03/22 | |||||
| 藻類 | Skeletonema costatum | Mortality | 1 | days | 0.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Metaxas,A., and A.G. Lewis | Copper Tolerance of Skeletonema costatum and Nitzschia thermalis | Aquat. Toxicol.19(4): 265-280 | 1991 | 2018/03/22 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 3.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | IC50 | 4 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferard,J.F., P. Vasseur, and J.M. Jouany | Value of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Can. Tech. Rep. Fish. Aquat. Sci.1163:38-56 | 1983 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | IC50 | 4 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferard,J.F., P. Vasseur, and J.M. Jouany | Value of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Can. Tech. Rep. Fish. Aquat. Sci.1163:38-56 | 1983 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | LOEC | 2 | days | 0.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu | Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription | Aquat. Toxicol.94(1): 56-61 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | LOEC | 4 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Garten,C.T.,Jr. | Multispecies Methods of Testing for Toxicity: Use of the Rhizobium-Legume Symbiosis in Nitrogen Fixation and Correlations Between Responses by Algae and Terrestrial Plants | ASTM Spec. Tech. Publ.:69-84 | 1990 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 3 | days | 3.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 3 | days | 3.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | NOEC | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Garten,C.T.,Jr., and M.L. Frank | Comparison of Toxicity to Terrestrial Plants with Algal Growth Inhibition by Herbicides | Interagency Agreement No.40-1067-80, Prepared for the U.S.EPA, Washington, D.C., by the Oak Ridge Natl.Lab., Oak Ridge, TN:32 p. | 1984 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 3 | days | 2.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Angel,B.M., S.L. Simpson, A.A. Chariton, J.L. Stauber, and D.F. Jolley | Time-Averaged Copper Concentrations from Continuous Exposures Predicts Pulsed Exposure Toxicity to the Marine Diatom, Phaeodactylum tricornutum: Importance of Uptake and Elimination | Aquat. Toxicol.164:1-9 | 2015 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 1.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Mortality | 12 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hutchinson,T.C. | Comparative Studies of the Toxicity of Heavy Metals to Phytoplankton and Their Synergistic Interactions | Water Pollut. Res. Can.8:68-90 | 1973 | 2018/03/22 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 4 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6): 1589-1596 | 2000 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 4 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6): 1589-1596 | 2000 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhang,L.J., G.G. Ying, F. Chen, J.L. Zhao, L. Wang, and Y.X. Fang | Development and Application of Whole-Sediment Toxicity Test Using Immobilized Freshwater Microalgae Pseudokirchneriella subcapitata | Environ. Toxicol. Chem.31(2): 377-386 | 2012 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 0.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | IC50 | 2 | days | 2.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wilde,K.L., J.L. Stauber, S.J. Markich, N.M. Franklin, and P.L. Brown | The Effect of pH on the Uptake and Toxicity of Copper and Zinc in a Tropical Freshwater Alga (Chlorella sp.) | Arch. Environ. Contam. Toxicol.51(2): 174-185 | 2006 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 2 | days | 4.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Angel,B.M., S.L. Simpson, A.A. Chariton, J.L. Stauber, and D.F. Jolley | Time-Averaged Copper Concentrations from Continuous Exposures Predicts Pulsed Exposure Toxicity to the Marine Diatom, Phaeodactylum tricornutum: Importance of Uptake and Elimination | Aquat. Toxicol.164:1-9 | 2015 | 2018/03/22 | |||||
| 藻類 | Champia parvula | Reproduction | IC50 | 2 | days | 5.87 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 1.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Garten,C.T.,Jr. | Multispecies Methods of Testing for Toxicity: Use of the Rhizobium-Legume Symbiosis in Nitrogen Fixation and Correlations Between Responses by Algae and Terrestrial Plants | ASTM Spec. Tech. Publ.:69-84 | 1990 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Population | EC50 | 3 | days | 435.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rojickova-Padrtova,R., and B. Marsalek | Selection and Sensitivity Comparisons of Algal Species for Toxicity Testing | Chemosphere38(14): 3329-3338 | 1999 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEL | 2 | days | 2.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wilde,K.L., J.L. Stauber, S.J. Markich, N.M. Franklin, and P.L. Brown | The Effect of pH on the Uptake and Toxicity of Copper and Zinc in a Tropical Freshwater Alga (Chlorella sp.) | Arch. Environ. Contam. Toxicol.51(2): 174-185 | 2006 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEL | 2 | days | 0.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wilde,K.L., J.L. Stauber, S.J. Markich, N.M. Franklin, and P.L. Brown | The Effect of pH on the Uptake and Toxicity of Copper and Zinc in a Tropical Freshwater Alga (Chlorella sp.) | Arch. Environ. Contam. Toxicol.51(2): 174-185 | 2006 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEL | 2 | days | 2.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wilde,K.L., J.L. Stauber, S.J. Markich, N.M. Franklin, and P.L. Brown | The Effect of pH on the Uptake and Toxicity of Copper and Zinc in a Tropical Freshwater Alga (Chlorella sp.) | Arch. Environ. Contam. Toxicol.51(2): 174-185 | 2006 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Population | LOEL | 12 | days | 260 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fargasova,A. | Accumulation and Toxic Effects of Cu2+, Cu+, Mn2+, VO43-, Ni2+ and MoO42- and Their Associations: Influence on Respiratory Rate and Chlorophyll a Content of the Green Alga Scenedesmus quadricauda | J. Trace Microprobe Tech.16(4): 481-490 | 1998 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 52.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 94.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus var. acutus | Population | LOEC | 1 | days | 78 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yu,Y., F. Kong, M. Wang, L. Qian, and X. Shi | Determination of Short-Term Copper Toxicity in a Multispecies Microalgal Population Using Flow Cytometry | Ecotoxicol. Environ. Saf.66(1): 49-56 | 2007 | 2018/03/22 | |||||
| 藻類 | Scenedesmus subspicatus | Population | NOEC | 1 | days | 48 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schafer,H., H. Hettler, U. Fritsche, G. Pitzen, G. Roderer, and A. Wenzel | Biotests Using Unicellular Algae and Ciliates for Predicting Long-Term Effects of Toxicants | Ecotoxicol. Environ. Saf.27(1): 64-81 | 1994 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus var. acutus | Population | LOEC | 1 | days | 78 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yu,Y., F. Kong, M. Wang, L. Qian, and X. Shi | Determination of Short-Term Copper Toxicity in a Multispecies Microalgal Population Using Flow Cytometry | Ecotoxicol. Environ. Saf.66(1): 49-56 | 2007 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | EC50 | 3 | days | 565 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/22 | |||||
| 藻類 | Navicula sp. Navicula confervacea | Population | EC50 | 10 | days | 970 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gowrinathan,K.P., and V.N.R. Rao | Physiological Responses of Some Plankton Diatoms to Heavy Metals | Indian J. Microbiol.29(4): 293-302 | 1989 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | EC50 | 3 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | EC50 | 3 | days | 7.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | EC50 | 3 | days | 4.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | EC50 | 3 | days | 4.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Scenedesmus subspicatus | Population | EC50 | 3 | days | 5.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ma,M., W. Zhu, Z. Wang, and G.J. Witkamp | Accumulation, Assimilation and Growth Inhibition of Copper on Freshwater Alga (Scenedesmus subspicatus 86.81 SAG) in the Presence of EDTA and Fulvic Acid | Aquat. Toxicol.63(3): 221-228 | 2003 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | NOEC | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Garten,C.T.,Jr. | Multispecies Methods of Testing for Toxicity: Use of the Rhizobium-Legume Symbiosis in Nitrogen Fixation and Correlations Between Responses by Algae and Terrestrial Plants | ASTM Spec. Tech. Publ.:69-84 | 1990 | 2018/03/22 | |||||
| 藻類 | Champia parvula | Reproduction | IC50 | 2 | days | 3.11 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 194 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 3 | days | 3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 3 | days | 1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 3 | days | 2.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 3 | days | 6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 3 | days | 3.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 3 | days | 2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 3 | days | 1.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.J. Markich, and R.P. Lim | pH-Dependent Toxicity of Copper and Uranium to a Tropical Freshwater Alga (Chlorella sp.) | Aquat. Toxicol.48(2/3): 275-289 | 2000 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 3 | days | 11.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhang,L.J., G.G. Ying, F. Chen, J.L. Zhao, L. Wang, and Y.X. Fang | Development and Application of Whole-Sediment Toxicity Test Using Immobilized Freshwater Microalgae Pseudokirchneriella subcapitata | Environ. Toxicol. Chem.31(2): 377-386 | 2012 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 3 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, and D.F. Jolley | Sensitivity of Marine Microalgae to Copper: The Effect of Biotic Factors on Copper Adsorption and Toxicity | Sci. Total Environ.387(1-3): 141-154 | 2007 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 3 | days | <1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 3 | days | 2.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acuminatus | Population | NOEC | 4 | days | 0.005 | mmol/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lombardi,A.T., T.M. Dos Reis Hidalgo, A.A. Henriques Vieira, and A.L. Sartori | Toxicity of Ionic Copper to the Freshwater Microalga Scenedesmus acuminatus (Chlorophyceae, Chlorococcales) | Phycologia46(1): 74-78 | 2007 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | LOEC | 1 | days | 5.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Angel,B.M., S.L. Simpson, A.A. Chariton, J.L. Stauber, and D.F. Jolley | Time-Averaged Copper Concentrations from Continuous Exposures Predicts Pulsed Exposure Toxicity to the Marine Diatom, Phaeodactylum tricornutum: Importance of Uptake and Elimination | Aquat. Toxicol.164:1-9 | 2015 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | LOEC | 2 | days | 5.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Angel,B.M., S.L. Simpson, A.A. Chariton, J.L. Stauber, and D.F. Jolley | Time-Averaged Copper Concentrations from Continuous Exposures Predicts Pulsed Exposure Toxicity to the Marine Diatom, Phaeodactylum tricornutum: Importance of Uptake and Elimination | Aquat. Toxicol.164:1-9 | 2015 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | LOEC | 1 | days | 20 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Angel,B.M., S.L. Simpson, A.A. Chariton, J.L. Stauber, and D.F. Jolley | Time-Averaged Copper Concentrations from Continuous Exposures Predicts Pulsed Exposure Toxicity to the Marine Diatom, Phaeodactylum tricornutum: Importance of Uptake and Elimination | Aquat. Toxicol.164:1-9 | 2015 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | LOEC | 1 | days | 21 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Angel,B.M., S.L. Simpson, A.A. Chariton, J.L. Stauber, and D.F. Jolley | Time-Averaged Copper Concentrations from Continuous Exposures Predicts Pulsed Exposure Toxicity to the Marine Diatom, Phaeodactylum tricornutum: Importance of Uptake and Elimination | Aquat. Toxicol.164:1-9 | 2015 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 2 | days | 0.07 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, R.P. Lim, and P. Petocz | Toxicity of Metal Mixtures to a Tropical Freshwater Alga (Chlorella sp.): The Effect of Interactions Between Copper, Cadmium, and Zinc on Metal Cell Binding and Uptake | Environ. Toxicol. Chem.21(11): 2412-2422 | 2002 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC10 | 0.21 | days | 11 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Radix,P., M. Leonard, C. Papantoniou, G. Roman, E. Saouter, S. Gallotti-Schmitt, H. Thiebaud, and P. Vasseur | Comparison of Four Chronic Toxicity Tests Using Algae, Bacteria, and Invertebrates Assessed with Sixteen Chemicals | Ecotoxicol. Environ. Saf.47(2): 186-194 | 2000 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 3 | days | 0.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.J. Markich, and R.P. Lim | pH-Dependent Toxicity of Copper and Uranium to a Tropical Freshwater Alga (Chlorella sp.) | Aquat. Toxicol.48(2/3): 275-289 | 2000 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Population | NOEC | 4 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wong,M.H., and D.C.H. Pak | Removal of Cu and Ni by Free and Immobilized Microalgae | Biomed. Environ. Sci.5(2): 99-108 | 1992 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Benhra,A., C.M. Radetski, and J.F. Ferard | Cryoalgotox: Use of Cryopreserved Alga in a Semistatic Microplate Test | Environ. Toxicol. Chem.16(3): 505-508 | 1997 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 28.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Benhra,A., C.M. Radetski, and J.F. Ferard | Cryoalgotox: Use of Cryopreserved Alga in a Semistatic Microplate Test | Environ. Toxicol. Chem.16(3): 505-508 | 1997 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 163.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rojickova-Padrtova,R., and B. Marsalek | Selection and Sensitivity Comparisons of Algal Species for Toxicity Testing | Chemosphere38(14): 3329-3338 | 1999 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | EC50 | 12 | days | 280 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nacorda,J.O., M.R. Martinez-Goss, N.K. Torreta, and F.E. Merca | Metal Resistance and Removal by Two Strains of the Green Alga, Chlorella vulgaris Beijerinck, Isolated from Laguna de Bay, Philippines | J. Appl. Phycol.19:701-710 | 2007 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | EC50 | 12 | days | 680 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nacorda,J.O., M.R. Martinez-Goss, N.K. Torreta, and F.E. Merca | Metal Resistance and Removal by Two Strains of the Green Alga, Chlorella vulgaris Beijerinck, Isolated from Laguna de Bay, Philippines | J. Appl. Phycol.19:701-710 | 2007 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 3 | days | 55 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | EC10 | 1 | days | 0.27 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sorokiniana | Population | NOEC | 0.08 | hours | 250 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cedeno-Maldonado,A., and J.A. Swader | Studies on the Mechanism of Copper Toxicity in Chlorella | Weed Sci.22(5): 443-449 | 1974 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | IC50 | 3 | days | 7.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,H.L., J.L. Stauber, M.S. Adams, and D.F. Jolley | Copper and Zinc Tolerance of Two Tropical Microalgae After Copper Acclimation | Environ. Toxicol.22(3): 234-244 | 2007 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | IC50 | 2 | days | 19 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wilde,K.L., J.L. Stauber, S.J. Markich, N.M. Franklin, and P.L. Brown | The Effect of pH on the Uptake and Toxicity of Copper and Zinc in a Tropical Freshwater Alga (Chlorella sp.) | Arch. Environ. Contam. Toxicol.51(2): 174-185 | 2006 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 3 | days | 8.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Osborn,H.L., and S.E. Hook | Using Transcriptomic Profiles in the Diatom Phaeodactylum tricornutum to Identify and Prioritize Stressors | Aquat. Toxicol.138/139:12-25 | 2013 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 2 | days | 8.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Simpson,S.L., M.G.E. Roland, J.L. Stauber, and G.E. Batley | Effect of Declining Toxicant Concentrations on Algal Bioassay Endpoints | Environ. Toxicol. Chem.22(9): 2073-2079 | 2003 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 2 | days | 8.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Simpson,S.L., M.G.E. Roland, J.L. Stauber, and G.E. Batley | Effect of Declining Toxicant Concentrations on Algal Bioassay Endpoints | Environ. Toxicol. Chem.22(9): 2073-2079 | 2003 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 3 | days | 8.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Simpson,S.L., M.G.E. Roland, J.L. Stauber, and G.E. Batley | Effect of Declining Toxicant Concentrations on Algal Bioassay Endpoints | Environ. Toxicol. Chem.22(9): 2073-2079 | 2003 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 3 | days | 3.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Angel,B.M., S.L. Simpson, A.A. Chariton, J.L. Stauber, and D.F. Jolley | Time-Averaged Copper Concentrations from Continuous Exposures Predicts Pulsed Exposure Toxicity to the Marine Diatom, Phaeodactylum tricornutum: Importance of Uptake and Elimination | Aquat. Toxicol.164:1-9 | 2015 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | EC10 | 2 | days | 0.28 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sorokiniana | Population | LOEL | 1 | days | 1.8 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Swader,J.A. | Diquat Enhancement of Cupric Ion Toxicity | Pestic. Biochem. Physiol.9(2): 140-147 | 1978 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | EC50 | 2 | days | 9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Flow Cytometry-Based Algal Bioassays for Assessing Toxicity of Copper in Natural Waters | Environ. Toxicol. Chem.20(1): 160-170 | 2001 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 3 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., B.M. Angel, J.L. Stauber, W.L. Poon, S.L. Simpson, S.H. Cheng, and D.F. Jolley | Uptake and Internalisation of Copper by Three Marine Microalgae: Comparison of Copper-Sensitive and Copper-Tolerant Species | Aquat. Toxicol.89(2): 82-93 | 2008 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | IC50 | 3 | days | 3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | IC50 | 3 | days | 28 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | IC50 | 3 | days | 19 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 4.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC10 | 3 | days | 1.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Osborn,H.L., and S.E. Hook | Using Transcriptomic Profiles in the Diatom Phaeodactylum tricornutum to Identify and Prioritize Stressors | Aquat. Toxicol.138/139:12-25 | 2013 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 3 | days | 1.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.J. Markich, and R.P. Lim | pH-Dependent Toxicity of Copper and Uranium to a Tropical Freshwater Alga (Chlorella sp.) | Aquat. Toxicol.48(2/3): 275-289 | 2000 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 1 | days | 7.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Angel,B.M., S.L. Simpson, A.A. Chariton, J.L. Stauber, and D.F. Jolley | Time-Averaged Copper Concentrations from Continuous Exposures Predicts Pulsed Exposure Toxicity to the Marine Diatom, Phaeodactylum tricornutum: Importance of Uptake and Elimination | Aquat. Toxicol.164:1-9 | 2015 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sorokiniana | Population | NOEC | 0.08 | hours | 250 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cedeno-Maldonado,A., and J.A. Swader | Studies on the Mechanism of Copper Toxicity in Chlorella | Weed Sci.22(5): 443-449 | 1974 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Population | LOEL | 27 | days | 123.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Le Jeune,A.H., M. Charpin, V. Deluchat, J.F. Briand, J.F. Lenain, M. Baudu, and C. Amblard | Effect of Copper Sulphate Treatment on Natural Phytoplanktonic Communities | Aquat. Toxicol.80(3): 267-280 | 2006 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEL | 2 | days | 0.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wilde,K.L., J.L. Stauber, S.J. Markich, N.M. Franklin, and P.L. Brown | The Effect of pH on the Uptake and Toxicity of Copper and Zinc in a Tropical Freshwater Alga (Chlorella sp.) | Arch. Environ. Contam. Toxicol.51(2): 174-185 | 2006 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus var. acutus | Population | IC10 | 1 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geoffroy,L., M. Couderchet, and G. Vernet | Catalase Activity of Scenedesmus obliquus as a Biomarker of Environmental Pollution by Herbicides and Copper | Meded. Fac. Landbouwwet. Rijksuniv. Gent65(2B): 843-852 | 2000 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Population | EC50 | 3 | days | 715 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dvorakova,D., R. Rojickova-Padrtova, and B. Marsalek | Is the Replacement of Scenedesmus quadricauda L. by Selenastrum capricornutum L. in Toxicity Tests Reasonable? | Pol. Arch. Hydrobiol.46(3/4): 345-352 | 1999 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | EC50 | 3 | days | 9.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Moreno-Garrido,I., L.M. Lubian, and A.M.V.M. Soares | Influence of Cellular Density on Determination of EC50 in Microalgal Growth Inhibition Tests | Ecotoxicol. Environ. Saf.47(2): 112-116 | 2000 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | EC50 | 3 | days | 35 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Moreno-Garrido,I., L.M. Lubian, and A.M.V.M. Soares | Influence of Cellular Density on Determination of EC50 in Microalgal Growth Inhibition Tests | Ecotoxicol. Environ. Saf.47(2): 112-116 | 2000 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | EC50 | 3 | days | 0.11 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, R.P. Lim, and P. Petocz | Toxicity of Metal Mixtures to a Tropical Freshwater Alga (Chlorella sp.): The Effect of Interactions Between Copper, Cadmium, and Zinc on Metal Cell Binding and Uptake | Environ. Toxicol. Chem.21(11): 2412-2422 | 2002 | 2018/03/22 | |||||
| 藻類 | Scenedesmus subspicatus | Population | NOEC | 3 | days | 56 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schafer,H., H. Hettler, U. Fritsche, G. Pitzen, G. Roderer, and A. Wenzel | Biotests Using Unicellular Algae and Ciliates for Predicting Long-Term Effects of Toxicants | Ecotoxicol. Environ. Saf.27(1): 64-81 | 1994 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 2 | days | 6.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Angel,B.M., S.L. Simpson, A.A. Chariton, J.L. Stauber, and D.F. Jolley | Time-Averaged Copper Concentrations from Continuous Exposures Predicts Pulsed Exposure Toxicity to the Marine Diatom, Phaeodactylum tricornutum: Importance of Uptake and Elimination | Aquat. Toxicol.164:1-9 | 2015 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | <60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Scenedesmus subspicatus | Population | EC50 | 3 | days | 973.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rojickova-Padrtova,R., and B. Marsalek | Selection and Sensitivity Comparisons of Algal Species for Toxicity Testing | Chemosphere38(14): 3329-3338 | 1999 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | IC50 | 2 | days | 1.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wilde,K.L., J.L. Stauber, S.J. Markich, N.M. Franklin, and P.L. Brown | The Effect of pH on the Uptake and Toxicity of Copper and Zinc in a Tropical Freshwater Alga (Chlorella sp.) | Arch. Environ. Contam. Toxicol.51(2): 174-185 | 2006 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 3 | days | 2.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | IC50 | 3 | days | 3.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 2 | days | 12 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Multispecies Algal Bioassays Using Flow Cytometry | Environ. Toxicol. Chem.23(6): 1452-1462 | 2004 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus var. acutus | Population | IC50 | 1 | days | 4000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geoffroy,L., M. Couderchet, and G. Vernet | Catalase Activity of Scenedesmus obliquus as a Biomarker of Environmental Pollution by Herbicides and Copper | Meded. Fac. Landbouwwet. Rijksuniv. Gent65(2B): 843-852 | 2000 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | IC50 | 2 | days | 6.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Simpson,S.L., M.G.E. Roland, J.L. Stauber, and G.E. Batley | Effect of Declining Toxicant Concentrations on Algal Bioassay Endpoints | Environ. Toxicol. Chem.22(9): 2073-2079 | 2003 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | IC50 | 2 | days | 7.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wilde,K.L., J.L. Stauber, S.J. Markich, N.M. Franklin, and P.L. Brown | The Effect of pH on the Uptake and Toxicity of Copper and Zinc in a Tropical Freshwater Alga (Chlorella sp.) | Arch. Environ. Contam. Toxicol.51(2): 174-185 | 2006 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 160 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paixao,S.M., L. Silva, A. Fernandez, K. O'Rourke, E. Mendonca, and A. Picado | Performance of a Miniaturized Algal Bioassay in Phytotoxicity Screening | Ecotoxicology17(3): 165-171 | 2008 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | IC50 | 3 | days | 46 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Population | EC50 | 5 | days | 25 | nmol TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nalewajko,C., and M.M. Olaveson | Differential Responses of Growth, Photosynthesis, Respiration and Phosphate Uptake to Copper in Copper-Tolerant and Copper-intolerant Strains of Scenedesmus acutus (Chlorophyceae) | Can. J. Bot.73(8): 1295-1303 | 1995 | 2018/03/22 | ||||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Population | EC50 | 5 | days | 175 | nmol TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nalewajko,C., and M.M. Olaveson | Differential Responses of Growth, Photosynthesis, Respiration and Phosphate Uptake to Copper in Copper-Tolerant and Copper-intolerant Strains of Scenedesmus acutus (Chlorophyceae) | Can. J. Bot.73(8): 1295-1303 | 1995 | 2018/03/22 | ||||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Population | EC50 | 5 | days | 50 | nmol TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nalewajko,C., and M.M. Olaveson | Differential Responses of Growth, Photosynthesis, Respiration and Phosphate Uptake to Copper in Copper-Tolerant and Copper-intolerant Strains of Scenedesmus acutus (Chlorophyceae) | Can. J. Bot.73(8): 1295-1303 | 1995 | 2018/03/22 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 17.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhang,L.J., G.G. Ying, F. Chen, J.L. Zhao, L. Wang, and Y.X. Fang | Development and Application of Whole-Sediment Toxicity Test Using Immobilized Freshwater Microalgae Pseudokirchneriella subcapitata | Environ. Toxicol. Chem.31(2): 377-386 | 2012 | 2018/03/22 | |||||
| 藻類 | Skeletonema costatum | Population | EC50 | 10 | days | 1450 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rao,V.N.R. | Adaptation of Algae to Heavy Metal Toxicity | In: A.K.Kashyap and H.D.Kumar (Eds.), Recent Advances in Phycology, Rastogi Publications, Meerut, India:261-264 | 1994 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 2 | days | 6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Flow Cytometry-Based Algal Bioassays for Assessing Toxicity of Copper in Natural Waters | Environ. Toxicol. Chem.20(1): 160-170 | 2001 | 2018/03/22 | |||||
| 藻類 | Skeletonema costatum | Population | EC10 | 4 | days | 9.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bao,V.W.W., K.M.Y. Leung, J.W. Qiu, and M.H.W. Lam | Acute Toxicities of Five Commonly Used Antifouling Booster Biocides to Selected Subtropical and Cosmopolitan Marine Species | Mar. Pollut. Bull.62(5): 1147-1151 | 2011 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 170 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paixao,S.M., L. Silva, A. Fernandez, K. O'Rourke, E. Mendonca, and A. Picado | Performance of a Miniaturized Algal Bioassay in Phytotoxicity Screening | Ecotoxicology17(3): 165-171 | 2008 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Population | EC50 | 12 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fargasova,A., A. Bumbalova, and E. Havranek | Ecotoxicological Effects and Uptake of Metals (Cu+, Cu2+, Mn2+, Mo6+, Ni2+, V5+) in Freshwater Alga Scenedesmus quadricauda | Chemosphere38(5): 1165-1173 | 1999 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 4 | days | 69.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | St.Laurent,D., C. Blaise, P. MacQuarrie, R. Scroggins, and B. Trottier | Comparative Assessment of Herbicide Phytotoxicity to Selenastrum capricornutum Using Microplate and Flask Bioassay Procedures | Environ. Toxicol. Water Qual.7(1): 35-48 | 1992 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 4 | days | 65.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | St.Laurent,D., C. Blaise, P. MacQuarrie, R. Scroggins, and B. Trottier | Comparative Assessment of Herbicide Phytotoxicity to Selenastrum capricornutum Using Microplate and Flask Bioassay Procedures | Environ. Toxicol. Water Qual.7(1): 35-48 | 1992 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | IC50 | 4 | days | 62 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferard,J.F., P. Vasseur, and J.M. Jouany | Value of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Can. Tech. Rep. Fish. Aquat. Sci.1163:38-56 | 1983 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | IC50 | 3 | days | 240 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferard,J.F., P. Vasseur, and J.M. Jouany | Value of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Can. Tech. Rep. Fish. Aquat. Sci.1163:38-56 | 1983 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | IC50 | 3 | days | 164 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferard,J.F., P. Vasseur, and J.M. Jouany | Value of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Can. Tech. Rep. Fish. Aquat. Sci.1163:38-56 | 1983 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | IC50 | 3 | days | 230 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferard,J.F., P. Vasseur, and J.M. Jouany | Value of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Can. Tech. Rep. Fish. Aquat. Sci.1163:38-56 | 1983 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | IC50 | 4 | days | 265 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferard,J.F., P. Vasseur, and J.M. Jouany | Value of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Can. Tech. Rep. Fish. Aquat. Sci.1163:38-56 | 1983 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | IC50 | 2 | days | 1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wilde,K.L., J.L. Stauber, S.J. Markich, N.M. Franklin, and P.L. Brown | The Effect of pH on the Uptake and Toxicity of Copper and Zinc in a Tropical Freshwater Alga (Chlorella sp.) | Arch. Environ. Contam. Toxicol.51(2): 174-185 | 2006 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | IC50 | 3 | days | 0.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | IC50 | 3 | days | 0.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | LOEC | 3 | days | 1.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, and D.F. Jolley | Sensitivity of Marine Microalgae to Copper: The Effect of Biotic Factors on Copper Adsorption and Toxicity | Sci. Total Environ.387(1-3): 141-154 | 2007 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | LOEC | 3 | days | 1.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., B.M. Angel, J.L. Stauber, W.L. Poon, S.L. Simpson, S.H. Cheng, and D.F. Jolley | Uptake and Internalisation of Copper by Three Marine Microalgae: Comparison of Copper-Sensitive and Copper-Tolerant Species | Aquat. Toxicol.89(2): 82-93 | 2008 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | LOEC | 3 | days | 320 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acuminatus | Population | LOEC | 4 | days | 0.01 | mmol/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lombardi,A.T., T.M. Dos Reis Hidalgo, A.A. Henriques Vieira, and A.L. Sartori | Toxicity of Ionic Copper to the Freshwater Microalga Scenedesmus acuminatus (Chlorophyceae, Chlorococcales) | Phycologia46(1): 74-78 | 2007 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Population | LOEC | 1 | days | 18 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Angel,B.M., S.L. Simpson, A.A. Chariton, J.L. Stauber, and D.F. Jolley | Time-Averaged Copper Concentrations from Continuous Exposures Predicts Pulsed Exposure Toxicity to the Marine Diatom, Phaeodactylum tricornutum: Importance of Uptake and Elimination | Aquat. Toxicol.164:1-9 | 2015 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Population | LC50 | 14 | days | 88 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bednarz,T., and H. Warkowska-Dratnal | Toxicity of Zinc, Cadmium, Lead, Copper, and Their Mixture for Chlorella pyrenoidosa Chick | Acta Hydrobiol.25-26(3-4): 389-400 | 1983 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | IC50 | 3 | days | 208 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | IC50 | 3 | days | 65 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferard,J.F., P. Vasseur, and J.M. Jouany | Value of Dynamic Tests in Acute Ecotoxicity Assessment in Algae | Can. Tech. Rep. Fish. Aquat. Sci.1163:38-56 | 1983 | 2018/03/22 | |||||
| 藻類 | Scenedesmus subspicatus | Population | EC50 | 3 | days | 120 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schafer,H., H. Hettler, U. Fritsche, G. Pitzen, G. Roderer, and A. Wenzel | Biotests Using Unicellular Algae and Ciliates for Predicting Long-Term Effects of Toxicants | Ecotoxicol. Environ. Saf.27(1): 64-81 | 1994 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sorokiniana | Population | LOEC | 0.08 | hours | 500 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cedeno-Maldonado,A., and J.A. Swader | Studies on the Mechanism of Copper Toxicity in Chlorella | Weed Sci.22(5): 443-449 | 1974 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEL | 2 | days | 1.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wilde,K.L., J.L. Stauber, S.J. Markich, N.M. Franklin, and P.L. Brown | The Effect of pH on the Uptake and Toxicity of Copper and Zinc in a Tropical Freshwater Alga (Chlorella sp.) | Arch. Environ. Contam. Toxicol.51(2): 174-185 | 2006 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEL | 2 | days | 0.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wilde,K.L., J.L. Stauber, S.J. Markich, N.M. Franklin, and P.L. Brown | The Effect of pH on the Uptake and Toxicity of Copper and Zinc in a Tropical Freshwater Alga (Chlorella sp.) | Arch. Environ. Contam. Toxicol.51(2): 174-185 | 2006 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Population | LOEC | 2 | days | 2000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wong,M.H., and D.C.H. Pak | Removal of Cu and Ni by Free and Immobilized Microalgae | Biomed. Environ. Sci.5(2): 99-108 | 1992 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 3 | days | 7.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,H.L., J.L. Stauber, M.S. Adams, and D.F. Jolley | Copper and Zinc Tolerance of Two Tropical Microalgae After Copper Acclimation | Environ. Toxicol.22(3): 234-244 | 2007 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 3 | days | 1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 3 | days | 5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley | The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays | Chemosphere74(9): 1266-1274 | 2009 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella fusca var. vacuolata | Population | NOEL | 3 | days | 46 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Le Faucheur,S., F. Schildknecht, R. Behra, and L. Sigg | Thiols in Scenedesmus vacuolatus upon Exposure to Metals and Metalloids | Aquat. Toxicol.80(4): 355-361 | 2006 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | EC50 | 2 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Flow Cytometry-Based Algal Bioassays for Assessing Toxicity of Copper in Natural Waters | Environ. Toxicol. Chem.20(1): 160-170 | 2001 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 108 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Population | EC50 | 6 | days | 6900 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pena-Castro,J.M., F. Martinez-Jeronimo, F. Esparza-Garcia, and R.O. Canizares-Villanueva | Phenotypic Plasticity in Scenedesmus incrassatulus (Chlorophyceae) in Response to Heavy Metals Stress | Chemosphere57(11): 1629-1636 | 2004 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | IC10 | 0.42 | hours | 51 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bengtson Nash,S.M., P.A. Quayle, U. Schreiber, and J.F. Muller | The Selection of a Model Microalgal Species as Biomaterial for a Novel Aquatic Phytotoxicity Assay | Aquat. Toxicol.72(4): 315-326 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | IC10 | 0.5 | hours | 3800 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bengtson Nash,S.M., P.A. Quayle, U. Schreiber, and J.F. Muller | The Selection of a Model Microalgal Species as Biomaterial for a Novel Aquatic Phytotoxicity Assay | Aquat. Toxicol.72(4): 315-326 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | IC10 | 4 | days | 18 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Oliveira-Filho,E.C., R.M. Lopes, and F.J.R. Paumgartten | Comparative Study on the Susceptibility of Freshwater Species to Copper-Based Pesticides | Chemosphere56(4): 369-374 | 2004 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 84 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | NOEC | 4 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wong,M.H., and D.C.H. Pak | Removal of Cu and Ni by Free and Immobilized Microalgae | Biomed. Environ. Sci.5(2): 99-108 | 1992 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acuminatus | Population | EC50 | 4 | days | 0.033 | mmol/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lombardi,A.T., T.M. Dos Reis Hidalgo, A.A. Henriques Vieira, and A.L. Sartori | Toxicity of Ionic Copper to the Freshwater Microalga Scenedesmus acuminatus (Chlorophyceae, Chlorococcales) | Phycologia46(1): 74-78 | 2007 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | EC50 | 2 | days | 6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, and R.P. Lim | Development of Flow Cytometry-Based Algal Bioassays for Assessing Toxicity of Copper in Natural Waters | Environ. Toxicol. Chem.20(1): 160-170 | 2001 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 56.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Skeletonema costatum | Population | EC50 | 4 | days | 290 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bao,V.W.W., K.M.Y. Leung, J.W. Qiu, and M.H.W. Lam | Acute Toxicities of Five Commonly Used Antifouling Booster Biocides to Selected Subtropical and Cosmopolitan Marine Species | Mar. Pollut. Bull.62(5): 1147-1151 | 2011 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | <30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 97.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 65.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Population | EC50 | 4 | days | 509.12 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,Z.S., H.N. Kong, and D.Y. Wu | Reproductive Toxicity of Dietary Copper to a Saltwater Cladoceran, Moina monogolica Daday | Environ. Toxicol. Chem.26(1): 126-131 | 2007 | 2018/03/22 | |||||
| 藻類 | Scenedesmus subspicatus | Population | EC50 | 1 | days | >390000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Beuffe,H. | Experimental Design Based on the Variations of DCMU Enhanced Fluorescence for Short-Term Acute Toxicity Screening | Institut de l'Information Scientifique et Technique-CNRS: | 1987 | 2018/03/22 | |||||
| 藻類 | Scenedesmus subspicatus | Population | EC50 | 2 | days | 390000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Beuffe,H. | Experimental Design Based on the Variations of DCMU Enhanced Fluorescence for Short-Term Acute Toxicity Screening | Institut de l'Information Scientifique et Technique-CNRS: | 1987 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | LOEC | 3 | days | 12 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim | Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays | Environ. Toxicol. Chem.21(4): 742-751 | 2002 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 61.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Chlorella vulgaris | Population | EC50 | 2 | days | 2.63 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu | Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription | Aquat. Toxicol.94(1): 56-61 | 2009 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 13.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 164 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 49 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Garten,C.T.,Jr., and M.L. Frank | Comparison of Toxicity to Terrestrial Plants with Algal Growth Inhibition by Herbicides | Interagency Agreement No.40-1067-80, Prepared for the U.S.EPA, Washington, D.C., by the Oak Ridge Natl.Lab., Oak Ridge, TN:32 p. | 1984 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | <10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 32 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Population | IC50 | 2 | days | 1.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wilde,K.L., J.L. Stauber, S.J. Markich, N.M. Franklin, and P.L. Brown | The Effect of pH on the Uptake and Toxicity of Copper and Zinc in a Tropical Freshwater Alga (Chlorella sp.) | Arch. Environ. Contam. Toxicol.51(2): 174-185 | 2006 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Population | NOEL | 27 | days | 63.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Le Jeune,A.H., M. Charpin, V. Deluchat, J.F. Briand, J.F. Lenain, M. Baudu, and C. Amblard | Effect of Copper Sulphate Treatment on Natural Phytoplanktonic Communities | Aquat. Toxicol.80(3): 267-280 | 2006 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 3 | days | 4.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen | Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata | Ecotoxicology14(6): 661-670 | 2005 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Physiological | NOEC | 6 | days | 0.629 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Perales-Vela,H.V., S. Gonzalez-Moreno, C. Montes-Horcasitas, and R.O. Canizares-Villanueva | Growth, Photosynthetic and Respiratory Responses to Sub-lethal Copper Concentrations in Scenedesmus incrassatulus (Chlorophyceae) | Chemosphere67(11): 2274-2281 | 2007 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Physiological | LOEC | 6 | days | 1.887 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Perales-Vela,H.V., S. Gonzalez-Moreno, C. Montes-Horcasitas, and R.O. Canizares-Villanueva | Growth, Photosynthetic and Respiratory Responses to Sub-lethal Copper Concentrations in Scenedesmus incrassatulus (Chlorophyceae) | Chemosphere67(11): 2274-2281 | 2007 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Physiological | LOEC | 0.5 | days | 5 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Xia,J., and Q. Tian | Early Stage Toxicity of Excess Copper to Photosystem II of Chlorella pyrenoidosa-OJIP Chlorophyll a Fluorescence Analysis | J. Environ. Sci.21(11): 1569-1574 | 2009 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Physiological | LOEC | 6 | days | 0.629 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Perales-Vela,H.V., S. Gonzalez-Moreno, C. Montes-Horcasitas, and R.O. Canizares-Villanueva | Growth, Photosynthetic and Respiratory Responses to Sub-lethal Copper Concentrations in Scenedesmus incrassatulus (Chlorophyceae) | Chemosphere67(11): 2274-2281 | 2007 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Physiological | LOEC | 6 | days | 2.516 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Perales-Vela,H.V., S. Gonzalez-Moreno, C. Montes-Horcasitas, and R.O. Canizares-Villanueva | Growth, Photosynthetic and Respiratory Responses to Sub-lethal Copper Concentrations in Scenedesmus incrassatulus (Chlorophyceae) | Chemosphere67(11): 2274-2281 | 2007 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Physiological | LOEC | 0.5 | days | 2 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Xia,J., and Q. Tian | Early Stage Toxicity of Excess Copper to Photosystem II of Chlorella pyrenoidosa-OJIP Chlorophyll a Fluorescence Analysis | J. Environ. Sci.21(11): 1569-1574 | 2009 | 2018/03/22 | |||||
| 藻類 | Skeletonema costatum | Physiological | IC50 | 0.25 | hours | 0.05 | mM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Overnell,J. | Inhibition of Marine Algal Photosynthesis by Heavy Metals | Mar. Biol.38(4): 335-342 | 1976 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Physiological | LOEL | 12 | days | 260 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fargasova,A. | Accumulation and Toxic Effects of Cu2+, Cu+, Mn2+, VO43-, Ni2+ and MoO42- and Their Associations: Influence on Respiratory Rate and Chlorophyll a Content of the Green Alga Scenedesmus quadricauda | J. Trace Microprobe Tech.16(4): 481-490 | 1998 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Physiological | LOEC | 6 | days | 0.629 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Perales-Vela,H.V., S. Gonzalez-Moreno, C. Montes-Horcasitas, and R.O. Canizares-Villanueva | Growth, Photosynthetic and Respiratory Responses to Sub-lethal Copper Concentrations in Scenedesmus incrassatulus (Chlorophyceae) | Chemosphere67(11): 2274-2281 | 2007 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Mortality | 6 | days | 20000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fitzgerald,G.P., and S.L. Faust | Bioassay for Algicidal vs. Algistatic Chemicals | Water Sewage Works:296-298 | 1963 | 2018/03/22 | ||||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Mortality | 6 | days | 20000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fitzgerald,G.P., and S.L. Faust | Bioassay for Algicidal vs. Algistatic Chemicals | Water Sewage Works:296-298 | 1963 | 2018/03/22 | ||||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Physiological | EC50 | 1 | hours | 5.8 | nmol TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nalewajko,C., and M.M. Olaveson | Differential Responses of Growth, Photosynthesis, Respiration and Phosphate Uptake to Copper in Copper-Tolerant and Copper-intolerant Strains of Scenedesmus acutus (Chlorophyceae) | Can. J. Bot.73(8): 1295-1303 | 1995 | 2018/03/22 | ||||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Physiological | EC50 | 1 | hours | 3 | nmol TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nalewajko,C., and M.M. Olaveson | Differential Responses of Growth, Photosynthesis, Respiration and Phosphate Uptake to Copper in Copper-Tolerant and Copper-intolerant Strains of Scenedesmus acutus (Chlorophyceae) | Can. J. Bot.73(8): 1295-1303 | 1995 | 2018/03/22 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Physiological | EC50 | 6 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nyholm,N., and B.M. Damgaard | A Comparison of the Algal Growth Inhibition Toxicity Test Method with the Short Term 14C-Assimilation Test | Chemosphere21(4-5): 671-679 | 1990 | 2018/03/22 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Physiological | EC50 | 2 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Juneau,P., A. El Berdey, and R. Popovic | PAM Fluorometry in the Determination of the Sensitivity of Chlorella vulgaris, Selenastrum capricornutum, and Chlamydomonas reinhardtii to Copper | Arch. Environ. Contam. Toxicol.42(2): 155-164 | 2002 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Physiological | LOEL | 5 | days | 6900 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pena-Castro,J.M., F. Martinez-Jeronimo, F. Esparza-Garcia, and R.O. Canizares-Villanueva | Phenotypic Plasticity in Scenedesmus incrassatulus (Chlorophyceae) in Response to Heavy Metals Stress | Chemosphere57(11): 1629-1636 | 2004 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Physiological | ET50 | 0.63 | hours | 0.78 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vavilin,D.V., V.A. Polynov, D.N. Matorin, and P.S. Venediktov | Sublethal Concentrations of Copper Stimulate Photosystem II Photoinhibition in Chlorella pyrenoidosa | J. Plant Physiol.146:609-614 | 1995 | 2018/03/22 | |||||
| 藻類 | Champia parvula | Reproduction | IC50 | 2 | days | 9.18 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 藻類 | Dunaliella tertiolecta | Physiological | EC50 | 0.25 | hours | 2600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Overnell,J. | The Effect of Heavy Metals on Photosynthesis and Loss of Cell Potassium in Two Species of Marine Algae, Dunaliella tertiolecta and Phaeodactylum tricornutum | Mar. Biol.29(1): 99-103 | 1975 | 2018/03/22 | |||||
| 藻類 | Dunaliella tertiolecta | Physiological | EC50 | 0.25 | hours | 1300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Overnell,J. | The Effect of Heavy Metals on Photosynthesis and Loss of Cell Potassium in Two Species of Marine Algae, Dunaliella tertiolecta and Phaeodactylum tricornutum | Mar. Biol.29(1): 99-103 | 1975 | 2018/03/22 | |||||
| 藻類 | Scenedesmus subspicatus | Physiological | EC50 | 2 | days | 390000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Beuffe,H. | Experimental Design Based on the Variations of DCMU Enhanced Fluorescence for Short-Term Acute Toxicity Screening | Institut de l'Information Scientifique et Technique-CNRS: | 1987 | 2018/03/22 | |||||
| 藻類 | Scenedesmus subspicatus | Physiological | EC50 | 1 | days | 390000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Beuffe,H. | Experimental Design Based on the Variations of DCMU Enhanced Fluorescence for Short-Term Acute Toxicity Screening | Institut de l'Information Scientifique et Technique-CNRS: | 1987 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Physiological | EC50 | 4 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Starodub,M.E., P.T.S. Wong, and C.I. Mayfield | Short Term and Long Term Studies on Individual and Combined Toxicities of Copper, Zinc and Lead to Scenedesmus quadricauda | Sci. Total Environ.63:101-110 | 1987 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Physiological | LOEC | 6 | days | 0.629 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Perales-Vela,H.V., S. Gonzalez-Moreno, C. Montes-Horcasitas, and R.O. Canizares-Villanueva | Growth, Photosynthetic and Respiratory Responses to Sub-lethal Copper Concentrations in Scenedesmus incrassatulus (Chlorophyceae) | Chemosphere67(11): 2274-2281 | 2007 | 2018/03/22 | |||||
| 藻類 | Dunaliella tertiolecta | Physiological | EC50 | 0.25 | hours | 175 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Samson,G., and R. Popovic | Use of Algal Fluorescence for Determination of Phytotoxicity of Heavy Metals and Pesticides as Environmental Pollutants | Ecotoxicol. Environ. Saf.16(3): 272-278 | 1988 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Physiological | LOEC | 6 | days | 0.629 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Perales-Vela,H.V., S. Gonzalez-Moreno, C. Montes-Horcasitas, and R.O. Canizares-Villanueva | Growth, Photosynthetic and Respiratory Responses to Sub-lethal Copper Concentrations in Scenedesmus incrassatulus (Chlorophyceae) | Chemosphere67(11): 2274-2281 | 2007 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Physiological | ET50 | 0.8 | hours | 0.78 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vavilin,D.V., V.A. Polynov, D.N. Matorin, and P.S. Venediktov | Sublethal Concentrations of Copper Stimulate Photosystem II Photoinhibition in Chlorella pyrenoidosa | J. Plant Physiol.146:609-614 | 1995 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Physiological | ET50 | 0.68 | hours | 0.78 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vavilin,D.V., V.A. Polynov, D.N. Matorin, and P.S. Venediktov | Sublethal Concentrations of Copper Stimulate Photosystem II Photoinhibition in Chlorella pyrenoidosa | J. Plant Physiol.146:609-614 | 1995 | 2018/03/22 | |||||
| 藻類 | Dunaliella tertiolecta | Physiological | IC50 | 0.25 | hours | 0.07 | mM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Overnell,J. | Inhibition of Marine Algal Photosynthesis by Heavy Metals | Mar. Biol.38(4): 335-342 | 1976 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Physiological | IC50 | 0.5 | hours | 13000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Manusadzianas,L., C. Caillet, L. Fachetti, B. Gylyte, R. Grigutyte, S. Jurkoniene, R. Karitonas, K. Sadauskas, F. Thomas | Toxicity of Copper Oxide Nanoparticle Suspensions to Aquatic Biota | Environ. Toxicol. Chem.31(1): 108-114 | 2012 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Mortality | LC50 | 3 | days | 3100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dorfman,D. | Tolerance of Fundulus heteroclitus to Different Metals in Salt Waters | Bull. N. J. Acad. Sci.22(2): 21-23 | 1977 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acutus | Physiological | EC50 | 1 | hours | 5.8 | nmol TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nalewajko,C., and M.M. Olaveson | Differential Responses of Growth, Photosynthesis, Respiration and Phosphate Uptake to Copper in Copper-Tolerant and Copper-intolerant Strains of Scenedesmus acutus (Chlorophyceae) | Can. J. Bot.73(8): 1295-1303 | 1995 | 2018/03/22 | ||||||
| 藻類 | Scenedesmus sp. Scenedesmus quadricauda | Physiological | EC50 | 4 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Starodub,M.E., P.T.S. Wong, C.I. Mayfield, and Y.K. Chau | Influence of Complexation and pH on Individual and Combined Heavy Metal Toxicity to a Freshwater Green Alga | Can. J. Fish. Aquat. Sci.44:1173-1180 | 1987 | 2018/03/22 | |||||
| 藻類 | Chlorella sp. Chlorella pyrenoidosa | Physiological | NOEC | 0.5 | days | 2 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Xia,J., and Q. Tian | Early Stage Toxicity of Excess Copper to Photosystem II of Chlorella pyrenoidosa-OJIP Chlorophyll a Fluorescence Analysis | J. Environ. Sci.21(11): 1569-1574 | 2009 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Physiological | NOEC | 6 | days | 1.887 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Perales-Vela,H.V., S. Gonzalez-Moreno, C. Montes-Horcasitas, and R.O. Canizares-Villanueva | Growth, Photosynthetic and Respiratory Responses to Sub-lethal Copper Concentrations in Scenedesmus incrassatulus (Chlorophyceae) | Chemosphere67(11): 2274-2281 | 2007 | 2018/03/22 | |||||
| 藻類 | Scenedesmus sp. Scenedesmus acuminatus | Mortality | 10 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hutchinson,T.C., and P.M. Stokes | Heavy Metal Toxicity and Algal Bioassays | ASTM Spec. Tech. Publ.:320-343 | 1975 | 2018/03/22 | ||||||
| 藻類 | Scenedesmus sp. Scenedesmus incrassatulus | Physiological | NOEC | 6 | days | 1.258 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Perales-Vela,H.V., S. Gonzalez-Moreno, C. Montes-Horcasitas, and R.O. Canizares-Villanueva | Growth, Photosynthetic and Respiratory Responses to Sub-lethal Copper Concentrations in Scenedesmus incrassatulus (Chlorophyceae) | Chemosphere67(11): 2274-2281 | 2007 | 2018/03/22 | |||||
| 藻類 | Scenedesmus subspicatus | Physiological | NOEC | 1 | days | 41 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schafer,H., H. Hettler, U. Fritsche, G. Pitzen, G. Roderer, and A. Wenzel | Biotests Using Unicellular Algae and Ciliates for Predicting Long-Term Effects of Toxicants | Ecotoxicol. Environ. Saf.27(1): 64-81 | 1994 | 2018/03/22 | |||||
| 藻類 | Phaeodactylum tricornutum | Biochemical | LOEC | 1.5 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Enzyme | EC50 | 1 | days | 51 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., M.S. Adams, J.L. Stauber, and R.P. Lim | Development of an Improved Rapid Enzyme Inhibition Bioassay with Marine and Freshwater Microalgae Using Flow Cytometry | Arch. Environ. Contam. Toxicol.40(4): 469-480 | 2001 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Enzyme | EC50 | 2 | days | 0.83 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Enzyme | EC50 | 4 | days | 53 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blaise,C., R. Legault, N. Bermingham, R. Van Coillie, and P. Vasseur | A Simple Microplate Algal Assay Technique for Aquatic Toxicity Assessment | Toxic. Assess.1:261-281 | 1986 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Biochemical | EC50 | 2 | days | 1 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Enzyme | EC50 | 2 | days | 0.88 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Enzyme | EC10 | 1 | days | 0.58 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Enzyme | EC10 | 2 | days | 0.68 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Enzyme | EC50 | 1 | days | 0.88 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Enzyme | EC50 | 1 | days | 1.15 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Enzyme | EC50 | 4 | days | 54 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blaise,C., R. Legault, N. Bermingham, R. Van Coillie, and P. Vasseur | A Simple Microplate Algal Assay Technique for Aquatic Toxicity Assessment | Toxic. Assess.1:261-281 | 1986 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Biochemical | LOEC | 3 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Biochemical | LOEC | 3 | days | 800 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Biochemical | EC50 | 2 | days | 0.86 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu | Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry | Aquat. Toxicol.94:255-264 | 2009 | 2018/03/20 | |||||
| 藻類 | Pseudokirchneriella subcapitata | Enzyme | EC50 | 4 | days | 54 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blaise,C., R. Legault, N. Bermingham, R. Van Coillie, and P. Vasseur | A Simple Microplate Algal Assay Technique for Aquatic Toxicity Assessment | Toxic. Assess.1:261-281 | 1986 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Enzyme | EC50 | 1 | days | >500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., M.S. Adams, J.L. Stauber, and R.P. Lim | Development of an Improved Rapid Enzyme Inhibition Bioassay with Marine and Freshwater Microalgae Using Flow Cytometry | Arch. Environ. Contam. Toxicol.40(4): 469-480 | 2001 | 2018/03/20 | |||||
| 藻類 | Chlorella sp. Chlorella sp. | Enzyme | EC50 | 1 | days | 158 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., M.S. Adams, J.L. Stauber, and R.P. Lim | Development of an Improved Rapid Enzyme Inhibition Bioassay with Marine and Freshwater Microalgae Using Flow Cytometry | Arch. Environ. Contam. Toxicol.40(4): 469-480 | 2001 | 2018/03/20 | |||||
| 藻類 | Phaeodactylum tricornutum | Enzyme | LOEC | 3 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,L., and B. Zheng | Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum | J. Environ. Sci.20(11): 1363-1372 | 2008 | 2018/03/20 | |||||
| 藻類 | Chlorella vulgaris | Accumulation | 10 | days | 14~1300 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sevilla,J.B., F. Nakajima, and I. Kasuga | Comparison of Aquatic and Dietary Exposure of Heavy Metals Cd, Cu, and Zn to Benthic Ostracod Heterocypris incongruens | Environ. Toxicol. Chem.33(7): 1624-1630 | 2014 | 2016/03/25 | ||||||||
| 藻類 | Chlorella vulgaris | Growth_b | EC50 | 72 | hours | 0.065 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Jouany ea 83 | 2016/02/08 | |||||||||
| 藻類 | Pseudokirchneriella subcapitata | ErC50 | 72 | hours | 24.9 | μg/L | 銅換算値 | 2 日本環境省 農薬登録保留基準(水産動植物) | 環境省 | 水産動植物の被害防止に係る農薬登録保留基準として環境大臣が定める基準の設定に関する資料 | 2018/03/15 | ||||||||
| 藻類 | Selenastrum capricornutum | 増殖阻害 | EC50 | 72 | hours | 0.035 | mg/L | 18 既存化学物質安全性(ハザード)評価シート | IPCS | Environmental Health Criteria, 200 | 1998 | 2016/02/26 | |||||||
| 藻類 | Scenedesmus subspicatus | 増殖阻害 | EC50 | 72 | hours | 0.12 | mg/L | 18 既存化学物質安全性(ハザード)評価シート | IPCS | Environmental Health Criteria, 200 | 1998 | 2016/02/26 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | growth inhibition | EC50 | 72 | hours | 120 | μg/L | 10 EHC (Environmental Health Criteria) | chäfer H, Hettler H, Fritsche U, Pitzen G, Roderer G, & Wenzel A | Biotests using unicellular algae and ciliates for predicting long-term effects of toxicants. | Ecotoxicol Environ Saf | 1994 | 2018/03/17 | ||||||
| 藻類 | Selenastrum capricornutum | growth inhibition | EC50 | 72 | hours | 47 | μg/L | 10 EHC (Environmental Health Criteria) | Nyholm | 1990 | 2018/03/17 | ||||||||
| 藻類 | Selenastrum capricornutum | biomass | EC50 | 72 | hours | 35 | μg/L | 10 EHC (Environmental Health Criteria) | Nyholm | 1990 | 2018/03/17 | ||||||||
| 藻類 | Chlorella vulgaris | Growth_b | EC50 | 96 | hours | 0.27 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Jouany ea 83 | 2016/02/08 | |||||||||
| 藻類 | Chlorella vulgaris | Growth_b | EC50 | 72 | hours | 0.24 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Jouany ea 83 | 2016/02/08 | |||||||||
| 藻類 | Chlorella vulgaris | Growth_b | EC50 | 96 | hours | 0.062 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Jouany ea 83 | 2016/02/08 | |||||||||
| 藻類 | Pseudokirchneriella subcapitata | growth inhibition | NOEC | 72 | hours | 5.6 | μg/L | 10 EHC (Environmental Health Criteria) | chäfer H, Hettler H, Fritsche U, Pitzen G, Roderer G, & Wenzel A | Biotests using unicellular algae and ciliates for predicting long-term effects of toxicants. | Ecotoxicol Environ Saf | 1994 | 2018/03/17 | ||||||
| 甲殻類 | Mysidopsis bahia | Growth | NOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Genetic | LOEL | 1 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Watanabe,H., E. Takahashi, Y. Nakamura, S. Oda, N. Tatarazako, and T. Iguchi | Development of a Daphnia magna DNA Microarray for Evaluating the Toxicity of Environmental Chemicals | Environ. Toxicol. Chem.26(4): 669-676 | 2007 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Growth | LOEL | 21 | days | 64 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., J.S. Gallagher, J.R. Tomasso, and S.J. Klaine | Toxicity of Two Pulsed Metal Exposures to Daphnia magna: Relative Effects of Pulsed Duration-Concentration and Influence of Interpulse Period | Arch. Environ. Contam. Toxicol.53(4): 579-589 | 2007 | 2018/03/20 | |||||
| 甲殻類 | Mysidopsis bahia | Growth | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Development | NOEC | 21 | days | 92 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Growth | NOEC | 21 | days | 67 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., and S.J. Klaine | Influence of Organism Age on Metal Toxicity to Daphnia magna | Environ. Toxicol. Chem.26(6): 1198-1204 | 2007 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Genetic | NOEC | 1 | days | 0.58 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Poynton,H.C., A.V. Loguinov, J.R. Varshavsky, S. Chan, E.J. Perkins, and C.D. Vulpe | Gene Expression Profiling in Daphnia magna. Part I: Concentration-Dependent Profiles Provide Support for the No Observed Transcriptional Effect Level | Environ. Sci. Technol.42(16): 6250-6256 | 2008 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Growth | NOEC | 21 | days | 67 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., and S.J. Klaine | Influence of Organism Age on Metal Toxicity to Daphnia magna | Environ. Toxicol. Chem.26(6): 1198-1204 | 2007 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Growth | NOEC | 21 | days | 67 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., and S.J. Klaine | Influence of Organism Age on Metal Toxicity to Daphnia magna | Environ. Toxicol. Chem.26(6): 1198-1204 | 2007 | 2018/03/20 | |||||
| 甲殻類 | Mysidopsis bahia | Growth | NOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 甲殻類 | Mysidopsis bahia | Growth | NOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Growth | NOEC | 21 | days | 67 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., and S.J. Klaine | Influence of Organism Age on Metal Toxicity to Daphnia magna | Environ. Toxicol. Chem.26(6): 1198-1204 | 2007 | 2018/03/20 | |||||
| 甲殻類 | Mysidopsis bahia | Growth | NOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Growth | NOEC | 21 | days | 67 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., and S.J. Klaine | Influence of Organism Age on Metal Toxicity to Daphnia magna | Environ. Toxicol. Chem.26(6): 1198-1204 | 2007 | 2018/03/20 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 15 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Growth | NOEC | 21 | days | 67 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., and S.J. Klaine | Influence of Organism Age on Metal Toxicity to Daphnia magna | Environ. Toxicol. Chem.26(6): 1198-1204 | 2007 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Growth | NOEC | 21 | days | 67 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., and S.J. Klaine | Influence of Organism Age on Metal Toxicity to Daphnia magna | Environ. Toxicol. Chem.26(6): 1198-1204 | 2007 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | NOEC | 0.33 | days | 0.16 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Xie,F., S.A. Koziar, M.A. Lampi, D.G. Dixon, W.P. Norwood, U. Borgmann, X.D. Huang, and B.M. Greenberg | Assessment of the Toxicity of Mixtures of Copper, 9,10-Phenanthrenequinone, and Phenanthrene to Daphnia magna: Evidence for a Reactive Oxygen Mechanism | Environ. Toxicol. Chem.25(2): 613-622 | 2006 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | NOEL | 1 | days | 6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Poynton,H.C., J.R. Varshavsky, B. Chang, G. Cavigiolio, S. Chan, P.S. Holman, A.V. Loguinov, D.J. Bauer, K. Komachi, E.C | Daphnia magna Ecotoxicogenomics Provides Mechanistic Insights into Metal Toxicity | Environ. Sci. Technol.41(3): 1044-1050 | 2007 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | NOEC | 2 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., I. Varo, J.C. Navarro, S. Arun, and C. Porte | Antioxidant Enzyme Activities and Lipid Peroxidation in the Freshwater Cladoceran Daphnia magna Exposed to Redox Cycling Compounds | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(2): 175-186 | 2005 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Behavior | NOEL | 2 | hours | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shimizu,N., C. Ogino, T. Kawanishi, and Y. Hayashi | Fractal Analysis of Daphnia Motion for Acute Toxicity Bioassay | Environ. Toxicol.17(5): 441-448 | 2002 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Growth | LOEL | 21 | days | 32 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., J.S. Gallagher, J.R. Tomasso, and S.J. Klaine | Toxicity of Two Pulsed Metal Exposures to Daphnia magna: Relative Effects of Pulsed Duration-Concentration and Influence of Interpulse Period | Arch. Environ. Contam. Toxicol.53(4): 579-589 | 2007 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Feeding behavior | NOEL | 1 | days | 7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McWilliam,R.A., and D.J. Baird | Postexposure Feeding Depression: A new Toxicity Endpoint for Use in Laboratory Studies with Daphnia magna | Environ. Toxicol. Chem.21(6): 1198-1205 | 2002 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Behavior | NOEL | 0.13 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yuan,L., E. Michels, and L. De Meester | Changes in Phototactic Behavior of Daphnia magna Clone C1 242 in Response to Copper, Cadmium and Pentachlorophenol | J. Environ. Sci.15(6): 841-847 | 2003 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Accumulation | NOEC | 7 | days | <10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W., and J.D. Gauss | Relationship Between Chronic Toxicity and Bioaccumulation of Copper, Cadmium and Zinc As Affected by Water Hardness and Humic Acid | Aquat. Toxicol.8(3): 149-161 | 1986 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Accumulation | NOEC | 7 | days | <10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W., and J.D. Gauss | Relationship Between Chronic Toxicity and Bioaccumulation of Copper, Cadmium and Zinc As Affected by Water Hardness and Humic Acid | Aquat. Toxicol.8(3): 149-161 | 1986 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Accumulation | NOEC | 7 | days | <10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W., and J.D. Gauss | Relationship Between Chronic Toxicity and Bioaccumulation of Copper, Cadmium and Zinc As Affected by Water Hardness and Humic Acid | Aquat. Toxicol.8(3): 149-161 | 1986 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Avoidance | EC50 | 0.5 | days | 65 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lopes,I., D.J. Baird, and R. Ribeiro | Avoidance of Copper Contamination by Field Populations of Daphnia longispina | Environ. Toxicol. Chem.23(7): 1702-1708 | 2004 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Development | LOEC | 21 | days | >50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Development | LOEC | 21 | days | >92 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Avoidance | EC50 | 0.5 | days | 86 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lopes,I., D.J. Baird, and R. Ribeiro | Avoidance of Copper Contamination by Field Populations of Daphnia longispina | Environ. Toxicol. Chem.23(7): 1702-1708 | 2004 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 12.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nagato,E.G., J.C. D'Eon, B.P. Lankadurai, D.G. Poirier, E.J. Reiner, A.J. Simpson, and M.J. Simpson | 1H NMR-Based Metabolomics Investigation of Daphnia magna Responses to Sub-Lethal Exposure to Arsenic, Copper and Lithium | Chemosphere93:331-337 | 2013 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | NOEC | 2 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., I. Varo, J.C. Navarro, S. Arun, and C. Porte | Antioxidant Enzyme Activities and Lipid Peroxidation in the Freshwater Cladoceran Daphnia magna Exposed to Redox Cycling Compounds | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(2): 175-186 | 2005 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 12.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nagato,E.G., J.C. D'Eon, B.P. Lankadurai, D.G. Poirier, E.J. Reiner, A.J. Simpson, and M.J. Simpson | 1H NMR-Based Metabolomics Investigation of Daphnia magna Responses to Sub-Lethal Exposure to Arsenic, Copper and Lithium | Chemosphere93:331-337 | 2013 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Behavior | NOEC | 0.13 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kieu,N.D., E. Michels, and L. De Meester | Phototactic Behavior of Daphnia and the Continuous Monitoring of Water Quality: Interference of Fish Kairomones and Food Quality | Environ. Toxicol. Chem.20(5): 1098-1103 | 2001 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | NOEC | 2 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., I. Varo, J.C. Navarro, S. Arun, and C. Porte | Antioxidant Enzyme Activities and Lipid Peroxidation in the Freshwater Cladoceran Daphnia magna Exposed to Redox Cycling Compounds | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(2): 175-186 | 2005 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | NOEC | 1 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, L. Guilhermino, M.J. Bebianno, and R. Ribeiro | Lack of Evidence for Metallothionein Role in Tolerance to Copper by Natural Populations of Daphnia longispina | Bull. Environ. Contam. Toxicol.74(4): 761-768 | 2005 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Behavior | LOEL | 0.13 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yuan,L., E. Michels, and L. De Meester | Changes in Phototactic Behavior of Daphnia magna Clone C1 242 in Response to Copper, Cadmium and Pentachlorophenol | J. Environ. Sci.15(6): 841-847 | 2003 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Feeding behavior | LOEL | 1 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McWilliam,R.A., and D.J. Baird | Postexposure Feeding Depression: A new Toxicity Endpoint for Use in Laboratory Studies with Daphnia magna | Environ. Toxicol. Chem.21(6): 1198-1205 | 2002 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Avoidance | EC50 | 0.5 | days | 78 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lopes,I., D.J. Baird, and R. Ribeiro | Avoidance of Copper Contamination by Field Populations of Daphnia longispina | Environ. Toxicol. Chem.23(7): 1702-1708 | 2004 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Avoidance | EC50 | 0.5 | days | 98 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lopes,I., D.J. Baird, and R. Ribeiro | Avoidance of Copper Contamination by Field Populations of Daphnia longispina | Environ. Toxicol. Chem.23(7): 1702-1708 | 2004 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | NOEC | 2 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., I. Varo, J.C. Navarro, S. Arun, and C. Porte | Antioxidant Enzyme Activities and Lipid Peroxidation in the Freshwater Cladoceran Daphnia magna Exposed to Redox Cycling Compounds | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(2): 175-186 | 2005 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | NOEC | 2 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., I. Varo, J.C. Navarro, S. Arun, and C. Porte | Antioxidant Enzyme Activities and Lipid Peroxidation in the Freshwater Cladoceran Daphnia magna Exposed to Redox Cycling Compounds | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(2): 175-186 | 2005 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | NOEC | 1 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, L. Guilhermino, M.J. Bebianno, and R. Ribeiro | Lack of Evidence for Metallothionein Role in Tolerance to Copper by Natural Populations of Daphnia longispina | Bull. Environ. Contam. Toxicol.74(4): 761-768 | 2005 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 170 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 160 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 160 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Behavior | LOEC | 2 | days | 27.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chevalier,J., E. Harscoet, M. Keller, P. Pandard, J. Cachot, and M. Grote | Exploration of Daphnia Behavioral Effect Profiles Induced by a Broad Range of Toxicants with Different Modes of Action | Environ. Toxicol. Chem.34(8): 1760-1769 | 2015 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Behavior | LOEC | 0.13 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kieu,N.D., E. Michels, and L. De Meester | Phototactic Behavior of Daphnia and the Continuous Monitoring of Water Quality: Interference of Fish Kairomones and Food Quality | Environ. Toxicol. Chem.20(5): 1098-1103 | 2001 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., I. Varo, J.C. Navarro, S. Arun, and C. Porte | Antioxidant Enzyme Activities and Lipid Peroxidation in the Freshwater Cladoceran Daphnia magna Exposed to Redox Cycling Compounds | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(2): 175-186 | 2005 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Feeding behavior | EC10 | 1 | days | <10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., D.J. Baird, A. Minarro, and A.M.V.M. Soares | Do Genotype Responses Always Converge from Lethal to Nonlethal Toxicant Exposure Levels? Hypothesis Tested Using Clones of Daphnia magna Straus | Environ. Toxicol. Chem.19(9): 2314-2322 | 2000 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Feeding behavior | IC50 | 1 | days | 12.13 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McWilliam,R.A., and D.J. Baird | Postexposure Feeding Depression: A new Toxicity Endpoint for Use in Laboratory Studies with Daphnia magna | Environ. Toxicol. Chem.21(6): 1198-1205 | 2002 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Avoidance | EC50 | 0.5 | days | 76 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lopes,I., D.J. Baird, and R. Ribeiro | Avoidance of Copper Contamination by Field Populations of Daphnia longispina | Environ. Toxicol. Chem.23(7): 1702-1708 | 2004 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Avoidance | EC50 | 0.5 | days | 97 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lopes,I., D.J. Baird, and R. Ribeiro | Avoidance of Copper Contamination by Field Populations of Daphnia longispina | Environ. Toxicol. Chem.23(7): 1702-1708 | 2004 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Avoidance | EC50 | 0.5 | days | 93 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lopes,I., D.J. Baird, and R. Ribeiro | Avoidance of Copper Contamination by Field Populations of Daphnia longispina | Environ. Toxicol. Chem.23(7): 1702-1708 | 2004 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Development | NOEC | 21 | days | 18.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Growth | NOEC | 21 | days | 67 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., and S.J. Klaine | Influence of Organism Age on Metal Toxicity to Daphnia magna | Environ. Toxicol. Chem.26(6): 1198-1204 | 2007 | 2018/03/20 | |||||
| 甲殻類 | Mysidopsis bahia | Growth | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 12.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nagato,E.G., J.C. D'Eon, B.P. Lankadurai, D.G. Poirier, E.J. Reiner, A.J. Simpson, and M.J. Simpson | 1H NMR-Based Metabolomics Investigation of Daphnia magna Responses to Sub-Lethal Exposure to Arsenic, Copper and Lithium | Chemosphere93:331-337 | 2013 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Behavior | LOEL | 1 | hours | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shimizu,N., C. Ogino, T. Kawanishi, and Y. Hayashi | Fractal Analysis of Daphnia Motion for Acute Toxicity Bioassay | Environ. Toxicol.17(5): 441-448 | 2002 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEL | 0.33 | days | 0.31 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Xie,F., S.A. Koziar, M.A. Lampi, D.G. Dixon, W.P. Norwood, U. Borgmann, X.D. Huang, and B.M. Greenberg | Assessment of the Toxicity of Mixtures of Copper, 9,10-Phenanthrenequinone, and Phenanthrene to Daphnia magna: Evidence for a Reactive Oxygen Mechanism | Environ. Toxicol. Chem.25(2): 613-622 | 2006 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 170 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1 | hours | 230 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Janssen,C.R., and G. Persoone | Rapid Toxicity Screening Tests for Aquatic Biota. 1. Methodology and Experiments with Daphnia magna | Environ. Toxicol. Chem.12:711-717 | 1993 | 2018/03/20 | |||||
| 甲殻類 | Ceriodaphnia dubia | Feeding behavior | EC50 | 1 | hours | 21.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lee,S.I., E.J. Na, Y.O. Cho, B. Koopman, and G. Bitton | Short-Term Toxicity Test Based on the Algal Uptake by Ceriodaphnia dubia | Water Environ. Res.69:1207-1210 | 1997 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Feeding behavior | EC50 | 1 | days | 5.5 | μg/L | ACTIVE INGREDIENT | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., D.J. Baird, A.J.A. Nogueira, A.M.V.M. Soares, and M.C. Riva | Toxicity of Binary Mixtures of Metals and Pyrethroid Insecticides to Daphnia magna Straus. Implications for Multi-Substance Risks Assessment | Aquat. Toxicol.78(1): 1-14 | 2006 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1 | hours | 2200 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kubitz,J.A., E.C. Lewek, J.M. Besser, J.B. Drake III, and J.P. Giesy | Effects of Copper-Contaminated Sediments on Hyalella azteca, Daphnia magna, and Ceriodaphnia dubia: Survival, Growth, and Enzyme Inhibition | Arch. Environ. Contam. Toxicol.29(1): 97-103 | 1995 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1 | hours | >3800 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kubitz,J.A., E.C. Lewek, J.M. Besser, J.B. Drake III, and J.P. Giesy | Effects of Copper-Contaminated Sediments on Hyalella azteca, Daphnia magna, and Ceriodaphnia dubia: Survival, Growth, and Enzyme Inhibition | Arch. Environ. Contam. Toxicol.29(1): 97-103 | 1995 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1 | hours | 13000 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kubitz,J.A., E.C. Lewek, J.M. Besser, J.B. Drake III, and J.P. Giesy | Effects of Copper-Contaminated Sediments on Hyalella azteca, Daphnia magna, and Ceriodaphnia dubia: Survival, Growth, and Enzyme Inhibition | Arch. Environ. Contam. Toxicol.29(1): 97-103 | 1995 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1 | hours | 1100 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kubitz,J.A., E.C. Lewek, J.M. Besser, J.B. Drake III, and J.P. Giesy | Effects of Copper-Contaminated Sediments on Hyalella azteca, Daphnia magna, and Ceriodaphnia dubia: Survival, Growth, and Enzyme Inhibition | Arch. Environ. Contam. Toxicol.29(1): 97-103 | 1995 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1 | hours | 15200 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kubitz,J.A., E.C. Lewek, J.M. Besser, J.B. Drake III, and J.P. Giesy | Effects of Copper-Contaminated Sediments on Hyalella azteca, Daphnia magna, and Ceriodaphnia dubia: Survival, Growth, and Enzyme Inhibition | Arch. Environ. Contam. Toxicol.29(1): 97-103 | 1995 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., I. Varo, J.C. Navarro, S. Arun, and C. Porte | Antioxidant Enzyme Activities and Lipid Peroxidation in the Freshwater Cladoceran Daphnia magna Exposed to Redox Cycling Compounds | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(2): 175-186 | 2005 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 80 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 180 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 80 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 180 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 230 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Avoidance | EC50 | 0.5 | days | 110 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lopes,I., D.J. Baird, and R. Ribeiro | Avoidance of Copper Contamination by Field Populations of Daphnia longispina | Environ. Toxicol. Chem.23(7): 1702-1708 | 2004 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 90 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 90 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | LOEC | 2 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., I. Varo, J.C. Navarro, S. Arun, and C. Porte | Antioxidant Enzyme Activities and Lipid Peroxidation in the Freshwater Cladoceran Daphnia magna Exposed to Redox Cycling Compounds | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(2): 175-186 | 2005 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | LOEC | 2 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., I. Varo, J.C. Navarro, S. Arun, and C. Porte | Antioxidant Enzyme Activities and Lipid Peroxidation in the Freshwater Cladoceran Daphnia magna Exposed to Redox Cycling Compounds | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(2): 175-186 | 2005 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 12.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nagato,E.G., J.C. D'Eon, B.P. Lankadurai, D.G. Poirier, E.J. Reiner, A.J. Simpson, and M.J. Simpson | 1H NMR-Based Metabolomics Investigation of Daphnia magna Responses to Sub-Lethal Exposure to Arsenic, Copper and Lithium | Chemosphere93:331-337 | 2013 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 12.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nagato,E.G., J.C. D'Eon, B.P. Lankadurai, D.G. Poirier, E.J. Reiner, A.J. Simpson, and M.J. Simpson | 1H NMR-Based Metabolomics Investigation of Daphnia magna Responses to Sub-Lethal Exposure to Arsenic, Copper and Lithium | Chemosphere93:331-337 | 2013 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 12.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nagato,E.G., J.C. D'Eon, B.P. Lankadurai, D.G. Poirier, E.J. Reiner, A.J. Simpson, and M.J. Simpson | 1H NMR-Based Metabolomics Investigation of Daphnia magna Responses to Sub-Lethal Exposure to Arsenic, Copper and Lithium | Chemosphere93:331-337 | 2013 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 12.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nagato,E.G., J.C. D'Eon, B.P. Lankadurai, D.G. Poirier, E.J. Reiner, A.J. Simpson, and M.J. Simpson | 1H NMR-Based Metabolomics Investigation of Daphnia magna Responses to Sub-Lethal Exposure to Arsenic, Copper and Lithium | Chemosphere93:331-337 | 2013 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 80 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | NOEC | 2 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., I. Varo, J.C. Navarro, S. Arun, and C. Porte | Antioxidant Enzyme Activities and Lipid Peroxidation in the Freshwater Cladoceran Daphnia magna Exposed to Redox Cycling Compounds | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(2): 175-186 | 2005 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 90 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 12.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nagato,E.G., J.C. D'Eon, B.P. Lankadurai, D.G. Poirier, E.J. Reiner, A.J. Simpson, and M.J. Simpson | 1H NMR-Based Metabolomics Investigation of Daphnia magna Responses to Sub-Lethal Exposure to Arsenic, Copper and Lithium | Chemosphere93:331-337 | 2013 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1 | hours | 3500 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kubitz,J.A., E.C. Lewek, J.M. Besser, J.B. Drake III, and J.P. Giesy | Effects of Copper-Contaminated Sediments on Hyalella azteca, Daphnia magna, and Ceriodaphnia dubia: Survival, Growth, and Enzyme Inhibition | Arch. Environ. Contam. Toxicol.29(1): 97-103 | 1995 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1 | hours | 2600 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kubitz,J.A., E.C. Lewek, J.M. Besser, J.B. Drake III, and J.P. Giesy | Effects of Copper-Contaminated Sediments on Hyalella azteca, Daphnia magna, and Ceriodaphnia dubia: Survival, Growth, and Enzyme Inhibition | Arch. Environ. Contam. Toxicol.29(1): 97-103 | 1995 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1 | hours | 3000 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kubitz,J.A., E.C. Lewek, J.M. Besser, J.B. Drake III, and J.P. Giesy | Effects of Copper-Contaminated Sediments on Hyalella azteca, Daphnia magna, and Ceriodaphnia dubia: Survival, Growth, and Enzyme Inhibition | Arch. Environ. Contam. Toxicol.29(1): 97-103 | 1995 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 130 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 90 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 350 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | LOEC | 2 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., I. Varo, J.C. Navarro, S. Arun, and C. Porte | Antioxidant Enzyme Activities and Lipid Peroxidation in the Freshwater Cladoceran Daphnia magna Exposed to Redox Cycling Compounds | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(2): 175-186 | 2005 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Avoidance | EC50 | 0.5 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lopes,I., D.J. Baird, and R. Ribeiro | Avoidance of Copper Contamination by Field Populations of Daphnia longispina | Environ. Toxicol. Chem.23(7): 1702-1708 | 2004 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 120 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Growth | NOEC | 21 | days | 67 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., and S.J. Klaine | Influence of Organism Age on Metal Toxicity to Daphnia magna | Environ. Toxicol. Chem.26(6): 1198-1204 | 2007 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 12.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nagato,E.G., J.C. D'Eon, B.P. Lankadurai, D.G. Poirier, E.J. Reiner, A.J. Simpson, and M.J. Simpson | 1H NMR-Based Metabolomics Investigation of Daphnia magna Responses to Sub-Lethal Exposure to Arsenic, Copper and Lithium | Chemosphere93:331-337 | 2013 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Feeding behavior | EC10 | 1 | days | <10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., D.J. Baird, A. Minarro, and A.M.V.M. Soares | Do Genotype Responses Always Converge from Lethal to Nonlethal Toxicant Exposure Levels? Hypothesis Tested Using Clones of Daphnia magna Straus | Environ. Toxicol. Chem.19(9): 2314-2322 | 2000 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 90 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 130 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Feeding behavior | EC50 | 1 | days | <10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., D.J. Baird, A. Minarro, and A.M.V.M. Soares | Do Genotype Responses Always Converge from Lethal to Nonlethal Toxicant Exposure Levels? Hypothesis Tested Using Clones of Daphnia magna Straus | Environ. Toxicol. Chem.19(9): 2314-2322 | 2000 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Growth | NOEC | 70 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 12.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nagato,E.G., J.C. D'Eon, B.P. Lankadurai, D.G. Poirier, E.J. Reiner, A.J. Simpson, and M.J. Simpson | 1H NMR-Based Metabolomics Investigation of Daphnia magna Responses to Sub-Lethal Exposure to Arsenic, Copper and Lithium | Chemosphere93:331-337 | 2013 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 220 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 80 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Growth | EC10 | 17 | days | 10.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Knops,M., R. Altenburger, and H. Segner | Alterations of Physiological Energetics, Growth and Reproduction of Daphnia magna Under Toxicant Stress | Aquat. Toxicol.53(2): 79-90 | 2001 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Development | LOEC | 21 | days | >18.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/20 | |||||
| 甲殻類 | Ceriodaphnia dubia | Feeding behavior | EC50 | 0.25 | days | 0.0145 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bitton,G., K. Rhodes, B. Koopman, and M. Cornejo | Short-Term Toxicity Assay Based on Daphnid Feeding Behavior | Water Environ. Res.67(3): 290-293 | 1995 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 12.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nagato,E.G., J.C. D'Eon, B.P. Lankadurai, D.G. Poirier, E.J. Reiner, A.J. Simpson, and M.J. Simpson | 1H NMR-Based Metabolomics Investigation of Daphnia magna Responses to Sub-Lethal Exposure to Arsenic, Copper and Lithium | Chemosphere93:331-337 | 2013 | 2018/03/20 | |||||
| 甲殻類 | Ceriodaphnia dubia | Feeding behavior | EC50 | 1 | hours | 11 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bitton,G., K. Rhodes, and B. Koopman | CerioFAST: An Acute Toxicity Test Based on Ceriodaphnia dubia Feeding Behavior | Environ. Toxicol. Chem.15(2): 123-125 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Feeding behavior | EC50 | 1 | days | 90 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferrando,M.D., and E. Andreu | Feeding Behavior as an Index of Copper Stress in Daphnia magna and Brachionus calyciflorus | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.106(2): 327-331 | 1993 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Behavior | EC50 | 1 | days | 59 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferrando,M.D., and E. Andreu | Feeding Behavior as an Index of Copper Stress in Daphnia magna and Brachionus calyciflorus | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.106(2): 327-331 | 1993 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1 | hours | 6000 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kubitz,J.A., E.C. Lewek, J.M. Besser, J.B. Drake III, and J.P. Giesy | Effects of Copper-Contaminated Sediments on Hyalella azteca, Daphnia magna, and Ceriodaphnia dubia: Survival, Growth, and Enzyme Inhibition | Arch. Environ. Contam. Toxicol.29(1): 97-103 | 1995 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 12.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nagato,E.G., J.C. D'Eon, B.P. Lankadurai, D.G. Poirier, E.J. Reiner, A.J. Simpson, and M.J. Simpson | 1H NMR-Based Metabolomics Investigation of Daphnia magna Responses to Sub-Lethal Exposure to Arsenic, Copper and Lithium | Chemosphere93:331-337 | 2013 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Growth | NOEC | 21 | days | 67 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., and S.J. Klaine | Influence of Organism Age on Metal Toxicity to Daphnia magna | Environ. Toxicol. Chem.26(6): 1198-1204 | 2007 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Avoidance | EC50 | 0.5 | days | 103 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lopes,I., D.J. Baird, and R. Ribeiro | Avoidance of Copper Contamination by Field Populations of Daphnia longispina | Environ. Toxicol. Chem.23(7): 1702-1708 | 2004 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Development | NOEC | 21 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC100 | 2 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LOEL | 21 | days | 32 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LOEL | 21 | days | 48 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEL | 7 | days | 27 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harmon,S.M., W.L. Specht, and G.T. Chandler | A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States | Arch. Environ. Contam. Toxicol.45(1): 79-85 | 2003 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 1 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 8.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | El-Merhibi,A., A. Kumar, and T. Smeaton | Role of Piperonyl Butoxide in the Toxicity of Chlorpyrifos to Ceriodaphnia dubia and Xenopus laevis | Ecotoxicol. Environ. Saf.57(2): 202-212 | 2004 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., P.K. Ray, and H. Chandra | Daphnia magna as a Model to Assess Heavy Metal Toxicity: Comparative Assessment with Mouse System | Acta Hydrochim. Hydrobiol.15(4): 427-432 | 1987 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | LC100 | 1 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bringmann,G., and R. Kuhn | Results of the Damaging Effect of Water Pollutants on Daphnia magna (Befunde der Schadwirkung Wassergefahrdender Stoffe Gegen Daphnia magna) | TR-79-1204, Literature Research Company, Annandale, VA:26 p. | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 16.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC100 | 3 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | 21 | days | 18 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hueck,H.J., and D.M.M. Adema | Toxicological Investigations in an Artificial Ecosystem. A Progress Report on Copper Toxicity Towards Algae and Daphniae | Helgol. Wiss. Meeresunters.17:188-199 | 1968 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Intoxication | EC50 | 2 | days | 1226 | nM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kolts,J.M., C.J. Boese, and J.S. Meyer | Acute Toxicity of Copper and Silver to Ceriodaphnia dubia in the Presence of Food | Environ. Toxicol. Chem.25(7): 1831-1835 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 122.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 45.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 536 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., P.K. Ray, and H. Chandra | Daphnia magna as a Model to Assess Heavy Metal Toxicity: Comparative Assessment with Mouse System | Acta Hydrochim. Hydrobiol.15(4): 427-432 | 1987 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 21 | days | 1.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dave,G. | Effects of Copper on Growth, Reproduction, Survival and Haemoglobin in Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 439-443 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 24.93 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McWilliam,R.A., and D.J. Baird | Postexposure Feeding Depression: A new Toxicity Endpoint for Use in Laboratory Studies with Daphnia magna | Environ. Toxicol. Chem.21(6): 1198-1205 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 58.77 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McWilliam,R.A., and D.J. Baird | Postexposure Feeding Depression: A new Toxicity Endpoint for Use in Laboratory Studies with Daphnia magna | Environ. Toxicol. Chem.21(6): 1198-1205 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 1 | days | 80 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 90 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Murray-Gulde,C.L., J.E. Heatley, A.L. Schwartzman, and J.H.,Jr. Rodgers | Algicidal Effectiveness of Clearigate, Cutrine-Plus, and Copper Sulfate and Margins of Safety Associated with Their Use | Arch. Environ. Contam. Toxicol.43(1): 19-27 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 1.6 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Brata,C., D.J. Baird, and S.J. Markich | Influence of Genetic and Environmental Factors on the Tolerance of Daphnia magna Straus to Essential and Non-Essential Metals | Aquat. Toxicol.42(2): 115-137 | 1998 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | 1.3 | hours | 2000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fisher,A. | The Effect of Copper-Sulphate on Some Micro-Organisms in Fish Ponds | Bamidgeh8(2): 21-27 | 1956 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 3.5 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Brata,C., D.J. Baird, and S.J. Markich | Influence of Genetic and Environmental Factors on the Tolerance of Daphnia magna Straus to Essential and Non-Essential Metals | Aquat. Toxicol.42(2): 115-137 | 1998 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | 1.3 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fisher,A. | The Effect of Copper-Sulphate on Some Micro-Organisms in Fish Ponds | Bamidgeh8(2): 21-27 | 1956 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 9.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braginskiy,L.P., and E.P. Shcherban | Water Toxicology and Radioecology. Acute Toxicity of Heavy Metals to Aquatic Invertebrates at Different Temperatures | Hydrobiol. J.14(6): 78-82 | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braginskiy,L.P., and E.P. Shcherban | Water Toxicology and Radioecology. Acute Toxicity of Heavy Metals to Aquatic Invertebrates at Different Temperatures | Hydrobiol. J.14(6): 78-82 | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 0.25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braginskiy,L.P., and E.P. Shcherban | Water Toxicology and Radioecology. Acute Toxicity of Heavy Metals to Aquatic Invertebrates at Different Temperatures | Hydrobiol. J.14(6): 78-82 | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 23 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 90 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | 21 | days | 180 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hueck,H.J., and D.M.M. Adema | Toxicological Investigations in an Artificial Ecosystem. A Progress Report on Copper Toxicity Towards Algae and Daphniae | Helgol. Wiss. Meeresunters.17:188-199 | 1968 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 412 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | 3 | days | 3000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fisher,A. | The Effect of Copper-Sulphate on Some Micro-Organisms in Fish Ponds | Bamidgeh8(2): 21-27 | 1956 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 2.72 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.7 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Brata,C., D.J. Baird, and S.J. Markich | Influence of Genetic and Environmental Factors on the Tolerance of Daphnia magna Straus to Essential and Non-Essential Metals | Aquat. Toxicol.42(2): 115-137 | 1998 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | NOEC | 58 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia parvula | Intoxication | EC50 | 3 | days | 72 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Toxicity of Copper to Daphnids in Reconstituted and Natural Waters | EPA-600/3-76-051, U.S.EPA, Duluth, MN:68 p. | 1976 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia ambigua | Intoxication | EC50 | 3 | days | 67.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Toxicity of Copper to Daphnids in Reconstituted and Natural Waters | EPA-600/3-76-051, U.S.EPA, Duluth, MN:68 p. | 1976 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | IC50 | 1 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Belabed,W., N. Kestali, S. Semsari, and A. Gaid | Toxicity Study of Some Heavy Metals with Daphnia Test (Evaluation de la Toxicite de Quelques Metaux Lourds a l'aide du test Daphnie) | Tech.Sci.Methodes6:331-336 | 1994 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | IC50 | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Belabed,W., N. Kestali, S. Semsari, and A. Gaid | Toxicity Study of Some Heavy Metals with Daphnia Test (Evaluation de la Toxicite de Quelques Metaux Lourds a l'aide du test Daphnie) | Tech.Sci.Methodes6:331-336 | 1994 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | IC50 | 1 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Belabed,W., N. Kestali, S. Semsari, and A. Gaid | Toxicity Study of Some Heavy Metals with Daphnia Test (Evaluation de la Toxicite de Quelques Metaux Lourds a l'aide du test Daphnie) | Tech.Sci.Methodes6:331-336 | 1994 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Physiological | IC50 | 0.5 | hours | 48.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, S.L. Burks, R.A. Atherton, and J.T. Blankemeyer | Utilizing Biomarker Techniques: Cellular Membrane Potential as a Biomarker of Subchronic Toxicity | ASTM Spec. Tech. Publ.:177-187 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 67.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Debelak,R.W. | Acute Toxicity of Mixtures of Copper, Chromium and Cadmium to Daphnia magna | M.S.Thesis, Miami University, Oxford, OH:54 p. | 1975 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 10 | days | 4.18 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 62.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Debelak,R.W. | Acute Toxicity of Mixtures of Copper, Chromium and Cadmium to Daphnia magna | M.S.Thesis, Miami University, Oxford, OH:54 p. | 1975 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC50 | 2 | days | 30 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 39.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 40.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 32.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 5.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cooper,N.L., J.R. Bidwell, and A. Kumar | Toxicity of Copper, Lead, and Zinc Mixtures to Ceriodaphnia dubia and Daphnia carinata | Ecotoxicol. Environ. Saf.72:1523-1528 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | NOEC | 7 | days | 63 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 56.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Debelak,R.W. | Acute Toxicity of Mixtures of Copper, Chromium and Cadmium to Daphnia magna | M.S.Thesis, Miami University, Oxford, OH:54 p. | 1975 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 14 | days | 4.18 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 1.16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 11.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Koivisto,S., M. Ketola, and M. Walls | Comparison of Five Cladoceran Species in Short- and Long-Term Copper Exposure | Hydrobiologia248(2): 125-136 | 1992 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 23.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 14 | days | 35.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 4 | days | 121.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 14 | days | 9.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 10 | days | 117.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia similis | Mortality | EC10 | 2 | days | 9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Oliveira-Filho,E.C., R.M. Lopes, and F.J.R. Paumgartten | Comparative Study on the Susceptibility of Freshwater Species to Copper-Based Pesticides | Chemosphere56(4): 369-374 | 2004 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 6.56 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | EC50 | 2 | days | 3.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Koivisto,S., M. Ketola, and M. Walls | Comparison of Five Cladoceran Species in Short- and Long-Term Copper Exposure | Hydrobiologia248(2): 125-136 | 1992 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Long,K.E., E.J. Van Genderen, and S.J. Klaine | The Effects of Low Hardness and pH on Copper Toxicity to Daphnia magna - Short Communication | Environ. Toxicol. Chem.23(1): 72-75 | 2004 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 13 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Watanabe,H., E. Takahashi, Y. Nakamura, S. Oda, N. Tatarazako, and T. Iguchi | Development of a Daphnia magna DNA Microarray for Evaluating the Toxicity of Environmental Chemicals | Environ. Toxicol. Chem.26(4): 669-676 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 12.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bright,G.R. | Variability of the "Water Effect Ratio" for Copper Toxicity - a Case Study | Proc.Toxic Subst.Water Environ., May 23-30, Water Environ.Fed., Alexandria, VA:5.23 - 5.30 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 1 | days | 0.00116 | mM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lilius,H., B. Isomaa, and T. Holmstrom | A Comparison of the Toxicity of 50 Reference Chemicals to Freshly Isolated Rainbow Trout Hepatocytes and Daphnia magna | Aquat. Toxicol.30:47-60 | 1994 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC50 | 2 | days | 267 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC50 | 2 | days | 157 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC100 | 3 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 14 | days | 7.43 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 20.5 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.04 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 66.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Debelak,R.W. | Acute Toxicity of Mixtures of Copper, Chromium and Cadmium to Daphnia magna | M.S.Thesis, Miami University, Oxford, OH:54 p. | 1975 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 61.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Debelak,R.W. | Acute Toxicity of Mixtures of Copper, Chromium and Cadmium to Daphnia magna | M.S.Thesis, Miami University, Oxford, OH:54 p. | 1975 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.3 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Brata,C., D.J. Baird, and S.J. Markich | Influence of Genetic and Environmental Factors on the Tolerance of Daphnia magna Straus to Essential and Non-Essential Metals | Aquat. Toxicol.42(2): 115-137 | 1998 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 14 | days | 1.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dave,G. | Effects of Copper on Growth, Reproduction, Survival and Haemoglobin in Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 439-443 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 7 | days | 3.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dave,G. | Effects of Copper on Growth, Reproduction, Survival and Haemoglobin in Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 439-443 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 18.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dave,G. | Effects of Copper on Growth, Reproduction, Survival and Haemoglobin in Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 439-443 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.09 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 130.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 8.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.47 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.03 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Population | LOEC | 50 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 23.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bright,G.R. | Variability of the "Water Effect Ratio" for Copper Toxicity - a Case Study | Proc.Toxic Subst.Water Environ., May 23-30, Water Environ.Fed., Alexandria, VA:5.23 - 5.30 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Population | LOEC | 21.9 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 16 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 19 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 50 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 3.53 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hatakeyama,S., and Y. Sugaya | A Freshwater Shrimp (Paratya compressa improvisa) as a Sensitive Test Organism to Pesticides | Environ. Pollut.59(4): 325-336 | 1989 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 4.32 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hatakeyama,S., and Y. Sugaya | A Freshwater Shrimp (Paratya compressa improvisa) as a Sensitive Test Organism to Pesticides | Environ. Pollut.59(4): 325-336 | 1989 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 18 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cooper,N.L., J.R. Bidwell, and A. Kumar | Toxicity of Copper, Lead, and Zinc Mixtures to Ceriodaphnia dubia and Daphnia carinata | Ecotoxicol. Environ. Saf.72:1523-1528 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | LOEL | 21 | days | 48 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Population | LOEL | 18 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagneten,A.M., and I. Vila | Effects of Cu+2 and pH on the Fitness of Ceriodaphnia dubia (Richard 1894) (Crustacea, Cladocera) in Microcosm Experiments | Environ. Toxicol.16(5): 428-438 | 2001 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEL | 8 | days | 56.8 | nmol/g food TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kolts,J.M., C.J. Boese, and J.S. Meyer | Effects of Dietborne Copper and Silver on Reproduction by Ceriodaphnia dubia | Environ. Toxicol. Chem.28(1): 71-85 | 2009 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEL | 7 | days | 27 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harmon,S.M., W.L. Specht, and G.T. Chandler | A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States | Arch. Environ. Contam. Toxicol.45(1): 79-85 | 2003 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sankaramanachi,S.K., and S.R. Qasim | Metal Toxicity Evaluation Using Bioassay and Microtox | Int. J. Environ. Stud.56(2): 187-199 | 1999 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.07 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 10 | days | 6.56 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 14 | days | 117.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 6.23 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | EC50 | 2 | days | 31 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 0.61 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Xie,F., S.A. Koziar, M.A. Lampi, D.G. Dixon, W.P. Norwood, U. Borgmann, X.D. Huang, and B.M. Greenberg | Assessment of the Toxicity of Mixtures of Copper, 9,10-Phenanthrenequinone, and Phenanthrene to Daphnia magna: Evidence for a Reactive Oxygen Mechanism | Environ. Toxicol. Chem.25(2): 613-622 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 0.96 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Xie,F., S.A. Koziar, M.A. Lampi, D.G. Dixon, W.P. Norwood, U. Borgmann, X.D. Huang, and B.M. Greenberg | Assessment of the Toxicity of Mixtures of Copper, 9,10-Phenanthrenequinone, and Phenanthrene to Daphnia magna: Evidence for a Reactive Oxygen Mechanism | Environ. Toxicol. Chem.25(2): 613-622 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 3 | days | 85100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Toxicity of Copper to Daphnids in Reconstituted and Natural Waters | EPA-600/3-76-051, U.S.EPA, Duluth, MN:68 p. | 1976 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | EC50 | 1 | days | 0.00059 | mM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lilius,H., T. Hastbacka, and B. Isomaa | A Comparison of the Toxicity of 30 Reference Chemicals to Daphnia magna and Daphnia pulex | Environ. Toxicol. Chem.14(12): 2085-2088 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC50 | 2 | days | 25 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | EC50 | 2 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 175.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chevalier,J., E. Harscoet, M. Keller, P. Pandard, J. Cachot, and M. Grote | Exploration of Daphnia Behavioral Effect Profiles Induced by a Broad Range of Toxicants with Different Modes of Action | Environ. Toxicol. Chem.34(8): 1760-1769 | 2015 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.43 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 187.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 7 | days | 35.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 3 | days | 83400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Toxicity of Copper to Daphnids in Reconstituted and Natural Waters | EPA-600/3-76-051, U.S.EPA, Duluth, MN:68 p. | 1976 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 3 | days | 86.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Toxicity of Copper to Daphnids in Reconstituted and Natural Waters | EPA-600/3-76-051, U.S.EPA, Duluth, MN:68 p. | 1976 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 3 | days | 31600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Toxicity of Copper to Daphnids in Reconstituted and Natural Waters | EPA-600/3-76-051, U.S.EPA, Duluth, MN:68 p. | 1976 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 15.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 48 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 7.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Long,K.E., E.J. Van Genderen, and S.J. Klaine | The Effects of Low Hardness and pH on Copper Toxicity to Daphnia magna - Short Communication | Environ. Toxicol. Chem.23(1): 72-75 | 2004 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 11.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Long,K.E., E.J. Van Genderen, and S.J. Klaine | The Effects of Low Hardness and pH on Copper Toxicity to Daphnia magna - Short Communication | Environ. Toxicol. Chem.23(1): 72-75 | 2004 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Long,K.E., E.J. Van Genderen, and S.J. Klaine | The Effects of Low Hardness and pH on Copper Toxicity to Daphnia magna - Short Communication | Environ. Toxicol. Chem.23(1): 72-75 | 2004 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 68.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Debelak,R.W. | Acute Toxicity of Mixtures of Copper, Chromium and Cadmium to Daphnia magna | M.S.Thesis, Miami University, Oxford, OH:54 p. | 1975 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 12 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bright,G.R. | Variability of the "Water Effect Ratio" for Copper Toxicity - a Case Study | Proc.Toxic Subst.Water Environ., May 23-30, Water Environ.Fed., Alexandria, VA:5.23 - 5.30 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 19.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bright,G.R. | Variability of the "Water Effect Ratio" for Copper Toxicity - a Case Study | Proc.Toxic Subst.Water Environ., May 23-30, Water Environ.Fed., Alexandria, VA:5.23 - 5.30 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Reproduction | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.11 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Oda,S., N. Tatarazako, H. Watanabe, M. Morita, and T. Iguchi | Genetic Differences in the Production of Male Neonates in Daphnia magna Exposed to Juvenile Hormone Analogs | Chemosphere63(9): 1477-1484 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | LOEL | 20 | days | 32 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.17 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 84 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cherry,D.S., J.H. Van Hassel, J.L. Farris, D.J. Soucek, and R.J. Neves | Site-Specific Derivation of the Acute Copper Criteria for the Clinch River, Virginia | Hum. Ecol. Risk Assess.8(3): 591-601 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | IC50 | 7 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | IC50 | 7 | days | 30.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Oris,J.T., R.W. Winner, and M.V. Moore | A Four-Day Survival and Reproduction Toxicity Test for Ceriodaphnia dubia | Environ. Toxicol. Chem.10(2): 217-224 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | IC50 | 4 | days | 40.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Oris,J.T., R.W. Winner, and M.V. Moore | A Four-Day Survival and Reproduction Toxicity Test for Ceriodaphnia dubia | Environ. Toxicol. Chem.10(2): 217-224 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Population | LOEC | 29 | days | 33 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Girling,A.E., D. Pascoe, C.R. Janssen, A. Peither, A. Wenzel, H. Schafer, B. Neumeier, G.C. Mitchell, E.J. Taylor, S.J. | Development of Methods for Evaluating Toxicity to Freshwater Ecosystems | Ecotoxicol. Environ. Saf.45(2): 148-176 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | LOEC | 10 | days | 19 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LOEL | 20 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | LOEC | 10 | days | 22 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.03 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Meador,J.P. | The Interaction of pH, Dissolved Organic Carbon, and Total Copper in the Determination of Ionic Copper and Toxicity | Aquat. Toxicol.19(1): 13-31 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 1.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 38 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Oda,S., N. Tatarazako, H. Watanabe, M. Morita, and T. Iguchi | Genetic Differences in the Production of Male Neonates in Daphnia magna Exposed to Juvenile Hormone Analogs | Chemosphere63(9): 1477-1484 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 31.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LC50 | 4 | days | 218 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LC50 | 4 | days | 237 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LC50 | 4 | days | 189 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LC50 | 4 | days | 199 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LC50 | 4 | days | 204 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LC50 | 4 | days | 284 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LC50 | 4 | days | 220 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 78 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cherry,D.S., J.H. Van Hassel, J.L. Farris, D.J. Soucek, and R.J. Neves | Site-Specific Derivation of the Acute Copper Criteria for the Clinch River, Virginia | Hum. Ecol. Risk Assess.8(3): 591-601 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | NOEC | 10 | days | 18 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | NOEC | 10 | days | <22 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | NOEC | 10 | days | <64 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 3 | days | 13500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Toxicity of Copper to Daphnids in Reconstituted and Natural Waters | EPA-600/3-76-051, U.S.EPA, Duluth, MN:68 p. | 1976 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | >100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.G. Ingersoll, D.K. Hardesty, C.D. Ivey, J.L. Kunz, T.W. May, F.J. Dwyer, A.D. Roberts, T. Augspurger, C.M. Ka | Acute Toxicity of Copper, Ammonia, and Chlorine to Glochidia and Juveniles of Freshwater Mussels (Unionidae) | Environ. Toxicol. Chem.26(10): 2036-2047 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 19 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.42 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Reproduction | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Reproduction | NOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEL | 22 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagneten,A.M., and I. Vila | Effects of Cu+2 and pH on the Fitness of Ceriodaphnia dubia (Richard 1894) (Crustacea, Cladocera) in Microcosm Experiments | Environ. Toxicol.16(5): 428-438 | 2001 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | IC50 | 7 | days | 30.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Oris,J.T., R.W. Winner, and M.V. Moore | A Four-Day Survival and Reproduction Toxicity Test for Ceriodaphnia dubia | Environ. Toxicol. Chem.10(2): 217-224 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | IC50 | 7 | days | 26.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | EC50 | 7 | days | 1.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cooper,N.L., J.R. Bidwell, and A. Kumar | Toxicity of Copper, Lead, and Zinc Mixtures to Ceriodaphnia dubia and Daphnia carinata | Ecotoxicol. Environ. Saf.72:1523-1528 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | EC50 | 4 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Murray-Gulde,C.L., J.E. Heatley, A.L. Schwartzman, and J.H.,Jr. Rodgers | Algicidal Effectiveness of Clearigate, Cutrine-Plus, and Copper Sulfate and Margins of Safety Associated with Their Use | Arch. Environ. Contam. Toxicol.43(1): 19-27 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | EC10 | 7 | days | 11 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | EC10 | 7 | days | 34 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 17 | days | 7.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Knops,M., R. Altenburger, and H. Segner | Alterations of Physiological Energetics, Growth and Reproduction of Daphnia magna Under Toxicant Stress | Aquat. Toxicol.53(2): 79-90 | 2001 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | EC10 | 7 | days | 29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 21.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 19 | days | 8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 1.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cooper,N.L., J.R. Bidwell, and A. Kumar | Toxicity of Copper, Lead, and Zinc Mixtures to Ceriodaphnia dubia and Daphnia carinata | Ecotoxicol. Environ. Saf.72:1523-1528 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 21 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Guilhermino,L., T.C. Diamantino, R. Ribeiro, F. Goncalves, and A.M.V.M. Soares | Suitability of Test Media Containing EDTA for the Evaluation of Acute Metal Toxicity to Daphnia magna Straus | Ecotoxicol. Environ. Saf.38(3): 292-295 | 1997 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 1 | days | 166.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Guilhermino,L., T.C. Diamantino, R. Ribeiro, F. Goncalves, and A.M.V.M. Soares | Suitability of Test Media Containing EDTA for the Evaluation of Acute Metal Toxicity to Daphnia magna Straus | Ecotoxicol. Environ. Saf.38(3): 292-295 | 1997 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 152.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Guilhermino,L., T.C. Diamantino, R. Ribeiro, F. Goncalves, and A.M.V.M. Soares | Suitability of Test Media Containing EDTA for the Evaluation of Acute Metal Toxicity to Daphnia magna Straus | Ecotoxicol. Environ. Saf.38(3): 292-295 | 1997 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LC50 | 4 | days | 164 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 46.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 10.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 46.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 10.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 8.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 38 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., D.J. Baird, A. Minarro, and A.M.V.M. Soares | Do Genotype Responses Always Converge from Lethal to Nonlethal Toxicant Exposure Levels? Hypothesis Tested Using Clones of Daphnia magna Straus | Environ. Toxicol. Chem.19(9): 2314-2322 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 171 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., D.J. Baird, A. Minarro, and A.M.V.M. Soares | Do Genotype Responses Always Converge from Lethal to Nonlethal Toxicant Exposure Levels? Hypothesis Tested Using Clones of Daphnia magna Straus | Environ. Toxicol. Chem.19(9): 2314-2322 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 64 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 32 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., J.S. Gallagher, J.R. Tomasso, and S.J. Klaine | Toxicity of Two Pulsed Metal Exposures to Daphnia magna: Relative Effects of Pulsed Duration-Concentration and Influence of Interpulse Period | Arch. Environ. Contam. Toxicol.53(4): 579-589 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 7 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 63.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 52.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 23.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 28.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 66.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 45 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 30.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 399 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Guilhermino,L., T. Diamantino, M.C. Silva, and A.M.V.M. Soares | Acute Toxicity Test with Daphnia magna: An Alternative to Mammals in the Prescreening of Chemical Toxicity? | Ecotoxicol. Environ. Saf.46(3): 357-362 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 82.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Guilhermino,L., T. Diamantino, M.C. Silva, and A.M.V.M. Soares | Acute Toxicity Test with Daphnia magna: An Alternative to Mammals in the Prescreening of Chemical Toxicity? | Ecotoxicol. Environ. Saf.46(3): 357-362 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | 5 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 2 | days | 13.05 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harmon,S.M., W.L. Specht, and G.T. Chandler | A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States | Arch. Environ. Contam. Toxicol.45(1): 79-85 | 2003 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 17.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEL | 14 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagneten,A.M., and I. Vila | Effects of Cu+2 and pH on the Fitness of Ceriodaphnia dubia (Richard 1894) (Crustacea, Cladocera) in Microcosm Experiments | Environ. Toxicol.16(5): 428-438 | 2001 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | LOEL | 4 | days | <1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ronco,A., C. Sobrero, V. Grassi, L. Kaminski, L. Massolo, and L. Mina | WaterTox Bioassay Intercalibration Network: Results from Argentina | Environ. Toxicol.15(4): 287-296 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 37 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 10 | days | 9.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 17 | days | 9.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Knops,M., R. Altenburger, and H. Segner | Alterations of Physiological Energetics, Growth and Reproduction of Daphnia magna Under Toxicant Stress | Aquat. Toxicol.53(2): 79-90 | 2001 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qureshi,A.A., K.W. Flood, S.R. Thompson, S.M. Janhurst, C.S. Inniss, and D.A. Rokosh | Comparison of a Luminescent Bacterial Test with Other Bioassays for Determining Toxicity of Pure Compounds and Complex Effluents | ASTM Spec. Tech. Publ.:179-195 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 7 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | NOEC | 2 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru | Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere71(7): 1308-1316 | 2008 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | 10 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | LeBlanc,G.A. | Laboratory Investigation into the Development of Resistance of Daphnia magna (Straus) to Environmental Pollutants | Environ. Pollut. A.27(4): 309-322 | 1982 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 39.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 1 | days | 2.84 | nM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kim,S.D. | Determination of Copper Binding Affinity of Ceriodaphnia dubia Using Competition Bioassay Tests: Environmental Significance | Bull. Environ. Contam. Toxicol.68(2): 245-252 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LC50 | 7 | days | 169.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Morrison,G., E. Torello, R. Comeleo, R. Walsh, A. Kuhn, R. Burgess, M. Tagliabue, and W. Greene | Intralaboratory Precision of Saltwater Short-Term Chronic Toxicity Tests | J. Water Pollut. Control Fed.61:1707-1710 | 1989 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 14 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | LeBlanc,G.A. | Laboratory Investigation into the Development of Resistance of Daphnia magna (Straus) to Environmental Pollutants | Environ. Pollut. A.27(4): 309-322 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 27 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | LeBlanc,G.A. | Laboratory Investigation into the Development of Resistance of Daphnia magna (Straus) to Environmental Pollutants | Environ. Pollut. A.27(4): 309-322 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 27 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | LeBlanc,G.A. | Laboratory Investigation into the Development of Resistance of Daphnia magna (Straus) to Environmental Pollutants | Environ. Pollut. A.27(4): 309-322 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 23 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | LeBlanc,G.A. | Laboratory Investigation into the Development of Resistance of Daphnia magna (Straus) to Environmental Pollutants | Environ. Pollut. A.27(4): 309-322 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 11 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | LeBlanc,G.A. | Laboratory Investigation into the Development of Resistance of Daphnia magna (Straus) to Environmental Pollutants | Environ. Pollut. A.27(4): 309-322 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | LeBlanc,G.A. | Laboratory Investigation into the Development of Resistance of Daphnia magna (Straus) to Environmental Pollutants | Environ. Pollut. A.27(4): 309-322 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 36 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | LeBlanc,G.A. | Laboratory Investigation into the Development of Resistance of Daphnia magna (Straus) to Environmental Pollutants | Environ. Pollut. A.27(4): 309-322 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 26 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | LeBlanc,G.A. | Laboratory Investigation into the Development of Resistance of Daphnia magna (Straus) to Environmental Pollutants | Environ. Pollut. A.27(4): 309-322 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bishop,W.E., and R.L. Perry | Development and Evaluation of a Flow-Through Growth Inhibition Test with Duckweed (Lemna minor) | ASTM Spec. Tech. Publ.:421-435 | 1981 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.17 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 71.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 8.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 26.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 39 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.37 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.61 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 38.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 2.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 2 | days | 82.362 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jindal,R., and A. Verma | Heavy Metal Toxicity to Daphnia pulex | Indian J. Environ. Health32(3): 289-292 | 1990 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 1 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 2 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 45.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 50.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 6.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Long,K.E., E.J. Van Genderen, and S.J. Klaine | The Effects of Low Hardness and pH on Copper Toxicity to Daphnia magna - Short Communication | Environ. Toxicol. Chem.23(1): 72-75 | 2004 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 1.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cooper,N.L., J.R. Bidwell, and A. Kumar | Toxicity of Copper, Lead, and Zinc Mixtures to Ceriodaphnia dubia and Daphnia carinata | Ecotoxicol. Environ. Saf.72:1523-1528 | 2009 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Moore,M.V., and R.W. Winner | Relative Sensitivity of Cerodaphnia dubia Laboratory Tests and Pond Communities of Zooplankton and Benthos to Chronic Copper Stress | Aquat. Toxicol.15(4): 311-330 | 1989 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 2 | days | 6000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ribeiro,R., I. Lopes, A.M.M. Pereira, F. Goncalves, and A.M.V.M. Soares | Survival Time of Ceriodaphnia dubia in Acid Waters with Metal Contamination | Bull. Environ. Contam. Toxicol.64(1): 130-136 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 2 | days | 60000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ribeiro,R., I. Lopes, A.M.M. Pereira, F. Goncalves, and A.M.V.M. Soares | Survival Time of Ceriodaphnia dubia in Acid Waters with Metal Contamination | Bull. Environ. Contam. Toxicol.64(1): 130-136 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 2 | days | 6000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ribeiro,R., I. Lopes, A.M.M. Pereira, F. Goncalves, and A.M.V.M. Soares | Survival Time of Ceriodaphnia dubia in Acid Waters with Metal Contamination | Bull. Environ. Contam. Toxicol.64(1): 130-136 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 2 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ribeiro,R., I. Lopes, A.M.M. Pereira, F. Goncalves, and A.M.V.M. Soares | Survival Time of Ceriodaphnia dubia in Acid Waters with Metal Contamination | Bull. Environ. Contam. Toxicol.64(1): 130-136 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 202 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 91 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Physiological | NOEC | 0.5 | hours | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, S.L. Burks, R.A. Atherton, and J.T. Blankemeyer | Utilizing Biomarker Techniques: Cellular Membrane Potential as a Biomarker of Subchronic Toxicity | ASTM Spec. Tech. Publ.:177-187 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Physiological | NOEC | 0.5 | hours | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, S.L. Burks, R.A. Atherton, and J.T. Blankemeyer | Utilizing Biomarker Techniques: Cellular Membrane Potential as a Biomarker of Subchronic Toxicity | ASTM Spec. Tech. Publ.:177-187 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Physiological | NOEC | 0.5 | hours | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, S.L. Burks, R.A. Atherton, and J.T. Blankemeyer | Utilizing Biomarker Techniques: Cellular Membrane Potential as a Biomarker of Subchronic Toxicity | ASTM Spec. Tech. Publ.:177-187 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Long,K.E., E.J. Van Genderen, and S.J. Klaine | The Effects of Low Hardness and pH on Copper Toxicity to Daphnia magna - Short Communication | Environ. Toxicol. Chem.23(1): 72-75 | 2004 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | 1 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stom,D.I., and L.D. Zubareva | Comparative Resistance of Daphnia and Epischura to Toxic Substances in Acute Exposure | Hydrobiol. J.30(3): 35-38 | 1994 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEL | 14 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagneten,A.M., and I. Vila | Effects of Cu+2 and pH on the Fitness of Ceriodaphnia dubia (Richard 1894) (Crustacea, Cladocera) in Microcosm Experiments | Environ. Toxicol.16(5): 428-438 | 2001 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | 2 | days | 32 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., J.S. Gallagher, J.R. Tomasso, and S.J. Klaine | Toxicity of Two Pulsed Metal Exposures to Daphnia magna: Relative Effects of Pulsed Duration-Concentration and Influence of Interpulse Period | Arch. Environ. Contam. Toxicol.53(4): 579-589 | 2007 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 1 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 2 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 1 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 2 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.023 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Meador,J.P. | The Interaction of pH, Dissolved Organic Carbon, and Total Copper in the Determination of Ionic Copper and Toxicity | Aquat. Toxicol.19(1): 13-31 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.055 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Meador,J.P. | The Interaction of pH, Dissolved Organic Carbon, and Total Copper in the Determination of Ionic Copper and Toxicity | Aquat. Toxicol.19(1): 13-31 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.01 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Meador,J.P. | The Interaction of pH, Dissolved Organic Carbon, and Total Copper in the Determination of Ionic Copper and Toxicity | Aquat. Toxicol.19(1): 13-31 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.053 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Meador,J.P. | The Interaction of pH, Dissolved Organic Carbon, and Total Copper in the Determination of Ionic Copper and Toxicity | Aquat. Toxicol.19(1): 13-31 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | 2 | days | <10 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Long,K.E. | The Effect of Low Hardness and pH on Copper Toxicity to Daphnia magna | M.S. Thesis, Clemson University, Clemson, SC:75 p. | 2000 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Mortality | 21 | days | 56 | μg TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hueck,H.J., and D.M.M. Adema | Toxicological Investigations in an Artificial Ecosystem. A Progress Report on Copper Toxicity Towards Algae and Daphniae | Helgol. Wiss. Meeresunters.17:188-199 | 1968 | 2018/03/22 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | IC50 | 7 | days | 28.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia galeata | Mortality | EC50 | 2 | days | 4.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Koivisto,S., M. Ketola, and M. Walls | Comparison of Five Cladoceran Species in Short- and Long-Term Copper Exposure | Hydrobiologia248(2): 125-136 | 1992 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 2 | days | 600000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ribeiro,R., I. Lopes, A.M.M. Pereira, F. Goncalves, and A.M.V.M. Soares | Survival Time of Ceriodaphnia dubia in Acid Waters with Metal Contamination | Bull. Environ. Contam. Toxicol.64(1): 130-136 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 7 | days | 10.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cooper,N.L., J.R. Bidwell, and A. Kumar | Toxicity of Copper, Lead, and Zinc Mixtures to Ceriodaphnia dubia and Daphnia carinata | Ecotoxicol. Environ. Saf.72:1523-1528 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LOEC | 2 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mastin,B.J., and J.H.,Jr. Rodgers | Toxicity and Bioavailability of Copper Herbicides (Clearigate, Cutrine-Plus, and Copper Sulfate) to Freshwater Animals | Arch. Environ. Contam. Toxicol.39(4): 445-451 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LOEC | 4 | days | 1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,B.M., M.M. Chao, O.R. Tedrow, A.D. McQueen, and J.H.,Jr. Rodgers | Responses of Lepomis macrochirus, Pimephales promelas, Hyalella azteca, Ceriodaphnia dubia, and Daphnia magna to Exposures of Algimycin PWF and Copper Sulfate Pentahydrate | J. Aquat. Plant Manag.46:176-183 | 2008 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 227 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 2 | days | 6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ribeiro,R., I. Lopes, A.M.M. Pereira, F. Goncalves, and A.M.V.M. Soares | Survival Time of Ceriodaphnia dubia in Acid Waters with Metal Contamination | Bull. Environ. Contam. Toxicol.64(1): 130-136 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 10 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagneten,A.M., and I. Vila | Effects of Cu+2 and pH on the Fitness of Ceriodaphnia dubia (Richard 1894) (Crustacea, Cladocera) in Microcosm Experiments | Environ. Toxicol.16(5): 428-438 | 2001 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | 8 | days | 2 | μg TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hueck,H.J., and D.M.M. Adema | Toxicological Investigations in an Artificial Ecosystem. A Progress Report on Copper Toxicity Towards Algae and Daphniae | Helgol. Wiss. Meeresunters.17:188-199 | 1968 | 2018/03/22 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 18.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mastin,B.J., and J.H.,Jr. Rodgers | Toxicity and Bioavailability of Copper Herbicides (Clearigate, Cutrine-Plus, and Copper Sulfate) to Freshwater Animals | Arch. Environ. Contam. Toxicol.39(4): 445-451 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 131 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Physiological | 0.5 | hours | 38.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, S.L. Burks, R.A. Atherton, and J.T. Blankemeyer | Utilizing Biomarker Techniques: Cellular Membrane Potential as a Biomarker of Subchronic Toxicity | ASTM Spec. Tech. Publ.:177-187 | 1996 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Physiological | 0.5 | hours | 38.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, S.L. Burks, R.A. Atherton, and J.T. Blankemeyer | Utilizing Biomarker Techniques: Cellular Membrane Potential as a Biomarker of Subchronic Toxicity | ASTM Spec. Tech. Publ.:177-187 | 1996 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 288 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 16 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | NOEC | 1 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Poynton,H.C., A.V. Loguinov, J.R. Varshavsky, S. Chan, E.J. Perkins, and C.D. Vulpe | Gene Expression Profiling in Daphnia magna. Part I: Concentration-Dependent Profiles Provide Support for the No Observed Transcriptional Effect Level | Environ. Sci. Technol.42(16): 6250-6256 | 2008 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 3.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LOEL | 20 | days | 32 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LOEL | 21 | days | 48 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LOEL | 19 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | 1 | days | 0.024 | mmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stom,D.I., and L.D. Zubareva | Comparative Resistance of Daphnia and Epischura to Toxic Substances in Acute Exposure | Hydrobiol. J.30(3): 35-38 | 1994 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 284 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 1120 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Physiological | EC50 | 1 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lagerspetz,K.Y.H., A. Tiiska, and K.E.O. Senius | Low Sensitivity of Ciliary Activity in the Gills of Anodonta cygnea to Some Ecotoxicals | Comp. Biochem. Physiol. C Comp. Pharmacol.105(3): 393-395 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 920 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 810 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 580 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 840 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 240 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 1 | days | 12.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dave,G. | Effects of Copper on Growth, Reproduction, Survival and Haemoglobin in Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 439-443 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 6.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dave,G. | Effects of Copper on Growth, Reproduction, Survival and Haemoglobin in Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 439-443 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Physiological | EC50 | 2 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lagerspetz,K.Y.H., A. Tiiska, and K.E.O. Senius | Low Sensitivity of Ciliary Activity in the Gills of Anodonta cygnea to Some Ecotoxicals | Comp. Biochem. Physiol. C Comp. Pharmacol.105(3): 393-395 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC50 | 2 | days | 19.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bitton,G., K. Rhodes, B. Koopman, and M. Cornejo | Short-Term Toxicity Assay Based on Daphnid Feeding Behavior | Water Environ. Res.67(3): 290-293 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC50 | 2 | days | 147 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 206 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Intoxication | EC50 | 2 | days | 11 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bitton,G., K. Rhodes, and B. Koopman | CerioFAST: An Acute Toxicity Test Based on Ceriodaphnia dubia Feeding Behavior | Environ. Toxicol. Chem.15(2): 123-125 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 131 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 342 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 39 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia ambigua | Mortality | LC50 | 2 | days | 6.53 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harmon,S.M., W.L. Specht, and G.T. Chandler | A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States | Arch. Environ. Contam. Toxicol.45(1): 79-85 | 2003 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia rosea | Intoxication | EC50 | 2 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lalande,M., and B. Pinel-Alloul | Heavy Metals Toxicity on Planktonic Crustacea of the Quebec Lakes (Toxicite des Metaux Lourds sur les Crustaces Planctoniques des Lacs du Quebec) | Sci. Tech. Eau17(3): 253-259 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia rosea | Intoxication | EC50 | 2 | days | 155 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lalande,M., and B. Pinel-Alloul | Heavy Metals Toxicity on Planktonic Crustacea of the Quebec Lakes (Toxicite des Metaux Lourds sur les Crustaces Planctoniques des Lacs du Quebec) | Sci. Tech. Eau17(3): 253-259 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia similis | Mortality | EC50 | 2 | days | 13 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Oliveira-Filho,E.C., R.M. Lopes, and F.J.R. Paumgartten | Comparative Study on the Susceptibility of Freshwater Species to Copper-Based Pesticides | Chemosphere56(4): 369-374 | 2004 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 1110 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 1390 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 83 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 42 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 24 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Poynton,H.C., J.R. Varshavsky, B. Chang, G. Cavigiolio, S. Chan, P.S. Holman, A.V. Loguinov, D.J. Bauer, K. Komachi, E.C | Daphnia magna Ecotoxicogenomics Provides Mechanistic Insights into Metal Toxicity | Environ. Sci. Technol.41(3): 1044-1050 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 33 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | LOEC | 10 | days | 28 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 3 | days | 13500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Toxicity of Copper to Daphnids in Reconstituted and Natural Waters | EPA-600/3-76-051, U.S.EPA, Duluth, MN:68 p. | 1976 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 3 | days | 78200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Toxicity of Copper to Daphnids in Reconstituted and Natural Waters | EPA-600/3-76-051, U.S.EPA, Duluth, MN:68 p. | 1976 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 1 | days | 1.2 | μmol/L | FORMULATION | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Calleja,M.C., G. Persoone, and P. Geladi | Comparative Acute Toxicity of the First 50 Multicentre Evaluation of In Vitro Cytotoxicity Chemicals to Aquatic Non-vertebrates | Arch. Environ. Contam. Toxicol.26(1): 69-78 | 1994 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 383600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., and P.K. Ray | Investigation of Correlation Between Physicochemical Properties of Metals and Their Toxicity to the Water Flea Daphnia magna Straus | Ecotoxicol. Environ. Saf.18(2): 109-120 | 1989 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 1 | days | 536 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., and P.K. Ray | Investigation of Correlation Between Physicochemical Properties of Metals and Their Toxicity to the Water Flea Daphnia magna Straus | Ecotoxicol. Environ. Saf.18(2): 109-120 | 1989 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 93 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., and P.K. Ray | Investigation of Correlation Between Physicochemical Properties of Metals and Their Toxicity to the Water Flea Daphnia magna Straus | Ecotoxicol. Environ. Saf.18(2): 109-120 | 1989 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | hours | <1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Devillers,J., T. Meunier, and P. Chambon | Usefulness of the Dosage-Effect-Time Relation in Ecotoxicology for the Determination of Different Chemical Classes of Toxicants (Interet de la Relation Dose-Effet-Temps en Ecotoxicologie pour la Determination des Differe | Tech. Sci. Munic.80:329-334 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 0.17 | days | <1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Devillers,J., T. Meunier, and P. Chambon | Usefulness of the Dosage-Effect-Time Relation in Ecotoxicology for the Determination of Different Chemical Classes of Toxicants (Interet de la Relation Dose-Effet-Temps en Ecotoxicologie pour la Determination des Differe | Tech. Sci. Munic.80:329-334 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 0.25 | days | <1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Devillers,J., T. Meunier, and P. Chambon | Usefulness of the Dosage-Effect-Time Relation in Ecotoxicology for the Determination of Different Chemical Classes of Toxicants (Interet de la Relation Dose-Effet-Temps en Ecotoxicologie pour la Determination des Differe | Tech. Sci. Munic.80:329-334 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 49.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Koivisto,S., M. Ketola, and M. Walls | Comparison of Five Cladoceran Species in Short- and Long-Term Copper Exposure | Hydrobiologia248(2): 125-136 | 1992 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | EC50 | 2 | days | 12.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Koivisto,S., M. Ketola, and M. Walls | Comparison of Five Cladoceran Species in Short- and Long-Term Copper Exposure | Hydrobiologia248(2): 125-136 | 1992 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 3 | days | 25200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Toxicity of Copper to Daphnids in Reconstituted and Natural Waters | EPA-600/3-76-051, U.S.EPA, Duluth, MN:68 p. | 1976 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 21500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hickey,C.W., and M.L. Vickers | Comparison of the Sensitivity to Heavy Metals and Pentachlorophenol of the Mayflies Deleatidium spp. and the Cladoceran Daphnia magna | N. Z. J. Mar. Freshw. Res.26(1): 87-93 | 1992 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 9.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braginskij,L.P., and E.P. Shcherban | Acute Toxicity of Heavy Metals to Aquatic Invertebrates Under Different Temperature Conditions | Hydrobiol. J.14(6): 78-82 | 1979 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | IC50 | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Belabed,W., N. Kestali, S. Semsari, and A. Gaid | Toxicity Study of Some Heavy Metals with Daphnia Test (Evaluation de la Toxicite de Quelques Metaux Lourds a l'aide du test Daphnie) | Tech.Sci.Methodes6:331-336 | 1994 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | IC50 | 2 | days | 3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Belabed,W., N. Kestali, S. Semsari, and A. Gaid | Toxicity Study of Some Heavy Metals with Daphnia Test (Evaluation de la Toxicite de Quelques Metaux Lourds a l'aide du test Daphnie) | Tech.Sci.Methodes6:331-336 | 1994 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Physiological | IC50 | 0.5 | hours | 56.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, S.L. Burks, R.A. Atherton, and J.T. Blankemeyer | Utilizing Biomarker Techniques: Cellular Membrane Potential as a Biomarker of Subchronic Toxicity | ASTM Spec. Tech. Publ.:177-187 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Physiological | IC50 | 0.5 | hours | 52.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, S.L. Burks, R.A. Atherton, and J.T. Blankemeyer | Utilizing Biomarker Techniques: Cellular Membrane Potential as a Biomarker of Subchronic Toxicity | ASTM Spec. Tech. Publ.:177-187 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 13.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Oris,J.T., R.W. Winner, and M.V. Moore | A Four-Day Survival and Reproduction Toxicity Test for Ceriodaphnia dubia | Environ. Toxicol. Chem.10(2): 217-224 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cabejszek,I., and M. Stasiak | Investigation on the Influence of some Metals on the Biocoenosis of Water with the Use of Daphnia magna as an Indicator (Part I) (Badania nad Wplywem Niektorych Metali na Biocenoze Wodna przy Zastosowaniu Daphnia magna j | Roczyn. Zabl. Hig. Warsaw11:303-312 | 1960 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 4 | days | 97 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cabejszek,I., and M. Stasiak | Investigation on the Influence of some Metals on the Biocoenosis of Water with the Use of Daphnia magna as an Indicator (Part I) (Badania nad Wplywem Niektorych Metali na Biocenoze Wodna przy Zastosowaniu Daphnia magna j | Roczyn. Zabl. Hig. Warsaw11:303-312 | 1960 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 5.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 4 | days | 18 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kazlauskiene,N., A. Burba, and G. Svecevicius | Acute Toxicity of Five Galvanic Heavy Metals to Hydrobionts | Ekologiia1:33-36 | 1994 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 1 | days | 34.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Guilhermino,L., T.C. Diamantino, R. Ribeiro, F. Goncalves, and A.M.V.M. Soares | Suitability of Test Media Containing EDTA for the Evaluation of Acute Metal Toxicity to Daphnia magna Straus | Ecotoxicol. Environ. Saf.38(3): 292-295 | 1997 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Guilhermino,L., T.C. Diamantino, R. Ribeiro, F. Goncalves, and A.M.V.M. Soares | Suitability of Test Media Containing EDTA for the Evaluation of Acute Metal Toxicity to Daphnia magna Straus | Ecotoxicol. Environ. Saf.38(3): 292-295 | 1997 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | IC50 | 2 | days | 26 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Belabed,W., N. Kestali, S. Semsari, and A. Gaid | Toxicity Study of Some Heavy Metals with Daphnia Test (Evaluation de la Toxicite de Quelques Metaux Lourds a l'aide du test Daphnie) | Tech.Sci.Methodes6:331-336 | 1994 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.13 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 322 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.31 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.19 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.23 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.18 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 26.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 8.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.05 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 22.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 25.9 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.77 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 4.9 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 25.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.14 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 18.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 106.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 3.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | IC50 | 7 | days | 4.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | IC50 | 7 | days | 8.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | IC50 | 7 | days | 17.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | IC50 | 7 | days | 8.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | IC50 | 7 | days | 17.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 2 | days | 56 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.04 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | LC0 | 1 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bringmann,G., and R. Kuhn | Results of the Damaging Effect of Water Pollutants on Daphnia magna (Befunde der Schadwirkung Wassergefahrdender Stoffe Gegen Daphnia magna) | TR-79-1204, Literature Research Company, Annandale, VA:26 p. | 1977 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC50 | 2 | days | 24.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lee,S.I., E.J. Na, Y.O. Cho, B. Koopman, and G. Bitton | Short-Term Toxicity Test Based on the Algal Uptake by Ceriodaphnia dubia | Water Environ. Res.69:1207-1210 | 1997 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Janssen,C.R., and G. Persoone | Rapid Toxicity Screening Tests for Aquatic Biota. 1. Methodology and Experiments with Daphnia magna | Environ. Toxicol. Chem.12:711-717 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 4 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagneten,A.M., and I. Vila | Effects of Cu+2 and pH on the Fitness of Ceriodaphnia dubia (Richard 1894) (Crustacea, Cladocera) in Microcosm Experiments | Environ. Toxicol.16(5): 428-438 | 2001 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 8 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagneten,A.M., and I. Vila | Effects of Cu+2 and pH on the Fitness of Ceriodaphnia dubia (Richard 1894) (Crustacea, Cladocera) in Microcosm Experiments | Environ. Toxicol.16(5): 428-438 | 2001 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 1 | days | 280 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Janssen,C.R., and G. Persoone | Rapid Toxicity Screening Tests for Aquatic Biota. 1. Methodology and Experiments with Daphnia magna | Environ. Toxicol. Chem.12:711-717 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 1 | days | <1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Devillers,J., T. Meunier, and P. Chambon | Usefulness of the Dosage-Effect-Time Relation in Ecotoxicology for the Determination of Different Chemical Classes of Toxicants (Interet de la Relation Dose-Effet-Temps en Ecotoxicologie pour la Determination des Differe | Tech. Sci. Munic.80:329-334 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC50 | 1.3 | hours | 27.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,S.M., and R.A. Roline | Evaluation of the Sensitivity of Rapid Toxicity Tests Relative to Daphnid Acute Lethality Tests | Bull. Environ. Contam. Toxicol.60:292-299 | 1998 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | IC50 | 2 | days | 32 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Belabed,W., N. Kestali, S. Semsari, and A. Gaid | Toxicity Study of Some Heavy Metals with Daphnia Test (Evaluation de la Toxicite de Quelques Metaux Lourds a l'aide du test Daphnie) | Tech.Sci.Methodes6:331-336 | 1994 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | IC50 | 2 | days | 8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Belabed,W., N. Kestali, S. Semsari, and A. Gaid | Toxicity Study of Some Heavy Metals with Daphnia Test (Evaluation de la Toxicite de Quelques Metaux Lourds a l'aide du test Daphnie) | Tech.Sci.Methodes6:331-336 | 1994 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC0 | 1 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC0 | 3 | days | 0.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 108.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC0 | 1 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | EC50 | 7 | days | 36.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harmon,S.M., W.L. Specht, and G.T. Chandler | A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States | Arch. Environ. Contam. Toxicol.45(1): 79-85 | 2003 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC0 | 1 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC0 | 3 | days | <0.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC100 | 1 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC100 | 1 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC100 | 1 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC100 | 3 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC100 | 2 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 536 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., P.K. Ray, and H. Chandra | Preventive Effects of Amino Acids on the Toxicity of Copper to Daphnia magna | Water Air Soil Pollut.32(3-4): 379-387 | 1987 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 93 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., P.K. Ray, and H. Chandra | Preventive Effects of Amino Acids on the Toxicity of Copper to Daphnia magna | Water Air Soil Pollut.32(3-4): 379-387 | 1987 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | LC50 | 2 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru | Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere71(7): 1308-1316 | 2008 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 4.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ziegenfuss,P.S., W.J. Renaudette, and W.J. Adams | Methodology for Assessing the Acute Toxicity of Chemicals Sorbed to Sediments: Testing the Equilibrium Partitioning Theory | ASTM Spec. Tech. Publ.9:479-493 | 1986 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 85 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W., T. Keeling, R. Yeager, and M.P. Farrell | Effect of Food Type on the Acute and Chronic Toxicity of Copper to Daphnia magna | Freshw. Biol.7(4): 343-349 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC0 | 2 | days | 1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 88.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W., T. Keeling, R. Yeager, and M.P. Farrell | Effect of Food Type on the Acute and Chronic Toxicity of Copper to Daphnia magna | Freshw. Biol.7(4): 343-349 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | NOEC | 10 | days | 14 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 18.1 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Population | NOEC | 50 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 18.6 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Population | NOEC | 50 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Reproduction | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 81.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W., T. Keeling, R. Yeager, and M.P. Farrell | Effect of Food Type on the Acute and Chronic Toxicity of Copper to Daphnia magna | Freshw. Biol.7(4): 343-349 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Reproduction | NOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC10 | 7 | days | 200 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC10 | 7 | days | 65 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC10 | 7 | days | 91 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | EC50 | 3 | days | 86 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Toxicity of Copper to Daphnids in Reconstituted and Natural Waters | EPA-600/3-76-051, U.S.EPA, Duluth, MN:68 p. | 1976 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 3 | days | 85100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Toxicity of Copper to Daphnids in Reconstituted and Natural Waters | EPA-600/3-76-051, U.S.EPA, Duluth, MN:68 p. | 1976 | 2018/03/22 | |||||
| 甲殻類 | Acartia tonsa | Mortality | LC50 | 1 | days | 300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Reeve,M.R., G.D. Grice, V.R. Gibson, M.A. Walter, K. Darcy, and T. Ikeda | A Controlled Environmental Pollution Experiment (CEPEX) and Its Usefulness in the Study of Larger Marine Zooplankton Under Toxic Stress | In: A.P.M.Lockwood, Effects of Pollutants on Aquatic Organisms, Vol. 2, Cambridge Univ. Press:145-162 | 1976 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Population | NOEC | 50 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia parvula | Intoxication | LC50 | 3 | days | 57 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W., and M.P. Farrell | Acute and Chronic Toxicity of Copper to Four Species of Daphnia | J. Fish. Res. Board Can.33(8): 1685-1691 | 1976 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia lumholtzi | Intoxication | 14 | hours | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., and S.K. Battish | Experimental Studies on the Acute Toxicity of Copper to Daphnia lumholtzi (Sars) | Indian J. Ecol.11(2): 183-185 | 1984 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 2 | days | 60000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ribeiro,R., I. Lopes, A.M.M. Pereira, F. Goncalves, and A.M.V.M. Soares | Survival Time of Ceriodaphnia dubia in Acid Waters with Metal Contamination | Bull. Environ. Contam. Toxicol.64(1): 130-136 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 81.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W., T. Keeling, R. Yeager, and M.P. Farrell | Effect of Food Type on the Acute and Chronic Toxicity of Copper to Daphnia magna | Freshw. Biol.7(4): 343-349 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia carinata | Mortality | LC50 | 4 | days | 28 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mukhopadhyay,M.K., B.B. Ghosh, and M.M. Bacchi | Toxicity of Heavy Metals to Fish, Prawn and Fish Food Organisms of Hooghly Estuarine System | Geobios21(1): 13-17 | 1994 | 2018/03/22 | |||||
| 甲殻類 | Tisbe battagliai | Mortality | LC50 | 2 | days | 83.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diz,F.R., C.V.M. Araujo, I. Moreno-Garrido, M. Hampel, and J. Blasco | Short-Term Toxicity Tests on the Harpacticoid Copepod Tisbe battagliai: Lethal and Reproductive Endpoints | Ecotoxicol. Environ. Saf.72(7): 1881-1886 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 18.9 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Tisbe battagliai | Mortality | LC50 | 3 | days | 157 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diz,F.R., C.V.M. Araujo, I. Moreno-Garrido, M. Hampel, and J. Blasco | Short-Term Toxicity Tests on the Harpacticoid Copepod Tisbe battagliai: Lethal and Reproductive Endpoints | Ecotoxicol. Environ. Saf.72(7): 1881-1886 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Population | NOEC | 29 | days | 18 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Girling,A.E., D. Pascoe, C.R. Janssen, A. Peither, A. Wenzel, H. Schafer, B. Neumeier, G.C. Mitchell, E.J. Taylor, S.J. | Development of Methods for Evaluating Toxicity to Freshwater Ecosystems | Ecotoxicol. Environ. Saf.45(2): 148-176 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 38.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 79.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 182 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 627 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 240 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Population | LOEC | 21 | days | 18.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Tisbe battagliai | Mortality | LC50 | 2 | days | 256 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diz,F.R., C.V.M. Araujo, I. Moreno-Garrido, M. Hampel, and J. Blasco | Short-Term Toxicity Tests on the Harpacticoid Copepod Tisbe battagliai: Lethal and Reproductive Endpoints | Ecotoxicol. Environ. Saf.72(7): 1881-1886 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | 1 | days | 6000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fisher,A. | The Effect of Copper-Sulphate on Some Micro-Organisms in Fish Ponds | Bamidgeh8(2): 21-27 | 1956 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 35.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LOEC | 21 | days | 18.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | 1 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, L. Guilhermino, M.J. Bebianno, and R. Ribeiro | Lack of Evidence for Metallothionein Role in Tolerance to Copper by Natural Populations of Daphnia longispina | Bull. Environ. Contam. Toxicol.74(4): 761-768 | 2005 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 188 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Mortality | 2 | days | 10.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Long,K.E. | The Effect of Low Hardness and pH on Copper Toxicity to Daphnia magna | M.S. Thesis, Clemson University, Clemson, SC:75 p. | 2000 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Long,K.E., E.J. Van Genderen, and S.J. Klaine | The Effects of Low Hardness and pH on Copper Toxicity to Daphnia magna - Short Communication | Environ. Toxicol. Chem.23(1): 72-75 | 2004 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | 1.5 | days | 3000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fisher,A. | The Effect of Copper-Sulphate on Some Micro-Organisms in Fish Ponds | Bamidgeh8(2): 21-27 | 1956 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 4.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Long,K.E., E.J. Van Genderen, and S.J. Klaine | The Effects of Low Hardness and pH on Copper Toxicity to Daphnia magna - Short Communication | Environ. Toxicol. Chem.23(1): 72-75 | 2004 | 2018/03/22 | |||||
| 甲殻類 | Penaeus duorarum | Mortality | 2 | days | 3000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,S.K. | Toxicity of Several Management Chemicals to Penaeid Shrimp | Tex.Agric.Ext.Serv.Fish.Dis.Diagn.Lab, Report FDDL-S (FDDL-S3):12 p. | 1974 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 10.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Baird,D.J., I. Barber, M. Bradley, A.M.V.M. Soares, and P. Calow | A Comparative Study of Genotype Sensitivity to Acute Toxic Stress Using Clones of Daphnia magna Straus | Ecotoxicol. Environ. Saf.21(3): 257-265 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 20.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Baird,D.J., I. Barber, M. Bradley, A.M.V.M. Soares, and P. Calow | A Comparative Study of Genotype Sensitivity to Acute Toxic Stress Using Clones of Daphnia magna Straus | Ecotoxicol. Environ. Saf.21(3): 257-265 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 70.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Baird,D.J., I. Barber, M. Bradley, A.M.V.M. Soares, and P. Calow | A Comparative Study of Genotype Sensitivity to Acute Toxic Stress Using Clones of Daphnia magna Straus | Ecotoxicol. Environ. Saf.21(3): 257-265 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 31.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Baird,D.J., I. Barber, M. Bradley, A.M.V.M. Soares, and P. Calow | A Comparative Study of Genotype Sensitivity to Acute Toxic Stress Using Clones of Daphnia magna Straus | Ecotoxicol. Environ. Saf.21(3): 257-265 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 20.5 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | 2 | days | <40 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Long,K.E. | The Effect of Low Hardness and pH on Copper Toxicity to Daphnia magna | M.S. Thesis, Clemson University, Clemson, SC:75 p. | 2000 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia galeata | Reproduction | NOEC | 70 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Piscia,R., M. Colombini, B. Ponti, R. Bettinetti, D. Monticelli, V. Rossi, and M. Manca | Lifetime Response of Contemporary Versus Resurrected Daphnia galeata Sars (Crustacea, Cladocera) to Cu(II) Chronic Exposure | Bull. Environ. Contam. Toxicol.94:46-51 | 2015 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia galeata | Reproduction | NOEC | 70 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Piscia,R., M. Colombini, B. Ponti, R. Bettinetti, D. Monticelli, V. Rossi, and M. Manca | Lifetime Response of Contemporary Versus Resurrected Daphnia galeata Sars (Crustacea, Cladocera) to Cu(II) Chronic Exposure | Bull. Environ. Contam. Toxicol.94:46-51 | 2015 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia galeata | Mortality | EC50 | 2 | days | 7.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Koivisto,S., M. Ketola, and M. Walls | Comparison of Five Cladoceran Species in Short- and Long-Term Copper Exposure | Hydrobiologia248(2): 125-136 | 1992 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia similis | Intoxication | EC50 | 4 | days | 230 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sharma,S., N. Upreti, and K.P. Sharma | Monitoring Toxicity of an Azo Dye Methyl Red and a Heavy Metal Cu, Using Plant and Animal Bioassays | Toxicol. Environ. Chem.91(1): 109-120 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia ambigua | Intoxication | EC50 | 3 | days | 12400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Toxicity of Copper to Daphnids in Reconstituted and Natural Waters | EPA-600/3-76-051, U.S.EPA, Duluth, MN:68 p. | 1976 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Long,K.E., E.J. Van Genderen, and S.J. Klaine | The Effects of Low Hardness and pH on Copper Toxicity to Daphnia magna - Short Communication | Environ. Toxicol. Chem.23(1): 72-75 | 2004 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Acartia tonsa | Mortality | LC50 | 1 | days | <200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Reeve,M.R., G.D. Grice, V.R. Gibson, M.A. Walter, K. Darcy, and T. Ikeda | A Controlled Environmental Pollution Experiment (CEPEX) and Its Usefulness in the Study of Larger Marine Zooplankton Under Toxic Stress | In: A.P.M.Lockwood, Effects of Pollutants on Aquatic Organisms, Vol. 2, Cambridge Univ. Press:145-162 | 1976 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | LOEC | 21 | days | <30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Poynton,H.C., A.V. Loguinov, J.R. Varshavsky, S. Chan, E.J. Perkins, and C.D. Vulpe | Gene Expression Profiling in Daphnia magna. Part I: Concentration-Dependent Profiles Provide Support for the No Observed Transcriptional Effect Level | Environ. Sci. Technol.42(16): 6250-6256 | 2008 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | LOEL | 21 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | LOEL | 21 | days | 48 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | LOEL | 21 | days | 64 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., J.S. Gallagher, J.R. Tomasso, and S.J. Klaine | Toxicity of Two Pulsed Metal Exposures to Daphnia magna: Relative Effects of Pulsed Duration-Concentration and Influence of Interpulse Period | Arch. Environ. Contam. Toxicol.53(4): 579-589 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia lumholtzi | Intoxication | LC50 | 1 | days | 397 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., and S.K. Battish | Experimental Studies on the Acute Toxicity of Copper to Daphnia lumholtzi (Sars) | Indian J. Ecol.11(2): 183-185 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 7 | days | 34.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Oris,J.T., R.W. Winner, and M.V. Moore | A Four-Day Survival and Reproduction Toxicity Test for Ceriodaphnia dubia | Environ. Toxicol. Chem.10(2): 217-224 | 1991 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia sp. Daphnia sp. | Mortality | LC50 | 4 | days | <110 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia similis | Mortality | LC50 | 4 | days | 4.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Soundrapandian,S., and K. Venkataraman | Effect of Heavy Metal Salts on the Life History of Daphnia similis Claus (Crustacea: Cladocera) | Proc. Indian Acad. Sci. Anim. Sci.99(5): 411-418 | 1990 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia similis | Mortality | LC50 | 4 | days | 4.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Soundrapandian,S., and K. Venkataraman | Effect of Heavy Metal Salts on the Life History of Daphnia similis Claus (Crustacea: Cladocera) | Proc. Indian Acad. Sci. Anim. Sci.99(5): 411-418 | 1990 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Mortality | LC50 | 3 | days | 323 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ward,D.J., V. Perez-Landa, D.A. Spadaro, S.L. Simpson, and D.F. Jolley | An Assessment of Three Harpacticoid Copepod Species for Use in Ecotoxicological Testing | Arch. Environ. Contam. Toxicol.61:414-425 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia sp. Ceriodaphnia rigaudi | Mortality | LC50 | 2 | days | 340 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mohammed,A., and J.B.R. Agard | Comparative Sensitivity of Three Tropical Cladoceran Species (Diaphanosoma brachyurum, Ceriodaphnia rigaudii and Moinodaphnia macleayi) to Six Chemicals | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control41(12): 2713-2720 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Population | NOEC | 50 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Neomysis mercedis | Mortality | LC50 | 4 | days | 71 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Brandt,O.M., R.W. Fujimura, and B.J. Finlayson | Use of Neomysis mercedis (Crustacea: Mysidacea) for Estuarine Toxicity Tests | Trans. Am. Fish. Soc.122(2): 279-288 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 10 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 24 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 4.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | <10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Poynton,H.C., A.V. Loguinov, J.R. Varshavsky, S. Chan, E.J. Perkins, and C.D. Vulpe | Gene Expression Profiling in Daphnia magna. Part I: Concentration-Dependent Profiles Provide Support for the No Observed Transcriptional Effect Level | Environ. Sci. Technol.42(16): 6250-6256 | 2008 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 14 | days | 48.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 84.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Mortality | LC50 | 4 | days | 350 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ward,D.J., V. Perez-Landa, D.A. Spadaro, S.L. Simpson, and D.F. Jolley | An Assessment of Three Harpacticoid Copepod Species for Use in Ecotoxicological Testing | Arch. Environ. Contam. Toxicol.61:414-425 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 123 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Reboleira,A.S.P.S., N. Abrantes, P. Oromi, and F. Goncalves | Acute Toxicity of Copper Sulfate and Potassium Dichromate on Stygobiont Proasellus: General Aspects of Groundwater Ecotoxicology and Future Perspectives | Water Air Soil Pollut.224(1550): 9 p. | 2013 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia carinata | Mortality | LC50 | 2 | days | 37.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cooper,N.L., J.R. Bidwell, and A. Kumar | Toxicity of Copper, Lead, and Zinc Mixtures to Ceriodaphnia dubia and Daphnia carinata | Ecotoxicol. Environ. Saf.72:1523-1528 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 91.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 4 | days | 34.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Oris,J.T., R.W. Winner, and M.V. Moore | A Four-Day Survival and Reproduction Toxicity Test for Ceriodaphnia dubia | Environ. Toxicol. Chem.10(2): 217-224 | 1991 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 13 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Oda,S., N. Tatarazako, H. Watanabe, M. Morita, and T. Iguchi | Genetic Differences in the Production of Male Neonates in Daphnia magna Exposed to Juvenile Hormone Analogs | Chemosphere63(9): 1477-1484 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 184 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Palaemonetes sp. Palaemonetes pugio | Mortality | LC50 | 2 | days | 2100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Burton,D.T., and D.J. Fisher | Acute Toxicity of Cadmium, Copper, Zinc, Ammonia, 3,3'-Dichlorobenzidine, 2,6-Dichloro-4-Nitroaniline, Methylene Chloride, and 2,4,6-Trichlorophenol to Juvenile Grass Shrimp and Killifish | Bull. Environ. Contam. Toxicol.44(5): 776-783 | 1990 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia sp. Ceriodaphnia rigaudi | Mortality | LC50 | 2 | days | 340 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mohammed,A. | Comparative Sensitivities of the Tropical Cladoceran, Ceriodaphnia rigaudii and the Temperate Species Daphnia magna to Seven Toxicants | Toxicol. Environ. Chem.89(2): 347-352 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Neomysis mercedis | Mortality | LC50 | 4 | days | 160 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Brandt,O.M., R.W. Fujimura, and B.J. Finlayson | Use of Neomysis mercedis (Crustacea: Mysidacea) for Estuarine Toxicity Tests | Trans. Am. Fish. Soc.122(2): 279-288 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Neomysis mercedis | Mortality | LC50 | 4 | days | 220 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Brandt,O.M., R.W. Fujimura, and B.J. Finlayson | Use of Neomysis mercedis (Crustacea: Mysidacea) for Estuarine Toxicity Tests | Trans. Am. Fish. Soc.122(2): 279-288 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Population | LOEC | 21 | days | 92 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia galeata | Mortality | NOEC | 55.7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Piscia,R., M. Colombini, B. Ponti, R. Bettinetti, D. Monticelli, V. Rossi, and M. Manca | Lifetime Response of Contemporary Versus Resurrected Daphnia galeata Sars (Crustacea, Cladocera) to Cu(II) Chronic Exposure | Bull. Environ. Contam. Toxicol.94:46-51 | 2015 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 10 | days | 9.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 14 | days | 3.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 163 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 92 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 29.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 20.1 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Acartia tonsa | Mortality | NOEC | 3 | days | 158 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bielmyer,G.K., M. Grosell, and K.V. Brix | Toxicity of Silver, Zinc, Copper, and Nickel to the Copepod Acartia tonsa Exposed via a Phytoplankton Diet | Environ. Sci. Technol.40(6): 2063-2068 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | LOEC | 7 | days | 2.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cooper,N.L., J.R. Bidwell, and A. Kumar | Toxicity of Copper, Lead, and Zinc Mixtures to Ceriodaphnia dubia and Daphnia carinata | Ecotoxicol. Environ. Saf.72:1523-1528 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia ambigua | Mortality | NOEL | 10 | days | 27 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harmon,S.M., W.L. Specht, and G.T. Chandler | A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States | Arch. Environ. Contam. Toxicol.45(1): 79-85 | 2003 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia galeata | Mortality | 10 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Piscia,R., M. Colombini, B. Ponti, R. Bettinetti, D. Monticelli, V. Rossi, and M. Manca | Lifetime Response of Contemporary Versus Resurrected Daphnia galeata Sars (Crustacea, Cladocera) to Cu(II) Chronic Exposure | Bull. Environ. Contam. Toxicol.94:46-51 | 2015 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | LOEC | 21 | days | 22.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 115 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 175 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 179 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.036 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Meador,J.P. | The Interaction of pH, Dissolved Organic Carbon, and Total Copper in the Determination of Ionic Copper and Toxicity | Aquat. Toxicol.19(1): 13-31 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 7 | days | 24.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Oris,J.T., R.W. Winner, and M.V. Moore | A Four-Day Survival and Reproduction Toxicity Test for Ceriodaphnia dubia | Environ. Toxicol. Chem.10(2): 217-224 | 1991 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 4 | days | 34.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Oris,J.T., R.W. Winner, and M.V. Moore | A Four-Day Survival and Reproduction Toxicity Test for Ceriodaphnia dubia | Environ. Toxicol. Chem.10(2): 217-224 | 1991 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.23 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cabejszek,I., and M. Stasiak | Investigation on the Influence of some Metals on the Biocoenosis of Water with the Use of Daphnia magna as an Indicator (Part I) (Badania nad Wplywem Niektorych Metali na Biocenoze Wodna przy Zastosowaniu Daphnia magna j | Roczyn. Zabl. Hig. Warsaw11:303-312 | 1960 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | <0.02 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Meador,J.P. | The Interaction of pH, Dissolved Organic Carbon, and Total Copper in the Determination of Ionic Copper and Toxicity | Aquat. Toxicol.19(1): 13-31 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Population | LOEC | 50 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 280 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mohammed,A. | Comparative Sensitivities of the Tropical Cladoceran, Ceriodaphnia rigaudii and the Temperate Species Daphnia magna to Seven Toxicants | Toxicol. Environ. Chem.89(2): 347-352 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia lumholtzi | Intoxication | 4 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., and S.K. Battish | Experimental Studies on the Acute Toxicity of Copper to Daphnia lumholtzi (Sars) | Indian J. Ecol.11(2): 183-185 | 1984 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 10 | days | 132 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia galeata | Reproduction | LOEC | 70 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Piscia,R., M. Colombini, B. Ponti, R. Bettinetti, D. Monticelli, V. Rossi, and M. Manca | Lifetime Response of Contemporary Versus Resurrected Daphnia galeata Sars (Crustacea, Cladocera) to Cu(II) Chronic Exposure | Bull. Environ. Contam. Toxicol.94:46-51 | 2015 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | LOEC | 10 | days | 92 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | LOEC | 10 | days | 26 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | LOEC | 10 | days | 36 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia ambigua | Reproduction | LOEL | 10 | days | 27 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harmon,S.M., W.L. Specht, and G.T. Chandler | A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States | Arch. Environ. Contam. Toxicol.45(1): 79-85 | 2003 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 5 | days | 67 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cabejszek,I., and M. Stasiak | Investigation on the Influence of some Metals on the Biocoenosis of Water with the Use of Daphnia magna as an Indicator (Part I) (Badania nad Wplywem Niektorych Metali na Biocenoze Wodna przy Zastosowaniu Daphnia magna j | Roczyn. Zabl. Hig. Warsaw11:303-312 | 1960 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braginskij,L.P., and E.P. Shcherban | Acute Toxicity of Heavy Metals to Aquatic Invertebrates Under Different Temperature Conditions | Hydrobiol. J.14(6): 78-82 | 1979 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 91 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Palaemonetes sp. Palaemonetes paludosus | Mortality | LC50 | 3 | days | 820 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamthe,P.N. | Acute Toxicity of the Agricultural Chemicals Endosulfan and Copper Sulfate to a Freshwater Shrimp, Palaemonetes paludosus | M.S.Thesis, Florida Atlantic University, Boca Raton, FL:28 p. | 2002 | 2018/03/22 | |||||
| 甲殻類 | Acartia tonsa | Mortality | LOEC | 7 | days | >158 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bielmyer,G.K., M. Grosell, and K.V. Brix | Toxicity of Silver, Zinc, Copper, and Nickel to the Copepod Acartia tonsa Exposed via a Phytoplankton Diet | Environ. Sci. Technol.40(6): 2063-2068 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia ambigua | Mortality | LOEL | 10 | days | 33 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harmon,S.M., W.L. Specht, and G.T. Chandler | A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States | Arch. Environ. Contam. Toxicol.45(1): 79-85 | 2003 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Mortality | LT50 | 1.5 | days | 400 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ward,D.J., V. Perez-Landa, D.A. Spadaro, S.L. Simpson, and D.F. Jolley | An Assessment of Three Harpacticoid Copepod Species for Use in Ecotoxicological Testing | Arch. Environ. Contam. Toxicol.61:414-425 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Palaemonetes sp. Palaemonetes paludosus | Mortality | LC50 | 4 | days | 790 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamthe,P.N. | Acute Toxicity of the Agricultural Chemicals Endosulfan and Copper Sulfate to a Freshwater Shrimp, Palaemonetes paludosus | M.S.Thesis, Florida Atlantic University, Boca Raton, FL:28 p. | 2002 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 0.25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braginskij,L.P., and E.P. Shcherban | Acute Toxicity of Heavy Metals to Aquatic Invertebrates Under Different Temperature Conditions | Hydrobiol. J.14(6): 78-82 | 1979 | 2018/03/22 | |||||
| 甲殻類 | Palaemonetes sp. Palaemonetes paludosus | Mortality | LC50 | 2 | days | 900 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamthe,P.N. | Acute Toxicity of the Agricultural Chemicals Endosulfan and Copper Sulfate to a Freshwater Shrimp, Palaemonetes paludosus | M.S.Thesis, Florida Atlantic University, Boca Raton, FL:28 p. | 2002 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 4 | days | 1.46 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 7 | days | 10.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 38 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 131 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 220 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 182 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Mortality | LT50 | 1.9 | hours | 200 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ward,D.J., V. Perez-Landa, D.A. Spadaro, S.L. Simpson, and D.F. Jolley | An Assessment of Three Harpacticoid Copepod Species for Use in Ecotoxicological Testing | Arch. Environ. Contam. Toxicol.61:414-425 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 282 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 2.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Long,K.E., E.J. Van Genderen, and S.J. Klaine | The Effects of Low Hardness and pH on Copper Toxicity to Daphnia magna - Short Communication | Environ. Toxicol. Chem.23(1): 72-75 | 2004 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 7 | days | 7.9 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 7 | days | 11 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 7 | days | 14 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | ||||||
| 甲殻類 | Palaemonetes sp. Palaemonetes paludosus | Mortality | LC50 | 1 | days | 1340 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamthe,P.N. | Acute Toxicity of the Agricultural Chemicals Endosulfan and Copper Sulfate to a Freshwater Shrimp, Palaemonetes paludosus | M.S.Thesis, Florida Atlantic University, Boca Raton, FL:28 p. | 2002 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 113 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Intoxication | EC50 | 2 | hours | 142 | nM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kolts,J.M., C.J. Boese, and J.S. Meyer | Acute Toxicity of Copper and Silver to Ceriodaphnia dubia in the Presence of Food | Environ. Toxicol. Chem.25(7): 1831-1835 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 274 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 1120 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Acartia tonsa | Mortality | NOEC | 7 | days | 158 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bielmyer,G.K., M. Grosell, and K.V. Brix | Toxicity of Silver, Zinc, Copper, and Nickel to the Copepod Acartia tonsa Exposed via a Phytoplankton Diet | Environ. Sci. Technol.40(6): 2063-2068 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 9.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 97.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 7.24 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 32 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 66.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Debelak,R.W. | Acute Toxicity of Mixtures of Copper, Chromium and Cadmium to Daphnia magna | M.S.Thesis, Miami University, Oxford, OH:54 p. | 1975 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 376 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Natale,O.E., C.E. Gomez, and M.V. Leis | Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics | Integr. Environ. Assess. Manag.3(4): 517-528 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | EC50 | 3 | days | 29 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | EC50 | 2 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC100 | 3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.00115 | mmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Arambasic,M.B., S. Bjelic, and G. Subakov | Acute Toxicity of Heavy Metals (Copper, Lead, Zinc), Phenol and Sodium on Allium cepa L.., Lepidium sativum L. and Daphnia magna St.: Comparative Investigations and the Practical Applications | Water Res.29(2): 497-503 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | EC50 | 3 | days | 23 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Debelak,R.W. | Acute Toxicity of Mixtures of Copper, Chromium and Cadmium to Daphnia magna | M.S.Thesis, Miami University, Oxford, OH:54 p. | 1975 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cabejszek,I., and M. Stasiak | Investigation on the Influence of some Metals on the Biocoenosis of Water with the Use of Daphnia magna as an Indicator (Part I) (Badania nad Wplywem Niektorych Metali na Biocenoze Wodna przy Zastosowaniu Daphnia magna j | Roczyn. Zabl. Hig. Warsaw11:303-312 | 1960 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 70.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Debelak,R.W. | Acute Toxicity of Mixtures of Copper, Chromium and Cadmium to Daphnia magna | M.S.Thesis, Miami University, Oxford, OH:54 p. | 1975 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Physiological | LOEC | 0.5 | hours | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, S.L. Burks, R.A. Atherton, and J.T. Blankemeyer | Utilizing Biomarker Techniques: Cellular Membrane Potential as a Biomarker of Subchronic Toxicity | ASTM Spec. Tech. Publ.:177-187 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 7 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 7 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 159 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Intoxication | EC50 | 2 | days | 81.4 | nM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kolts,J.M., C.J. Boese, and J.S. Meyer | Acute Toxicity of Copper and Silver to Ceriodaphnia dubia in the Presence of Food | Environ. Toxicol. Chem.25(7): 1831-1835 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Intoxication | EC50 | 2 | days | 67.1 | nM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kolts,J.M., C.J. Boese, and J.S. Meyer | Acute Toxicity of Copper and Silver to Ceriodaphnia dubia in the Presence of Food | Environ. Toxicol. Chem.25(7): 1831-1835 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Intoxication | EC50 | 2 | days | 816 | nM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kolts,J.M., C.J. Boese, and J.S. Meyer | Acute Toxicity of Copper and Silver to Ceriodaphnia dubia in the Presence of Food | Environ. Toxicol. Chem.25(7): 1831-1835 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Intoxication | EC50 | 1 | hours | 184 | nM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kolts,J.M., C.J. Boese, and J.S. Meyer | Acute Toxicity of Copper and Silver to Ceriodaphnia dubia in the Presence of Food | Environ. Toxicol. Chem.25(7): 1831-1835 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Intoxication | EC50 | 2 | days | 571 | nM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kolts,J.M., C.J. Boese, and J.S. Meyer | Acute Toxicity of Copper and Silver to Ceriodaphnia dubia in the Presence of Food | Environ. Toxicol. Chem.25(7): 1831-1835 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Intoxication | EC50 | 0.5 | hours | 448 | nM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kolts,J.M., C.J. Boese, and J.S. Meyer | Acute Toxicity of Copper and Silver to Ceriodaphnia dubia in the Presence of Food | Environ. Toxicol. Chem.25(7): 1831-1835 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | EC50 | 3 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 93 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., P.K. Ray, and H. Chandra | Daphnia magna as a Model to Assess Heavy Metal Toxicity: Comparative Assessment with Mouse System | Acta Hydrochim. Hydrobiol.15(4): 427-432 | 1987 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Intoxication | EC50 | 2 | days | 65.6 | nM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kolts,J.M., C.J. Boese, and J.S. Meyer | Acute Toxicity of Copper and Silver to Ceriodaphnia dubia in the Presence of Food | Environ. Toxicol. Chem.25(7): 1831-1835 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Intoxication | EC50 | 2 | days | 153 | nM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kolts,J.M., C.J. Boese, and J.S. Meyer | Acute Toxicity of Copper and Silver to Ceriodaphnia dubia in the Presence of Food | Environ. Toxicol. Chem.25(7): 1831-1835 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 41.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Baird,D.J., I. Barber, M. Bradley, A.M.V.M. Soares, and P. Calow | A Comparative Study of Genotype Sensitivity to Acute Toxic Stress Using Clones of Daphnia magna Straus | Ecotoxicol. Environ. Saf.21(3): 257-265 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.013 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Meador,J.P. | The Interaction of pH, Dissolved Organic Carbon, and Total Copper in the Determination of Ionic Copper and Toxicity | Aquat. Toxicol.19(1): 13-31 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.016 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Meador,J.P. | The Interaction of pH, Dissolved Organic Carbon, and Total Copper in the Determination of Ionic Copper and Toxicity | Aquat. Toxicol.19(1): 13-31 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 7.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Meador,J.P. | The Interaction of pH, Dissolved Organic Carbon, and Total Copper in the Determination of Ionic Copper and Toxicity | Aquat. Toxicol.19(1): 13-31 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | 17.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Baird,D.J., I. Barber, M. Bradley, A.M.V.M. Soares, and P. Calow | A Comparative Study of Genotype Sensitivity to Acute Toxic Stress Using Clones of Daphnia magna Straus | Ecotoxicol. Environ. Saf.21(3): 257-265 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LOEC | 21 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | EC50 | 1 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | EC50 | 1 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | EC50 | 1 | days | 31 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 7 | days | 35 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | EC50 | 3 | days | 24 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC50 | 2 | days | >111 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | EC50 | 2 | days | 29 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 9.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.15 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.08 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.17 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEL | 7 | days | 19 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harmon,S.M., W.L. Specht, and G.T. Chandler | A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States | Arch. Environ. Contam. Toxicol.45(1): 79-85 | 2003 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,B.M., M.M. Chao, O.R. Tedrow, A.D. McQueen, and J.H.,Jr. Rodgers | Responses of Lepomis macrochirus, Pimephales promelas, Hyalella azteca, Ceriodaphnia dubia, and Daphnia magna to Exposures of Algimycin PWF and Copper Sulfate Pentahydrate | J. Aquat. Plant Manag.46:176-183 | 2008 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 18 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kim,K.T., Y.G. Lee, and S.D. Kim | Combined Toxicity of Copper and Phenol Derivatives to Daphnia magna: Effect of Complexation Reaction | Environ. Int.32(4): 487-492 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 1 | days | 101.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Guilhermino,L., T.C. Diamantino, R. Ribeiro, F. Goncalves, and A.M.V.M. Soares | Suitability of Test Media Containing EDTA for the Evaluation of Acute Metal Toxicity to Daphnia magna Straus | Ecotoxicol. Environ. Saf.38(3): 292-295 | 1997 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 4 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,B.M., M.M. Chao, O.R. Tedrow, A.D. McQueen, and J.H.,Jr. Rodgers | Responses of Lepomis macrochirus, Pimephales promelas, Hyalella azteca, Ceriodaphnia dubia, and Daphnia magna to Exposures of Algimycin PWF and Copper Sulfate Pentahydrate | J. Aquat. Plant Manag.46:176-183 | 2008 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 18 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Long,K.E. | The Effect of Low Hardness and pH on Copper Toxicity to Daphnia magna | M.S. Thesis, Clemson University, Clemson, SC:75 p. | 2000 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 4.16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harmon,S.M., W.L. Specht, and G.T. Chandler | A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States | Arch. Environ. Contam. Toxicol.45(1): 79-85 | 2003 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 7 | days | 7.68 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | EC50 | 1 | days | 21 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 4 | days | 1.3 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Meador,J.P., F.B. Taub, and T.H. Sibley | Copper Dynamics and the Mechanism of Ecosystem Level Recovery in a Standardized Aquatic Microcosm | Ecol. Appl.3(1): 139-155 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Physiological | LOEC | 0.75 | hours | 7.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Simbeya,C.K., C.E. Csuzdi, W.A. Dew, and G.G. Pyle | Electroantennogram Measurement of the Olfactory Response of Daphnia spp. and Its Impairment by Waterborne Copper | Ecotoxicol. Environ. Saf.82:80-84 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 85.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W., T. Keeling, R. Yeager, and M.P. Farrell | Effect of Food Type on the Acute and Chronic Toxicity of Copper to Daphnia magna | Freshw. Biol.7(4): 343-349 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 47.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 30.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., J.R. Tomasso, and S.J. Klaine | Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters: Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.28(8): 1663-1670 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC50 | 7 | days | >100 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 6.98 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., D.E. Koplish, J. McMahon III, and R. Rost | Evaluation of the Water-Effect Ratio Procedure for Metals in a Riverine System | Environ. Toxicol. Chem.16(3): 509-520 | 1997 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 175 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 2 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 70.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 119 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 151 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 78.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 169 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 9.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 181 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 80.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 126 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 148 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 60.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 113 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 75.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | IC50 | 4 | days | 38.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Oris,J.T., R.W. Winner, and M.V. Moore | A Four-Day Survival and Reproduction Toxicity Test for Ceriodaphnia dubia | Environ. Toxicol. Chem.10(2): 217-224 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | NOEC | 10 | days | 68 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | NOEC | 10 | days | <92 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | NOEC | 10 | days | 15 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | NOEC | 10 | days | <36 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia ambigua | Reproduction | NOEL | 10 | days | 19 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harmon,S.M., W.L. Specht, and G.T. Chandler | A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States | Arch. Environ. Contam. Toxicol.45(1): 79-85 | 2003 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 62.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | EC10 | 7 | days | 25 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Mortality | LC50 | 2 | days | 226 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro | Differential Resistance to Copper and Mine Drainage in Daphnia longispina: Relationship with Allozyme Genotypes | Environ. Toxicol. Chem.26(9): 1904-1909 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Population | LOEC | 50 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | LOEC | 21 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Population | LOEC | 21 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | LOEC | 21 | days | >18.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 76.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 55.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | EC10 | 7 | days | 46 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 11.34 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Black,M.C. | Water Quality Standards for North Carolina's Endangered Mussels | Final Report (Revised), Department of Environmental Health Science, University of Georgia, Athens, GA:26 p. | 2003 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia lumholtzi | Intoxication | LC50 | 4 | days | 300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., and S.K. Battish | Experimental Studies on the Acute Toxicity of Copper to Daphnia lumholtzi (Sars) | Indian J. Ecol.11(2): 183-185 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia lumholtzi | Intoxication | LC50 | 3 | days | 322 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., and S.K. Battish | Experimental Studies on the Acute Toxicity of Copper to Daphnia lumholtzi (Sars) | Indian J. Ecol.11(2): 183-185 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 27.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 11.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bright,G.R. | Variability of the "Water Effect Ratio" for Copper Toxicity - a Case Study | Proc.Toxic Subst.Water Environ., May 23-30, Water Environ.Fed., Alexandria, VA:5.23 - 5.30 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 11 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bright,G.R. | Variability of the "Water Effect Ratio" for Copper Toxicity - a Case Study | Proc.Toxic Subst.Water Environ., May 23-30, Water Environ.Fed., Alexandria, VA:5.23 - 5.30 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 36.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bright,G.R. | Variability of the "Water Effect Ratio" for Copper Toxicity - a Case Study | Proc.Toxic Subst.Water Environ., May 23-30, Water Environ.Fed., Alexandria, VA:5.23 - 5.30 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Intoxication | LC50 | 3 | days | 54 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W., and M.P. Farrell | Acute and Chronic Toxicity of Copper to Four Species of Daphnia | J. Fish. Res. Board Can.33(8): 1685-1691 | 1976 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | LOEC | 21 | days | >92 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 53.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 1 | days | 11.34 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Black,M.C. | Water Quality Standards for North Carolina's Endangered Mussels | Final Report (Revised), Department of Environmental Health Science, University of Georgia, Athens, GA:26 p. | 2003 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 14.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 1 | days | 19.83 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Black,M.C. | Water Quality Standards for North Carolina's Endangered Mussels | Final Report (Revised), Department of Environmental Health Science, University of Georgia, Athens, GA:26 p. | 2003 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 16.24 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Black,M.C. | Water Quality Standards for North Carolina's Endangered Mussels | Final Report (Revised), Department of Environmental Health Science, University of Georgia, Athens, GA:26 p. | 2003 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 15.39 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Black,M.C. | Water Quality Standards for North Carolina's Endangered Mussels | Final Report (Revised), Department of Environmental Health Science, University of Georgia, Athens, GA:26 p. | 2003 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 18.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 92 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 20.1 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | LOEC | 21 | days | >18.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 42.93 | μg/L | ACTIVE INGREDIENT | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., D.J. Baird, A.J.A. Nogueira, A.M.V.M. Soares, and M.C. Riva | Toxicity of Binary Mixtures of Metals and Pyrethroid Insecticides to Daphnia magna Straus. Implications for Multi-Substance Risks Assessment | Aquat. Toxicol.78(1): 1-14 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 36.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bright,G.R. | Variability of the "Water Effect Ratio" for Copper Toxicity - a Case Study | Proc.Toxic Subst.Water Environ., May 23-30, Water Environ.Fed., Alexandria, VA:5.23 - 5.30 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Reproduction | NOEC | 70 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ingersoll,C.G., and R.W. Winner | Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium | Environ. Toxicol. Chem.1:321-327 | 1982 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 18 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagneten,A.M., and I. Vila | Effects of Cu+2 and pH on the Fitness of Ceriodaphnia dubia (Richard 1894) (Crustacea, Cladocera) in Microcosm Experiments | Environ. Toxicol.16(5): 428-438 | 2001 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 13 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagneten,A.M., and I. Vila | Effects of Cu+2 and pH on the Fitness of Ceriodaphnia dubia (Richard 1894) (Crustacea, Cladocera) in Microcosm Experiments | Environ. Toxicol.16(5): 428-438 | 2001 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | NOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Murray-Gulde,C.L., J.E. Heatley, A.L. Schwartzman, and J.H.,Jr. Rodgers | Algicidal Effectiveness of Clearigate, Cutrine-Plus, and Copper Sulfate and Margins of Safety Associated with Their Use | Arch. Environ. Contam. Toxicol.43(1): 19-27 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | EC50 | 10 | days | 67 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Tisbe battagliai | Reproduction | EC50 | 2 | days | 28.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diz,F.R., C.V.M. Araujo, I. Moreno-Garrido, M. Hampel, and J. Blasco | Short-Term Toxicity Tests on the Harpacticoid Copepod Tisbe battagliai: Lethal and Reproductive Endpoints | Ecotoxicol. Environ. Saf.72(7): 1881-1886 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Tisbe battagliai | Reproduction | EC50 | 3 | days | 30.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diz,F.R., C.V.M. Araujo, I. Moreno-Garrido, M. Hampel, and J. Blasco | Short-Term Toxicity Tests on the Harpacticoid Copepod Tisbe battagliai: Lethal and Reproductive Endpoints | Ecotoxicol. Environ. Saf.72(7): 1881-1886 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Tisbe battagliai | Reproduction | EC50 | 2 | days | 28.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diz,F.R., C.V.M. Araujo, I. Moreno-Garrido, M. Hampel, and J. Blasco | Short-Term Toxicity Tests on the Harpacticoid Copepod Tisbe battagliai: Lethal and Reproductive Endpoints | Ecotoxicol. Environ. Saf.72(7): 1881-1886 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Tisbe battagliai | Reproduction | EC50 | 2 | days | 39.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diz,F.R., C.V.M. Araujo, I. Moreno-Garrido, M. Hampel, and J. Blasco | Short-Term Toxicity Tests on the Harpacticoid Copepod Tisbe battagliai: Lethal and Reproductive Endpoints | Ecotoxicol. Environ. Saf.72(7): 1881-1886 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia lumholtzi | Intoxication | LC50 | 2 | days | 341 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., and S.K. Battish | Experimental Studies on the Acute Toxicity of Copper to Daphnia lumholtzi (Sars) | Indian J. Ecol.11(2): 183-185 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 580 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., P.K. Ray, and H. Chandra | Daphnia magna as a Model to Assess Heavy Metal Toxicity: Comparative Assessment with Mouse System | Acta Hydrochim. Hydrobiol.15(4): 427-432 | 1987 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 104 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cherry,D.S., J.H. Van Hassel, J.L. Farris, D.J. Soucek, and R.J. Neves | Site-Specific Derivation of the Acute Copper Criteria for the Clinch River, Virginia | Hum. Ecol. Risk Assess.8(3): 591-601 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Poynton,H.C., J.R. Varshavsky, B. Chang, G. Cavigiolio, S. Chan, P.S. Holman, A.V. Loguinov, D.J. Bauer, K. Komachi, E.C | Daphnia magna Ecotoxicogenomics Provides Mechanistic Insights into Metal Toxicity | Environ. Sci. Technol.41(3): 1044-1050 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Tisbe battagliai | Reproduction | EC50 | 3 | days | 44.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diz,F.R., C.V.M. Araujo, I. Moreno-Garrido, M. Hampel, and J. Blasco | Short-Term Toxicity Tests on the Harpacticoid Copepod Tisbe battagliai: Lethal and Reproductive Endpoints | Ecotoxicol. Environ. Saf.72(7): 1881-1886 | 2009 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia ambigua | Reproduction | EC50 | 10 | days | 30.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harmon,S.M., W.L. Specht, and G.T. Chandler | A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States | Arch. Environ. Contam. Toxicol.45(1): 79-85 | 2003 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | EC50 | 10 | days | 24 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | EC50 | 10 | days | 31 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC100 | 1 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | EC50 | 10 | days | 72 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | LOEC | 10 | days | 64 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Mysidopsis bahia | Mortality | LC50 | 4 | days | 209 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Science Applications International Corp. | Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study | Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p. | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 18.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 81 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cherry,D.S., J.H. Van Hassel, J.L. Farris, D.J. Soucek, and R.J. Neves | Site-Specific Derivation of the Acute Copper Criteria for the Clinch River, Virginia | Hum. Ecol. Risk Assess.8(3): 591-601 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 3.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | LOEC | 21 | days | >92 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC100 | 1 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia ambigua | Mortality | 2 | days | 13.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harmon,S.M., W.L. Specht, and G.T. Chandler | A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States | Arch. Environ. Contam. Toxicol.45(1): 79-85 | 2003 | 2018/03/22 | ||||||
| 甲殻類 | Palaemonetes sp. Palaemonetes paludosus | Mortality | 4 | days | 1500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamthe,P.N. | Acute Toxicity of the Agricultural Chemicals Endosulfan and Copper Sulfate to a Freshwater Shrimp, Palaemonetes paludosus | M.S.Thesis, Florida Atlantic University, Boca Raton, FL:28 p. | 2002 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 11.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC10 | 7 | days | 10 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 4 | days | 28 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McIntosh,A.W., and N.R. Kevern | Toxicity of Copper to Zooplankton | J. Environ. Qual.3(2): 166-170 | 1974 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | LC50 | 1 | days | 80 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bringmann,G., and R. Kuhn | Results of the Damaging Effect of Water Pollutants on Daphnia magna (Befunde der Schadwirkung Wassergefahrdender Stoffe Gegen Daphnia magna) | TR-79-1204, Literature Research Company, Annandale, VA:26 p. | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | 8 | days | 0.64 | μg TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hueck,H.J., and D.M.M. Adema | Toxicological Investigations in an Artificial Ecosystem. A Progress Report on Copper Toxicity Towards Algae and Daphniae | Helgol. Wiss. Meeresunters.17:188-199 | 1968 | 2018/03/22 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 4 | days | 42 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,B.M., M.M. Chao, O.R. Tedrow, A.D. McQueen, and J.H.,Jr. Rodgers | Responses of Lepomis macrochirus, Pimephales promelas, Hyalella azteca, Ceriodaphnia dubia, and Daphnia magna to Exposures of Algimycin PWF and Copper Sulfate Pentahydrate | J. Aquat. Plant Manag.46:176-183 | 2008 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC10 | 7 | days | 20 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 95 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cherry,D.S., J.H. Van Hassel, J.L. Farris, D.J. Soucek, and R.J. Neves | Site-Specific Derivation of the Acute Copper Criteria for the Clinch River, Virginia | Hum. Ecol. Risk Assess.8(3): 591-601 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 46.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bright,G.R. | Variability of the "Water Effect Ratio" for Copper Toxicity - a Case Study | Proc.Toxic Subst.Water Environ., May 23-30, Water Environ.Fed., Alexandria, VA:5.23 - 5.30 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 199 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 213 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 55.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 1 | days | 17.14 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Black,M.C. | Water Quality Standards for North Carolina's Endangered Mussels | Final Report (Revised), Department of Environmental Health Science, University of Georgia, Athens, GA:26 p. | 2003 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 18.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,S.M., and R.A. Roline | Evaluation of the Sensitivity of Rapid Toxicity Tests Relative to Daphnid Acute Lethality Tests | Bull. Environ. Contam. Toxicol.60:292-299 | 1998 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 165 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 7 | days | 188 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 19.1 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini | Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods | J. Environ. Biol.28(3): 691-696 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC100 | 3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | EC50 | 10 | days | 47 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | EC50 | 10 | days | 23 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Nitocra spinipes | Reproduction | EC50 | 10 | days | 45 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco | Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure | Environ. Sci. Technol.46(12): 6835-6842 | 2012 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulicaria | Mortality | LC50 | 2 | days | 10.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | 8 | days | 0.39 | μg TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hueck,H.J., and D.M.M. Adema | Toxicological Investigations in an Artificial Ecosystem. A Progress Report on Copper Toxicity Towards Algae and Daphniae | Helgol. Wiss. Meeresunters.17:188-199 | 1968 | 2018/03/22 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC100 | 2 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shcherban,E.P. | Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature | Hydrobiol. J.13(4): 75-80 | 1977 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Avoidance | EC50 | 0.5 | days | 96 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lopes,I., D.J. Baird, and R. Ribeiro | Avoidance of Copper Contamination by Field Populations of Daphnia longispina | Environ. Toxicol. Chem.23(7): 1702-1708 | 2004 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia sp. Daphnia longispina | Avoidance | EC50 | 0.5 | days | 97 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lopes,I., D.J. Baird, and R. Ribeiro | Avoidance of Copper Contamination by Field Populations of Daphnia longispina | Environ. Toxicol. Chem.23(7): 1702-1708 | 2004 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Enzyme | EC50 | 1.3 | hours | 170 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/20 | |||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | >0~<50 | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosenfeldt,R.R., F. Seitz, R. Schulz, and M. Bundschuh | Heavy Metal Uptake and Toxicity in the Presence of Titanium Dioxide Nanoparticles: A Factorial Approach Using Daphnia magna | Environ. Sci. Technol.48(12): 6965-6972 | 2014 | 2018/02/28 | ||||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 2 | days | >0~<50 | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosenfeldt,R.R., F. Seitz, R. Schulz, and M. Bundschuh | Heavy Metal Uptake and Toxicity in the Presence of Titanium Dioxide Nanoparticles: A Factorial Approach Using Daphnia magna | Environ. Sci. Technol.48(12): 6965-6972 | 2014 | 2018/02/28 | ||||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 3 | days | >0~<50 | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosenfeldt,R.R., F. Seitz, R. Schulz, and M. Bundschuh | Heavy Metal Uptake and Toxicity in the Presence of Titanium Dioxide Nanoparticles: A Factorial Approach Using Daphnia magna | Environ. Sci. Technol.48(12): 6965-6972 | 2014 | 2018/02/28 | ||||||
| 甲殻類 | Daphnia magna | Intoxication | EC50 | 3 | days | >0~<50 | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosenfeldt,R.R., F. Seitz, R. Schulz, and M. Bundschuh | Heavy Metal Uptake and Toxicity in the Presence of Titanium Dioxide Nanoparticles: A Factorial Approach Using Daphnia magna | Environ. Sci. Technol.48(12): 6965-6972 | 2014 | 2018/02/28 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 24000 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kubitz,J.A., E.C. Lewek, J.M. Besser, J.B. Drake III, and J.P. Giesy | Effects of Copper-Contaminated Sediments on Hyalella azteca, Daphnia magna, and Ceriodaphnia dubia: Survival, Growth, and Enzyme Inhibition | Arch. Environ. Contam. Toxicol.29(1): 97-103 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 2 | days | 60000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ribeiro,R., I. Lopes, A.M.M. Pereira, F. Goncalves, and A.M.V.M. Soares | Survival Time of Ceriodaphnia dubia in Acid Waters with Metal Contamination | Bull. Environ. Contam. Toxicol.64(1): 130-136 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 10 | days | 79.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 7 | days | 412 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 7 | days | 227 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 7 | days | 98 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | 15 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 22000 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kubitz,J.A., E.C. Lewek, J.M. Besser, J.B. Drake III, and J.P. Giesy | Effects of Copper-Contaminated Sediments on Hyalella azteca, Daphnia magna, and Ceriodaphnia dubia: Survival, Growth, and Enzyme Inhibition | Arch. Environ. Contam. Toxicol.29(1): 97-103 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | NOEC | 42 | days | >60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 340 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ferrando,M.D., E. Andreu-Moliner, and A. Fernandez-Casalderrey | Relative Sensitivity of Daphnia magna and Brachionus calyciflorus to Five Pesticides | J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes27(5): 511-522 | 1992 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | NOEC | 42 | days | 35 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | NOEC | 42 | days | 7.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Physiological | LOEC | 0.5 | hours | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, S.L. Burks, R.A. Atherton, and J.T. Blankemeyer | Utilizing Biomarker Techniques: Cellular Membrane Potential as a Biomarker of Subchronic Toxicity | ASTM Spec. Tech. Publ.:177-187 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | NOEC | 42 | days | <40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 10 | days | 3.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | NOEC | 42 | days | <30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | NOEC | 42 | days | <30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 4 | days | 10.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | LC50 | 4 | days | <150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,Z., S. Huang, and Q. Liu | Use of Anodic Stripping Voltammetry in Predicting Toxicity of Copper in River Water | Environ. Toxicol. Chem.21(9): 1788-1795 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 4 | days | 36.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 7.25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | <0.03 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Meador,J.P. | The Interaction of pH, Dissolved Organic Carbon, and Total Copper in the Determination of Ionic Copper and Toxicity | Aquat. Toxicol.19(1): 13-31 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 10 | days | 35.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 10 | days | 7.62 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 4 | days | 7.96 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 84 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 4 | days | 9.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | 2 | days | 64 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hoang,T.C., J.S. Gallagher, J.R. Tomasso, and S.J. Klaine | Toxicity of Two Pulsed Metal Exposures to Daphnia magna: Relative Effects of Pulsed Duration-Concentration and Influence of Interpulse Period | Arch. Environ. Contam. Toxicol.53(4): 579-589 | 2007 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 23 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagneten,A.M., and I. Vila | Effects of Cu+2 and pH on the Fitness of Ceriodaphnia dubia (Richard 1894) (Crustacea, Cladocera) in Microcosm Experiments | Environ. Toxicol.16(5): 428-438 | 2001 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 2 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ribeiro,R., I. Lopes, A.M.M. Pereira, F. Goncalves, and A.M.V.M. Soares | Survival Time of Ceriodaphnia dubia in Acid Waters with Metal Contamination | Bull. Environ. Contam. Toxicol.64(1): 130-136 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | LC50 | 4 | days | <50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,Z., S. Huang, and Q. Liu | Use of Anodic Stripping Voltammetry in Predicting Toxicity of Copper in River Water | Environ. Toxicol. Chem.21(9): 1788-1795 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 4 | days | 14 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,B.M., M.M. Chao, O.R. Tedrow, A.D. McQueen, and J.H.,Jr. Rodgers | Responses of Lepomis macrochirus, Pimephales promelas, Hyalella azteca, Ceriodaphnia dubia, and Daphnia magna to Exposures of Algimycin PWF and Copper Sulfate Pentahydrate | J. Aquat. Plant Manag.46:176-183 | 2008 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Intoxication | LC50 | 4 | days | <40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,Z., S. Huang, and Q. Liu | Use of Anodic Stripping Voltammetry in Predicting Toxicity of Copper in River Water | Environ. Toxicol. Chem.21(9): 1788-1795 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 11.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 4 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ewell,W.S., J.W. Gorsuch, R.O. Kringle, K.A. Robillard, and R.C. Spiegel | Simultaneous Evaluation of the Acute Effects of Chemicals on Seven Aquatic Species | Environ. Toxicol. Chem.5(9): 831-840 | 1986 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 1 | days | 19.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,S.M., and R.A. Roline | Evaluation of the Sensitivity of Rapid Toxicity Tests Relative to Daphnid Acute Lethality Tests | Bull. Environ. Contam. Toxicol.60:292-299 | 1998 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Physiological | 0.5 | hours | 38.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, S.L. Burks, R.A. Atherton, and J.T. Blankemeyer | Utilizing Biomarker Techniques: Cellular Membrane Potential as a Biomarker of Subchronic Toxicity | ASTM Spec. Tech. Publ.:177-187 | 1996 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 64 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 151 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 24 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LOEL | 19 | days | 8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Physiological | LOEC | 0.5 | hours | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, S.L. Burks, R.A. Atherton, and J.T. Blankemeyer | Utilizing Biomarker Techniques: Cellular Membrane Potential as a Biomarker of Subchronic Toxicity | ASTM Spec. Tech. Publ.:177-187 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | 0.5 | days | 24 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sobral,O., C. Chastinet, A. Nogueira, A.M.V.M. Soares, F. Goncalves, and R. Ribeiro | In Vitro Development of Parthenogenetic Eggs: A Fast Ecotoxicity Test with Daphnia magna? | Ecotoxicol. Environ. Saf.50(3): 174-179 | 2001 | 2018/03/22 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 33.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bright,G.R. | Variability of the "Water Effect Ratio" for Copper Toxicity - a Case Study | Proc.Toxic Subst.Water Environ., May 23-30, Water Environ.Fed., Alexandria, VA:5.23 - 5.30 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 28.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | The Toxicity and Bioaccumulation of Cadmium and Copper as Affected by Humic Acid | Aquat. Toxicol.5(3): 267-274 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 32.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | The Toxicity and Bioaccumulation of Cadmium and Copper as Affected by Humic Acid | Aquat. Toxicol.5(3): 267-274 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 7.05 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Woods,M., A. Kumar, and R. Correll | Acute Toxicity of Mixtures of Chlorpyrifos, Profenofos, and Endosulfan to Ceriodaphnia dubia | Bull. Environ. Contam. Toxicol.68(6): 801-808 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | NOEC | 42 | days | <50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Debelak,R.W. | Acute Toxicity of Mixtures of Copper, Chromium and Cadmium to Daphnia magna | M.S.Thesis, Miami University, Oxford, OH:54 p. | 1975 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 64.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Debelak,R.W. | Acute Toxicity of Mixtures of Copper, Chromium and Cadmium to Daphnia magna | M.S.Thesis, Miami University, Oxford, OH:54 p. | 1975 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Oikari,A., J. Kukkonen, and V. Virtanen | Acute Toxicity of Chemicals to Daphnia magna in Humic Waters | Sci. Total Environ.117/118:367-377 | 1992 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 2 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ribeiro,R., I. Lopes, A.M.M. Pereira, F. Goncalves, and A.M.V.M. Soares | Survival Time of Ceriodaphnia dubia in Acid Waters with Metal Contamination | Bull. Environ. Contam. Toxicol.64(1): 130-136 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 66.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Debelak,R.W. | Acute Toxicity of Mixtures of Copper, Chromium and Cadmium to Daphnia magna | M.S.Thesis, Miami University, Oxford, OH:54 p. | 1975 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 170 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 53.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bright,G.R. | Variability of the "Water Effect Ratio" for Copper Toxicity - a Case Study | Proc.Toxic Subst.Water Environ., May 23-30, Water Environ.Fed., Alexandria, VA:5.23 - 5.30 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 3 | days | 23.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | The Toxicity and Bioaccumulation of Cadmium and Copper as Affected by Humic Acid | Aquat. Toxicol.5(3): 267-274 | 1984 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bright,G.R. | Variability of the "Water Effect Ratio" for Copper Toxicity - a Case Study | Proc.Toxic Subst.Water Environ., May 23-30, Water Environ.Fed., Alexandria, VA:5.23 - 5.30 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 103 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bright,G.R. | Variability of the "Water Effect Ratio" for Copper Toxicity - a Case Study | Proc.Toxic Subst.Water Environ., May 23-30, Water Environ.Fed., Alexandria, VA:5.23 - 5.30 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 24.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bright,G.R. | Variability of the "Water Effect Ratio" for Copper Toxicity - a Case Study | Proc.Toxic Subst.Water Environ., May 23-30, Water Environ.Fed., Alexandria, VA:5.23 - 5.30 | 1995 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | LC50 | 4 | days | 28 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McIntosh,A.W., and N.R. Kevern | Toxicity of Copper to Zooplankton | J. Environ. Qual.3(2): 166-170 | 1974 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 2 | days | 60000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ribeiro,R., I. Lopes, A.M.M. Pereira, F. Goncalves, and A.M.V.M. Soares | Survival Time of Ceriodaphnia dubia in Acid Waters with Metal Contamination | Bull. Environ. Contam. Toxicol.64(1): 130-136 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 62 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Poynton,H.C., J.R. Varshavsky, B. Chang, G. Cavigiolio, S. Chan, P.S. Holman, A.V. Loguinov, D.J. Bauer, K. Komachi, E.C | Daphnia magna Ecotoxicogenomics Provides Mechanistic Insights into Metal Toxicity | Environ. Sci. Technol.41(3): 1044-1050 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 37.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Barata,C., I. Varo, J.C. Navarro, S. Arun, and C. Porte | Antioxidant Enzyme Activities and Lipid Peroxidation in the Freshwater Cladoceran Daphnia magna Exposed to Redox Cycling Compounds | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(2): 175-186 | 2005 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 34.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Goolsby,E.W., C.M. Mason, J.T. Wojcik, A.M. Jordan, and M.C. Black | Acute and Chronic Effects of Diphenhydramine and Sertraline Mixtures in Ceriodaphnia dubia | Environ. Toxicol. Chem.32(12): 2866-2869 | 2013 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 60.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Debelak,R.W. | Acute Toxicity of Mixtures of Copper, Chromium and Cadmium to Daphnia magna | M.S.Thesis, Miami University, Oxford, OH:54 p. | 1975 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 2 | days | 600000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ribeiro,R., I. Lopes, A.M.M. Pereira, F. Goncalves, and A.M.V.M. Soares | Survival Time of Ceriodaphnia dubia in Acid Waters with Metal Contamination | Bull. Environ. Contam. Toxicol.64(1): 130-136 | 2000 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 0.057 | μg/L | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Meador,J.P. | The Interaction of pH, Dissolved Organic Carbon, and Total Copper in the Determination of Ionic Copper and Toxicity | Aquat. Toxicol.19(1): 13-31 | 1991 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 79.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | NOEL | 21 | days | 48 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEL | 14 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagneten,A.M., and I. Vila | Effects of Cu+2 and pH on the Fitness of Ceriodaphnia dubia (Richard 1894) (Crustacea, Cladocera) in Microcosm Experiments | Environ. Toxicol.16(5): 428-438 | 2001 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 42 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 44 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kazlauskiene,N., A. Burba, and G. Svecevicius | Acute Toxicity of Five Galvanic Heavy Metals to Hydrobionts | Ekologiia1:33-36 | 1994 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 4 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Murray-Gulde,C.L., J.E. Heatley, A.L. Schwartzman, and J.H.,Jr. Rodgers | Algicidal Effectiveness of Clearigate, Cutrine-Plus, and Copper Sulfate and Margins of Safety Associated with Their Use | Arch. Environ. Contam. Toxicol.43(1): 19-27 | 2002 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 5 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Preshing,M. | Effect of Certain Toxicants on the Survival Rate of Daphnia magna in a Three-Factor Experiment | Hydrobiol. J.21:1-4 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | NOEC | 42 | days | <50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia sp. Daphnia pulex | Mortality | NOEC | 42 | days | 6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Winner,R.W. | Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness | Water Res.19(4): 449-455 | 1985 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 64.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Debelak,R.W. | Acute Toxicity of Mixtures of Copper, Chromium and Cadmium to Daphnia magna | M.S.Thesis, Miami University, Oxford, OH:54 p. | 1975 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cerda,B., and J.H. Olive | Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests | Ohio J. Sci.93(3): 44-47 | 1993 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 117.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEL | 7 | days | 19 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Harmon,S.M., W.L. Specht, and G.T. Chandler | A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States | Arch. Environ. Contam. Toxicol.45(1): 79-85 | 2003 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 14 | days | 3.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 14 | days | 79.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | NOEC | 1 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Poynton,H.C., J.R. Varshavsky, B. Chang, G. Cavigiolio, S. Chan, P.S. Holman, A.V. Loguinov, D.J. Bauer, K. Komachi, E.C | Daphnia magna Ecotoxicogenomics Provides Mechanistic Insights into Metal Toxicity | Environ. Sci. Technol.41(3): 1044-1050 | 2007 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LOEC | 1 | days | <100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Poynton,H.C., A.V. Loguinov, J.R. Varshavsky, S. Chan, E.J. Perkins, and C.D. Vulpe | Gene Expression Profiling in Daphnia magna. Part I: Concentration-Dependent Profiles Provide Support for the No Observed Transcriptional Effect Level | Environ. Sci. Technol.42(16): 6250-6256 | 2008 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LOEC | 7 | days | 37 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LOEC | 21 | days | 92 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves | Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity | Ecotoxicology20(1): 139-148 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 12 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yim,J.H., K.W. Kim, and S.D. Kim | Effect of Hardness on Acute Toxicity of Metal Mixtures Using Daphnia magna: Prediction of Acid Mine Drainage Toxicity | J. Hazard. Mater.B138(1): 16-21 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yim,J.H., K.W. Kim, and S.D. Kim | Effect of Hardness on Acute Toxicity of Metal Mixtures Using Daphnia magna: Prediction of Acid Mine Drainage Toxicity | J. Hazard. Mater.B138(1): 16-21 | 2006 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 82 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hayes,K.R., W.S. Douglas, and J. Fischer | Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test | Bull. Environ. Contam. Toxicol.57(4): 660-666 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 14 | days | 6.56 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | NOEC | 7 | days | 101 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold | Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures | Environ. Toxicol. Chem.30(9): 2115-2125 | 2011 | 2018/03/22 | |||||
| 甲殻類 | Daphnia magna | Accumulation | 3 | days | 24 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosenfeldt,R.R., F. Seitz, R. Schulz, and M. Bundschuh | Heavy Metal Uptake and Toxicity in the Presence of Titanium Dioxide Nanoparticles: A Factorial Approach Using Daphnia magna | Environ. Sci. Technol.48(12): 6965-6972 | 2014 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | EC50 | 48 | hours | 5.5 | μg/L | 銅換算値 | 2 日本環境省 農薬登録保留基準(水産動植物) | 環境省 | 水産動植物の被害防止に係る農薬登録保留基準として環境大臣が定める基準の設定に関する資料 | 2018/03/15 | ||||||||
| 甲殻類 | Daphnia magna | 遊泳阻害 | EC50 | 48 | hours | 0.023~0.027 | 18 既存化学物質安全性(ハザード)評価シート | IPCS | Environmental Health Criteria, 200 | 1998 | 2016/02/26 | ||||||||
| 甲殻類 | Daphnia sp. Daphnia ambigua | LC50 | 72 | hours | 67.7 | μg/L | 10 EHC (Environmental Health Criteria) | Winner RW & Farrell MP | Acute and chronic toxicity of copper to four species of Daphnia. | J Fish Res Board Can | 1976 | 2018/03/17 | |||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 23~27 | 10 EHC (Environmental Health Criteria) | LeBlanc GA | Laboratory investigation into the development of resistance of Daphnia magna (Straus) to environmental pollutants. | Environ Pollut | 1982 | 2018/03/17 | ||||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 45 | μg/L | humic water | 10 EHC (Environmental Health Criteria) | Oikari A, Kukkonen J, & Virtanen V | Acute toxicity of chemicals to Daphnia magna in humic waters. | Sci Total Environ | 1992 | 2018/03/17 | ||||||
| 甲殻類 | Daphnia magna | LC50 | 72 | hours | 86.5 | μg/L | 10 EHC (Environmental Health Criteria) | Winner RW & Farrell MP | Acute and chronic toxicity of copper to four species of Daphnia. | J Fish Res Board Can | 1976 | 2018/03/17 | |||||||
| 甲殻類 | Daphnia magna | LC50 | 24 | hours | 380 | μg/L | 10 EHC (Environmental Health Criteria) | Ferrando MD, Andreu-Moliner E, & Fernández-Casalderrey A | Relative sensitivity of Daphnia magna and Brachionus calyciflorus to five pesticides. | J Environ Sci Health | 1992 | 2018/03/17 | |||||||
| 甲殻類 | Ceriodaphnia dubia | LC50 | 48 | hours | 13.4 | μg/L | 10 EHC (Environmental Health Criteria) | Oris JT, Winner RW, & Moore MV | A four-day survival and reproduction toxicity test for Ceriodaphnia dubia. | Environ Toxicol Chem | 1991 | 2018/03/17 | |||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 7 | μg/L | 10 EHC (Environmental Health Criteria) | Oikari A, Kukkonen J, & Virtanen V | Acute toxicity of chemicals to Daphnia magna in humic waters. | Sci Total Environ | 1992 | 2018/03/17 | |||||||
| 甲殻類 | Daphnia sp. Daphnia pulex | LC50 | 72 | hours | 86 | μg/L | 10 EHC (Environmental Health Criteria) | Winner RW & Farrell MP | Acute and chronic toxicity of copper to four species of Daphnia. | J Fish Res Board Can | 1976 | 2018/03/17 | |||||||
| 甲殻類 | Daphnia sp. Daphnia parvula | LC50 | 72 | hours | 72 | μg/L | 10 EHC (Environmental Health Criteria) | Winner RW & Farrell MP | Acute and chronic toxicity of copper to four species of Daphnia. | J Fish Res Board Can | 1976 | 2018/03/17 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 61 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 84.3 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 28 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 84.3 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 61 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 91.3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 91.3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 61 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 91.3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 30.4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 30.4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 61 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 84 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.13 | days | 153 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 30.4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 61 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 91.3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 91.3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 61 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 61 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 91.3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 1.1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 2 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 1 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Growth | LOEC | 7 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | LOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 84 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 3 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 8 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 3 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 5 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 6 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 84 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 84.3 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | LOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 4 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 91.3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 10 | days | 62.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 20 | days | 19.89 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 2 | days | 1.73 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 4 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 91.3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 30.4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 61 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 91.3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEC | 4 | days | 174 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, and G. Vernet | Antioxidant Response Modulated by Copper in Healthy or Parasitized Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Biochim. Biophys. Acta1573(1): 4-8 | 2002 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.58 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Growth | NOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Al-Bairuty,G.A., B.J. Shaw, R.D. Handy, and T.B. Henry | Histopathological Effects of Waterborne Copper Nanoparticles and Copper Sulphate on the Organs of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.126:104-115 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 50000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Foster,S.C., S.L. Burks, D.J. Fort, E.L. Stover, and M.D. Matlock | Development and Evaluation of a Nondestructive Measure of Fish Growth for Sublethal Toxicity Assessment | Bull. Environ. Contam. Toxicol.53(1): 85-90 | 1994 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Growth | NOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Cellular | LOEC | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paris-Palacios,S., and S. Biagianti-Risbourg | Hepatocyte Nuclear Structure and Subcellular Distribution of Copper in Zebrafish Brachydanio rerio and Roach Rutilus rutilus (Teleostei, Cyprinidae) Exposed to Copper Sulphate | Aquat. Toxicol.77(3): 306-313 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 21 | days | 16.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 30 | days | 10.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 30 | days | 11.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 28 | days | >53.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Al-Bairuty,G.A., B.J. Shaw, R.D. Handy, and T.B. Henry | Histopathological Effects of Waterborne Copper Nanoparticles and Copper Sulphate on the Organs of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.126:104-115 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Al-Bairuty,G.A., B.J. Shaw, R.D. Handy, and T.B. Henry | Histopathological Effects of Waterborne Copper Nanoparticles and Copper Sulphate on the Organs of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.126:104-115 | 2013 | 2018/03/20 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Growth | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Development | EC50 | 14 | days | 680 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braunbeck,T., M. Bottcher, H. Hollert, T. Kosmehl, E. Lammer, E. Leist, M. Rudolf, and N. Seitz | Towards an Alternative for the Acute Fish LC50 Test in Chemical Assessment: The Fish Embryo Toxicity Test Goes Multi-Species - An Update | ALTEX22(2): 87-102 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Development | EC50 | 7 | days | 170 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, and J.A. Bantle | Integrated Ecological Hazard Assessment of Waste Site Soil Extracts Using FETAX and Short-Term Fathead Minnow Teratogenesis Assay | ASTM Spec. Tech. Publ.4:93-109 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.22 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Development | EC50 | 1.3 | days | 2950 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braunbeck,T., M. Bottcher, H. Hollert, T. Kosmehl, E. Lammer, E. Leist, M. Rudolf, and N. Seitz | Towards an Alternative for the Acute Fish LC50 Test in Chemical Assessment: The Fish Embryo Toxicity Test Goes Multi-Species - An Update | ALTEX22(2): 87-102 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEC | 4 | days | 174 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, and G. Vernet | Antioxidant Response Modulated by Copper in Healthy or Parasitized Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Biochim. Biophys. Acta1573(1): 4-8 | 2002 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | LOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | NOEC | 4 | days | 38 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, and G. Vernet | Antioxidant Response Modulated by Copper in Healthy or Parasitized Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Biochim. Biophys. Acta1573(1): 4-8 | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 12 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 9 | days | 0.24 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/20 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 6.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 191 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., R. MacPhail, D. Mahar, and B. Grimmelt | Evaluation of Antioxidant Circulatory Lipid-Soluble Vitamins and Sodium as Non-Invasive Indicators of Chronic Copper Exposure and Toxicity in Rainbow Trout, Oncorhynchus mykiss | Bull. Environ. Contam. Toxicol.80(6): 502-506 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., R. MacPhail, D. Mahar, and B. Grimmelt | Evaluation of Antioxidant Circulatory Lipid-Soluble Vitamins and Sodium as Non-Invasive Indicators of Chronic Copper Exposure and Toxicity in Rainbow Trout, Oncorhynchus mykiss | Bull. Environ. Contam. Toxicol.80(6): 502-506 | 2008 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 10 | days | 8.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEL | 40 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Liu,H., J.F. Zhang, H. Shen, X.R. Wang, and W.M. Wang | Impact of Copper and Its EDTA Complex on the Glutathione-Dependent Antioxidant System in Freshwater Fish (Carassius auratus) | Bull. Environ. Contam. Toxicol.74(6): 1111-1117 | 2005 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 2 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 8 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 84.5 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | LOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Growth | NOEC | 7 | days | 0.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 10 | days | 1.73 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 61 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | LOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 30.4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 30.4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 7 | days | 17.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEL | 56 | days | 721 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Shifts in a Fish's Resource Holding Power During a Contact Paired Interaction: The Influence of a Copper-Contaminated Diet in Rainbow Trout | Physiol. Biochem. Zool.78(5): 706-714 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 84 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 42 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 84 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 70 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 28 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 30 | days | 12 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 15 | days | <12 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Neville,C.M. | Short-Term Early Life Stage Growth Test Using Sacfry and Early Swim-Up Stages of Rainbow Trout (Oncorhynchus mykiss) | Ontario Ministry of the Environment & Energy, Toronto, Ontario:27 p. | 1995 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 7 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 4 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 10 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Growth | LOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 30 | days | 23 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Al-Bairuty,G.A., B.J. Shaw, R.D. Handy, and T.B. Henry | Histopathological Effects of Waterborne Copper Nanoparticles and Copper Sulphate on the Organs of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.126:104-115 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Cellular | LOEC | 7 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 30 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gundogdu,A., and M. Erdem | The Accumulation of the Heavy Metals (Copper and Zinc) in the Tissues of Rainbow Trout (Onchorhyncus mykiss, Walbaum, 1792) | J. Fish. Sci.2(1): 41-50 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 30 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gundogdu,A., and M. Erdem | The Accumulation of the Heavy Metals (Copper and Zinc) in the Tissues of Rainbow Trout (Onchorhyncus mykiss, Walbaum, 1792) | J. Fish. Sci.2(1): 41-50 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., R. MacPhail, D. Mahar, and B. Grimmelt | Evaluation of Antioxidant Circulatory Lipid-Soluble Vitamins and Sodium as Non-Invasive Indicators of Chronic Copper Exposure and Toxicity in Rainbow Trout, Oncorhynchus mykiss | Bull. Environ. Contam. Toxicol.80(6): 502-506 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., R. MacPhail, D. Mahar, and B. Grimmelt | Evaluation of Antioxidant Circulatory Lipid-Soluble Vitamins and Sodium as Non-Invasive Indicators of Chronic Copper Exposure and Toxicity in Rainbow Trout, Oncorhynchus mykiss | Bull. Environ. Contam. Toxicol.80(6): 502-506 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., R. MacPhail, D. Mahar, and B. Grimmelt | Evaluation of Antioxidant Circulatory Lipid-Soluble Vitamins and Sodium as Non-Invasive Indicators of Chronic Copper Exposure and Toxicity in Rainbow Trout, Oncorhynchus mykiss | Bull. Environ. Contam. Toxicol.80(6): 502-506 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., R. MacPhail, D. Mahar, and B. Grimmelt | Evaluation of Antioxidant Circulatory Lipid-Soluble Vitamins and Sodium as Non-Invasive Indicators of Chronic Copper Exposure and Toxicity in Rainbow Trout, Oncorhynchus mykiss | Bull. Environ. Contam. Toxicol.80(6): 502-506 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Cellular | LOEC | 7 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Cellular | LOEC | 1 | days | 550 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Cellular | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Cellular | LOEC | 1 | days | 550 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Cellular | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Cellular | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 30 | days | 11.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 84 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 277.8 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | NOEC | 1.5 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Arkhipchuk,V.V., and N.N. Garanko | Using the Nucleolar Biomarker and the Micronucleus Test on In Vivo Fish Fin Cells | Ecotoxicol. Environ. Saf.62(1): 42-52 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 84.8 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | IC10 | 58 | days | >22 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 21 | days | 60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 28 | days | 26.66 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 30 | days | 2.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 7 | days | 27 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 30.4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 30.4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | NOEC | 21 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cavas,T., N.N. Garanko, and V.V. Arkhipchuk | Induction of Micronuclei and Binuclei in Blood, Gill and Liver Cells of Fishes Subchronically Exposed to Cadmium Chloride and Copper Sulphate | Food Chem. Toxicol.43(4): 569-574 | 2005 | 2018/03/20 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Morphology | NOEC | 12 | days | 176.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez,W., O. Palluel, L. Meunier, M. Coquery, J.M. Porcher, and S. Ait-Aissa | Copper-Induced Oxidative Stress in Three-Spined Stickleback: Relationship with Hepatic Metal Levels | Environ. Toxicol. Pharmacol.19(1): 177-183 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Growth | NOEC | 30 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | NOEC | 14 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | NOEL | 0.13 | days | 5000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Witeska,M. | The Effect of Toxic Chemicals on Blood Cell Morphology in Fish | Fresenius Environ. Bull.13(12a): 1379-1384 | 2004 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 52 | days | 30 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 21 | days | 31 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 7 | days | 8.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEL | 4 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 1 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 15 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEL | 4 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEC | 1 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 25 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 3 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | IC10 | 58 | days | 9.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEL | 4 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 24.5 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | NOEC | 21 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Morphology | NOEC | 21 | days | 91.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez,W., O. Palluel, L. Meunier, M. Coquery, J.M. Porcher, and S. Ait-Aissa | Copper-Induced Oxidative Stress in Three-Spined Stickleback: Relationship with Hepatic Metal Levels | Environ. Toxicol. Pharmacol.19(1): 177-183 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | NOEC | 21 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Morphology | NOEC | 21 | days | 91.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez,W., O. Palluel, L. Meunier, M. Coquery, J.M. Porcher, and S. Ait-Aissa | Copper-Induced Oxidative Stress in Three-Spined Stickleback: Relationship with Hepatic Metal Levels | Environ. Toxicol. Pharmacol.19(1): 177-183 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 30.4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 30.4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEL | 4 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 10 | days | 62.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 4 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 20 | days | 62.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 20 | days | 62.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 2 | days | 62.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEL | 4 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 30 | days | 62.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Avoidance | LOEC | 0.33 | hours | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., R.D. Hoyt, J.A. Black, M.D. Kercher, and W.A. Robison | Effects of Chemical Stresses on Behavior of Larval and Juvenile Fishes and Amphibians | In: L.A.Fuiman (Ed.), Water Quality and the Early Life Stages of Fishes, Am.Fish.Soc.Symp.14, Bethesda, MD:55-65 | 1993 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 0.5 | days | 153 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 14 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 85 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 84 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 56 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 85 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 30 | days | 62.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Development | EC50 | 2.3 | days | 1460 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braunbeck,T., M. Bottcher, H. Hollert, T. Kosmehl, E. Lammer, E. Leist, M. Rudolf, and N. Seitz | Towards an Alternative for the Acute Fish LC50 Test in Chemical Assessment: The Fish Embryo Toxicity Test Goes Multi-Species - An Update | ALTEX22(2): 87-102 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 21 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 7 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 17.5 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 12 | days | 323.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 24.5 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 9 | days | 323.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 0.13 | days | 153 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 15 | days | 323.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 9 | days | 323.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 11 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 6 | days | 323.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 6 | days | 323.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Avoidance | LOEC | 2.5 | hours | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Svecevicius,G. | Fish Avoidance Response to Heavy Metals and Their Mixtures | Acta Zool. Litu.9(2): 103-113 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 15 | days | 323.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.46 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 0 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Hormone | NOEC | 30 | days | 87.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagnon,A., C. Jumarie, and A. Hontela | Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.78(1): 59-65 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 30 | days | 87.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagnon,A., C. Jumarie, and A. Hontela | Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.78(1): 59-65 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 30 | days | 28.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagnon,A., C. Jumarie, and A. Hontela | Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.78(1): 59-65 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 30 | days | 28.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagnon,A., C. Jumarie, and A. Hontela | Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.78(1): 59-65 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 30 | days | 87.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagnon,A., C. Jumarie, and A. Hontela | Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.78(1): 59-65 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Hormone | NOEC | 30 | days | 28.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagnon,A., C. Jumarie, and A. Hontela | Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.78(1): 59-65 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 49 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEL | 0.17 | days | 1.65 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Heerden,D., A. Vosloo, and M. Nikinmaa | Effects of Short-Term Copper Exposure on Gill Structure, Metallothionein and Hypoxia-Inducible Factor-1alpha (HIF-1alpha) Levels in Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.69(3): 271-280 | 2004 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 7 | days | 36.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N. | Physiological Indicators of Waterborne Copper Toxicity in Freshwater Fish | Ph.D.Thesis, McMaster Univ., Hamilton, Ontario:224 p. | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 7 | days | 36.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N. | Physiological Indicators of Waterborne Copper Toxicity in Freshwater Fish | Ph.D.Thesis, McMaster Univ., Hamilton, Ontario:224 p. | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEL | 30.4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vosyliene,M.Z. | The Effect of Long-Term Exposure to Copper on Physiological Parameters of Rainbow Trout Oncorhynchus mykiss 2. Studies of Hematological Parameters | Ekologija1:3-6 | 1996 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEL | 4 | days | 52.34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Niyogi,S., C.N. Kamunde, and C.M. Wood | Food Selection, Growth and Physiology in Relation to Dietary Sodium Chloride Content in Rainbow Trout (Oncorhynchus mykiss) Under Chronic Waterborne Cu Exposure | Aquat. Toxicol.77(2): 210-221 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 4 | days | 52.34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Niyogi,S., C.N. Kamunde, and C.M. Wood | Food Selection, Growth and Physiology in Relation to Dietary Sodium Chloride Content in Rainbow Trout (Oncorhynchus mykiss) Under Chronic Waterborne Cu Exposure | Aquat. Toxicol.77(2): 210-221 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Feeding behavior | LOEL | 4 | days | 52.34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Niyogi,S., C.N. Kamunde, and C.M. Wood | Food Selection, Growth and Physiology in Relation to Dietary Sodium Chloride Content in Rainbow Trout (Oncorhynchus mykiss) Under Chronic Waterborne Cu Exposure | Aquat. Toxicol.77(2): 210-221 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 30 | days | 1.73 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 9 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEL | 18 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 9 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 2 | days | 62.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 0 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 0 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 0.5 | days | 129 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 0 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | LOEL | 65 | days | 75.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | Effects of Chronic Sublethal Exposure to Waterborne Cu, Cd or Zn in Rainbow Trout 1: Iono-Regulatory Disturbance and Metabolic Costs | Aquat. Toxicol.50(3): 231-243 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., R. MacPhail, D. Mahar, and B. Grimmelt | Evaluation of Antioxidant Circulatory Lipid-Soluble Vitamins and Sodium as Non-Invasive Indicators of Chronic Copper Exposure and Toxicity in Rainbow Trout, Oncorhynchus mykiss | Bull. Environ. Contam. Toxicol.80(6): 502-506 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., R. MacPhail, D. Mahar, and B. Grimmelt | Evaluation of Antioxidant Circulatory Lipid-Soluble Vitamins and Sodium as Non-Invasive Indicators of Chronic Copper Exposure and Toxicity in Rainbow Trout, Oncorhynchus mykiss | Bull. Environ. Contam. Toxicol.80(6): 502-506 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., R. MacPhail, D. Mahar, and B. Grimmelt | Evaluation of Antioxidant Circulatory Lipid-Soluble Vitamins and Sodium as Non-Invasive Indicators of Chronic Copper Exposure and Toxicity in Rainbow Trout, Oncorhynchus mykiss | Bull. Environ. Contam. Toxicol.80(6): 502-506 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., R. MacPhail, D. Mahar, and B. Grimmelt | Evaluation of Antioxidant Circulatory Lipid-Soluble Vitamins and Sodium as Non-Invasive Indicators of Chronic Copper Exposure and Toxicity in Rainbow Trout, Oncorhynchus mykiss | Bull. Environ. Contam. Toxicol.80(6): 502-506 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 0 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 30 | days | 28.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagnon,A., C. Jumarie, and A. Hontela | Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.78(1): 59-65 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 30 | days | 28.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagnon,A., C. Jumarie, and A. Hontela | Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.78(1): 59-65 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 28 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 30 | days | 87.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagnon,A., C. Jumarie, and A. Hontela | Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.78(1): 59-65 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | LOEC | 30 | days | 28.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagnon,A., C. Jumarie, and A. Hontela | Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.78(1): 59-65 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 30 | days | 87.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagnon,A., C. Jumarie, and A. Hontela | Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.78(1): 59-65 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Hormone | LOEC | 30 | days | 87.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagnon,A., C. Jumarie, and A. Hontela | Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.78(1): 59-65 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 7 | days | 36.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N. | Physiological Indicators of Waterborne Copper Toxicity in Freshwater Fish | Ph.D.Thesis, McMaster Univ., Hamilton, Ontario:224 p. | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Growth | NOEC | 30 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Development | EC50 | 5 | days | 260 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, and J.A. Bantle | Integrated Ecological Hazard Assessment of Waste Site Soil Extracts Using FETAX and Short-Term Fathead Minnow Teratogenesis Assay | ASTM Spec. Tech. Publ.4:93-109 | 1996 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | LOEC | 7 | days | 63 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 1.1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Morphology | NOEC | 12 | days | 176.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez,W., O. Palluel, L. Meunier, M. Coquery, J.M. Porcher, and S. Ait-Aissa | Copper-Induced Oxidative Stress in Three-Spined Stickleback: Relationship with Hepatic Metal Levels | Environ. Toxicol. Pharmacol.19(1): 177-183 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | NOEC | 28 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 49 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 52 | days | >56.53 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 21 | days | >60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 21 | days | >60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 28 | days | >53.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 30 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 49 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | NOEC | 21 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cavas,T., N.N. Garanko, and V.V. Arkhipchuk | Induction of Micronuclei and Binuclei in Blood, Gill and Liver Cells of Fishes Subchronically Exposed to Cadmium Chloride and Copper Sulphate | Food Chem. Toxicol.43(4): 569-574 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 1.4 | days | 231.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pyle,G., and C. Wood | Radiotracer Studies on Waterborne Copper Uptake, Distribution, and Toxicity in Rainbow Trout and Yellow Perch: A Comparative Analysis | Hum. Ecol. Risk Assess.14:243-265 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 49 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 7 | days | 22.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., C. Clayton, and C.M. Wood | Waterborne vs. Dietary Copper Uptake in Rainbow Trout and the Effects of Previous Waterborne Copper Exposure | Am. J. Physiol., Regul. Integr. Comp. Physiol.283(1): 69-78 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEL | 9 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 11 | days | 113.5 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., G.G. Pyle, D.G. McDonald, and C.M. Wood | Influence of Dietary Sodium on Waterborne Copper Toxicity in Rainbow Trout, Oncorhynchus mykiss | Environ. Toxicol. Chem.22(2): 342-350 | 2003 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 56 | days | 721 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Shifts in a Fish's Resource Holding Power During a Contact Paired Interaction: The Influence of a Copper-Contaminated Diet in Rainbow Trout | Physiol. Biochem. Zool.78(5): 706-714 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 49 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEL | 14 | days | 52.34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., S. Niyogi, and C.M. Wood | Interaction of Dietary Sodium Chloride and Waterborne Copper in Rainbow Trout (Oncorhynchus mykiss): Copper Toxicity and Sodium and Chloride Homeostasis | Can. J. Fish. Aquat. Sci.62(2): 390-399 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 4 | days | 52.34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., S. Niyogi, and C.M. Wood | Interaction of Dietary Sodium Chloride and Waterborne Copper in Rainbow Trout (Oncorhynchus mykiss): Copper Toxicity and Sodium and Chloride Homeostasis | Can. J. Fish. Aquat. Sci.62(2): 390-399 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | LOEL | 29 | days | 111 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 15 | days | 108 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | LOEL | 15 | days | 108 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Feeding behavior | LOEL | 35 | days | 75.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | Effects of Chronic Sublethal Exposure to Waterborne Cu, Cd or Zn in Rainbow Trout 1: Iono-Regulatory Disturbance and Metabolic Costs | Aquat. Toxicol.50(3): 231-243 | 2000 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Growth | EC50 | 28 | days | >40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abdel-Moneim,A., M. Moreira-Santos, and R. Ribeiro | A Short-Term Sublethal Toxicity Assay with Zebra Fish Based on Preying Rate and Its Integration with Mortality | Chemosphere120:568-574 | 2015 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 9 | days | 0.24 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 49 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 49 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 49 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 49 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 28 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEL | 65 | days | 75.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | Effects of Chronic Sublethal Exposure to Waterborne Cu, Cd or Zn in Rainbow Trout 1: Iono-Regulatory Disturbance and Metabolic Costs | Aquat. Toxicol.50(3): 231-243 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 49 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | NOEC | 7 | days | <50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.17 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 1 | hours | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | NOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 1 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 11.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 19 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 6.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 3.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 11.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.58 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Development | NOEC | 0.83 | days | 2000 | μM | FORMULATION | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tilton,F., J.K. La Du, M. Vue, N. Alzarban, and R.L. Tanguay | Dithiocarbamates have a Common Toxic Effect on Zebrafish Body Axis Formation | Toxicol. Appl. Pharmacol.216(1): 55-68 | 2006 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Growth | NOEC | 7 | days | 31 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 30 | days | 11.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.71 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., V. Moreno, F.A. Olivari, and M.L. Allende | Sub-Lethal Concentrations of Waterborne Copper are Toxic to Lateral Line Neuromasts in Zebrafish (Danio rerio) | Hear. Res.213(1-2): 1-10 | 2006 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.58 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 30 | days | 11.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.58 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 30 | days | 9.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 0.13 | days | 169.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | NOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 16 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Growth | NOEC | 7 | days | 63 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 60000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Foster,S.C., S.L. Burks, D.J. Fort, E.L. Stover, and M.D. Matlock | Development and Evaluation of a Nondestructive Measure of Fish Growth for Sublethal Toxicity Assessment | Bull. Environ. Contam. Toxicol.53(1): 85-90 | 1994 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.58 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Growth | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 8.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 1 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pistole,D.H., J.D. Peles, and K. Taylor | Influence of Metal Concentrations, Percent Salinity, and Length of Exposure on the Metabolic Rate of Fathead Minnows (Pimephales promelas) | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(1): 48-52 | 2008 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEC | 7 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 100000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Foster,S.C., S.L. Burks, D.J. Fort, E.L. Stover, and M.D. Matlock | Development and Evaluation of a Nondestructive Measure of Fish Growth for Sublethal Toxicity Assessment | Bull. Environ. Contam. Toxicol.53(1): 85-90 | 1994 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Growth | 7 | days | 1.78 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/20 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 30 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 30 | days | 11 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEL | 7 | days | 1.78 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J., M. Bowersox, H. Latimer, C. Barbour, J. Bearr, and J. Butcher | Effects of Pulsed Contaminant Exposures on Early Life Stages of the Fathead Minnow | Arch. Environ. Contam. Toxicol.49(4): 511-519 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 28 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 20 | days | 19.89 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 0.13 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Arkhipchuk,V.V., and N.N. Garanko | Using the Nucleolar Biomarker and the Micronucleus Test on In Vivo Fish Fin Cells | Ecotoxicol. Environ. Saf.62(1): 42-52 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 21 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cavas,T., N.N. Garanko, and V.V. Arkhipchuk | Induction of Micronuclei and Binuclei in Blood, Gill and Liver Cells of Fishes Subchronically Exposed to Cadmium Chloride and Copper Sulphate | Food Chem. Toxicol.43(4): 569-574 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 21 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cavas,T., N.N. Garanko, and V.V. Arkhipchuk | Induction of Micronuclei and Binuclei in Blood, Gill and Liver Cells of Fishes Subchronically Exposed to Cadmium Chloride and Copper Sulphate | Food Chem. Toxicol.43(4): 569-574 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEC | 20 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 7 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 7 | days | 35 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Morphology | LOEL | 3 | days | 190.43 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,A., E. Carew, and K.A. Sloman | The Effects of Copper on the Morphological and Functional Development of Zebrafish Embryos | Aquat. Toxicol.84(4): 431-438 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Cellular | LOEC | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paris-Palacios,S., and S. Biagianti-Risbourg | Hepatocyte Nuclear Structure and Subcellular Distribution of Copper in Zebrafish Brachydanio rerio and Roach Rutilus rutilus (Teleostei, Cyprinidae) Exposed to Copper Sulphate | Aquat. Toxicol.77(3): 306-313 | 2006 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | LOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 28 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 0.13 | days | 2500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Arkhipchuk,V.V., and N.N. Garanko | Using the Nucleolar Biomarker and the Micronucleus Test on In Vivo Fish Fin Cells | Ecotoxicol. Environ. Saf.62(1): 42-52 | 2005 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Growth | LOEL | 3 | days | 92.98 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,A., E. Carew, and K.A. Sloman | The Effects of Copper on the Morphological and Functional Development of Zebrafish Embryos | Aquat. Toxicol.84(4): 431-438 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEL | 7 | days | 3.57 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J., M. Bowersox, H. Latimer, C. Barbour, J. Bearr, and J. Butcher | Effects of Pulsed Contaminant Exposures on Early Life Stages of the Fathead Minnow | Arch. Environ. Contam. Toxicol.49(4): 511-519 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEL | 7 | days | 1.78 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J., M. Bowersox, H. Latimer, C. Barbour, J. Bearr, and J. Butcher | Effects of Pulsed Contaminant Exposures on Early Life Stages of the Fathead Minnow | Arch. Environ. Contam. Toxicol.49(4): 511-519 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 52 | days | 56.53 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEC | 28 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | LOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 1.5 | days | 0.79 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal and Pharmaceutical Mixtures: Is Ion Loss the Mechanism Underlying Acute Toxicity and Widespread Additive Toxicity in Zebrafish? | Aquat. Toxicol.140/141:257-267 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 191 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.58 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 30 | days | 9.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 6.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.17 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 4 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pistole,D.H., J.D. Peles, and K. Taylor | Influence of Metal Concentrations, Percent Salinity, and Length of Exposure on the Metabolic Rate of Fathead Minnows (Pimephales promelas) | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(1): 48-52 | 2008 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 7 | days | 35 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.58 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 10 | days | 42.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 1 | hours | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 6 | days | 169.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 19 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 150000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Foster,S.C., S.L. Burks, D.J. Fort, E.L. Stover, and M.D. Matlock | Development and Evaluation of a Nondestructive Measure of Fish Growth for Sublethal Toxicity Assessment | Bull. Environ. Contam. Toxicol.53(1): 85-90 | 1994 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 14 | days | >32 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 1 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 30 | days | 12 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 28 | days | 18 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 28 | days | 12.66 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 28 | days | 53.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 21 | days | 60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 0 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 28 | days | 26.66 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 21 | days | 28.98 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 21 | days | 60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 15 | days | 323.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | NOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 52 | days | >56.53 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 52 | days | >56.53 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 21 | days | >60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 21 | days | >60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 52 | days | 27.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 65 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 40 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 21 | days | 60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | NOEC | 0 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 58 | days | 11.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 28 | days | 12.66 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 40 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEL | 28 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEL | 63 | days | 810 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Julshamn,K., K.J. Andersen, O. Ringdal, and J. Brenna | Effect of Dietary Copper on the Hepatic Concentration and Subcellular Distribution of Copper and Zinc in the Rainbow Trout (Salmo gairdneri) | Aquaculture73:143-155 | 1988 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Morphology | NOEL | 0.17 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Waser,W., O. Bausheva, and M. Nikinmaa | The Copper-Induced Reduction of Critical Swimming Speed in Rainbow Trout (Oncorhynchus mykiss) is Not Caused by Changes in Gill Structure | Aquat. Toxicol.94(1): 77-79 | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Morphology | NOEL | 0.17 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Waser,W., O. Bausheva, and M. Nikinmaa | The Copper-Induced Reduction of Critical Swimming Speed in Rainbow Trout (Oncorhynchus mykiss) is Not Caused by Changes in Gill Structure | Aquat. Toxicol.94(1): 77-79 | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEL | 30 | days | 1.73 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEL | 28 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEL | 28 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Morphology | NOEL | 28 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Morphology | NOEL | 91.3 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vosyliene,M.Z., and L. Petrauskiene | The Effect of Long-Term Exposure to Copper on Physiological Parameters of Rainbow Trout (Oncorhynchus mykiss) 1. Studies of Morphological Parameters | Ekologija3:23-26 | 1995 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Morphology | NOEL | 63 | days | 990 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Julshamn,K., K.J. Andersen, O. Ringdal, and J. Brenna | Effect of Dietary Copper on the Hepatic Concentration and Subcellular Distribution of Copper and Zinc in the Rainbow Trout (Salmo gairdneri) | Aquaculture73:143-155 | 1988 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEL | 35 | days | 0.24 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Morphology | NOEL | 35 | days | 0.24 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Morphology | NOEL | 35 | days | 0.24 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEL | 30 | days | 62.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 84 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEL | 35 | days | 0.24 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | NOEC | 84 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 58 | days | 11.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 58 | days | 6.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | NOEC | 0 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEL | 28 | days | 111 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Morphology | NOEL | 91.3 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vosyliene,M.Z., and L. Petrauskiene | The Effect of Long-Term Exposure to Copper on Physiological Parameters of Rainbow Trout (Oncorhynchus mykiss) 1. Studies of Morphological Parameters | Ekologija3:23-26 | 1995 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Morphology | NOEL | 35 | days | 0.24 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEL | 35 | days | 75.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | Effects of Chronic Sublethal Exposure to Waterborne Cu, Cd or Zn in Rainbow Trout 1: Iono-Regulatory Disturbance and Metabolic Costs | Aquat. Toxicol.50(3): 231-243 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | NOEL | 30.4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vosyliene,M.Z. | The Effect of Long-Term Exposure to Copper on Physiological Parameters of Rainbow Trout Oncorhynchus mykiss 2. Studies of Hematological Parameters | Ekologija1:3-6 | 1996 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEL | 28 | days | 59 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEL | 35 | days | 0.24 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Morphology | NOEL | 28 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Morphology | NOEL | 28 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 28 | days | 38 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEL | 56 | days | 721 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Shifts in a Fish's Resource Holding Power During a Contact Paired Interaction: The Influence of a Copper-Contaminated Diet in Rainbow Trout | Physiol. Biochem. Zool.78(5): 706-714 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 28 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 52 | days | >56.53 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | NOEC | 21 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cavas,T., N.N. Garanko, and V.V. Arkhipchuk | Induction of Micronuclei and Binuclei in Blood, Gill and Liver Cells of Fishes Subchronically Exposed to Cadmium Chloride and Copper Sulphate | Food Chem. Toxicol.43(4): 569-574 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | NOEC | 14 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Morphology | NOEC | 12 | days | 176.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez,W., O. Palluel, L. Meunier, M. Coquery, J.M. Porcher, and S. Ait-Aissa | Copper-Induced Oxidative Stress in Three-Spined Stickleback: Relationship with Hepatic Metal Levels | Environ. Toxicol. Pharmacol.19(1): 177-183 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | NOEC | 14 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | NOEC | 21 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Morphology | NOEC | 8 | days | 176.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez,W., O. Palluel, L. Meunier, M. Coquery, J.M. Porcher, and S. Ait-Aissa | Copper-Induced Oxidative Stress in Three-Spined Stickleback: Relationship with Hepatic Metal Levels | Environ. Toxicol. Pharmacol.19(1): 177-183 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | NOEC | 7 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | NOEC | 21 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cavas,T., N.N. Garanko, and V.V. Arkhipchuk | Induction of Micronuclei and Binuclei in Blood, Gill and Liver Cells of Fishes Subchronically Exposed to Cadmium Chloride and Copper Sulphate | Food Chem. Toxicol.43(4): 569-574 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Growth | LOEL | 0.13 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and I. Slominska | The Effect of Copper on Common Carp (Cyprinus carpio L.) During Embryonic and Postembryonic Development | Pol. Arch. Hydrobiol.44(1/2): 261-272 | 1997 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Growth | LOEL | 0.13 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and I. Slominska | The Effect of Copper on Common Carp (Cyprinus carpio L.) During Embryonic and Postembryonic Development | Pol. Arch. Hydrobiol.44(1/2): 261-272 | 1997 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Growth | LOEL | 0.13 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and I. Slominska | The Effect of Copper on Common Carp (Cyprinus carpio L.) During Embryonic and Postembryonic Development | Pol. Arch. Hydrobiol.44(1/2): 261-272 | 1997 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEL | 10 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | NOEC | 21 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cavas,T., N.N. Garanko, and V.V. Arkhipchuk | Induction of Micronuclei and Binuclei in Blood, Gill and Liver Cells of Fishes Subchronically Exposed to Cadmium Chloride and Copper Sulphate | Food Chem. Toxicol.43(4): 569-574 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 1.5 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Arkhipchuk,V.V., and N.N. Garanko | Using the Nucleolar Biomarker and the Micronucleus Test on In Vivo Fish Fin Cells | Ecotoxicol. Environ. Saf.62(1): 42-52 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 52 | days | 56.53 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Morphology | NOEL | 3 | days | 92.98 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,A., E. Carew, and K.A. Sloman | The Effects of Copper on the Morphological and Functional Development of Zebrafish Embryos | Aquat. Toxicol.84(4): 431-438 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Growth | NOEL | 260 | days | 1368 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., S. Brown, and G. Van der Kraak | The Effects of Copper and Benzo(a)pyrene on Retinoids and Reproduction in Zebrafish | Aquat. Toxicol.82(4): 281-295 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEC | 14 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 28 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 21 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 0.13 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Arkhipchuk,V.V., and N.N. Garanko | Using the Nucleolar Biomarker and the Micronucleus Test on In Vivo Fish Fin Cells | Ecotoxicol. Environ. Saf.62(1): 42-52 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 21 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEC | 7 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 7 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 21 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cavas,T., N.N. Garanko, and V.V. Arkhipchuk | Induction of Micronuclei and Binuclei in Blood, Gill and Liver Cells of Fishes Subchronically Exposed to Cadmium Chloride and Copper Sulphate | Food Chem. Toxicol.43(4): 569-574 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | NOEC | 0.13 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Arkhipchuk,V.V., and N.N. Garanko | Using the Nucleolar Biomarker and the Micronucleus Test on In Vivo Fish Fin Cells | Ecotoxicol. Environ. Saf.62(1): 42-52 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEC | 30 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Histological | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Al-Bairuty,G.A., B.J. Shaw, R.D. Handy, and T.B. Henry | Histopathological Effects of Waterborne Copper Nanoparticles and Copper Sulphate on the Organs of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.126:104-115 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 28 | days | 18 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEL | 7 | days | 52.34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Niyogi,S., C.N. Kamunde, and C.M. Wood | Food Selection, Growth and Physiology in Relation to Dietary Sodium Chloride Content in Rainbow Trout (Oncorhynchus mykiss) Under Chronic Waterborne Cu Exposure | Aquat. Toxicol.77(2): 210-221 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEL | 7 | days | 52.34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., S. Niyogi, and C.M. Wood | Interaction of Dietary Sodium Chloride and Waterborne Copper in Rainbow Trout (Oncorhynchus mykiss): Copper Toxicity and Sodium and Chloride Homeostasis | Can. J. Fish. Aquat. Sci.62(2): 390-399 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Genetic | LOEL | 0.17 | days | 1.65 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Heerden,D., A. Vosloo, and M. Nikinmaa | Effects of Short-Term Copper Exposure on Gill Structure, Metallothionein and Hypoxia-Inducible Factor-1alpha (HIF-1alpha) Levels in Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.69(3): 271-280 | 2004 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEL | 21 | days | 111 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | LOEL | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Al-Bairuty,G.A., B.J. Shaw, R.D. Handy, and T.B. Henry | Histopathological Effects of Waterborne Copper Nanoparticles and Copper Sulphate on the Organs of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.126:104-115 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEL | 28 | days | 108 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | LOEL | 30.4 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vosyliene,M.Z. | The Effect of Long-Term Exposure to Copper on Physiological Parameters of Rainbow Trout Oncorhynchus mykiss 2. Studies of Hematological Parameters | Ekologija1:3-6 | 1996 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEL | 91.3 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vosyliene,M.Z., and L. Petrauskiene | The Effect of Long-Term Exposure to Copper on Physiological Parameters of Rainbow Trout (Oncorhynchus mykiss) 1. Studies of Morphological Parameters | Ekologija3:23-26 | 1995 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Morphology | LOEL | 0.17 | days | 1.65 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Heerden,D., A. Vosloo, and M. Nikinmaa | Effects of Short-Term Copper Exposure on Gill Structure, Metallothionein and Hypoxia-Inducible Factor-1alpha (HIF-1alpha) Levels in Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.69(3): 271-280 | 2004 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 28 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Histological | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Al-Bairuty,G.A., B.J. Shaw, R.D. Handy, and T.B. Henry | Histopathological Effects of Waterborne Copper Nanoparticles and Copper Sulphate on the Organs of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.126:104-115 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 28 | days | 277.8 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Morphology | NOEC | 8 | days | 176.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez,W., O. Palluel, L. Meunier, M. Coquery, J.M. Porcher, and S. Ait-Aissa | Copper-Induced Oxidative Stress in Three-Spined Stickleback: Relationship with Hepatic Metal Levels | Environ. Toxicol. Pharmacol.19(1): 177-183 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 52 | days | >56.53 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | NOEC | 21 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Morphology | NOEC | 21 | days | 91.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez,W., O. Palluel, L. Meunier, M. Coquery, J.M. Porcher, and S. Ait-Aissa | Copper-Induced Oxidative Stress in Three-Spined Stickleback: Relationship with Hepatic Metal Levels | Environ. Toxicol. Pharmacol.19(1): 177-183 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 21 | days | >60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 52 | days | >56.53 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 28 | days | 13 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 52 | days | 56.53 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 28 | days | 25 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Histological | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Al-Bairuty,G.A., B.J. Shaw, R.D. Handy, and T.B. Henry | Histopathological Effects of Waterborne Copper Nanoparticles and Copper Sulphate on the Organs of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.126:104-115 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | EC50 | 1 | days | 1.09 | mM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Segner,H., and D. Lenz | Cytotoxicity Assays with the Rainbow Trout R1 Cell Line | Toxicol. In Vitro7(4): 537-540 | 1993 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | IC10 | 30 | days | >22 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Development | LOEC | 7 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Development | NOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | 22 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 21 | days | >60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | LOEC | 40 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Liu,H., W. Wang, J. Zhang, and X. Wang | Effects of Copper and Its Ethylenediaminetetraacetate Complex on the Antioxidant Defenses of the Goldfish, Carassius auratus | Ecotoxicol. Environ. Saf.65(3): 350-354 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Morphology | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Al-Bairuty,G.A., B.J. Shaw, R.D. Handy, and T.B. Henry | Histopathological Effects of Waterborne Copper Nanoparticles and Copper Sulphate on the Organs of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.126:104-115 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 40 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 7 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 21 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cavas,T., N.N. Garanko, and V.V. Arkhipchuk | Induction of Micronuclei and Binuclei in Blood, Gill and Liver Cells of Fishes Subchronically Exposed to Cadmium Chloride and Copper Sulphate | Food Chem. Toxicol.43(4): 569-574 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEC | 20 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 1 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 1 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 9 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 10 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 7 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 10 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 6 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | LOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 40 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Liu,H., W. Wang, J. Zhang, and X. Wang | Effects of Copper and Its Ethylenediaminetetraacetate Complex on the Antioxidant Defenses of the Goldfish, Carassius auratus | Ecotoxicol. Environ. Saf.65(3): 350-354 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 191 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | LOEC | 18 | days | 82.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 4 | days | 78.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | LOEC | 11 | days | 82.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 11 | days | 82.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 7 | days | 82.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | LOEC | 18 | days | 82.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 4 | days | 82.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 8 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 5 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 2 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 7 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 4 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 2 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Cellular | LOEC | 28 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | LOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 180 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, and J.A. Bantle | Integrated Ecological Hazard Assessment of Waste Site Soil Extracts Using FETAX and Short-Term Fathead Minnow Teratogenesis Assay | ASTM Spec. Tech. Publ.4:93-109 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 30 | days | 9.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | NOEC | 7 | days | 31 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Growth | NOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 0.58 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Cellular | LOEC | 14 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Cellular | LOEC | 14 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 14 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 30 | days | 11 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 52 | days | >56.53 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Cellular | LOEC | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paris-Palacios,S., and S. Biagianti-Risbourg | Hepatocyte Nuclear Structure and Subcellular Distribution of Copper in Zebrafish Brachydanio rerio and Roach Rutilus rutilus (Teleostei, Cyprinidae) Exposed to Copper Sulphate | Aquat. Toxicol.77(3): 306-313 | 2006 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 4 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 65 | days | 8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 191 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 7 | days | 35 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 7 | days | 35 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 7 | days | 17.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 21 | days | 16.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 38 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 1 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 1 | hours | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 3 | days | 323.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 9 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 56 | days | 721 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Shifts in a Fish's Resource Holding Power During a Contact Paired Interaction: The Influence of a Copper-Contaminated Diet in Rainbow Trout | Physiol. Biochem. Zool.78(5): 706-714 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEL | 28 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.13 | days | 153 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.25 | days | 153 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.5 | days | 153 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.25 | days | 153 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 15 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Neville,C.M. | Short-Term Early Life Stage Growth Test Using Sacfry and Early Swim-Up Stages of Rainbow Trout (Oncorhynchus mykiss) | Ontario Ministry of the Environment & Energy, Toronto, Ontario:27 p. | 1995 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | NOEL | 35 | days | 0.24 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 3 | days | 323.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | NOEL | 35 | days | 0.24 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 1 | days | 13.18 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sloman,K.A., D.W. Baker, C.G. Ho, D.G. McDonald, and C.M. Wood | The Effects of Trace Metal Exposure on Agonistic Encounters in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.63(2): 187-196 | 2003 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 2 | days | 1.73 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 10 | days | 19.89 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 30 | days | 19.89 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 10 | days | 1.73 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 20 | days | 1.73 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 30 | days | 19.89 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 30 | days | 1.73 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 2 | days | 19.89 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 20 | days | 1.73 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Avoidance | NOEC | 2.5 | hours | 1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Svecevicius,G. | Fish Avoidance Response to Heavy Metals and Their Mixtures | Acta Zool. Litu.9(2): 103-113 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 100 | days | 75.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | Effects of Chronic Sublethal Exposure to Waterborne Cu, Cd or Zn in Rainbow Trout 1: Iono-Regulatory Disturbance and Metabolic Costs | Aquat. Toxicol.50(3): 231-243 | 2000 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 4 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | LOEC | 40 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Liu,H., W. Wang, J. Zhang, and X. Wang | Effects of Copper and Its Ethylenediaminetetraacetate Complex on the Antioxidant Defenses of the Goldfish, Carassius auratus | Ecotoxicol. Environ. Saf.65(3): 350-354 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEL | 21 | days | 113.5 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., G.G. Pyle, D.G. McDonald, and C.M. Wood | Influence of Dietary Sodium on Waterborne Copper Toxicity in Rainbow Trout, Oncorhynchus mykiss | Environ. Toxicol. Chem.22(2): 342-350 | 2003 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 28 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEL | 1 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sloman,K.A., D.W. Baker, C.G. Ho, D.G. McDonald, and C.M. Wood | The Effects of Trace Metal Exposure on Agonistic Encounters in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.63(2): 187-196 | 2003 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEL | 1 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sloman,K.A., D.W. Baker, C.G. Ho, D.G. McDonald, and C.M. Wood | The Effects of Trace Metal Exposure on Agonistic Encounters in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.63(2): 187-196 | 2003 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEL | 30 | days | 1.05 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEL | 2 | days | 19.89 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | NOEL | 1 | days | 2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jonsson,M.E., C. Carlsson, R.W. Smith, and P. Part | Effects of Copper on CYP1A Activity and Epithelial Barrier Properties in the Rainbow Trout Gill | Aquat. Toxicol.79(1): 78-86 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEL | 7 | days | 36.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N. | Physiological Indicators of Waterborne Copper Toxicity in Freshwater Fish | Ph.D.Thesis, McMaster Univ., Hamilton, Ontario:224 p. | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 7 | days | 36.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N. | Physiological Indicators of Waterborne Copper Toxicity in Freshwater Fish | Ph.D.Thesis, McMaster Univ., Hamilton, Ontario:224 p. | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | NOEL | 7 | days | 36.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N. | Physiological Indicators of Waterborne Copper Toxicity in Freshwater Fish | Ph.D.Thesis, McMaster Univ., Hamilton, Ontario:224 p. | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 56 | days | 721 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Shifts in a Fish's Resource Holding Power During a Contact Paired Interaction: The Influence of a Copper-Contaminated Diet in Rainbow Trout | Physiol. Biochem. Zool.78(5): 706-714 | 2005 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEL | 100 | days | 75.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | Effects of Chronic Sublethal Exposure to Waterborne Cu, Cd or Zn in Rainbow Trout 1: Iono-Regulatory Disturbance and Metabolic Costs | Aquat. Toxicol.50(3): 231-243 | 2000 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 4 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 65 | days | 75.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | Effects of Chronic Sublethal Exposure to Waterborne Cu, Cd or Zn in Rainbow Trout 1: Iono-Regulatory Disturbance and Metabolic Costs | Aquat. Toxicol.50(3): 231-243 | 2000 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Hormone | NOEL | 29 | days | 108 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 29 | days | 111 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 29 | days | 111 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 29 | days | 108 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEL | 29 | days | 111 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Hormone | NOEL | 29 | days | 111 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | NOEL | 29 | days | 111 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Hormone | NOEL | 29 | days | 111 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEL | 29 | days | 111 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 63 | days | 990 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Julshamn,K., K.J. Andersen, O. Ringdal, and J. Brenna | Effect of Dietary Copper on the Hepatic Concentration and Subcellular Distribution of Copper and Zinc in the Rainbow Trout (Salmo gairdneri) | Aquaculture73:143-155 | 1988 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 63 | days | 405 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Julshamn,K., K.J. Andersen, O. Ringdal, and J. Brenna | Effect of Dietary Copper on the Hepatic Concentration and Subcellular Distribution of Copper and Zinc in the Rainbow Trout (Salmo gairdneri) | Aquaculture73:143-155 | 1988 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 63 | days | 405 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Julshamn,K., K.J. Andersen, O. Ringdal, and J. Brenna | Effect of Dietary Copper on the Hepatic Concentration and Subcellular Distribution of Copper and Zinc in the Rainbow Trout (Salmo gairdneri) | Aquaculture73:143-155 | 1988 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEL | 7 | days | 36.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N. | Physiological Indicators of Waterborne Copper Toxicity in Freshwater Fish | Ph.D.Thesis, McMaster Univ., Hamilton, Ontario:224 p. | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | NOEC | 7 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | NOEC | 14 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Morphology | NOEC | 4 | days | 176.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez,W., O. Palluel, L. Meunier, M. Coquery, J.M. Porcher, and S. Ait-Aissa | Copper-Induced Oxidative Stress in Three-Spined Stickleback: Relationship with Hepatic Metal Levels | Environ. Toxicol. Pharmacol.19(1): 177-183 | 2005 | 2018/03/20 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Morphology | NOEC | 4 | days | 176.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez,W., O. Palluel, L. Meunier, M. Coquery, J.M. Porcher, and S. Ait-Aissa | Copper-Induced Oxidative Stress in Three-Spined Stickleback: Relationship with Hepatic Metal Levels | Environ. Toxicol. Pharmacol.19(1): 177-183 | 2005 | 2018/03/20 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Morphology | NOEC | 8 | days | 176.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez,W., O. Palluel, L. Meunier, M. Coquery, J.M. Porcher, and S. Ait-Aissa | Copper-Induced Oxidative Stress in Three-Spined Stickleback: Relationship with Hepatic Metal Levels | Environ. Toxicol. Pharmacol.19(1): 177-183 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | NOEC | 14 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 52 | days | >56.53 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | NOEC | 28 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 21 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 14 | days | >52 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Growth | NOEC | 7 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 28 | days | 26.66 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.11 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Morphology | NOEC | 4 | days | 176.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez,W., O. Palluel, L. Meunier, M. Coquery, J.M. Porcher, and S. Ait-Aissa | Copper-Induced Oxidative Stress in Three-Spined Stickleback: Relationship with Hepatic Metal Levels | Environ. Toxicol. Pharmacol.19(1): 177-183 | 2005 | 2018/03/20 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Growth | IC50 | 7 | days | 483.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Morrison,G., E. Torello, R. Comeleo, R. Walsh, A. Kuhn, R. Burgess, M. Tagliabue, and W. Greene | Intralaboratory Precision of Saltwater Short-Term Chronic Toxicity Tests | J. Water Pollut. Control Fed.61:1707-1710 | 1989 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.6 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Development | EC50 | 7 | days | 1600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braunbeck,T., M. Bottcher, H. Hollert, T. Kosmehl, E. Lammer, E. Leist, M. Rudolf, and N. Seitz | Towards an Alternative for the Acute Fish LC50 Test in Chemical Assessment: The Fish Embryo Toxicity Test Goes Multi-Species - An Update | ALTEX22(2): 87-102 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | <0.3 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | IC10 | 30 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | IC10 | 30 | days | 24 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | IC10 | 30 | days | <4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | IC10 | 30 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 191 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | IC50 | 7 | days | 351.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Morrison,G., E. Torello, R. Comeleo, R. Walsh, A. Kuhn, R. Burgess, M. Tagliabue, and W. Greene | Intralaboratory Precision of Saltwater Short-Term Chronic Toxicity Tests | J. Water Pollut. Control Fed.61:1707-1710 | 1989 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | LOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 65 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | IC10 | 30 | days | >42 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 160 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, and J.A. Bantle | Integrated Ecological Hazard Assessment of Waste Site Soil Extracts Using FETAX and Short-Term Fathead Minnow Teratogenesis Assay | ASTM Spec. Tech. Publ.4:93-109 | 1996 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 30 | days | 6.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 1 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Growth | LOEC | 7 | days | 63 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | LOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 58 | days | >22 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 1 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Growth | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 1 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 191 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 58 | days | 11.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 42 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 21 | days | >60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Growth | NOEL | 0.13 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and I. Slominska | The Effect of Copper on Common Carp (Cyprinus carpio L.) During Embryonic and Postembryonic Development | Pol. Arch. Hydrobiol.44(1/2): 261-272 | 1997 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | NOEL | 42 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhu,Y., J. Wang, Y. Bai, and R. Zhang | Cadmium, Chromium, and Copper Induce Polychromatocyte Micronuclei in Carp (Cyprinus carpio L.) | Bull. Environ. Contam. Toxicol.72(1): 78-86 | 2004 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 21 | days | >60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | LOEC | 4 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | NOEC | 7 | days | <50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | LOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 38 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 191 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 30 | days | 4.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 0.58 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 52 | days | >56.53 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Cellular | LOEC | 21 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Cellular | LOEC | 35 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 28 | days | >53.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 58 | days | 22.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 35 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEC | 10 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 16 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 21 | days | >60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 0.5 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Arkhipchuk,V.V., and N.N. Garanko | Using the Nucleolar Biomarker and the Micronucleus Test on In Vivo Fish Fin Cells | Ecotoxicol. Environ. Saf.62(1): 42-52 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 1.5 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Arkhipchuk,V.V., and N.N. Garanko | Using the Nucleolar Biomarker and the Micronucleus Test on In Vivo Fish Fin Cells | Ecotoxicol. Environ. Saf.62(1): 42-52 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 0.5 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Arkhipchuk,V.V., and N.N. Garanko | Using the Nucleolar Biomarker and the Micronucleus Test on In Vivo Fish Fin Cells | Ecotoxicol. Environ. Saf.62(1): 42-52 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Cellular | LOEC | 28 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Development | EC50 | 4 | days | 820 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braunbeck,T., M. Bottcher, H. Hollert, T. Kosmehl, E. Lammer, E. Leist, M. Rudolf, and N. Seitz | Towards an Alternative for the Acute Fish LC50 Test in Chemical Assessment: The Fish Embryo Toxicity Test Goes Multi-Species - An Update | ALTEX22(2): 87-102 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 6 | days | 169.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 28 | days | 27 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 52 | days | 56.53 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Morphology | NOEL | 260 | days | 1368 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., S. Brown, and G. Van der Kraak | The Effects of Copper and Benzo(a)pyrene on Retinoids and Reproduction in Zebrafish | Aquat. Toxicol.82(4): 281-295 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEL | 7 | days | 5.36 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J., M. Bowersox, H. Latimer, C. Barbour, J. Bearr, and J. Butcher | Effects of Pulsed Contaminant Exposures on Early Life Stages of the Fathead Minnow | Arch. Environ. Contam. Toxicol.49(4): 511-519 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEL | 7 | days | 2.68 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J., M. Bowersox, H. Latimer, C. Barbour, J. Bearr, and J. Butcher | Effects of Pulsed Contaminant Exposures on Early Life Stages of the Fathead Minnow | Arch. Environ. Contam. Toxicol.49(4): 511-519 | 2005 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 0.58 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 2 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Histological | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Al-Bairuty,G.A., B.J. Shaw, R.D. Handy, and T.B. Henry | Histopathological Effects of Waterborne Copper Nanoparticles and Copper Sulphate on the Organs of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.126:104-115 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | LOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEC | 21 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Development | EC50 | 3 | days | 900 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braunbeck,T., M. Bottcher, H. Hollert, T. Kosmehl, E. Lammer, E. Leist, M. Rudolf, and N. Seitz | Towards an Alternative for the Acute Fish LC50 Test in Chemical Assessment: The Fish Embryo Toxicity Test Goes Multi-Species - An Update | ALTEX22(2): 87-102 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Development | EC50 | 7 | days | 190 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, and J.A. Bantle | Integrated Ecological Hazard Assessment of Waste Site Soil Extracts Using FETAX and Short-Term Fathead Minnow Teratogenesis Assay | ASTM Spec. Tech. Publ.4:93-109 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.25 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 1.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Development | EC50 | 1.2 | days | 1830 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braunbeck,T., M. Bottcher, H. Hollert, T. Kosmehl, E. Lammer, E. Leist, M. Rudolf, and N. Seitz | Towards an Alternative for the Acute Fish LC50 Test in Chemical Assessment: The Fish Embryo Toxicity Test Goes Multi-Species - An Update | ALTEX22(2): 87-102 | 2005 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Development | EC50 | 1 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braunbeck,T., M. Bottcher, H. Hollert, T. Kosmehl, E. Lammer, E. Leist, M. Rudolf, and N. Seitz | Towards an Alternative for the Acute Fish LC50 Test in Chemical Assessment: The Fish Embryo Toxicity Test Goes Multi-Species - An Update | ALTEX22(2): 87-102 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | <0.6 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Development | EC50 | 5 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, and J.A. Bantle | Integrated Ecological Hazard Assessment of Waste Site Soil Extracts Using FETAX and Short-Term Fathead Minnow Teratogenesis Assay | ASTM Spec. Tech. Publ.4:93-109 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.14 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Development | EC50 | 3.3 | days | 2220 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braunbeck,T., M. Bottcher, H. Hollert, T. Kosmehl, E. Lammer, E. Leist, M. Rudolf, and N. Seitz | Towards an Alternative for the Acute Fish LC50 Test in Chemical Assessment: The Fish Embryo Toxicity Test Goes Multi-Species - An Update | ALTEX22(2): 87-102 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Cellular | NOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Cellular | NOEC | 35 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Cellular | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Cellular | LOEC | 21 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Cellular | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 1.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.15 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.22 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.31 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.38 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 14 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paris-Palacios,S., and S. Biagianti-Risbourg | Hepatocyte Nuclear Structure and Subcellular Distribution of Copper in Zebrafish Brachydanio rerio and Roach Rutilus rutilus (Teleostei, Cyprinidae) Exposed to Copper Sulphate | Aquat. Toxicol.77(3): 306-313 | 2006 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Biochemical | LOEC | 1 | days | 550 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Biochemical | LOEC | 35 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Biochemical | LOEC | 21 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.13 | days | 38.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.38 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 2.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | <2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.28 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.13 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 25 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.63 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2.3 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2.1 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2.1 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Hormone | NOEC | 21 | days | 530 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Afaghi,A., S. Zare, R. Heidari, Y. Asadpoor, and R.M. Viayeh | Effects of Copper Sulfate (CuSO4) on the Levels of Glucose and Cortisol in Common Carp, Cyprinus carpio | Pak. J. Biol. Sci.10(10): 1655-1660 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 25 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.25 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.63 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 1 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 1 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Biochemical | LOEC | 1 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geetha,N., M. Ramesh, R. Manavalaramanujam, and A. Chezhian | Impact of Copper Sulphate on Plasma Electrolytes of a Freshwater Fish Cyprinus carpio | Asian J. Microbiol. Biotechnol. Environ. Sci.1(3/4): 153-155 | 1999 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 25 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Biochemical | LOEC | 28 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Biochemical | NOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | NOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 2.4 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 100 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEL | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Enzyme | NOEC | 0.25 | days | 14.6 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Adeyemi,J.A., L.E. Deaton, T.C. Pesacreta, and P.L. Klerks | Effects of Copper on Osmoregulation in Sheepshead Minnow, Cyprinodon variegatus Acclimated to Different Salinities | Aquat. Toxicol.109:111-117 | 2012 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Biochemical | NOEC | 0.25 | days | 14.6 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Adeyemi,J.A., L.E. Deaton, T.C. Pesacreta, and P.L. Klerks | Effects of Copper on Osmoregulation in Sheepshead Minnow, Cyprinodon variegatus Acclimated to Different Salinities | Aquat. Toxicol.109:111-117 | 2012 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Biochemical | NOEC | 0.25 | days | 14.6 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Adeyemi,J.A., L.E. Deaton, T.C. Pesacreta, and P.L. Klerks | Effects of Copper on Osmoregulation in Sheepshead Minnow, Cyprinodon variegatus Acclimated to Different Salinities | Aquat. Toxicol.109:111-117 | 2012 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEC | 1.4 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 1 | days | 2.36 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal and Pharmaceutical Mixtures: Is Ion Loss the Mechanism Underlying Acute Toxicity and Widespread Additive Toxicity in Zebrafish? | Aquat. Toxicol.140/141:257-267 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.38 | days | 38.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 1.1 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 14 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paris-Palacios,S., and S. Biagianti-Risbourg | Hepatocyte Nuclear Structure and Subcellular Distribution of Copper in Zebrafish Brachydanio rerio and Roach Rutilus rutilus (Teleostei, Cyprinidae) Exposed to Copper Sulphate | Aquat. Toxicol.77(3): 306-313 | 2006 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 14 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paris-Palacios,S., and S. Biagianti-Risbourg | Hepatocyte Nuclear Structure and Subcellular Distribution of Copper in Zebrafish Brachydanio rerio and Roach Rutilus rutilus (Teleostei, Cyprinidae) Exposed to Copper Sulphate | Aquat. Toxicol.77(3): 306-313 | 2006 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 51 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 1 | hours | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 11 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 11 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 10 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 10 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 15 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | NOEC | 10 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEC | 30 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 3 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 5 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEC | 3 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 16 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 17.5 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 24.5 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEC | 25 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEC | 15 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEL | 4 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.5 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 1 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 1 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 12 | days | 323.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 1 | hours | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 1 | days | 2.36 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal and Pharmaceutical Mixtures: Is Ion Loss the Mechanism Underlying Acute Toxicity and Widespread Additive Toxicity in Zebrafish? | Aquat. Toxicol.140/141:257-267 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 1 | days | 2.36 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal and Pharmaceutical Mixtures: Is Ion Loss the Mechanism Underlying Acute Toxicity and Widespread Additive Toxicity in Zebrafish? | Aquat. Toxicol.140/141:257-267 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 11 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 2.4 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEC | 4.8 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 1.4 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 1 | days | 0.79 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal and Pharmaceutical Mixtures: Is Ion Loss the Mechanism Underlying Acute Toxicity and Widespread Additive Toxicity in Zebrafish? | Aquat. Toxicol.140/141:257-267 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 21 | days | 2.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 1 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Avoidance | NOEC | 1 | hours | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bowen,G.M.R. | Joint Action of Sublethal Copper and Zinc on Locomotory Behaviour of Fathead Minnows | M.S. Thesis, University of Guelph, Ontario, Canada:100 p. | 1990 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 55 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 20 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 105 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 0.25 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 6.1 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 30 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 2 | days | 8.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 0.25 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 61 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 71 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 1 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.63 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 4.1 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 106 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 110 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 80 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 75 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 41 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 1 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 6 | days | 82.65 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 15 | days | 48 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Neville,C.M. | Short-Term Early Life Stage Growth Test Using Sacfry and Early Swim-Up Stages of Rainbow Trout (Oncorhynchus mykiss) | Ontario Ministry of the Environment & Energy, Toronto, Ontario:27 p. | 1995 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.38 | days | 82.65 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.63 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 2 | days | 82.65 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 2 | hours | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.38 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 0.5 | days | 153 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.13 | days | 82.65 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 2.8 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 10 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEL | 40 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Liu,H., J.F. Zhang, H. Shen, X.R. Wang, and W.M. Wang | Impact of Copper and Its EDTA Complex on the Glutathione-Dependent Antioxidant System in Freshwater Fish (Carassius auratus) | Bull. Environ. Contam. Toxicol.74(6): 1111-1117 | 2005 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEL | 40 | days | 2.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Liu,H., J.F. Zhang, H. Shen, X.R. Wang, and W.M. Wang | Impact of Copper and Its EDTA Complex on the Glutathione-Dependent Antioxidant System in Freshwater Fish (Carassius auratus) | Bull. Environ. Contam. Toxicol.74(6): 1111-1117 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 2 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 4 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 2 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 16 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 81 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | NOEC | 4 | days | 78.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 1 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 96 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 70 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | NOEC | 40 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Liu,H., W. Wang, J. Zhang, and X. Wang | Effects of Copper and Its Ethylenediaminetetraacetate Complex on the Antioxidant Defenses of the Goldfish, Carassius auratus | Ecotoxicol. Environ. Saf.65(3): 350-354 | 2006 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 2 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Biochemical | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Biochemical | LOEC | 1 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geetha,N., M. Ramesh, R. Manavalaramanujam, and A. Chezhian | Impact of Copper Sulphate on Plasma Electrolytes of a Freshwater Fish Cyprinus carpio | Asian J. Microbiol. Biotechnol. Environ. Sci.1(3/4): 153-155 | 1999 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 15 | days | 323.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 40 | days | 5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Liu,H., W. Wang, J. Zhang, and X. Wang | Effects of Copper and Its Ethylenediaminetetraacetate Complex on the Antioxidant Defenses of the Goldfish, Carassius auratus | Ecotoxicol. Environ. Saf.65(3): 350-354 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 86 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 5 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 101 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 116 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 55 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 9 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 0.17 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 1 | days | 8.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 10 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 4 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 61 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 10 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 6 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 20 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 75 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 110 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 10 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 20 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 0.17 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 3 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 10 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 8.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 1 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 10 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 10 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 10 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEL | 8 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Paris-Palacios, S. Betoulle, and G. Vernet | Modulation in Hepatic and Head Kidney Parameters of Carp (Cyprinus carpio L.) Induced by Copper and Chitosan | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.137(4): 325-333 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEL | 8 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Paris-Palacios, S. Betoulle, and G. Vernet | Modulation in Hepatic and Head Kidney Parameters of Carp (Cyprinus carpio L.) Induced by Copper and Chitosan | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.137(4): 325-333 | 2004 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.17 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 191 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. carpio | Hormone | NOEC | 7 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M., S. Senthil Kumaran, C. Kavith, M. Saravanan, and A. Mustafa | Primary Stress Responses of Common Carp, Cyprinus carpio, Exposed to Copper Toxicity | Acta Ichthyol. Piscat.37(2): 81-85 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 14 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paris-Palacios,S., and S. Biagianti-Risbourg | Hepatocyte Nuclear Structure and Subcellular Distribution of Copper in Zebrafish Brachydanio rerio and Roach Rutilus rutilus (Teleostei, Cyprinidae) Exposed to Copper Sulphate | Aquat. Toxicol.77(3): 306-313 | 2006 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 1.5 | days | 0.79 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal and Pharmaceutical Mixtures: Is Ion Loss the Mechanism Underlying Acute Toxicity and Widespread Additive Toxicity in Zebrafish? | Aquat. Toxicol.140/141:257-267 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | IC10 | 30 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.58 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 1 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEL | 10 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEL | 63 | days | 990 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Julshamn,K., K.J. Andersen, O. Ringdal, and J. Brenna | Effect of Dietary Copper on the Hepatic Concentration and Subcellular Distribution of Copper and Zinc in the Rainbow Trout (Salmo gairdneri) | Aquaculture73:143-155 | 1988 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 4 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | LOEL | 35 | days | 0.24 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/20 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEL | 4 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 30.4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 191 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Development | EC50 | 10 | days | 1130 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braunbeck,T., M. Bottcher, H. Hollert, T. Kosmehl, E. Lammer, E. Leist, M. Rudolf, and N. Seitz | Towards an Alternative for the Acute Fish LC50 Test in Chemical Assessment: The Fish Embryo Toxicity Test Goes Multi-Species - An Update | ALTEX22(2): 87-102 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEC | 7 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEC | 28 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 14 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 14 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 84.3 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | 28.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagnon,A., C. Jumarie, and A. Hontela | Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.78(1): 59-65 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 84.5 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 61 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 61 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 84.5 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 85 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 91.3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 84.3 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 35 | days | 0.24 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/20 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEL | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Morphology | LOEL | 91.3 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vosyliene,M.Z., and L. Petrauskiene | The Effect of Long-Term Exposure to Copper on Physiological Parameters of Rainbow Trout (Oncorhynchus mykiss) 1. Studies of Morphological Parameters | Ekologija3:23-26 | 1995 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEL | 63 | days | 990 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Julshamn,K., K.J. Andersen, O. Ringdal, and J. Brenna | Effect of Dietary Copper on the Hepatic Concentration and Subcellular Distribution of Copper and Zinc in the Rainbow Trout (Salmo gairdneri) | Aquaculture73:143-155 | 1988 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 30 | days | 22.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 21 | days | 0.24 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/20 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 28 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 4 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 21 | days | 42 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEL | 63 | days | 990 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Julshamn,K., K.J. Andersen, O. Ringdal, and J. Brenna | Effect of Dietary Copper on the Hepatic Concentration and Subcellular Distribution of Copper and Zinc in the Rainbow Trout (Salmo gairdneri) | Aquaculture73:143-155 | 1988 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEC | 21 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular | NOEC | 84 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 7 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 28 | days | 59 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Genetic | LOEC | 0.5 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Arkhipchuk,V.V., and N.N. Garanko | Using the Nucleolar Biomarker and the Micronucleus Test on In Vivo Fish Fin Cells | Ecotoxicol. Environ. Saf.62(1): 42-52 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEC | 28 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Cellular | LOEC | 30 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 0.71 | days | 50 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., V. Moreno, F.A. Olivari, and M.L. Allende | Sub-Lethal Concentrations of Waterborne Copper are Toxic to Lateral Line Neuromasts in Zebrafish (Danio rerio) | Hear. Res.213(1-2): 1-10 | 2006 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEL | 1 | days | 10 | mg/kg bdwt TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Varanka,Z., I. Rojik, I. Varanka, J. Nemcsok, and M. Abraham | Biochemical and Morphological Changes in Carp (Cyprinus carpio L.) Liver Following Exposure to Copper Sulfate and Tannic Acid | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.128(3): 467-478 | 2001 | 2018/03/20 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.58 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 61 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Development | EC50 | 2 | days | 260 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Braunbeck,T., M. Bottcher, H. Hollert, T. Kosmehl, E. Lammer, E. Leist, M. Rudolf, and N. Seitz | Towards an Alternative for the Acute Fish LC50 Test in Chemical Assessment: The Fish Embryo Toxicity Test Goes Multi-Species - An Update | ALTEX22(2): 87-102 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.6 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.19 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEL | 28 | days | 24 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hogstrand,C. | Induction of Metallothionein and Subcellular Distribution of Copper and Zinc in Rainbow Trout, Oncorhynchus mykiss, During Long-Term Exposure to Copper | Manuscr., Dep.of Zoophysiol., Univ.of Goteborg, Goteborg, Sweden:24 p. | 1991 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 61 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 28 | days | 24 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hogstrand,C. | Induction of Metallothionein and Subcellular Distribution of Copper and Zinc in Rainbow Trout, Oncorhynchus mykiss, During Long-Term Exposure to Copper | Manuscr., Dep.of Zoophysiol., Univ.of Goteborg, Goteborg, Sweden:24 p. | 1991 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 91.3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 61 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEL | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEL | 2 | hours | 10000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nemcsok,J., and I. Benedeczky | Pesticide Metabolism and the Adverse Effects of Metabolites on Fishes | In: P.W.Hochachka and T.P.Mommsen (Eds.), Biochemistry and Molecular Biology of Fishes, Chapter 16, Elsevier Sci.Publ., Amsterdam, Netherlands5:313-348 | 1995 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEL | 2 | hours | 10000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nemcsok,J., and I. Benedeczky | Pesticide Metabolism and the Adverse Effects of Metabolites on Fishes | In: P.W.Hochachka and T.P.Mommsen (Eds.), Biochemistry and Molecular Biology of Fishes, Chapter 16, Elsevier Sci.Publ., Amsterdam, Netherlands5:313-348 | 1995 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.41 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | NOEC | 7 | days | 82.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | NOEC | 4 | days | 82.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | NOEC | 4 | days | 78.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | NOEC | 7 | days | 82.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 25 | days | 82.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 18 | days | 82.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 7 | days | <25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 2 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1.3 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1.1 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1.1 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2.3 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEL | 40 | days | 2.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Liu,H., J.F. Zhang, H. Shen, X.R. Wang, and W.M. Wang | Impact of Copper and Its EDTA Complex on the Glutathione-Dependent Antioxidant System in Freshwater Fish (Carassius auratus) | Bull. Environ. Contam. Toxicol.74(6): 1111-1117 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2.3 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 11 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 1.4 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pyle,G., and C. Wood | Radiotracer Studies on Waterborne Copper Uptake, Distribution, and Toxicity in Rainbow Trout and Yellow Perch: A Comparative Analysis | Hum. Ecol. Risk Assess.14:243-265 | 2008 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | NOEC | 11 | days | 82.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 21 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | NOEC | 4 | days | 82.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 21 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 17.5 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 5 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 3 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 4 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 3 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEL | 1 | days | 10 | mg/kg bdwt TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Varanka,Z., I. Rojik, I. Varanka, J. Nemcsok, and M. Abraham | Biochemical and Morphological Changes in Carp (Cyprinus carpio L.) Liver Following Exposure to Copper Sulfate and Tannic Acid | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.128(3): 467-478 | 2001 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 11 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 1 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 1 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 5 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEL | 7 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 10 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 15 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 30 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 20 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 20 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 5 | days | 240 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar | Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio | J. Environ. Sci. Eng.53(3): 335-340 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 5 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEL | 1.4 | days | 231.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pyle,G., and C. Wood | Radiotracer Studies on Waterborne Copper Uptake, Distribution, and Toxicity in Rainbow Trout and Yellow Perch: A Comparative Analysis | Hum. Ecol. Risk Assess.14:243-265 | 2008 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 25 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 7 | days | 8.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 7 | days | 35 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 4 | days | 102.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 7 | days | 8.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 14 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Growth | 7 | days | 8.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/20 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 7 | days | 27 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Morphology | LOEL | 5 | days | 68.35 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,A., E. Carew, and K.A. Sloman | The Effects of Copper on the Morphological and Functional Development of Zebrafish Embryos | Aquat. Toxicol.84(4): 431-438 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 10 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 7 | days | <25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 0.13 | days | 1.18 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M., E.J. VanGenderen, J.R. Tomasso, and S.J. Klaine | Whole-Body Sodium Concentration in Larval Fathead Minnows (Pimephales promelas) During and Following Copper Exposure | Environ. Toxicol. Chem.25(6): 1635-1639 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 5 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 1 | days | 0.39 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M., E.J. VanGenderen, J.R. Tomasso, and S.J. Klaine | Whole-Body Sodium Concentration in Larval Fathead Minnows (Pimephales promelas) During and Following Copper Exposure | Environ. Toxicol. Chem.25(6): 1635-1639 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 1.7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 1.8 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 1.8 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Biochemical | NOEC | 0.25 | days | 14.6 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Adeyemi,J.A., L.E. Deaton, T.C. Pesacreta, and P.L. Klerks | Effects of Copper on Osmoregulation in Sheepshead Minnow, Cyprinodon variegatus Acclimated to Different Salinities | Aquat. Toxicol.109:111-117 | 2012 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Biochemical | NOEC | 0.25 | days | 14.6 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Adeyemi,J.A., L.E. Deaton, T.C. Pesacreta, and P.L. Klerks | Effects of Copper on Osmoregulation in Sheepshead Minnow, Cyprinodon variegatus Acclimated to Different Salinities | Aquat. Toxicol.109:111-117 | 2012 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Enzyme | NOEC | 0.25 | days | 14.6 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Adeyemi,J.A., L.E. Deaton, T.C. Pesacreta, and P.L. Klerks | Effects of Copper on Osmoregulation in Sheepshead Minnow, Cyprinodon variegatus Acclimated to Different Salinities | Aquat. Toxicol.109:111-117 | 2012 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Biochemical | NOEC | 0.25 | days | 14.6 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Adeyemi,J.A., L.E. Deaton, T.C. Pesacreta, and P.L. Klerks | Effects of Copper on Osmoregulation in Sheepshead Minnow, Cyprinodon variegatus Acclimated to Different Salinities | Aquat. Toxicol.109:111-117 | 2012 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.5 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 115 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 3 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 4 | days | 38 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, and G. Vernet | Antioxidant Response Modulated by Copper in Healthy or Parasitized Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Biochim. Biophys. Acta1573(1): 4-8 | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 4 | days | 38 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, and G. Vernet | Antioxidant Response Modulated by Copper in Healthy or Parasitized Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Biochim. Biophys. Acta1573(1): 4-8 | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 4 | days | 38 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, and G. Vernet | Antioxidant Response Modulated by Copper in Healthy or Parasitized Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Biochim. Biophys. Acta1573(1): 4-8 | 2002 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Enzyme | LOEL | 1 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nemcsok,J., and I. Benedeczky | Pesticide Metabolism and the Adverse Effects of Metabolites on Fishes | In: P.W.Hochachka and T.P.Mommsen (Eds.), Biochemistry and Molecular Biology of Fishes, Chapter 16, Elsevier Sci.Publ., Amsterdam, Netherlands5:313-348 | 1995 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 191 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | IC10 | 30 | days | 32 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | IC10 | 30 | days | <4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | IC10 | 30 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | NOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | NOEC | 7 | days | <50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | NOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende | Regeneration in Zebrafish Lateral Line Neuromasts: Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal | Dev. Neurobiol.67(5): 637-654 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | LOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 4 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 84 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 10 | days | 22.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,B.J., G. Al-Bairuty, and R.D. Handy | Effects of Waterborne Copper Nanoparticles and Copper Sulphate on Rainbow Trout, (Oncorhynchus mykiss): Physiology and Accumulation | Aquat. Toxicol.116/117:90-101 | 2012 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1.3 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 14 | days | 160 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Afaghi,A., S. Zare, R. Heidari, Y. Asadpoor, and R.M. Viayeh | Effects of Copper Sulfate (CuSO4) on the Levels of Glucose and Cortisol in Common Carp, Cyprinus carpio | Pak. J. Biol. Sci.10(10): 1655-1660 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 21 | days | 160 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Afaghi,A., S. Zare, R. Heidari, Y. Asadpoor, and R.M. Viayeh | Effects of Copper Sulfate (CuSO4) on the Levels of Glucose and Cortisol in Common Carp, Cyprinus carpio | Pak. J. Biol. Sci.10(10): 1655-1660 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 95 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 0.25 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEL | 8 | days | <=151.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kolok,A.S., M.M. Hartman, and J. Sershan | The Physiology of Copper Tolerance in Fathead Minnows: Insight from an Intraspecific, Correlative Analysis | Environ. Toxicol. Chem.21(8): 1730-1735 | 2002 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 46 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Cellular | LOEC | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paris-Palacios,S., and S. Biagianti-Risbourg | Hepatocyte Nuclear Structure and Subcellular Distribution of Copper in Zebrafish Brachydanio rerio and Roach Rutilus rutilus (Teleostei, Cyprinidae) Exposed to Copper Sulphate | Aquat. Toxicol.77(3): 306-313 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., R. MacPhail, D. Mahar, and B. Grimmelt | Evaluation of Antioxidant Circulatory Lipid-Soluble Vitamins and Sodium as Non-Invasive Indicators of Chronic Copper Exposure and Toxicity in Rainbow Trout, Oncorhynchus mykiss | Bull. Environ. Contam. Toxicol.80(6): 502-506 | 2008 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 8 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 91.3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.5 | hours | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.13 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.5 | hours | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.5 | hours | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEL | 0.17 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Waser,W., O. Bausheva, and M. Nikinmaa | The Copper-Induced Reduction of Critical Swimming Speed in Rainbow Trout (Oncorhynchus mykiss) is Not Caused by Changes in Gill Structure | Aquat. Toxicol.94(1): 77-79 | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEL | 1 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nemcsok,J., and I. Benedeczky | Pesticide Metabolism and the Adverse Effects of Metabolites on Fishes | In: P.W.Hochachka and T.P.Mommsen (Eds.), Biochemistry and Molecular Biology of Fishes, Chapter 16, Elsevier Sci.Publ., Amsterdam, Netherlands5:313-348 | 1995 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., R. MacPhail, D. Mahar, and B. Grimmelt | Evaluation of Antioxidant Circulatory Lipid-Soluble Vitamins and Sodium as Non-Invasive Indicators of Chronic Copper Exposure and Toxicity in Rainbow Trout, Oncorhynchus mykiss | Bull. Environ. Contam. Toxicol.80(6): 502-506 | 2008 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEC | 4 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEC | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 8 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 15 | days | 240 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar | Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio | J. Environ. Sci. Eng.53(3): 335-340 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 8 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 4 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 8 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEC | 8 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 1.4 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. carpio | Hormone | NOEC | 28 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M., S. Senthil Kumaran, C. Kavith, M. Saravanan, and A. Mustafa | Primary Stress Responses of Common Carp, Cyprinus carpio, Exposed to Copper Toxicity | Acta Ichthyol. Piscat.37(2): 81-85 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 1 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Biochemical | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEC | 4 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Biochemical | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEC | 3 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Avoidance | LOEC | 1 | hours | 27 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bowen,G.M.R. | Joint Action of Sublethal Copper and Zinc on Locomotory Behaviour of Fathead Minnows | M.S. Thesis, University of Guelph, Ontario, Canada:100 p. | 1990 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 4 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 4 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 1 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 4 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEC | 8 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Biochemical | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. carpio | Hormone | LOEC | 1 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M., S. Senthil Kumaran, C. Kavith, M. Saravanan, and A. Mustafa | Primary Stress Responses of Common Carp, Cyprinus carpio, Exposed to Copper Toxicity | Acta Ichthyol. Piscat.37(2): 81-85 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. carpio | Hormone | LOEC | 21 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M., S. Senthil Kumaran, C. Kavith, M. Saravanan, and A. Mustafa | Primary Stress Responses of Common Carp, Cyprinus carpio, Exposed to Copper Toxicity | Acta Ichthyol. Piscat.37(2): 81-85 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. carpio | Hormone | LOEC | 7 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M., S. Senthil Kumaran, C. Kavith, M. Saravanan, and A. Mustafa | Primary Stress Responses of Common Carp, Cyprinus carpio, Exposed to Copper Toxicity | Acta Ichthyol. Piscat.37(2): 81-85 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. carpio | Hormone | LOEC | 1 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M., S. Senthil Kumaran, C. Kavith, M. Saravanan, and A. Mustafa | Primary Stress Responses of Common Carp, Cyprinus carpio, Exposed to Copper Toxicity | Acta Ichthyol. Piscat.37(2): 81-85 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. carpio | Hormone | LOEC | 21 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M., S. Senthil Kumaran, C. Kavith, M. Saravanan, and A. Mustafa | Primary Stress Responses of Common Carp, Cyprinus carpio, Exposed to Copper Toxicity | Acta Ichthyol. Piscat.37(2): 81-85 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Biochemical | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 1.7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Biochemical | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Biochemical | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 0.25 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Biochemical | LOEC | 0.25 | days | 14.6 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Adeyemi,J.A., L.E. Deaton, T.C. Pesacreta, and P.L. Klerks | Effects of Copper on Osmoregulation in Sheepshead Minnow, Cyprinodon variegatus Acclimated to Different Salinities | Aquat. Toxicol.109:111-117 | 2012 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 1 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 30 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 1.7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 1.7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEC | 1 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 1 | days | 0.79 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M., E.J. VanGenderen, J.R. Tomasso, and S.J. Klaine | Whole-Body Sodium Concentration in Larval Fathead Minnows (Pimephales promelas) During and Following Copper Exposure | Environ. Toxicol. Chem.25(6): 1635-1639 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.25 | days | 0.39 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M., E.J. VanGenderen, J.R. Tomasso, and S.J. Klaine | Whole-Body Sodium Concentration in Larval Fathead Minnows (Pimephales promelas) During and Following Copper Exposure | Environ. Toxicol. Chem.25(6): 1635-1639 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 2 | days | 0.39 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M., E.J. VanGenderen, J.R. Tomasso, and S.J. Klaine | Whole-Body Sodium Concentration in Larval Fathead Minnows (Pimephales promelas) During and Following Copper Exposure | Environ. Toxicol. Chem.25(6): 1635-1639 | 2006 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEC | 3 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 2 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Accumulation | LOEC | 2 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nakayama,S.M.M., Y. Ikenaka, K. Muzandu, K. Choongo, J. Yabe, T. Muroya, S. Ijiri, M. Minagawa, T. Umemura, and M. Ishiz | Geographic Information System-Based Source Estimation of Copper Pollution in Lake Itezhi-Tezhi and Metal-Accumulation Profiles in Oreochromis spp. from Both Field and Laboratory Studies | Arch. Environ. Contam. Toxicol.64(1): 119-129 | 2013 | 2018/03/20 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Accumulation | LOEC | 1 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nakayama,S.M.M., Y. Ikenaka, K. Muzandu, K. Choongo, J. Yabe, T. Muroya, S. Ijiri, M. Minagawa, T. Umemura, and M. Ishiz | Geographic Information System-Based Source Estimation of Copper Pollution in Lake Itezhi-Tezhi and Metal-Accumulation Profiles in Oreochromis spp. from Both Field and Laboratory Studies | Arch. Environ. Contam. Toxicol.64(1): 119-129 | 2013 | 2018/03/20 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Accumulation | LOEC | 3 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nakayama,S.M.M., Y. Ikenaka, K. Muzandu, K. Choongo, J. Yabe, T. Muroya, S. Ijiri, M. Minagawa, T. Umemura, and M. Ishiz | Geographic Information System-Based Source Estimation of Copper Pollution in Lake Itezhi-Tezhi and Metal-Accumulation Profiles in Oreochromis spp. from Both Field and Laboratory Studies | Arch. Environ. Contam. Toxicol.64(1): 119-129 | 2013 | 2018/03/20 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Accumulation | LOEC | 4 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nakayama,S.M.M., Y. Ikenaka, K. Muzandu, K. Choongo, J. Yabe, T. Muroya, S. Ijiri, M. Minagawa, T. Umemura, and M. Ishiz | Geographic Information System-Based Source Estimation of Copper Pollution in Lake Itezhi-Tezhi and Metal-Accumulation Profiles in Oreochromis spp. from Both Field and Laboratory Studies | Arch. Environ. Contam. Toxicol.64(1): 119-129 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 1.8 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.5 | days | 0.39 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M., E.J. VanGenderen, J.R. Tomasso, and S.J. Klaine | Whole-Body Sodium Concentration in Larval Fathead Minnows (Pimephales promelas) During and Following Copper Exposure | Environ. Toxicol. Chem.25(6): 1635-1639 | 2006 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Growth | LOEC | 3.9 | days | 6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bai,W., W. Tian, Z. Zhang, X. He, Y. Ma, N. Liu, and Z. Chai | Effects of Copper Nanoparticles on the Development of Zebrafish Embryos | J. Nanosci. Nanotechnol.10(12): 8670-8676 | 2010 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 30 | days | 22.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Biochemical | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 14 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paris-Palacios,S., and S. Biagianti-Risbourg | Hepatocyte Nuclear Structure and Subcellular Distribution of Copper in Zebrafish Brachydanio rerio and Roach Rutilus rutilus (Teleostei, Cyprinidae) Exposed to Copper Sulphate | Aquat. Toxicol.77(3): 306-313 | 2006 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEL | 200 | days | 135 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., S. Brown, and G. Van der Kraak | The Effects of Copper and Benzo(a)pyrene on Retinoids and Reproduction in Zebrafish | Aquat. Toxicol.82(4): 281-295 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEL | 200 | days | 135 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., S. Brown, and G. Van der Kraak | The Effects of Copper and Benzo(a)pyrene on Retinoids and Reproduction in Zebrafish | Aquat. Toxicol.82(4): 281-295 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Behavior | NOEL | 9 | days | <=151.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kolok,A.S., M.M. Hartman, and J. Sershan | The Physiology of Copper Tolerance in Fathead Minnows: Insight from an Intraspecific, Correlative Analysis | Environ. Toxicol. Chem.21(8): 1730-1735 | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. carpio | Hormone | LOEC | 14 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M., S. Senthil Kumaran, C. Kavith, M. Saravanan, and A. Mustafa | Primary Stress Responses of Common Carp, Cyprinus carpio, Exposed to Copper Toxicity | Acta Ichthyol. Piscat.37(2): 81-85 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 30 | days | 4.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 8 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 10 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 15 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEC | 0.75 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 1 | hours | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.25 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 35 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 51 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 100 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 81 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 61 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 21 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 50 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 65 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 66 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 96 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 75 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 46 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.38 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 45 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 101 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 115 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 1 | days | 8.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 1 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.38 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 111 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 14 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paris-Palacios,S., and S. Biagianti-Risbourg | Hepatocyte Nuclear Structure and Subcellular Distribution of Copper in Zebrafish Brachydanio rerio and Roach Rutilus rutilus (Teleostei, Cyprinidae) Exposed to Copper Sulphate | Aquat. Toxicol.77(3): 306-313 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 50 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 60 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 65 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 1.8 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 1.8 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 14 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paris-Palacios,S., and S. Biagianti-Risbourg | Hepatocyte Nuclear Structure and Subcellular Distribution of Copper in Zebrafish Brachydanio rerio and Roach Rutilus rutilus (Teleostei, Cyprinidae) Exposed to Copper Sulphate | Aquat. Toxicol.77(3): 306-313 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 31 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 66 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 71 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 85 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. carpio | Hormone | LOEC | 28 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M., S. Senthil Kumaran, C. Kavith, M. Saravanan, and A. Mustafa | Primary Stress Responses of Common Carp, Cyprinus carpio, Exposed to Copper Toxicity | Acta Ichthyol. Piscat.37(2): 81-85 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 1.4 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 84.8 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 84.8 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2.1 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 35 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 106 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 86 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Biochemical | LOEL | 1 | hours | 1850 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tulou,K.E., G.D. Boardman, S.A. Smith, and G.J. Flick | Levels of Vitellogenin in Male Japanese Medaka (Oryzias latipes) Exposed to the Chemotherapeutics: Oxytetracycline, Romet-30(R), and Copper Sulfate | J. Appl. Aquacult.20(3): 149-167 | 2008 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 10 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 30 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 31 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 56 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Behavior | LOEL | 5 | days | 68.35 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,A., E. Carew, and K.A. Sloman | The Effects of Copper on the Morphological and Functional Development of Zebrafish Embryos | Aquat. Toxicol.84(4): 431-438 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 4.4 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEL | 200 | days | 644 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., S. Brown, and G. Van der Kraak | The Effects of Copper and Benzo(a)pyrene on Retinoids and Reproduction in Zebrafish | Aquat. Toxicol.82(4): 281-295 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEL | 4 | days | 290.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sellin,M.K., E. Tate-Boldt, and A.S. Kolok | Acclimation to Cu in Fathead Minnows: Does Age Influence the Response? | Aquat. Toxicol.74(2): 97-109 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 40 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 50 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 55 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 105 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 86 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEL | 4 | days | 290.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sellin,M.K., E. Tate-Boldt, and A.S. Kolok | Acclimation to Cu in Fathead Minnows: Does Age Influence the Response? | Aquat. Toxicol.74(2): 97-109 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 5 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 35 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 60 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 70 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 65 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 11 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 26 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.88 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 16 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 95 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 25 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 46 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 91 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 115 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 1 | hours | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 1 | hours | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 15 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 30 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 1.3 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.38 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 1.1 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 2.1 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 4.3 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 1.1 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.13 | days | 38.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.38 | days | 90.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 41 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.63 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 101 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.13 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 1.1 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.25 | days | 38.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.13 | days | 38.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 1 | days | 82.65 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 50 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.38 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.38 | days | 38.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 2 | days | 8.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.13 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 71 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 110 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 15 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 5 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 65 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 85 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.5 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1.1 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1.3 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kuz'mina,V.V. | The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L. | Aquat. Toxicol.102(1/2): 73-78 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 30.4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 20 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 14 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paris-Palacios,S., and S. Biagianti-Risbourg | Hepatocyte Nuclear Structure and Subcellular Distribution of Copper in Zebrafish Brachydanio rerio and Roach Rutilus rutilus (Teleostei, Cyprinidae) Exposed to Copper Sulphate | Aquat. Toxicol.77(3): 306-313 | 2006 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.63 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 1.1 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.38 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.38 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.88 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 6.3 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.63 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.13 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 2.1 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEC | 0.5 | days | 38.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 1.8 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 1 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEC | 0.5 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.25 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEC | 1 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEC | 6 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.13 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 28 | days | 0.2778 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.5 | days | 38.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 60 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | NOEC | 20 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 66 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 86 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEL | 8 | days | <=151.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kolok,A.S., M.M. Hartman, and J. Sershan | The Physiology of Copper Tolerance in Fathead Minnows: Insight from an Intraspecific, Correlative Analysis | Environ. Toxicol. Chem.21(8): 1730-1735 | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 111 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 21 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 105 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 4.3 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 4.1 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 2.1 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 26 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 70 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 5 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 10 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 5 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 55 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 110 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 70 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 0.17 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 1.5 | days | 0.79 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal and Pharmaceutical Mixtures: Is Ion Loss the Mechanism Underlying Acute Toxicity and Widespread Additive Toxicity in Zebrafish? | Aquat. Toxicol.140/141:257-267 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 15 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 15 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.13 | days | 90.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 51 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 56 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 2.1 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. carpio | Hormone | NOEC | 35 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M., S. Senthil Kumaran, C. Kavith, M. Saravanan, and A. Mustafa | Primary Stress Responses of Common Carp, Cyprinus carpio, Exposed to Copper Toxicity | Acta Ichthyol. Piscat.37(2): 81-85 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEL | 8 | days | 302 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tate-Boldt,E.K., and A.S. Kolok | Copper Acclimation in Juvenile Fathead Minnows: Is a Cycle of Branchial Damage and Repair Necessary? | Aquat. Toxicol.87(1): 13-18 | 2008 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEL | 4 | days | 290.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sellin,M.K., E. Tate-Boldt, and A.S. Kolok | Acclimation to Cu in Fathead Minnows: Does Age Influence the Response? | Aquat. Toxicol.74(2): 97-109 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEL | 4 | days | 333.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sellin,M.K., E. Tate-Boldt, and A.S. Kolok | Acclimation to Cu in Fathead Minnows: Does Age Influence the Response? | Aquat. Toxicol.74(2): 97-109 | 2005 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEL | 260 | days | 644 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., S. Brown, and G. Van der Kraak | The Effects of Copper and Benzo(a)pyrene on Retinoids and Reproduction in Zebrafish | Aquat. Toxicol.82(4): 281-295 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 4 | days | 174 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, and G. Vernet | Antioxidant Response Modulated by Copper in Healthy or Parasitized Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Biochim. Biophys. Acta1573(1): 4-8 | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 4 | days | 38 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, and G. Vernet | Antioxidant Response Modulated by Copper in Healthy or Parasitized Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Biochim. Biophys. Acta1573(1): 4-8 | 2002 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 51 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 4 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 5 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 6 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | NOEC | 40 | days | 2.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Liu,H., W. Wang, J. Zhang, and X. Wang | Effects of Copper and Its Ethylenediaminetetraacetate Complex on the Antioxidant Defenses of the Goldfish, Carassius auratus | Ecotoxicol. Environ. Saf.65(3): 350-354 | 2006 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 7 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 76 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 81 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 25 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 1 | days | 2.36 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal and Pharmaceutical Mixtures: Is Ion Loss the Mechanism Underlying Acute Toxicity and Widespread Additive Toxicity in Zebrafish? | Aquat. Toxicol.140/141:257-267 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 21 | days | 2.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 21 | days | 2.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 21 | days | 3.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 1 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 5 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 25 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 20 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | NOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Growth | LOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 4 | days | 38 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, and G. Vernet | Antioxidant Response Modulated by Copper in Healthy or Parasitized Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Biochim. Biophys. Acta1573(1): 4-8 | 2002 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 21 | days | 5.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 106 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 84.5 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | hours | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 0.25 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 10 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 30 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 10 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 2 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 7 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEL | 40 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Liu,H., J.F. Zhang, H. Shen, X.R. Wang, and W.M. Wang | Impact of Copper and Its EDTA Complex on the Glutathione-Dependent Antioxidant System in Freshwater Fish (Carassius auratus) | Bull. Environ. Contam. Toxicol.74(6): 1111-1117 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 90 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 1 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 90 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 3 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 4.8 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Enzyme | LOEC | 0.25 | days | 14.6 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Adeyemi,J.A., L.E. Deaton, T.C. Pesacreta, and P.L. Klerks | Effects of Copper on Osmoregulation in Sheepshead Minnow, Cyprinodon variegatus Acclimated to Different Salinities | Aquat. Toxicol.109:111-117 | 2012 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 40 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Liu,H., W. Wang, J. Zhang, and X. Wang | Effects of Copper and Its Ethylenediaminetetraacetate Complex on the Antioxidant Defenses of the Goldfish, Carassius auratus | Ecotoxicol. Environ. Saf.65(3): 350-354 | 2006 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 1.1 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.13 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 6 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Growth | NOEL | 3 | days | 53.13 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,A., E. Carew, and K.A. Sloman | The Effects of Copper on the Morphological and Functional Development of Zebrafish Embryos | Aquat. Toxicol.84(4): 431-438 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 45 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 6 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.88 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 9 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 3 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 40 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 105 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 115 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 90 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 95 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 85 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 26 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 16 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.63 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 96 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 1.1 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 100 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 36 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 80 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 16 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 116 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 116 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 52 | days | 40 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 91 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 30.4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 91.3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 30.4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 91.3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Petrauskiene,L. | Effects of Novel Environment on Rainbow Trout Exposed to Copper | Acta Zool. Litu.9(2): 95-102 | 1999 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Growth | LOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 40 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Genetic | LOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 10 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.82 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.78 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | EC50 | 7 | days | 0.26 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 7 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 14 | days | 401.4 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 10 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEL | 260 | days | 1368 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., S. Brown, and G. Van der Kraak | The Effects of Copper and Benzo(a)pyrene on Retinoids and Reproduction in Zebrafish | Aquat. Toxicol.82(4): 281-295 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Genetic | LOEC | 4 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosemberg,D.B., E.P. Rico, M.R. Senger, M.D.B. Arizi, R.D. Dias, M.R. Bogo, and C.D. Bonan | Acute and Subchronic Copper Treatments Alter Extracellular Nucleotide Hydrolysis in Zebrafish Brain Membranes | Toxicology236(1-2): 132-139 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 56 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Hormone | LOEC | 14 | days | 160 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Afaghi,A., S. Zare, R. Heidari, Y. Asadpoor, and R.M. Viayeh | Effects of Copper Sulfate (CuSO4) on the Levels of Glucose and Cortisol in Common Carp, Cyprinus carpio | Pak. J. Biol. Sci.10(10): 1655-1660 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 5 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 20 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 30 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | NOEC | 10 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEL | 1 | days | 5000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nemcsok,J., and I. Benedeczky | Pesticide Metabolism and the Adverse Effects of Metabolites on Fishes | In: P.W.Hochachka and T.P.Mommsen (Eds.), Biochemistry and Molecular Biology of Fishes, Chapter 16, Elsevier Sci.Publ., Amsterdam, Netherlands5:313-348 | 1995 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEL | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 3 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 30 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 25 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 30 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 1.4 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | NOEC | 4 | days | 78.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEL | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 10 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.25 | days | 10 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., J.R. Tomasso, and S.J. Klaine | Influence of Copper Exposure on Whole-Body Sodium Levels in Larval Fathead Minnows (Pimephales promelas) | Environ. Toxicol. Chem.27(6): 1442-1449 | 2008 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 0.5 | hours | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 1.4 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.88 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 2.1 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 7 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.13 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 5 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 9 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEL | 16 | days | 202 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tate-Boldt,E.K., and A.S. Kolok | Copper Acclimation in Juvenile Fathead Minnows: Is a Cycle of Branchial Damage and Repair Necessary? | Aquat. Toxicol.87(1): 13-18 | 2008 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 0.17 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 4.1 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEL | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 30 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 15 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 3 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | hours | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 0.25 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Feeding behavior | LOEC | 2 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kasumyan,A.O., and A.M.H. Morsi | Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead | J. Ichthyol.38(5): 393-409 | 1998 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 21 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 60 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 10 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 1 | hours | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 3 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 101 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 86 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 26 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 20 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 76 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 25 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 66 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 36 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 41 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 91 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 6 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 61 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.38 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 45 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 1 | hours | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 100 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 81 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | LOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 6 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 30 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 45 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 46 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 8.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.25 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.13 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.5 | days | 82.65 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 4 | days | 82.65 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 96 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 90 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 85 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 76 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 21.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEL | 200 | days | 1368 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., S. Brown, and G. Van der Kraak | The Effects of Copper and Benzo(a)pyrene on Retinoids and Reproduction in Zebrafish | Aquat. Toxicol.82(4): 281-295 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 36 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 21 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Enzyme | NOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 80 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 80 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Biochemical | LOEC | 14 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Biochemical | NOEC | 7 | days | 55 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Biochemical | NOEC | 1 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geetha,N., M. Ramesh, R. Manavalaramanujam, and A. Chezhian | Impact of Copper Sulphate on Plasma Electrolytes of a Freshwater Fish Cyprinus carpio | Asian J. Microbiol. Biotechnol. Environ. Sci.1(3/4): 153-155 | 1999 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | NOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 1 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 6 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 71 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 2 | days | 14.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 75 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 111 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 6 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 76 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.63 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.88 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.88 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 106 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 85 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 35 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 3 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 1.3 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.13 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 2.4 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 2.8 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 40 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 5 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 10 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 20 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 20 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 4.1 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.63 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.13 | days | 82.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 25 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 111 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.38 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEL | 4 | days | 290.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sellin,M.K., E. Tate-Boldt, and A.S. Kolok | Acclimation to Cu in Fathead Minnows: Does Age Influence the Response? | Aquat. Toxicol.74(2): 97-109 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 86 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 116 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 91 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 36 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 56 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 95 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 31 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEL | 8 | days | 333.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sellin,M.K., E. Tate-Boldt, and A.S. Kolok | Acclimation to Cu in Fathead Minnows: Does Age Influence the Response? | Aquat. Toxicol.74(2): 97-109 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 1 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 5 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 1.4 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.38 | days | 85.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 4.4 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 15 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 15 | days | 0.015 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhao,J., Z. Wang, X. Liu, X. Xie, K. Zhang, and B. Xing | Distribution of CuO Nanoparticles in Juvenile Carp (Cyprinus carpio) and Their Potential Toxicity | J. Hazard. Mater.197:304-310 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | NOEC | 0.17 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEL | 200 | days | 644 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., S. Brown, and G. Van der Kraak | The Effects of Copper and Benzo(a)pyrene on Retinoids and Reproduction in Zebrafish | Aquat. Toxicol.82(4): 281-295 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.5 | days | 910 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 378 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | LOEC | 30 | days | 22.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.9 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | 5 | days | 440 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | 4 | days | 880 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bills,T.D., and L.L. Marking | Control of Nuisance Populations of Crayfish with Traps and Toxicants | Prog. Fish-Cult.50:103-106 | 1988 | 2018/03/22 | ||||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | 5 | days | 468 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 3 | days | 560 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 680 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.75 | days | 630 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | 5 | days | 468 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | LOEC | 30 | days | 10.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | LOEC | 30 | days | 11.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC10 | 4 | days | 78.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2.2 | days | 362 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | ET50 | 2.3 | days | 180 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | 5 | days | 636 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1.5 | days | 380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 7 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 6 | days | 482 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.5 | days | 459 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 8.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 11.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | <3.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Population | NOEC | 30 | days | 12 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Population | NOEC | 58 | days | 11.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Population | 30 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | ||||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | LC50 | 1 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geetha,N., M. Ramesh, R. Manavalaramanujam, and A. Chezhian | Impact of Copper Sulphate on Plasma Electrolytes of a Freshwater Fish Cyprinus carpio | Asian J. Microbiol. Biotechnol. Environ. Sci.1(3/4): 153-155 | 1999 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | IC10 | 30 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | EC50 | 2 | days | 2900 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lahnsteiner,F. | The Sensitivity and Reproducibility of the Zebrafish (Danio rerio) Embryo Test for the Screening of Waste Water Quality and for Testing the Toxicity of Chemicals | Alt. Lab. Anim. (ATLA)36(3): 299-311 | 2008 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | LC50 | 5 | days | 597 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | LC50 | 3 | days | 123.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | LC50 | 3 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 726.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 283.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 499.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1405 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | IC10 | 30 | days | <9.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Population | LOEC | 30 | days | 22 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | 5 | days | 309 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | >8.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | 30 | days | 8.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.07 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 7 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | 4 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | EC50 | 4 | days | >100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,N., C.G. Ingersoll, D.K. Hardesty, C.D. Ivey, J.L. Kunz, T.W. May, F.J. Dwyer, A.D. Roberts, T. Augspurger, C.M. Ka | Acute Toxicity of Copper, Ammonia, and Chlorine to Glochidia and Juveniles of Freshwater Mussels (Unionidae) | Environ. Toxicol. Chem.26(10): 2036-2047 | 2007 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.35 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.32 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 2 | days | 61 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abdel-Moneim,A., M. Moreira-Santos, and R. Ribeiro | A Short-Term Sublethal Toxicity Assay with Zebra Fish Based on Preying Rate and Its Integration with Mortality | Chemosphere120:568-574 | 2015 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 144.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 256.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 147.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | <1.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.66 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Reproduction | NOEL | 260 | days | 1368 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., S. Brown, and G. Van der Kraak | The Effects of Copper and Benzo(a)pyrene on Retinoids and Reproduction in Zebrafish | Aquat. Toxicol.82(4): 281-295 | 2007 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Reproduction | NOEC | 191 | days | 34.86 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | IC10 | 30 | days | <9.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | IC10 | 30 | days | 6.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | 4 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1.3 | days | 364 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Mortality | 4 | days | 7200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/22 | ||||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | 5 | days | 765 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | ||||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | 5 | days | 934 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | ||||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | 5 | days | 765 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEC | 30 | days | 11 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 1 | days | 40000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Akiyama,A. | Acute Toxicity of Two Organic Mercury Compounds to the Teleost, Oryzias latipes, in Different Stages of Development | Nippon Suisan Gakkaishi36(6): 563-570 | 1970 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Mortality | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/22 | ||||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 0.5 | days | 20480 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEC | 30 | days | 11.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 2290 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Reproduction | NOEC | 191 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | 5 | days | 636 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., W.H. Benson, and J.A. Black | The Induction of Tolerance to Heavy Metals in Natural and Laboratory Populations of Fish | Res.Rep.No.141, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:26 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 19000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 580 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., W.H. Benson, and J.A. Black | The Induction of Tolerance to Heavy Metals in Natural and Laboratory Populations of Fish | Res.Rep.No.141, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:26 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | 5 | days | 934 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | EC50 | 4 | days | 656 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Murray-Gulde,C.L., J.E. Heatley, A.L. Schwartzman, and J.H.,Jr. Rodgers | Algicidal Effectiveness of Clearigate, Cutrine-Plus, and Copper Sulfate and Margins of Safety Associated with Their Use | Arch. Environ. Contam. Toxicol.43(1): 19-27 | 2002 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 0.5 | days | 15360 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 730 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sappington,L.C., F.L. Mayer, F.J. Dwyer, D.R. Buckler, J.R. Jones, and M.R. Ellersieck | Contaminant Sensitivity of Threatened and Endangered Fishes Compared to Standard Surrogate Species | Environ. Toxicol. Chem.20(12): 2869-2876 | 2001 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LOEC | 7 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | 5 | days | 662 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | ET50 | 2.9 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bai,W., W. Tian, Z. Zhang, X. He, Y. Ma, N. Liu, and Z. Chai | Effects of Copper Nanoparticles on the Development of Zebrafish Embryos | J. Nanosci. Nanotechnol.10(12): 8670-8676 | 2010 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 23.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.22 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.8 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 11.7 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.42 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 30 | days | 340 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lemke,A.E. | Toxicity of Copper, Cadmium, and Zinc to the Bluegill (Lepomis macrochirus) | Robert A.Taft Sanitary Engineering Center, U. S. Department of Health, Education and Welfare, Cincinnati, OH:19 p. | 1965 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Population | IC10 | 58 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.75 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | LC50 | 5 | days | 586 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | LC50 | 5 | days | 928 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | LC50 | 1 | days | 550 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M. | Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis | J. Indian Fish. Assoc.28:131-136 | 2001 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 20 | days | >1300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lemke,A.E. | Toxicity of Copper, Cadmium, and Zinc to the Bluegill (Lepomis macrochirus) | Robert A.Taft Sanitary Engineering Center, U. S. Department of Health, Education and Welfare, Cincinnati, OH:19 p. | 1965 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | LOEC | 30 | days | 23 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 780 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Population | EC10 | 58 | days | 18 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | LOEC | 30 | days | 11 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | 30 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 9.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 26.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 8.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 28 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,H., D. Benoit, R. Erickson, V. Mattson, and J. Lindberg | The Effects of Variable Hardness, pH, Alkalinity, Suspended Clay, and Humics on the Chemical Speciation and Aquatic Toxicity of Copper | EPA/600/3-86/023, U.S.EPA, Duluth, MN:120 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | 5 | days | 765 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | ||||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | 5 | days | 872 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | >4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | 30 | days | <11 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Population | IC10 | 30 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | LC50 | 1 | days | 41.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.75 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEC | 30 | days | 6.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Population | EC10 | 30 | days | 18 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction | NOEL | 3 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and I. Slominska | The Effect of Copper on Common Carp (Cyprinus carpio L.) During Embryonic and Postembryonic Development | Pol. Arch. Hydrobiol.44(1/2): 261-272 | 1997 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 0.26 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 47.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 6.3 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 0.36 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction | NOEL | 3 | hours | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and I. Slominska | The Effect of Copper on Common Carp (Cyprinus carpio L.) During Embryonic and Postembryonic Development | Pol. Arch. Hydrobiol.44(1/2): 261-272 | 1997 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction | LOEL | 0.13 | days | 300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and I. Slominska | The Effect of Copper on Common Carp (Cyprinus carpio L.) During Embryonic and Postembryonic Development | Pol. Arch. Hydrobiol.44(1/2): 261-272 | 1997 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction | LOEL | 0.13 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and I. Slominska | The Effect of Copper on Common Carp (Cyprinus carpio L.) During Embryonic and Postembryonic Development | Pol. Arch. Hydrobiol.44(1/2): 261-272 | 1997 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | >14 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Population | IC10 | 58 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 330 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, and J.A. Bantle | Integrated Ecological Hazard Assessment of Waste Site Soil Extracts Using FETAX and Short-Term Fathead Minnow Teratogenesis Assay | ASTM Spec. Tech. Publ.4:93-109 | 1996 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 30 | days | 380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lemke,A.E. | Toxicity of Copper, Cadmium, and Zinc to the Bluegill (Lepomis macrochirus) | Robert A.Taft Sanitary Engineering Center, U. S. Department of Health, Education and Welfare, Cincinnati, OH:19 p. | 1965 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 20 | days | 350 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lemke,A.E. | Toxicity of Copper, Cadmium, and Zinc to the Bluegill (Lepomis macrochirus) | Robert A.Taft Sanitary Engineering Center, U. S. Department of Health, Education and Welfare, Cincinnati, OH:19 p. | 1965 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 3 | days | 487 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 487 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 496 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 11.66 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.94 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Population | LOEC | 58 | days | 22.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 490 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 0.91 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LOEC | 7 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.8 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1526 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 129 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 1.66 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 259.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 79 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,H., D. Benoit, R. Erickson, V. Mattson, and J. Lindberg | The Effects of Variable Hardness, pH, Alkalinity, Suspended Clay, and Humics on the Chemical Speciation and Aquatic Toxicity of Copper | EPA/600/3-86/023, U.S.EPA, Duluth, MN:120 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 51 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,H., D. Benoit, R. Erickson, V. Mattson, and J. Lindberg | The Effects of Variable Hardness, pH, Alkalinity, Suspended Clay, and Humics on the Chemical Speciation and Aquatic Toxicity of Copper | EPA/600/3-86/023, U.S.EPA, Duluth, MN:120 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 74 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,H., D. Benoit, R. Erickson, V. Mattson, and J. Lindberg | The Effects of Variable Hardness, pH, Alkalinity, Suspended Clay, and Humics on the Chemical Speciation and Aquatic Toxicity of Copper | EPA/600/3-86/023, U.S.EPA, Duluth, MN:120 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 0.49 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.15 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.53 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 5.7 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.38 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 7 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 914 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Buhl,K.J. | The Relative Toxicity of Waterborne Inorganic Contaminants to the Rio Grande Silvery Minnow (Hybognathus amarus) and Fathead Minnow (Pimephales promelas) in a Water Quality Simulating that in the Rio Grande, New Mexico | Final Rep.to U.S.Fish and Wildl.Serv., Study No.2F33-9620003, U.S.Geol.Surv., Columbia Environ.Res.Ctr., Yankton Field Res.Stn., Yankton, SD:75 p. | 2002 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEC | 30 | days | 9.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEC | 30 | days | 6.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | NOEC | 30 | days | 9.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | LOEC | 30 | days | 12 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | IC10 | 30 | days | 6.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.56 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.94 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.7 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 290 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.36 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 10200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 7.7 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 3 | days | 487 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Buhl,K.J. | The Relative Toxicity of Waterborne Inorganic Contaminants to the Rio Grande Silvery Minnow (Hybognathus amarus) and Fathead Minnow (Pimephales promelas) in a Water Quality Simulating that in the Rio Grande, New Mexico | Final Rep.to U.S.Fish and Wildl.Serv., Study No.2F33-9620003, U.S.Geol.Surv., Columbia Environ.Res.Ctr., Yankton Field Res.Stn., Yankton, SD:75 p. | 2002 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | EC10 | 30 | days | 18 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 660 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 660 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 29.6 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | 30 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 4300 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | EC10 | 30 | days | 6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Population | IC10 | 30 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 41 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 2 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | LOEC | 2 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 0.25 | days | 153 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | LOEC | 16 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 2 | days | 14.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Enzyme | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEC | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEL | 4 | days | 290.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sellin,M.K., E. Tate-Boldt, and A.S. Kolok | Acclimation to Cu in Fathead Minnows: Does Age Influence the Response? | Aquat. Toxicol.74(2): 97-109 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 6 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEL | 4 | days | 290.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sellin,M.K., E. Tate-Boldt, and A.S. Kolok | Acclimation to Cu in Fathead Minnows: Does Age Influence the Response? | Aquat. Toxicol.74(2): 97-109 | 2005 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 4 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEC | 31 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 0.88 | days | 43.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | LOEC | 1 | days | 10 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Leite,C.E., L. De Oliveira Maboni, F.F. Cruz, D.B. Rosemberg, F.F. Zimmermann, T.C.B. Pereira, M.R. Bogo, C.D. Bonan, M. | Involvement of Purinergic System in Inflammation and Toxicity Induced by Copper in Zebrafish Larvae | Toxicol. Appl. Pharmacol.272(3): 681-689 | 2013 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 4 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | LOEC | 41 | days | 34.29 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 1 | days | 105 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daglish,R.W., and B.F. Nowak | Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper | Arch. Environ. Contam. Toxicol.43(1): 98-102 | 2002 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | LOEL | 4 | days | 290.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sellin,M.K., E. Tate-Boldt, and A.S. Kolok | Acclimation to Cu in Fathead Minnows: Does Age Influence the Response? | Aquat. Toxicol.74(2): 97-109 | 2005 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. jian | Biochemical | LOEC | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jiang,W.D., P. Wu, S.Y. Kuang, Y. Liu, J. Jiang, K. Hu, S.H. Li, L. Tang, L. Feng, and X.Q. Zhou | Myo-Inositol Prevents Copper-Induced Oxidative Damage and Changes in Antioxidant Capacity in Various Organs and the Enterocytes of Juvenile Jian Carp (Cyprinus carpio var. Jian) | Aquat. Toxicol.105(3/4): 543-551 | 2011 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 2 | days | 43.89 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. carpio | Hormone | LOEC | 14 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M., S. Senthil Kumaran, C. Kavith, M. Saravanan, and A. Mustafa | Primary Stress Responses of Common Carp, Cyprinus carpio, Exposed to Copper Toxicity | Acta Ichthyol. Piscat.37(2): 81-85 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 0.25 | days | 82.65 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zahner,H.M. | Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure: A Biochemical, Physiological, Individual, and Population Perspective | Ph.D. Thesis, Clemson University, Clemson, SC:246 p. | 2009 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. carpio | Hormone | LOEC | 35 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ramesh,M., S. Senthil Kumaran, C. Kavith, M. Saravanan, and A. Mustafa | Primary Stress Responses of Common Carp, Cyprinus carpio, Exposed to Copper Toxicity | Acta Ichthyol. Piscat.37(2): 81-85 | 2007 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Enzyme | NOEC | 28 | days | 156 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lapointe,D., F. Pierron, and P. Couture | Individual and Combined Effects of Heat Stress and Aqueous or Dietary Copper Exposure in Fathead Minnows (Pimephales promelas) | Aquat. Toxicol.104(1/2): 80-85 | 2011 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 57 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 42 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 47 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 16.3 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 29.9 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | NOEC | 4 | days | 14.65 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | <20.05 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 21 | days | 60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 87.65 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 52 | days | 56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 2 | days | 61 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abdel-Moneim,A., M. Moreira-Santos, and R. Ribeiro | A Short-Term Sublethal Toxicity Assay with Zebra Fish Based on Preying Rate and Its Integration with Mortality | Chemosphere120:568-574 | 2015 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 1 | days | 120 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lee,H.C., P.N. Lu, H.L. Huang, C. Chu, H.P. Li, and H.J. Tsai | Zebrafish Transgenic Line huORFZ is an Effective Living Bioindicator for Detecting Environmental Toxicants | PLoS One9(3): 12 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 2 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bichara,D., N.B. Calcaterra, S. Arranz, P. Armas, and S.H. Simonetta | Set-up of an Infrared Fast Behavioral Assay Using Zebrafish (Danio rerio) Larvae, and Its Application in Compound Biotoxicity Screening | J. Appl. Toxicol.34:214-219 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 52 | days | 27.7 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 14 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 63 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 38 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 22.35 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 29.76 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 21 | days | 41 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 43.55 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 60 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 52 | days | 56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 52 | days | 40 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 52 | days | >56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 28 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 62 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 45 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 28 | days | 26.66 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 28 | days | 13 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 28 | days | 25 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 52 | days | >56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 52 | days | >56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 52 | days | 30 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 60 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 21 | days | 60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 7 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 59.9 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 59 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 28 | days | 53.8 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LOEC | 4 | days | 32 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 52 | days | >56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Behavior | EC50 | 2 | days | 1640 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bichara,D., N.B. Calcaterra, S. Arranz, P. Armas, and S.H. Simonetta | Set-up of an Infrared Fast Behavioral Assay Using Zebrafish (Danio rerio) Larvae, and Its Application in Compound Biotoxicity Screening | J. Appl. Toxicol.34:214-219 | 2014 | 2018/02/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC10 | 1 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lee,H.C., P.N. Lu, H.L. Huang, C. Chu, H.P. Li, and H.J. Tsai | Zebrafish Transgenic Line huORFZ is an Effective Living Bioindicator for Detecting Environmental Toxicants | PLoS One9(3): 12 p. | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 7 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 42 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 28 | days | >53.8 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 39 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 4 | days | 0.82 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 4 | days | 0.82 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 4 | days | 0.82 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 60 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 63 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 38 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 21 | days | 37 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 21 | days | 31 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 8 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | EC10 | 4 | days | 14 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 46 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | EC50 | 4 | days | 41 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | EC50 | 4 | days | 50 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 21 | days | >60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 21 | days | >60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | EC10 | 4 | days | 18 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 19 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 28 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 21 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 23 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 43 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 52 | days | 34 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 28 | days | 12.66 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 28 | days | 34 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 21 | days | 42 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 21 | days | 42 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | 4 | days | 23 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||||
| 魚類 | Cyprinus carpio (Carp) | Hormone | NOEC | 3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 7 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 7 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 14 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 41 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 42 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | 4 | days | 21 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | <20.05 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 31 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 14 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 21 | days | 60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 32 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LOEC | 4 | days | 29.9 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 59.6 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 28 | days | 38 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 28 | days | >53.8 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 28 | days | 18 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Growth | EC50 | 28 | days | >40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abdel-Moneim,A., M. Moreira-Santos, and R. Ribeiro | A Short-Term Sublethal Toxicity Assay with Zebra Fish Based on Preying Rate and Its Integration with Mortality | Chemosphere120:568-574 | 2015 | 2018/02/28 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 21 | days | >60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 28 | days | 26.66 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 52 | days | >56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 52 | days | >56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 44.15 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 61.28 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 88.5 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 14 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 14 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 43 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 20.05 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 21 | days | >60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 4 | days | 3.21 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 62 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 52 | days | 40 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 38 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 21 | days | 42 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 21.75 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 14.97 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 21.85 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 225.6 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 52 | days | >56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | NOEC | 4 | days | 0.82 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 28 | days | 18 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 4 | days | 3.21 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 52 | days | 56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 193 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | NOEC | 4 | days | 16.3 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 201 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 21 | days | >60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 52 | days | 56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 53.8 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 52 | days | >56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | 4 | days | 3.21 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 4 | days | 0.82 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 28 | days | 38 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 7 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Hormone | LOEC | 3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 3 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 28 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 14 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 21 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 21 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 21 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 14 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 14 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 4 | days | 3.21 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 21 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 4 | days | 3.21 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Hormone | LOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 14 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 4 | days | 3.21 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 4 | days | 3.21 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 4 | days | 0.82 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 4 | days | 3.21 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Hormone | LOEC | 14 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 3 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 14 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 263 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | LOEC | 28 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 21 | days | 28.98 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 21 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | NOEC | 28 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 21 | days | >60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 52 | days | >56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 28 | days | 12.66 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Feeding behavior | EC50 | 2.1 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abdel-Moneim,A., M. Moreira-Santos, and R. Ribeiro | A Short-Term Sublethal Toxicity Assay with Zebra Fish Based on Preying Rate and Its Integration with Mortality | Chemosphere120:568-574 | 2015 | 2018/02/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 28 | days | 26.66 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 4 | days | 0.82 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 27.6 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 26.66 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 28 | days | 53.8 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 52 | days | 27.7 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 43.3 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 21 | days | 60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 21 | days | 28.98 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 21 | days | 60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 21 | days | 60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 28 | days | >53.8 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 21 | days | >60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 21 | days | >60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 21 | days | >60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 29.98 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 21 | days | 28.98 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 52 | days | 56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 84.7 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 196 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Enzyme | LOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 4 | days | 0.82 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 28 | days | 26.66 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 4 | days | 0.82 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 4 | days | 0.82 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Enzyme | LOEC | 4 | days | 3.21 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 4 | days | 0.82 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Danio rerio (Zebrafish) | Feeding behavior | EC50 | 2.1 | days | 36 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abdel-Moneim,A., M. Moreira-Santos, and R. Ribeiro | A Short-Term Sublethal Toxicity Assay with Zebra Fish Based on Preying Rate and Its Integration with Mortality | Chemosphere120:568-574 | 2015 | 2018/02/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ghelichpour,M. | The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.) | Int. J. Aquat. Biol.2(3): 124-128 | 2014 | 2018/03/20 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 37.9 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/20 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 4 | days | 3.21 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/20 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.75 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 1.14 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.39 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.8 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 0.77 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.32 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.48 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.08 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 0.24 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 1860 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 2 | hours | 818 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 7 | days | 98 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 0.5 | days | 230 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 10 | days | 350 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lemke,A.E. | Toxicity of Copper, Cadmium, and Zinc to the Bluegill (Lepomis macrochirus) | Robert A.Taft Sanitary Engineering Center, U. S. Department of Health, Education and Welfare, Cincinnati, OH:19 p. | 1965 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | >1300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lemke,A.E. | Toxicity of Copper, Cadmium, and Zinc to the Bluegill (Lepomis macrochirus) | Robert A.Taft Sanitary Engineering Center, U. S. Department of Health, Education and Welfare, Cincinnati, OH:19 p. | 1965 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 10 | days | >470 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lemke,A.E. | Toxicity of Copper, Cadmium, and Zinc to the Bluegill (Lepomis macrochirus) | Robert A.Taft Sanitary Engineering Center, U. S. Department of Health, Education and Welfare, Cincinnati, OH:19 p. | 1965 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | >450 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lemke,A.E. | Toxicity of Copper, Cadmium, and Zinc to the Bluegill (Lepomis macrochirus) | Robert A.Taft Sanitary Engineering Center, U. S. Department of Health, Education and Welfare, Cincinnati, OH:19 p. | 1965 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | >4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 393 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Buhl,K.J. | The Relative Toxicity of Waterborne Inorganic Contaminants to the Rio Grande Silvery Minnow (Hybognathus amarus) and Fathead Minnow (Pimephales promelas) in a Water Quality Simulating that in the Rio Grande, New Mexico | Final Rep.to U.S.Fish and Wildl.Serv., Study No.2F33-9620003, U.S.Geol.Surv., Columbia Environ.Res.Ctr., Yankton Field Res.Stn., Yankton, SD:75 p. | 2002 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ewell,W.S., J.W. Gorsuch, R.O. Kringle, K.A. Robillard, and R.C. Spiegel | Simultaneous Evaluation of the Acute Effects of Chemicals on Seven Aquatic Species | Environ. Toxicol. Chem.5(9): 831-840 | 1986 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 2 | days | 37000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., V.S. Durve, and V.K. Rajbanshi | Toxicity of Interactions of Zinc-Nickel, Copper-Nickel and Zinc-Nickel-Copper to a Freshwater Teleost, Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 495-503 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 2 | days | 1140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Svobodova,Z. | Acute Toxicity of Pesticides to Fish (Akutni Toxicita Pesticidu pro Ryby) | Agrochemia (Bratisl.)20(11): 328-332 | 1980 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 780 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 900 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Trama,F.B. | The Acute Toxicity of Copper to the Common Bluegill (Lepomis macrochirus Rafinesque) | Not. Nat. Acad. Nat. Sci. Philadelphia 257:1-13 | 1954 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 520 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 2710 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.25 | days | <500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., C.F. Kleiner, J.T. Fiandt, and T.L. Highland | Effect of Acclimation Period on the Relationship of Acute Copper Toxicity to Water Hardness for Fathead Minnows | Environ. Toxicol. Chem.16(4): 813-815 | 1997 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.25 | days | <500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., C.F. Kleiner, J.T. Fiandt, and T.L. Highland | Effect of Acclimation Period on the Relationship of Acute Copper Toxicity to Water Hardness for Fathead Minnows | Environ. Toxicol. Chem.16(4): 813-815 | 1997 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | <200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., C.F. Kleiner, J.T. Fiandt, and T.L. Highland | Effect of Acclimation Period on the Relationship of Acute Copper Toxicity to Water Hardness for Fathead Minnows | Environ. Toxicol. Chem.16(4): 813-815 | 1997 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 1100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Benoit,D.A. | Chronic Effects of Copper on Survival, Growth, and Reproduction of the Bluegill (Lepomis macrochirus) | Trans. Am. Fish. Soc.104(2): 353-358 | 1975 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.5 | days | 900 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.25 | days | 4430 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.38 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 520 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.13 | days | >7700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.38 | days | 1830 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 3 | days | 910 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.13 | days | >4600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 770 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Trama,F.B. | The Acute Toxicity of Copper to the Common Bluegill (Lepomis macrochirus Rafinesque) | Not. Nat. Acad. Nat. Sci. Philadelphia 257:1-13 | 1954 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 3 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.88 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.5 | days | >600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | NOEC | 5 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | NOEC | 4 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | NOEC | 1 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | 1 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nor,Y.M. | Effects of Organic Ligands on Toxicity of Copper and Zinc to Carassius auratus | Chem. Spec. Bioavail.3(3): 111-115 | 1990 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 1.1 | days | 1099.67 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,A., E. Carew, and K.A. Sloman | The Effects of Copper on the Morphological and Functional Development of Zebrafish Embryos | Aquat. Toxicol.84(4): 431-438 | 2007 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 274 | days | 561 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 24 | days | 128 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dave,G., and R. Xiu | Toxicity of Mercury, Copper, Nickel, Lead, and Cobalt to Embryos and Larvae of Zebrafish, Brachydanio rerio | Arch. Environ. Contam. Toxicol.21:126-134 | 1991 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 82.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 311 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Richards,V.L., and T.L. Beitinger | Reciprocal Influences of Temperature and Copper on Survival of Fathead Minnows, Pimephales promelas | Bull. Environ. Contam. Toxicol.55(2): 230-236 | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 33.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 6 | days | 88 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 0.63 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.28 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.01 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 0.92 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 430 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mount,D.I. | Chronic Toxicity of Copper to Fathead Minnows (Pimephales promelas, Rafinesque) | Water Res.2(3): 215-223 | 1968 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 470 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mount,D.I. | Chronic Toxicity of Copper to Fathead Minnows (Pimephales promelas, Rafinesque) | Water Res.2(3): 215-223 | 1968 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 19.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mastin,B.J., and J.H.,Jr. Rodgers | Toxicity and Bioavailability of Copper Herbicides (Clearigate, Cutrine-Plus, and Copper Sulfate) to Freshwater Animals | Arch. Environ. Contam. Toxicol.39(4): 445-451 | 2000 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | <100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., C.F. Kleiner, J.T. Fiandt, and T.L. Highland | Effect of Acclimation Period on the Relationship of Acute Copper Toxicity to Water Hardness for Fathead Minnows | Environ. Toxicol. Chem.16(4): 813-815 | 1997 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.25 | days | <1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., C.F. Kleiner, J.T. Fiandt, and T.L. Highland | Effect of Acclimation Period on the Relationship of Acute Copper Toxicity to Water Hardness for Fathead Minnows | Environ. Toxicol. Chem.16(4): 813-815 | 1997 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | <200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., C.F. Kleiner, J.T. Fiandt, and T.L. Highland | Effect of Acclimation Period on the Relationship of Acute Copper Toxicity to Water Hardness for Fathead Minnows | Environ. Toxicol. Chem.16(4): 813-815 | 1997 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.25 | days | <1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., C.F. Kleiner, J.T. Fiandt, and T.L. Highland | Effect of Acclimation Period on the Relationship of Acute Copper Toxicity to Water Hardness for Fathead Minnows | Environ. Toxicol. Chem.16(4): 813-815 | 1997 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | <100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., C.F. Kleiner, J.T. Fiandt, and T.L. Highland | Effect of Acclimation Period on the Relationship of Acute Copper Toxicity to Water Hardness for Fathead Minnows | Environ. Toxicol. Chem.16(4): 813-815 | 1997 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | >610 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4900 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 4300 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 46.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 550 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bailey,H.C., D.H.W. Liu, and H.A. Javitz | Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays | ASTM Spec. Tech. Publ.:193-212 | 1985 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | IC10 | 30 | days | 22 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | LOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 14 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 2 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mastin,B.J., and J.H.,Jr. Rodgers | Toxicity and Bioavailability of Copper Herbicides (Clearigate, Cutrine-Plus, and Copper Sulfate) to Freshwater Animals | Arch. Environ. Contam. Toxicol.39(4): 445-451 | 2000 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 30 | days | 42.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 596.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | hours | 9400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bailey,H.C., D.H.W. Liu, and H.A. Javitz | Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays | ASTM Spec. Tech. Publ.:193-212 | 1985 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 48.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 780 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bailey,H.C., D.H.W. Liu, and H.A. Javitz | Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays | ASTM Spec. Tech. Publ.:193-212 | 1985 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Physiological | LOEL | 1.2 | days | 92.98 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,A., E. Carew, and K.A. Sloman | The Effects of Copper on the Morphological and Functional Development of Zebrafish Embryos | Aquat. Toxicol.84(4): 431-438 | 2007 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 390 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Benson,W.H., and W.J. Birge | Heavy Metal Tolerance and Metallothionein Induction in Fathead Minnows: Results From Field and Laboratory Investigations | Environ. Toxicol. Chem.4(2): 209-217 | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Benson,W.H., and W.J. Birge | Heavy Metal Tolerance and Metallothionein Induction in Fathead Minnows: Results From Field and Laboratory Investigations | Environ. Toxicol. Chem.4(2): 209-217 | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 460 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., W. Brungs, and M. Gast | Effect of Exposure Time and Copper Concentration on Reproduction of the Fathead Minnow (Pimephales promelas) | Water Res.11(12): 1079-1083 | 1977 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 490 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., W. Brungs, and M. Gast | Effect of Exposure Time and Copper Concentration on Reproduction of the Fathead Minnow (Pimephales promelas) | Water Res.11(12): 1079-1083 | 1977 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.88 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.17 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.33 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 149 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fogels,A., and J.B. Sprague | Comparative Short-Term Tolerance of Zebrafish, Flagfish, and Rainbow Trout to Five Poisons Including Potential Reference Toxicants | Water Res.11(9): 811-817 | 1977 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 28 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Atamanalp,M., T. Sisman, F. Geyikoglu, and A. Topal | The Histopathological Effects of Copper Sulphate on Rainbow Trout Liver (Oncorhynchus mykiss) | J. Fish. Aquat. Sci.3(5): 291-297 | 2008 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., and J.F. Klaverkamp | The Acute Toxicity of Vanadium and Copper to Eyed Eggs of Rainbow Trout (Salmo gairdneri) | Water Res.16(6): 885-889 | 1982 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 96.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 137 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 613.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 597.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1564 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2013 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2034 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1681 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 422.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 774.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 57 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 494.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 232 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 102 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fogels,A., and J.B. Sprague | Comparative Short-Term Tolerance of Zebrafish, Flagfish, and Rainbow Trout to Five Poisons Including Potential Reference Toxicants | Water Res.11(9): 811-817 | 1977 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 402.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 242 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fogels,A., and J.B. Sprague | Comparative Short-Term Tolerance of Zebrafish, Flagfish, and Rainbow Trout to Five Poisons Including Potential Reference Toxicants | Water Res.11(9): 811-817 | 1977 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | <150 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., A.C. Ryan, J.R. Tomasso, and S.J. Klaine | Evaluation of Acute Copper Toxicity to Larval Fathead Minnows (Pimephales promelas) in Soft Surface Waters | Environ. Toxicol. Chem.24(2): 408-414 | 2005 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LOEL | 1.1 | days | 53.13 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,A., E. Carew, and K.A. Sloman | The Effects of Copper on the Morphological and Functional Development of Zebrafish Embryos | Aquat. Toxicol.84(4): 431-438 | 2007 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LOEL | 3 | days | 92.98 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,A., E. Carew, and K.A. Sloman | The Effects of Copper on the Morphological and Functional Development of Zebrafish Embryos | Aquat. Toxicol.84(4): 431-438 | 2007 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1949 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 1 | days | 1310 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar | Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio | J. Environ. Sci. Eng.53(3): 335-340 | 2011 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 2 | days | 410 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar | Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio | J. Environ. Sci. Eng.53(3): 335-340 | 2011 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 395.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 363.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 838 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mayer,F.L.,Jr., and M.R. Ellersieck | Manual of Acute Toxicity: Interpretation and Data Base for 410 Chemicals and 66 Species of Freshwater Animals | USDI Fish and Wildlife Service, Publication No.160, Washington, DC:505 p. | 1986 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 360 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., W.H. Benson, and J.A. Black | The Induction of Tolerance to Heavy Metals in Natural and Laboratory Populations of Fish | Res.Rep.No.141, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:26 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 410 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., W.H. Benson, and J.A. Black | The Induction of Tolerance to Heavy Metals in Natural and Laboratory Populations of Fish | Res.Rep.No.141, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:26 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 800 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schlueter,M.A., S.I. Guttman, J.T. Oris, and A.J. Bailer | Survival of Copper-Exposed Juvenile Fathead Minnows (Pimephales promelas) Differs Among Allozyme Genotypes | Environ. Toxicol. Chem.14(10): 1727-1734 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 513 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Richards,V.L., and T.L. Beitinger | Reciprocal Influences of Temperature and Copper on Survival of Fathead Minnows, Pimephales promelas | Bull. Environ. Contam. Toxicol.55(2): 230-236 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 297 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Richards,V.L., and T.L. Beitinger | Reciprocal Influences of Temperature and Copper on Survival of Fathead Minnows, Pimephales promelas | Bull. Environ. Contam. Toxicol.55(2): 230-236 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1514 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 450 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Richards,V.L., and T.L. Beitinger | Reciprocal Influences of Temperature and Copper on Survival of Fathead Minnows, Pimephales promelas | Bull. Environ. Contam. Toxicol.55(2): 230-236 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 310 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., W.H. Benson, and J.A. Black | The Induction of Tolerance to Heavy Metals in Natural and Laboratory Populations of Fish | Res.Rep.No.141, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:26 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 2 | days | 167 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fogels,A., and J.B. Sprague | Comparative Short-Term Tolerance of Zebrafish, Flagfish, and Rainbow Trout to Five Poisons Including Potential Reference Toxicants | Water Res.11(9): 811-817 | 1977 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.5 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 3820 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 460 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., W.H. Benson, and J.A. Black | The Induction of Tolerance to Heavy Metals in Natural and Laboratory Populations of Fish | Res.Rep.No.141, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:26 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 884 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mayer,F.L.,Jr., and M.R. Ellersieck | Manual of Acute Toxicity: Interpretation and Data Base for 410 Chemicals and 66 Species of Freshwater Animals | USDI Fish and Wildlife Service, Publication No.160, Washington, DC:505 p. | 1986 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.26 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.28 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 0.1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 0.79 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.25 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.67 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.02 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 1.68 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.98 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 2500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 560 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cha,S.S., and J.H. Shim | Toxicity of Heavy Metal Ions on Carp (Cyprinus carpio) Eggs | Proc. Coll. Nat. Sci.9(2): 151-156 | 1984 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 429 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 5 | days | 480 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, and J.A. Bantle | Integrated Ecological Hazard Assessment of Waste Site Soil Extracts Using FETAX and Short-Term Fathead Minnow Teratogenesis Assay | ASTM Spec. Tech. Publ.4:93-109 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 5 | days | 440 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, and J.A. Bantle | Integrated Ecological Hazard Assessment of Waste Site Soil Extracts Using FETAX and Short-Term Fathead Minnow Teratogenesis Assay | ASTM Spec. Tech. Publ.4:93-109 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 310 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fort,D.J., E.L. Stover, and J.A. Bantle | Integrated Ecological Hazard Assessment of Waste Site Soil Extracts Using FETAX and Short-Term Fathead Minnow Teratogenesis Assay | ASTM Spec. Tech. Publ.4:93-109 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 59.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 940 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 11000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 580 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 120 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., W.H. Benson, and J.A. Black | The Induction of Tolerance to Heavy Metals in Natural and Laboratory Populations of Fish | Res.Rep.No.141, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:26 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 63 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., A. Sehgal, and M.K. Bhasin | "Man and the Biosphere" -Studies on Sikkim Himalayas. Part 1: Acute Toxicity of Copper and Zinc to Common Carp Cyprinus carpio (Linn.) in Soft Water | Acta Hydrochim. Hydrobiol.11(6): 667-673 | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 390 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., W.H. Benson, and J.A. Black | The Induction of Tolerance to Heavy Metals in Natural and Laboratory Populations of Fish | Res.Rep.No.141, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:26 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 425 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rao,T.S., M.S. Rao, and S.B.S.K. Prasad | Median Tolerance Limits of Some Chemicals to the Fresh Water Fish "Cyprinus carpio" | Indian J. Environ. Health17(2): 140-146 | 1975 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 10.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., J.R. Tomasso, and S.J. Klaine | Influence of Copper Exposure on Whole-Body Sodium Levels in Larval Fathead Minnows (Pimephales promelas) | Environ. Toxicol. Chem.27(6): 1442-1449 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 36 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 760 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., W.H. Benson, and J.A. Black | The Induction of Tolerance to Heavy Metals in Natural and Laboratory Populations of Fish | Res.Rep.No.141, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:26 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 986 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., and P.K. Ray | Studies on the Acute Toxicity of Copper and Mercury Alone and in Combination to the Common Guppy Poecilia reticulata (Peters) | Arch. Hydrobiol.110(2): 303-314 | 1987 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 610 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 720 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., W.H. Benson, and J.A. Black | The Induction of Tolerance to Heavy Metals in Natural and Laboratory Populations of Fish | Res.Rep.No.141, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:26 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 1.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 516 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 2580 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., and P.K. Ray | Studies on the Acute Toxicity of Copper and Mercury Alone and in Combination to the Common Guppy Poecilia reticulata (Peters) | Arch. Hydrobiol.110(2): 303-314 | 1987 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1060 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 6700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 950 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 13000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 1400 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | >910 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 12000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 4400 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 540 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 940 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 88.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 770 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Academy of Natural Sciences | The Sensitivity of Aquatic Life to Certain Chemicals Commonly Found in Industrial Wastes | Final Rep.No.RG-3965(C2R1), U.S.Public Health Service Grant, Acad.of Nat.Sci., Philadelphia, PA:89 p. | 1960 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 121 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 139.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., C. Gerardi, E. Leppo, and T. Miorelli | Using a Water-Effect Ratio Approach to Establish Effects of an Effluent-Influenced Stream on Copper Toxicity to the Fathead Minnow | Environ. Toxicol. Chem.16(7): 1480-1487 | 1997 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 3 | days | <200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,H., Y. Liang, S. Li, and J. Chang | Acute Toxicity, Respiratory Reaction, and Sensitivity of Three Cyprinid Fish Species Caused by Exposure to Four Heavy Metals | PLoS One8(6): 7 p. | 2013 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 170 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,H., Y. Liang, S. Li, and J. Chang | Acute Toxicity, Respiratory Reaction, and Sensitivity of Three Cyprinid Fish Species Caused by Exposure to Four Heavy Metals | PLoS One8(6): 7 p. | 2013 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 1 | days | 120 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lee,H.C., P.N. Lu, H.L. Huang, C. Chu, H.P. Li, and H.J. Tsai | Zebrafish Transgenic Line huORFZ is an Effective Living Bioindicator for Detecting Environmental Toxicants | PLoS One9(3): 12 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 5.36 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J., M. Bowersox, H. Latimer, C. Barbour, J. Bearr, and J. Butcher | Effects of Pulsed Contaminant Exposures on Early Life Stages of the Fathead Minnow | Arch. Environ. Contam. Toxicol.49(4): 511-519 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mayer,F.L.,Jr. | Pesticides as Pollutants | In: B.G.Liptak (Ed.), Environmental Engineer's Handbook, Chilton Book Co., Radnor, PA:405-418 | 1974 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1129 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 460 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 12.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 930 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Minicucci,D.D. | Flow Effects in Aquatic Bioassays (The Toxicity of Copper at Various Flow Rates to the Guppy, Lebistes reticulatus) | M.S.Thesis, University of Michigan, Ann Arbor, MI:86 p. | 1971 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 1130 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Minicucci,D.D. | Flow Effects in Aquatic Bioassays (The Toxicity of Copper at Various Flow Rates to the Guppy, Lebistes reticulatus) | M.S.Thesis, University of Michigan, Ann Arbor, MI:86 p. | 1971 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 390 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.13 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.5 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 3 | days | 390 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 550 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.13 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 820 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.25 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 47.9 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.75 | days | 730 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 580 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.38 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 3 | days | 760 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.25 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 1160 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.75 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.75 | days | 2100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 4.04 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal and Pharmaceutical Mixtures: Is Ion Loss the Mechanism Underlying Acute Toxicity and Widespread Additive Toxicity in Zebrafish? | Aquat. Toxicol.140/141:257-267 | 2013 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 2.34 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal and Pharmaceutical Mixtures: Is Ion Loss the Mechanism Underlying Acute Toxicity and Widespread Additive Toxicity in Zebrafish? | Aquat. Toxicol.140/141:257-267 | 2013 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 2 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bichara,D., N.B. Calcaterra, S. Arranz, P. Armas, and S.H. Simonetta | Set-up of an Infrared Fast Behavioral Assay Using Zebrafish (Danio rerio) Larvae, and Its Application in Compound Biotoxicity Screening | J. Appl. Toxicol.34:214-219 | 2014 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.5 | days | 1280 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.16 | days | 6500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 3600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 7 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 7 | days | 6.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.48 | days | 690 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.84 | days | 290 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.48 | days | 2450 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 2.3 | hours | 26500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 28.9 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.2 | days | 6500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | >610 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.46 | days | 3800 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.59 | days | 3800 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 12.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 60 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 42 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Waller,D.L., J.J. Rach, W.G. Cope, L.L. Marking, S.W. Fisher, and H. Dabrowska | Toxicity of Candidate Molluscicides to Zebra Mussels (Dreissena polymorpha) and Selected Nontarget Organisms | J. Great Lakes Res.19(4): 695-702 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 190 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Brown,V.M., and R.A. Dalton | The Acute Lethal Toxicity to Rainbow Trout of Mixtures of Copper, Phenol, Zinc and Nickel | J. Fish Biol.2(3): 211-216 | 1970 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 19 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC50 | 1 | days | 2780 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Svecevicius,G., and M.Z. Vosyliene | Acute Toxicity of Copper to Common Freshwater Fishes of Lithuania | Ekologija2:17-21 | 1996 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 34500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Deshmukh,S.S., and V.B. Marathe | Size Related Toxicity of Copper and Mercury to Lebistes reticulatus (Peter), Labeo rohita (Ham.) and Cyprinus carpio Linn | Indian J. Exp. Biol.18:421-423 | 1980 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 160000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Deshmukh,S.S., and V.B. Marathe | Size Related Toxicity of Copper and Mercury to Lebistes reticulatus (Peter), Labeo rohita (Ham.) and Cyprinus carpio Linn | Indian J. Exp. Biol.18:421-423 | 1980 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 8 | days | 268 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ling,K.H., Y.M. Sin, and T.J. Lam | Effect of Copper Sulphate on Ichthyophthiriasis (White Spot Disease) in Goldfish (Carassius auratus) | Aquaculture118(1-2): 23-35 | 1993 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.94 | days | 2450 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 590 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 31.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.17 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 28 | days | 1041.9 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 21 | days | 28.98 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 52 | days | 27.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1400 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 13000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 9100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 17000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anderson,P.D., and P.A. Spear | Copper Pharmacokinetics in Fish Gills-II Body Size Relationships for Accumulation and Tolerance | Water Res.14(8): 1107-1111 | 1980 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.38 | days | 490 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 830 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 120 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,G.R., and G.L. Beggs | Evaluation of Fish Loading Rates in Regulatory Static Bioassays | Tech. Rep. Fish. Mar. Serv.:145-160 | 1979 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 740 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 4100 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | >780 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 600 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 2900 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 640 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 6700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 362 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 10 | days | 9.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 54.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 17.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 309 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 110 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.64 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.25 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.33 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 0.94 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | <2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.34 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | >2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.8 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.99 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.35 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 1.04 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 4030 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cherry,D.S., J.H. Van Hassel, J.L. Farris, D.J. Soucek, and R.J. Neves | Site-Specific Derivation of the Acute Copper Criteria for the Clinch River, Virginia | Hum. Ecol. Risk Assess.8(3): 591-601 | 2002 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 1.72 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.85 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.84 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 0.59 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.46 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | <5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.55 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.65 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 0.5 | days | 2110 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., S. Mathur, and V.S. Durve | Studies on the Acute Toxicity of Copper on Selected Freshwater Organisms | Sci. Cult.47(12): 429-431 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 764 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., S. Mathur, and V.S. Durve | Studies on the Acute Toxicity of Copper on Selected Freshwater Organisms | Sci. Cult.47(12): 429-431 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 2 | days | 1172 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., S. Mathur, and V.S. Durve | Studies on the Acute Toxicity of Copper on Selected Freshwater Organisms | Sci. Cult.47(12): 429-431 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 1570 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., S. Mathur, and V.S. Durve | Studies on the Acute Toxicity of Copper on Selected Freshwater Organisms | Sci. Cult.47(12): 429-431 | 1981 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 5.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.9 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 0.8 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 2600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.38 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.68 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.72 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 0.27 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.37 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 2.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | <1.7 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | >2.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.37 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | >2.1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 1.98 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.15 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.07 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.94 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 0.61 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 1.9 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.11 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.15 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 3.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.04 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 740 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bowen,G.M.R. | Joint Action of Sublethal Copper and Zinc on Locomotory Behaviour of Fathead Minnows | M.S. Thesis, University of Guelph, Ontario, Canada:100 p. | 1990 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.36 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 1940 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 740 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 22 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Brkovic-Popovic,I., and M. Popovic | Study of the Toxicity of Mercury, Copper, Zinc and Trinitroresorcinol on Lebistes reticulateus, Method of Survival (Ispitivanje Toksicnosti Zive, Bakra, Cinka i Trinitrorezorcina na Lebistes reticulatus. Bioogled Kratko | Arh. Hig. Rada Toksikol.28(1): 3-16 | 1977 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 8.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 59.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 16 | days | <5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 18 | days | <5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 17 | days | <5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 15 | days | <5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 47.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 310 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cherry,D.S., J.H. Van Hassel, J.L. Farris, D.J. Soucek, and R.J. Neves | Site-Specific Derivation of the Acute Copper Criteria for the Clinch River, Virginia | Hum. Ecol. Risk Assess.8(3): 591-601 | 2002 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 2 | days | 4700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 10200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 10070 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 11600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 0.5 | days | 17000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 0.5 | days | 7940 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 10.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 169.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 26.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 9.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 19.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 20.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 920 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 8660 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.25 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 671.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 2 | days | 1800 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., and P.K. Ray | Studies on the Acute Toxicity of Copper and Mercury Alone and in Combination to the Common Guppy Poecilia reticulata (Peters) | Arch. Hydrobiol.110(2): 303-314 | 1987 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 2 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hossain,M.A., M. Shariff, A.T. Law, and I. Patimah | Median Lethal Concentration of Copper to Goldfish Carassius auratus Linnaeus | Pak. J. Sci. Ind. Res.38(5-6): 196-199 | 1995 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 7 | days | 490 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., and P.K. Ray | Studies on the Acute Toxicity of Copper and Mercury Alone and in Combination to the Common Guppy Poecilia reticulata (Peters) | Arch. Hydrobiol.110(2): 303-314 | 1987 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tarzwell,C.M., and C. Henderson | Toxicity of Less Common Metals to Fishes | Ind. Wastes5:12- | 1960 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tarzwell,C.M., and C. Henderson | Toxicity of Less Common Metals to Fishes | Ind. Wastes5:12- | 1960 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tarzwell,C.M., and C. Henderson | Toxicity of Less Common Metals to Fishes | Ind. Wastes5:12- | 1960 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 10000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tarzwell,C.M., and C. Henderson | Toxicity of Less Common Metals to Fishes | Ind. Wastes5:12- | 1960 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 621 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Buhl,K.J. | The Relative Toxicity of Waterborne Inorganic Contaminants to the Rio Grande Silvery Minnow (Hybognathus amarus) and Fathead Minnow (Pimephales promelas) in a Water Quality Simulating that in the Rio Grande, New Mexico | Final Rep.to U.S.Fish and Wildl.Serv., Study No.2F33-9620003, U.S.Geol.Surv., Columbia Environ.Res.Ctr., Yankton Field Res.Stn., Yankton, SD:75 p. | 2002 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 10700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 660 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 1140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 3 | days | 350 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.75 | days | 680 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 436 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1586 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2336 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 2400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | O'Hara,J. | Alterations in Oxygen Consumption by Bluegills Exposed to Sublethal Treatment with Copper | Water Res.5(6): 321-327 | 1971 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 1590 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 23 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 2 | days | 73 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 26 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 3960 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Chelating Agent EDTA Decreases the Toxicity of Copper to Fish | Curr. Sci. (Bangalore)50(5): 246-248 | 1981 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 2 | days | 607 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and J.A. McKee | The Toxicity to Goldfish of Mixtures of Chloramines, LAS and Copper | Tech.Rep.No.44, Water Resour.Res.Ctr., Univ.of Maryland, College Park, MD:31 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 960 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 8300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 16.9 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | >7.8 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 2590 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 38 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Oliveira-Filho,E.C., R.M. Lopes, and F.J.R. Paumgartten | Comparative Study on the Susceptibility of Freshwater Species to Copper-Based Pesticides | Chemosphere56(4): 369-374 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 675.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Murray-Gulde,C.L., J.E. Heatley, A.L. Schwartzman, and J.H.,Jr. Rodgers | Algicidal Effectiveness of Clearigate, Cutrine-Plus, and Copper Sulfate and Margins of Safety Associated with Their Use | Arch. Environ. Contam. Toxicol.43(1): 19-27 | 2002 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | >100000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Pesticide Ecotoxicity Database (Formerly: Environmental Effects Database (EEDB)) | Environmental Fate and Effects Division, U.S.EPA, Washington, D.C.: | 1992 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Intoxication | EC50 | 4 | days | 164 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,H., D. Benoit, R. Erickson, V. Mattson, and J. Lindberg | The Effects of Variable Hardness, pH, Alkalinity, Suspended Clay, and Humics on the Chemical Speciation and Aquatic Toxicity of Copper | EPA/600/3-86/023, U.S.EPA, Duluth, MN:120 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 750 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | ET50 | 3.4 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bai,W., W. Tian, Z. Zhang, X. He, Y. Ma, N. Liu, and Z. Chai | Effects of Copper Nanoparticles on the Development of Zebrafish Embryos | J. Nanosci. Nanotechnol.10(12): 8670-8676 | 2010 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 280 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lewis,S.S., and S.J. Keller | Identification of Copper-Responsive Genes in an Early Life Stage of the Fathead Minnow Pimephales promelas | Ecotoxicology18(3): 281-292 | 2009 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 2 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Slooff,W. | Detection Limits of a Biological Monitoring System Based on Fish Respiration | Bull. Environ. Contam. Toxicol.23(4/5): 517-523 | 1979 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 2640 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,B.M., M.M. Chao, O.R. Tedrow, A.D. McQueen, and J.H.,Jr. Rodgers | Responses of Lepomis macrochirus, Pimephales promelas, Hyalella azteca, Ceriodaphnia dubia, and Daphnia magna to Exposures of Algimycin PWF and Copper Sulfate Pentahydrate | J. Aquat. Plant Manag.46:176-183 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 230 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,B.M., M.M. Chao, O.R. Tedrow, A.D. McQueen, and J.H.,Jr. Rodgers | Responses of Lepomis macrochirus, Pimephales promelas, Hyalella azteca, Ceriodaphnia dubia, and Daphnia magna to Exposures of Algimycin PWF and Copper Sulfate Pentahydrate | J. Aquat. Plant Manag.46:176-183 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.15 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.68 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.6 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 10.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 45 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | NOEC | 10 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | EC50 | 2 | days | 2800 | μg/L | ACTIVE INGREDIENT | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cope,O.B. | Contamination of the Freshwater Ecosystem by Pesticides | J. Appl. Ecol.3:33-44 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 19.6 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 2 | days | 43 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | NOEC | 2 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 610 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bailey,H.C., D.H.W. Liu, and H.A. Javitz | Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays | ASTM Spec. Tech. Publ.:193-212 | 1985 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 130 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 23 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 22 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 35 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 31.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | <4.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 21.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 470 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | >22 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 2.3 | days | 1380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.12 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.075 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC10 | 4 | days | 0.99 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal and Pharmaceutical Mixtures: Is Ion Loss the Mechanism Underlying Acute Toxicity and Widespread Additive Toxicity in Zebrafish? | Aquat. Toxicol.140/141:257-267 | 2013 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC10 | 1 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lee,H.C., P.N. Lu, H.L. Huang, C. Chu, H.P. Li, and H.J. Tsai | Zebrafish Transgenic Line huORFZ is an Effective Living Bioindicator for Detecting Environmental Toxicants | PLoS One9(3): 12 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.6 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.65 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LC50 | 4 | days | 2500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sappington,L.C., F.L. Mayer, F.J. Dwyer, D.R. Buckler, J.R. Jones, and M.R. Ellersieck | Contaminant Sensitivity of Threatened and Endangered Fishes Compared to Standard Surrogate Species | Environ. Toxicol. Chem.20(12): 2869-2876 | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 7.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | <50 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 70.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | NOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 39 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | IC10 | 30 | days | 19 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | IC10 | 30 | days | 19 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | IC10 | 30 | days | 24 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | IC10 | 30 | days | 24 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 0.9 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.5 | days | 1300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sappington,L.C., F.L. Mayer, F.J. Dwyer, D.R. Buckler, J.R. Jones, and M.R. Ellersieck | Contaminant Sensitivity of Threatened and Endangered Fishes Compared to Standard Surrogate Species | Environ. Toxicol. Chem.20(12): 2869-2876 | 2001 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LC50 | 1 | days | 2500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sappington,L.C., F.L. Mayer, F.J. Dwyer, D.R. Buckler, J.R. Jones, and M.R. Ellersieck | Contaminant Sensitivity of Threatened and Endangered Fishes Compared to Standard Surrogate Species | Environ. Toxicol. Chem.20(12): 2869-2876 | 2001 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 2800 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cope,O.B. | Sport Fishery Investigations | Fish and Wildlife Service Circular 226, Effects of Pesticides on Fish and Wildlife. Washington, DC:51-63 | 1965 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 10 | days | 42.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | ET50 | 3 | days | 160 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | NOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | ET50 | 1.2 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 2800 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cope,O.B. | Sport Fishery Investigations | Fish and Wildlife Service Circular 226, Effects of Pesticides on Fish and Wildlife. Washington, DC:51-63 | 1965 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 2800 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cope,O.B. | Sport Fishery Investigations | Fish and Wildlife Service Circular 226, Effects of Pesticides on Fish and Wildlife. Washington, DC:51-63 | 1965 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 38 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shuhaimi-Othman,M., Y. Nadzifah, R. Nur-Amalina, and N.S. Umirah | Deriving Freshwater Quality Criteria for Copper, Cadmium, Aluminum and Manganese for Protection of Aquatic Life in Malaysia | Chemosphere90(11): 2631-2636 | 2013 | 2018/03/22 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 2 | days | 620 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsuji,S., Y. Tonogai, Y. Ito, and S. Kanoh | The Influence of Rearing Temperatures on the Toxicity of Various Environmental Pollutants for Killifish (Oryzias latipes) | Jpn. J. Toxicol. Environ. Health32(1): 46-53 | 1986 | 2018/03/22 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 2 | days | 1300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsuji,S., Y. Tonogai, Y. Ito, and S. Kanoh | The Influence of Rearing Temperatures on the Toxicity of Various Environmental Pollutants for Killifish (Oryzias latipes) | Jpn. J. Toxicol. Environ. Health32(1): 46-53 | 1986 | 2018/03/22 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 1 | days | 1500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsuji,S., Y. Tonogai, Y. Ito, and S. Kanoh | The Influence of Rearing Temperatures on the Toxicity of Various Environmental Pollutants for Killifish (Oryzias latipes) | Jpn. J. Toxicol. Environ. Health32(1): 46-53 | 1986 | 2018/03/22 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 1 | days | 1500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsuji,S., Y. Tonogai, Y. Ito, and S. Kanoh | The Influence of Rearing Temperatures on the Toxicity of Various Environmental Pollutants for Killifish (Oryzias latipes) | Jpn. J. Toxicol. Environ. Health32(1): 46-53 | 1986 | 2018/03/22 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 2 | days | 1300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsuji,S., Y. Tonogai, Y. Ito, and S. Kanoh | The Influence of Rearing Temperatures on the Toxicity of Various Environmental Pollutants for Killifish (Oryzias latipes) | Jpn. J. Toxicol. Environ. Health32(1): 46-53 | 1986 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bailey,H.C., D.H.W. Liu, and H.A. Javitz | Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays | ASTM Spec. Tech. Publ.:193-212 | 1985 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 0.17 | days | 1300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bailey,H.C., D.H.W. Liu, and H.A. Javitz | Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays | ASTM Spec. Tech. Publ.:193-212 | 1985 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 30 | days | 340 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lemke,A.E. | Toxicity of Copper, Cadmium, and Zinc to the Bluegill (Lepomis macrochirus) | Robert A.Taft Sanitary Engineering Center, U. S. Department of Health, Education and Welfare, Cincinnati, OH:19 p. | 1965 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NOEC | 7 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 0.67 | days | 830 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bailey,H.C., D.H.W. Liu, and H.A. Javitz | Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays | ASTM Spec. Tech. Publ.:193-212 | 1985 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.79 | days | 3800 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 1.1 | days | 2450 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 2.5 | days | 1380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 6 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gauthier,C., P. Couture, and G.G. Pyle | Metal Effects on Fathead Minnows (Pimephales promelas) Under Field and Laboratory Conditions | Ecotoxicol. Environ. Saf.63(3): 353-364 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 3.6 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gauthier,C., P. Couture, and G.G. Pyle | Metal Effects on Fathead Minnows (Pimephales promelas) Under Field and Laboratory Conditions | Ecotoxicol. Environ. Saf.63(3): 353-364 | 2006 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Physiological | NOEC | 4 | days | 62 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,H., Y. Liang, S. Li, and J. Chang | Acute Toxicity, Respiratory Reaction, and Sensitivity of Three Cyprinid Fish Species Caused by Exposure to Four Heavy Metals | PLoS One8(6): 7 p. | 2013 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 7 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 370 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bailey,H.C., D.H.W. Liu, and H.A. Javitz | Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays | ASTM Spec. Tech. Publ.:193-212 | 1985 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 3 | days | 370 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bailey,H.C., D.H.W. Liu, and H.A. Javitz | Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays | ASTM Spec. Tech. Publ.:193-212 | 1985 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 340 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bailey,H.C., D.H.W. Liu, and H.A. Javitz | Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays | ASTM Spec. Tech. Publ.:193-212 | 1985 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | IC10 | 5 | days | 431.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 3 | days | 550 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bailey,H.C., D.H.W. Liu, and H.A. Javitz | Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays | ASTM Spec. Tech. Publ.:193-212 | 1985 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | NOEC | 8 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 580 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bailey,H.C., D.H.W. Liu, and H.A. Javitz | Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays | ASTM Spec. Tech. Publ.:193-212 | 1985 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 0.33 | days | 920 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bailey,H.C., D.H.W. Liu, and H.A. Javitz | Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays | ASTM Spec. Tech. Publ.:193-212 | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 15.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 105.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 85.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 9.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 182 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 102 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vardy,D.W., J. Oellers, J.A. Doering, H. Hollert, J.P. Giesy, and M. Hecker | Sensitivity of Early Life Stages of White Sturgeon, Rainbow Trout, and Fathead Minnow to Copper | Ecotoxicology22(1): 139-147 | 2013 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | ET50 | 0.88 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | hours | 2900 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bailey,H.C., D.H.W. Liu, and H.A. Javitz | Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays | ASTM Spec. Tech. Publ.:193-212 | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 19 | days | <5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 14 | days | 20.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | >1.3 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.27 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 3 | days | 1410 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Inglis,A., and E.L. Davis | Effects of Water Hardness on the Toxicity of Several Organic and Inorganic Herbicides to Fish | Tech.Pap.No.67, Bur.Sport Fish.Wildl., Fish Wildl.Serv., U.S.D.I., Washington, DC:22 p. | 1972 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 2590 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Inglis,A., and E.L. Davis | Effects of Water Hardness on the Toxicity of Several Organic and Inorganic Herbicides to Fish | Tech.Pap.No.67, Bur.Sport Fish.Wildl., Fish Wildl.Serv., U.S.D.I., Washington, DC:22 p. | 1972 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 3 | days | 2240 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Inglis,A., and E.L. Davis | Effects of Water Hardness on the Toxicity of Several Organic and Inorganic Herbicides to Fish | Tech.Pap.No.67, Bur.Sport Fish.Wildl., Fish Wildl.Serv., U.S.D.I., Washington, DC:22 p. | 1972 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 2230 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Inglis,A., and E.L. Davis | Effects of Water Hardness on the Toxicity of Several Organic and Inorganic Herbicides to Fish | Tech.Pap.No.67, Bur.Sport Fish.Wildl., Fish Wildl.Serv., U.S.D.I., Washington, DC:22 p. | 1972 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.95 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 3.6 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 750 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 14 | days | <5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G. | Influence of Dissolved Organic Carbon on the Speciation, Bioavailability and Toxicity of Metals to Aquatic Biota in Soft Water Lakes | Ph.D.Thesis, University of Waterloo, Ontario, Canada:181 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 580 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 2 | days | 8240 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 3 | days | 2920 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 3970 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 20480 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 3 | days | 1810 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 3 | days | 5260 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 3 | days | 3440 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 2 | days | 3800 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 4300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 1230 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | NOEC | 6 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 6.7 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | IC50 | 5 | days | 628.04 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 810 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.7 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.8 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.12 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 2 | days | 3380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 3440 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 3 | days | 4300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 0.5 | days | 20480 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie | Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity | Can. J. Fish. Aquat. Sci.50(7): 1356-1362 | 1993 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | IC10 | 5 | days | 486.48 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 10 | days | 8.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | IC50 | 5 | days | 597.33 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | IC50 | 5 | days | 585.74 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | LC50 | 2 | days | 203.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | LC50 | 2 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | LC50 | 4 | days | 123.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | LC50 | 3 | days | 163.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | LC50 | 4 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | LC50 | 2 | days | 123.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) Cyprinus carpio ssp. communis | Mortality | LC50 | 4 | days | 157.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa | Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis | Pollut. Res.19(1): 91-93 | 2000 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | <640 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 650 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | IC10 | 5 | days | 465.13 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.3 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 2 | days | 5990 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters) | Acta Hydrochim. Hydrobiol.9(5): 505-509 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 36 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 860 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 23 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 29 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., K. Lugowska, and P. Sarnowski | High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.) | Fish Physiol. Biochem.40(1): 9-22 | 2014 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC50 | 3 | days | 1590 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Svecevicius,G., and M.Z. Vosyliene | Acute Toxicity of Copper to Common Freshwater Fishes of Lithuania | Ekologija2:17-21 | 1996 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC50 | 2 | days | 1960 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Svecevicius,G., and M.Z. Vosyliene | Acute Toxicity of Copper to Common Freshwater Fishes of Lithuania | Ekologija2:17-21 | 1996 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC50 | 4 | days | 1490 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Svecevicius,G., and M.Z. Vosyliene | Acute Toxicity of Copper to Common Freshwater Fishes of Lithuania | Ekologija2:17-21 | 1996 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 2 | hours | 280.16 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hernandez,P.P., V. Moreno, F.A. Olivari, and M.L. Allende | Sub-Lethal Concentrations of Waterborne Copper are Toxic to Lateral Line Neuromasts in Zebrafish (Danio rerio) | Hear. Res.213(1-2): 1-10 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 10 | days | 42.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.32 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 106.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1959 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 383.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 2.6 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 52 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,H., D. Benoit, R. Erickson, V. Mattson, and J. Lindberg | The Effects of Variable Hardness, pH, Alkalinity, Suspended Clay, and Humics on the Chemical Speciation and Aquatic Toxicity of Copper | EPA/600/3-86/023, U.S.EPA, Duluth, MN:120 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 1268 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 1207 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.7 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | <200 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., A.C. Ryan, J.R. Tomasso, and S.J. Klaine | Evaluation of Acute Copper Toxicity to Larval Fathead Minnows (Pimephales promelas) in Soft Surface Waters | Environ. Toxicol. Chem.24(2): 408-414 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | <50 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., A.C. Ryan, J.R. Tomasso, and S.J. Klaine | Evaluation of Acute Copper Toxicity to Larval Fathead Minnows (Pimephales promelas) in Soft Surface Waters | Environ. Toxicol. Chem.24(2): 408-414 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 720 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Benson,W.H., and W.J. Birge | Heavy Metal Tolerance and Metallothionein Induction in Fathead Minnows: Results From Field and Laboratory Investigations | Environ. Toxicol. Chem.4(2): 209-217 | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 68.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 5.9 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., J.R. Tomasso, and S.J. Klaine | Influence of Copper Exposure on Whole-Body Sodium Levels in Larval Fathead Minnows (Pimephales promelas) | Environ. Toxicol. Chem.27(6): 1442-1449 | 2008 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/22 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | LOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LOEC | 7 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 940 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 640 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 360 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 960 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 60 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.22 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 7.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., J.R. Tomasso, and S.J. Klaine | Influence of Copper Exposure on Whole-Body Sodium Levels in Larval Fathead Minnows (Pimephales promelas) | Environ. Toxicol. Chem.27(6): 1442-1449 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.35 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Immunity | LOEL | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.13 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 480 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.38 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.13 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.38 | days | 3220 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.25 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.25 | days | 3580 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.5 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NOEC | 7 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.38 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 2 | days | 250 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Griffitt,R.J., R. Weil, K.A. Hyndman, N.D. Denslow, K. Powers, D. Taylor, and D.S. Barber | Exposure to Copper Nanoparticles Causes Gill Injury and Acute Lethality in Zebrafish (Danio rerio) | Environ. Sci. Technol.41(23): 8178-8186 | 2007 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 3200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Turnbull,H., J.G. Demann, and R.F. Weston | Toxicity of Various Refinery Materials to Fresh Water Fish | J. Ind. Eng. Chem.46(2): 324-333 | 1954 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 0.5 | days | 440 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hossain,M.A., M. Shariff, A.T. Law, and I. Patimah | Median Lethal Concentration of Copper to Goldfish Carassius auratus Linnaeus | Pak. J. Sci. Ind. Res.38(5-6): 196-199 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.3 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.46 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 14.7 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.05 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.9 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 2 | days | 3380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Chelating Agent EDTA Decreases the Toxicity of Copper to Fish | Curr. Sci. (Bangalore)50(5): 246-248 | 1981 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 1230 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S. | Chelating Agent EDTA Decreases the Toxicity of Copper to Fish | Curr. Sci. (Bangalore)50(5): 246-248 | 1981 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | 4 | days | 78.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/22 | ||||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 2 | days | 41320 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Furmanska,M. | Studies of the Effect of Copper, Zinc, and Iron on the Biotic Components of Aquatic Ecosystems | Pol. Arch. Hydrobiol.26(1-2): 213-220 | 1979 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | 4 | days | 3.21 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2018/03/22 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 7000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Turnbull,H., J.G. Demann, and R.F. Weston | Toxicity of Various Refinery Materials to Fresh Water Fish | J. Ind. Eng. Chem.46(2): 324-333 | 1954 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 3000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Turnbull,H., J.G. Demann, and R.F. Weston | Toxicity of Various Refinery Materials to Fresh Water Fish | J. Ind. Eng. Chem.46(2): 324-333 | 1954 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 44000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Turnbull,H., J.G. Demann, and R.F. Weston | Toxicity of Various Refinery Materials to Fresh Water Fish | J. Ind. Eng. Chem.46(2): 324-333 | 1954 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 44000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Turnbull,H., J.G. Demann, and R.F. Weston | Toxicity of Various Refinery Materials to Fresh Water Fish | J. Ind. Eng. Chem.46(2): 324-333 | 1954 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 7500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Turnbull,H., J.G. Demann, and R.F. Weston | Toxicity of Various Refinery Materials to Fresh Water Fish | J. Ind. Eng. Chem.46(2): 324-333 | 1954 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 50 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,H., D. Benoit, R. Erickson, V. Mattson, and J. Lindberg | The Effects of Variable Hardness, pH, Alkalinity, Suspended Clay, and Humics on the Chemical Speciation and Aquatic Toxicity of Copper | EPA/600/3-86/023, U.S.EPA, Duluth, MN:120 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 171 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,H., D. Benoit, R. Erickson, V. Mattson, and J. Lindberg | The Effects of Variable Hardness, pH, Alkalinity, Suspended Clay, and Humics on the Chemical Speciation and Aquatic Toxicity of Copper | EPA/600/3-86/023, U.S.EPA, Duluth, MN:120 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 87 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,H., D. Benoit, R. Erickson, V. Mattson, and J. Lindberg | The Effects of Variable Hardness, pH, Alkalinity, Suspended Clay, and Humics on the Chemical Speciation and Aquatic Toxicity of Copper | EPA/600/3-86/023, U.S.EPA, Duluth, MN:120 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 1 | days | 1510 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 1 | days | 2900 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 10 | days | >1300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lemke,A.E. | Toxicity of Copper, Cadmium, and Zinc to the Bluegill (Lepomis macrochirus) | Robert A.Taft Sanitary Engineering Center, U. S. Department of Health, Education and Welfare, Cincinnati, OH:19 p. | 1965 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 1.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Seok,S.H., J.H. Park, M.W. Baek, H.Y. Lee, D.J. Kim, H.M. Uhm, J.J. Hong, Y.R. Na, B.H. Jin, and D.Y. Ryu | Specific Activation of the Human HSP70 Promoter by Copper Sulfate in Mosaic Transgenic Zebrafish | J. Biotechnol.126(3): 406-413 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 790 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 15 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 6.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 14 | days | 2500 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Richey,D., and D. Roseboom | Acute Toxicity of Copper to Some Fishes in high Alkalinity Water | Circular 131, Dep.Registration & Education, State of IL:24 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 14 | days | 3700 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Richey,D., and D. Roseboom | Acute Toxicity of Copper to Some Fishes in high Alkalinity Water | Circular 131, Dep.Registration & Education, State of IL:24 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 892 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Soucek,D.J., and G.P. Noblet | Copper Toxicity to the Endoparasitic Trematode (Posthodiplostomum minimum) Relative to Physid Snail and Bluegill Sunfish Intermediate Hosts | Environ. Toxicol. Chem.17(12):2512-2516 | 1998 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 3 | days | 120 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 10000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 3000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 690 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | 25 | days | 82.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jacobson,S.V., and R. Reimschuessel | Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels | Fish Shellfish Immunol.8(4): 245-259 | 1998 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 420 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 3 | days | 190 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hossain,M.A., M. Shariff, A.T. Law, and I. Patimah | Median Lethal Concentration of Copper to Goldfish Carassius auratus Linnaeus | Pak. J. Sci. Ind. Res.38(5-6): 196-199 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 3600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 650 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LT100 | 60 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Quick,T., and N.F. Cardarelli | Environmental Impact of Controlled Release Molluscicides and Their Degradation Products: A Preliminary Report | ACS Symp. Ser.53:90-104 | 1977 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.38 | days | 6500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.42 | days | 3800 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kondera,E., and M. Witeska | Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney | Fish Physiol. Biochem.39(4): 755-764 | 2013 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | <50 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., A.C. Ryan, J.R. Tomasso, and S.J. Klaine | Evaluation of Acute Copper Toxicity to Larval Fathead Minnows (Pimephales promelas) in Soft Surface Waters | Environ. Toxicol. Chem.24(2): 408-414 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | <150 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., A.C. Ryan, J.R. Tomasso, and S.J. Klaine | Evaluation of Acute Copper Toxicity to Larval Fathead Minnows (Pimephales promelas) in Soft Surface Waters | Environ. Toxicol. Chem.24(2): 408-414 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | <150 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., A.C. Ryan, J.R. Tomasso, and S.J. Klaine | Evaluation of Acute Copper Toxicity to Larval Fathead Minnows (Pimephales promelas) in Soft Surface Waters | Environ. Toxicol. Chem.24(2): 408-414 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | <50 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., A.C. Ryan, J.R. Tomasso, and S.J. Klaine | Evaluation of Acute Copper Toxicity to Larval Fathead Minnows (Pimephales promelas) in Soft Surface Waters | Environ. Toxicol. Chem.24(2): 408-414 | 2005 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | 1 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nor,Y.M. | Effects of Organic Ligands on Toxicity of Copper and Zinc to Carassius auratus | Chem. Spec. Bioavail.3(3): 111-115 | 1990 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | >830 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | NOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 1 | days | 2700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 114 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 550 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2050 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 2 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Slooff,W. | Biological Monitoring Based on Fish Respiration for Continuous Water Quality Control | In: O.Hutzinger, I.H.Van Lelyveld and B.C.J.Zoeteman (Eds.), Aquatic Pollutants: Transformation and Biological Effects, Pergamon Press, NY:501-506 | 1978 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 2 | days | 110 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 0.5 | days | 180 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 1 | days | 160 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 5 | days | 482 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | LOEC | 1 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | NOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | NOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NOEC | 14 | days | 0.21 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dave,G., and R. Xiu | Toxicity of Mercury, Copper, Nickel, Lead, and Cobalt to Embryos and Larvae of Zebrafish, Brachydanio rerio | Arch. Environ. Contam. Toxicol.21:126-134 | 1991 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 0.25 | days | 8480 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Inglis,A., and E.L. Davis | Effects of Water Hardness on the Toxicity of Several Organic and Inorganic Herbicides to Fish | Tech.Pap.No.67, Bur.Sport Fish.Wildl., Fish Wildl.Serv., U.S.D.I., Washington, DC:22 p. | 1972 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 2940 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Inglis,A., and E.L. Davis | Effects of Water Hardness on the Toxicity of Several Organic and Inorganic Herbicides to Fish | Tech.Pap.No.67, Bur.Sport Fish.Wildl., Fish Wildl.Serv., U.S.D.I., Washington, DC:22 p. | 1972 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 3 | days | 3420 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Inglis,A., and E.L. Davis | Effects of Water Hardness on the Toxicity of Several Organic and Inorganic Herbicides to Fish | Tech.Pap.No.67, Bur.Sport Fish.Wildl., Fish Wildl.Serv., U.S.D.I., Washington, DC:22 p. | 1972 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 3680 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Inglis,A., and E.L. Davis | Effects of Water Hardness on the Toxicity of Several Organic and Inorganic Herbicides to Fish | Tech.Pap.No.67, Bur.Sport Fish.Wildl., Fish Wildl.Serv., U.S.D.I., Washington, DC:22 p. | 1972 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 0.25 | days | 3610 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Inglis,A., and E.L. Davis | Effects of Water Hardness on the Toxicity of Several Organic and Inorganic Herbicides to Fish | Tech.Pap.No.67, Bur.Sport Fish.Wildl., Fish Wildl.Serv., U.S.D.I., Washington, DC:22 p. | 1972 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 1840 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Inglis,A., and E.L. Davis | Effects of Water Hardness on the Toxicity of Several Organic and Inorganic Herbicides to Fish | Tech.Pap.No.67, Bur.Sport Fish.Wildl., Fish Wildl.Serv., U.S.D.I., Washington, DC:22 p. | 1972 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 0.25 | days | 4880 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Inglis,A., and E.L. Davis | Effects of Water Hardness on the Toxicity of Several Organic and Inorganic Herbicides to Fish | Tech.Pap.No.67, Bur.Sport Fish.Wildl., Fish Wildl.Serv., U.S.D.I., Washington, DC:22 p. | 1972 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 630 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Paris-Palacios,S., and S. Biagianti-Risbourg | Hepatocyte Nuclear Structure and Subcellular Distribution of Copper in Zebrafish Brachydanio rerio and Roach Rutilus rutilus (Teleostei, Cyprinidae) Exposed to Copper Sulphate | Aquat. Toxicol.77(3): 306-313 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | LOEC | 4 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 580 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.33 | days | 6500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 1 | days | 360 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hossain,M.A., M. Shariff, A.T. Law, and I. Patimah | Median Lethal Concentration of Copper to Goldfish Carassius auratus Linnaeus | Pak. J. Sci. Ind. Res.38(5-6): 196-199 | 1995 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 4 | days | 288 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ling,K.H., Y.M. Sin, and T.J. Lam | Effect of Copper Sulphate on Ichthyophthiriasis (White Spot Disease) in Goldfish (Carassius auratus) | Aquaculture118(1-2): 23-35 | 1993 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 3 | days | 5200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., and J.A. Black | Effects of Copper on Embryonic and Juvenile Stages of Aquatic Animals | In: J.O.Nriagu (Ed.), Copper in the Environment, J.Wiley and Sons, NY:373-399 | 1979 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 4 | days | 1380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mayer,F.L.,Jr., and M.R. Ellersieck | Manual of Acute Toxicity: Interpretation and Data Base for 410 Chemicals and 66 Species of Freshwater Animals | USDI Fish and Wildlife Service, Publication No.160, Washington, DC:505 p. | 1986 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 1 | days | 4490 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mayer,F.L.,Jr., and M.R. Ellersieck | Manual of Acute Toxicity: Interpretation and Data Base for 410 Chemicals and 66 Species of Freshwater Animals | USDI Fish and Wildlife Service, Publication No.160, Washington, DC:505 p. | 1986 | 2018/03/22 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | LOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 1700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 630 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.5 | days | 2750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1001 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lind,D., K. Alto, and S. Chatterton | Regional Copper-Nickel Study | Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54- | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 47000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Deshmukh,S.S., and V.B. Marathe | Size Related Toxicity of Copper and Mercury to Lebistes reticulatus (Peter), Labeo rohita (Ham.) and Cyprinus carpio Linn | Indian J. Exp. Biol.18:421-423 | 1980 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 14 | days | 2.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 10 | days | 6.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 8.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 14 | days | 35.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 9.8 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 6.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 21.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 6.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | NOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.6 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.42 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.45 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 15.8 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.34 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4.3 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.9 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC10 | 4 | days | 21 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Oliveira-Filho,E.C., R.M. Lopes, and F.J.R. Paumgartten | Comparative Study on the Susceptibility of Freshwater Species to Copper-Based Pesticides | Chemosphere56(4): 369-374 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC10 | 4 | days | 2.67 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal and Pharmaceutical Mixtures: Is Ion Loss the Mechanism Underlying Acute Toxicity and Widespread Additive Toxicity in Zebrafish? | Aquat. Toxicol.140/141:257-267 | 2013 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.73 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 12.3 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.6 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 11.1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.44 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | LOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 4750 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Pesticide Ecotoxicity Database (Formerly: Environmental Effects Database (EEDB)) | Environmental Fate and Effects Division, U.S.EPA, Washington, D.C.: | 1992 | 2018/03/22 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 6100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Pesticide Ecotoxicity Database (Formerly: Environmental Effects Database (EEDB)) | Environmental Fate and Effects Division, U.S.EPA, Washington, D.C.: | 1992 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 14.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | >5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 468.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine | Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas): Implications for the Biotic Ligand Model | Environ. Toxicol. Chem.23(6): 1567-1574 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.46 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 1680 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Minicucci,D.D. | Flow Effects in Aquatic Bioassays (The Toxicity of Copper at Various Flow Rates to the Guppy, Lebistes reticulatus) | M.S.Thesis, University of Michigan, Ann Arbor, MI:86 p. | 1971 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 1370 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Minicucci,D.D. | Flow Effects in Aquatic Bioassays (The Toxicity of Copper at Various Flow Rates to the Guppy, Lebistes reticulatus) | M.S.Thesis, University of Michigan, Ann Arbor, MI:86 p. | 1971 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 75000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mount,D.I., and C.E. Stephan | Chronic Toxicity of Copper to the Fathead Minnow (Pimephales promelas) in Soft Water | J. Fish. Res. Board Can.26(9): 2449-2457 | 1969 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 84000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mount,D.I., and C.E. Stephan | Chronic Toxicity of Copper to the Fathead Minnow (Pimephales promelas) in Soft Water | J. Fish. Res. Board Can.26(9): 2449-2457 | 1969 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.6 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.47 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.3 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1.24 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bishop,W.E., and R.L. Perry | Development and Evaluation of a Flow-Through Growth Inhibition Test with Duckweed (Lemna minor) | ASTM Spec. Tech. Publ.:421-435 | 1981 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 7340 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mayer,F.L.,Jr., and M.R. Ellersieck | Manual of Acute Toxicity: Interpretation and Data Base for 410 Chemicals and 66 Species of Freshwater Animals | USDI Fish and Wildlife Service, Publication No.160, Washington, DC:505 p. | 1986 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.2 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 2.6 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1760 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 23 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 36 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Paralichthys dentatus (Summer flounder) | Mortality | 5 | days | 636 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | CH2M HILL | Bioassay Report: Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus) | Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p. | 1999 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | ET50 | 2.3 | days | 6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bai,W., W. Tian, Z. Zhang, X. He, Y. Ma, N. Liu, and Z. Chai | Effects of Copper Nanoparticles on the Development of Zebrafish Embryos | J. Nanosci. Nanotechnol.10(12): 8670-8676 | 2010 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | IC10 | 30 | days | 19 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | IC10 | 30 | days | 19 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC0 | 1 | days | 8500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muraleedharan,K., S.P. Kumar, K.S. Hedge, and V.S. Alwar | Relative Efficiency of Copper Sulphate, Sodium Pentachlorophenate and Bayluscide Against Freshwater Snail Indoplanorbis exustus | Indian J. Anim. Sci.45(10): 739-743 | 1975 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.72 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 10.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle | Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH | Can. J. Fish. Aquat. Sci.53:1263-1271 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 750 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 780 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 11000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 820 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 81.14 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 44.09 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 470 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sappington,L.C., F.L. Mayer, F.J. Dwyer, D.R. Buckler, J.R. Jones, and M.R. Ellersieck | Contaminant Sensitivity of Threatened and Endangered Fishes Compared to Standard Surrogate Species | Environ. Toxicol. Chem.20(12): 2869-2876 | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.32 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 4 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 1.5 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 87000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yarzhombek,A.A., A.E. Mikulin, and A.N. Zhdanova | Toxicity of Substances in Relation to Form of Exposure | J. Ichthyol.31(7): 99-106 | 1991 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.34 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 810 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LC50 | 4 | days | 630 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., F.L. Mayer, L.C. Sappington, D.R. Buckler, C.M. Bridges, I.E. Greer, D.K. Hardesty, C.E. Henke, C.G. Ingerso | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part I. Acute Toxicity of Five Chemicals | Arch. Environ. Contam. Toxicol.48(2): 143-154 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 470 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., F.L. Mayer, L.C. Sappington, D.R. Buckler, C.M. Bridges, I.E. Greer, D.K. Hardesty, C.E. Henke, C.G. Ingerso | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part I. Acute Toxicity of Five Chemicals | Arch. Environ. Contam. Toxicol.48(2): 143-154 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 760 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 530 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 3 | days | 440 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.75 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 620 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 630 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 80700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Deshmukh,S.S., and V.B. Marathe | Size Related Toxicity of Copper and Mercury to Lebistes reticulatus (Peter), Labeo rohita (Ham.) and Cyprinus carpio Linn | Indian J. Exp. Biol.18:421-423 | 1980 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 0.58 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, and V.R. Mattson | A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria | U.S.EPA, Duluth, MN:36 p. | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 1.21 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 148.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 141000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Deshmukh,S.S., and V.B. Marathe | Size Related Toxicity of Copper and Mercury to Lebistes reticulatus (Peter), Labeo rohita (Ham.) and Cyprinus carpio Linn | Indian J. Exp. Biol.18:421-423 | 1980 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 1680 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mayer,F.L.,Jr., and M.R. Ellersieck | Manual of Acute Toxicity: Interpretation and Data Base for 410 Chemicals and 66 Species of Freshwater Animals | USDI Fish and Wildlife Service, Publication No.160, Washington, DC:505 p. | 1986 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 1180 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mayer,F.L.,Jr., and M.R. Ellersieck | Manual of Acute Toxicity: Interpretation and Data Base for 410 Chemicals and 66 Species of Freshwater Animals | USDI Fish and Wildlife Service, Publication No.160, Washington, DC:505 p. | 1986 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 7340 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mayer,F.L.,Jr., and M.R. Ellersieck | Manual of Acute Toxicity: Interpretation and Data Base for 410 Chemicals and 66 Species of Freshwater Animals | USDI Fish and Wildlife Service, Publication No.160, Washington, DC:505 p. | 1986 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 8 | days | 88 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 1 | days | 190 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 6 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 2 | days | 130 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Physiological | LOEC | 4 | days | 68 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,H., Y. Liang, S. Li, and J. Chang | Acute Toxicity, Respiratory Reaction, and Sensitivity of Three Cyprinid Fish Species Caused by Exposure to Four Heavy Metals | PLoS One8(6): 7 p. | 2013 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 7 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 10000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 212.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 970 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 143.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 44.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., D.E. Koplish, J. McMahon III, and R. Rost | Evaluation of the Water-Effect Ratio Procedure for Metals in a Riverine System | Environ. Toxicol. Chem.16(3): 509-520 | 1997 | 2018/03/22 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | LC50 | 7 | days | 286.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Morrison,G., E. Torello, R. Comeleo, R. Walsh, A. Kuhn, R. Burgess, M. Tagliabue, and W. Greene | Intralaboratory Precision of Saltwater Short-Term Chronic Toxicity Tests | J. Water Pollut. Control Fed.61:1707-1710 | 1989 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LC50 | 7 | days | 471.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Morrison,G., E. Torello, R. Comeleo, R. Walsh, A. Kuhn, R. Burgess, M. Tagliabue, and W. Greene | Intralaboratory Precision of Saltwater Short-Term Chronic Toxicity Tests | J. Water Pollut. Control Fed.61:1707-1710 | 1989 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 4150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Inglis,A., and E.L. Davis | Effects of Water Hardness on the Toxicity of Several Organic and Inorganic Herbicides to Fish | Tech.Pap.No.67, Bur.Sport Fish.Wildl., Fish Wildl.Serv., U.S.D.I., Washington, DC:22 p. | 1972 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.05 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 3.7 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.3 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2.85 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard | The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows | Environ. Toxicol. Chem.15(2): 181-193 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 820 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 252 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bennett,W.A., A. Sosa, and T.L. Beitinger | Oxygen Tolerance of Fathead Minnows Previously Exposed to Copper | Bull. Environ. Contam. Toxicol.55(4): 517-524 | 1995 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LOEC | 0.83 | days | 200 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tilton,F., J.K. La Du, M. Vue, N. Alzarban, and R.L. Tanguay | Dithiocarbamates have a Common Toxic Effect on Zebrafish Body Axis Formation | Toxicol. Appl. Pharmacol.216(1): 55-68 | 2006 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.38 | days | >1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.13 | days | >360 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.5 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | <70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.75 | days | 90 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.13 | days | >910 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.5 | days | >360 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 36.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Little,E.E., R.D. Calfee, and G. Linder | Toxicity of Copper to Early-Life Stage Kootenai River White Sturgeon, Columbia River White Sturgeon, and Rainbow Trout | Arch. Environ. Contam. Toxicol.63(3): 400-408 | 2012 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 30.9 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Little,E.E., R.D. Calfee, and G. Linder | Toxicity of Copper to Early-Life Stage Kootenai River White Sturgeon, Columbia River White Sturgeon, and Rainbow Trout | Arch. Environ. Contam. Toxicol.63(3): 400-408 | 2012 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | <70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.38 | days | >600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | <70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.25 | days | 910 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.25 | days | >910 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.75 | days | 440 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | <70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 120 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sappington,L.C., F.L. Mayer, F.J. Dwyer, D.R. Buckler, J.R. Jones, and M.R. Ellersieck | Contaminant Sensitivity of Threatened and Endangered Fishes Compared to Standard Surrogate Species | Environ. Toxicol. Chem.20(12): 2869-2876 | 2001 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 80 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sappington,L.C., F.L. Mayer, F.J. Dwyer, D.R. Buckler, J.R. Jones, and M.R. Ellersieck | Contaminant Sensitivity of Threatened and Endangered Fishes Compared to Standard Surrogate Species | Environ. Toxicol. Chem.20(12): 2869-2876 | 2001 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.5 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sappington,L.C., F.L. Mayer, F.J. Dwyer, D.R. Buckler, J.R. Jones, and M.R. Ellersieck | Contaminant Sensitivity of Threatened and Endangered Fishes Compared to Standard Surrogate Species | Environ. Toxicol. Chem.20(12): 2869-2876 | 2001 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 80 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., F.L. Mayer, L.C. Sappington, D.R. Buckler, C.M. Bridges, I.E. Greer, D.K. Hardesty, C.E. Henke, C.G. Ingerso | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part I. Acute Toxicity of Five Chemicals | Arch. Environ. Contam. Toxicol.48(2): 143-154 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 1.05 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., C.M. Wood, and D.G. McDonald | An Evaluation of Sodium Loss and Gill Metal Binding Properties in Rainbow Trout and Yellow Perch to Explain Species Differences in Copper Tolerance | Environ. Toxicol. Chem.22(9): 2159-2166 | 2003 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 0.1 | μmol/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., C.M. Wood, and D.G. McDonald | An Evaluation of Sodium Loss and Gill Metal Binding Properties in Rainbow Trout and Yellow Perch to Explain Species Differences in Copper Tolerance | Environ. Toxicol. Chem.22(9): 2159-2166 | 2003 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | 580 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Brown,V.M., T.L. Shaw, and D.G. Shurben | Aspects of Water Quality and the Toxicity of Copper to Rainbow Trout | Water Res.8(10): 797-803 | 1974 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.5 | days | 1030 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 550 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dixon,D.G., and J.W. Hilton | Effects of Available Dietary Carbohydrate and Water Temperature on the Chronic Toxicity of Waterborne Copper to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42:1007-1013 | 1985 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 2 | days | 1100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Karan,V., S. Vitorovic, V. Tutundzic, and V. Poleksic | Functional Enzymes Activity and Gill Histology of Carp After Copper Sulfate Exposure and Recovery | Ecotoxicol. Environ. Saf.40(1-2): 49-55 | 1998 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.25 | days | >600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.13 | days | >910 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.13 | days | >600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.13 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.75 | days | 350 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | <70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 24 | days | 120 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., and J.A. Black | Effects of Copper on Embryonic and Juvenile Stages of Aquatic Animals | In: J.O.Nriagu (Ed.), Copper in the Environment, J.Wiley and Sons, NY:373-399 | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | <70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 220 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Svobodova,Z. | Acute Toxicity of Pesticides to Fish (Akutni Toxicita Pesticidu pro Ryby) | Agrochemia (Bratisl.)20(11): 328-332 | 1980 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 8 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 341 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dixon,D.G., and J.W. Hilton | Effects of Available Dietary Carbohydrate and Water Temperature on the Chronic Toxicity of Waterborne Copper to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42:1007-1013 | 1985 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 310 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dixon,D.G., and J.W. Hilton | Effects of Available Dietary Carbohydrate and Water Temperature on the Chronic Toxicity of Waterborne Copper to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42:1007-1013 | 1985 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 462 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dixon,D.G., and J.W. Hilton | Effects of Available Dietary Carbohydrate and Water Temperature on the Chronic Toxicity of Waterborne Copper to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42:1007-1013 | 1985 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 94 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gundogdu,A. | Acute Toxicity of Zinc and Copper for Rainbow Trout (Onchorhyncus mykiss) | J. Fish. Sci.2(5): 711-721 | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 61 | days | 48 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Goettl,J.P. | Water Pollution Studies | Fed.Aid Proj.No.F-33-R-6, Colorado Game, Fish and Parks Div., Div.Wildl., Ft.Collins, CO:130 p. | 1971 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 22 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Goettl,J.P. | Water Pollution Studies | Fed.Aid Proj.No.F-33-R-6, Colorado Game, Fish and Parks Div., Div.Wildl., Ft.Collins, CO:130 p. | 1971 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Goettl,J.P. | Water Pollution Studies | Fed.Aid Proj.No.F-33-R-6, Colorado Game, Fish and Parks Div., Div.Wildl., Ft.Collins, CO:130 p. | 1971 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 91 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 153 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald | Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water: Evaluation of Chronic Indicators | Environ. Toxicol. Chem.19(9): 2298-2308 | 2000 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 240 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bills,T.D., L.L. Marking, and W.L. Mauck | Polychlorinated Biphenyl (Aroclor 1254) Residues in Rainbow Trout: Effects on Sensitivity to Nine Fishery Chemicals | N. Am. J. Fish. Manag.1(2): 200-203 | 1981 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 185 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bills,T.D., L.L. Marking, and W.L. Mauck | Polychlorinated Biphenyl (Aroclor 1254) Residues in Rainbow Trout: Effects on Sensitivity to Nine Fishery Chemicals | N. Am. J. Fish. Manag.1(2): 200-203 | 1981 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28 | days | 110 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., and J.A. Black | Effects of Copper on Embryonic and Juvenile Stages of Aquatic Animals | In: J.O.Nriagu (Ed.), Copper in the Environment, J.Wiley and Sons, NY:373-399 | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 14 | days | 810 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Calamari,D., and R. Marchetti | The Toxicity of Mixtures of Metals and Surfactants to Rainbow Trout (Salmo gairdneri Rich.) | Water Res.7(10): 1453-1464 | 1973 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 590 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 327 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 333 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 970 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Svecevicius,G., and M.Z. Vosyliene | Acute Toxicity of Copper to Common Freshwater Fishes of Lithuania | Ekologija2:17-21 | 1996 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 650 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Svecevicius,G., and M.Z. Vosyliene | Acute Toxicity of Copper to Common Freshwater Fishes of Lithuania | Ekologija2:17-21 | 1996 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 710 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Svecevicius,G., and M.Z. Vosyliene | Acute Toxicity of Copper to Common Freshwater Fishes of Lithuania | Ekologija2:17-21 | 1996 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | 690 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Svecevicius,G., and M.Z. Vosyliene | Acute Toxicity of Copper to Common Freshwater Fishes of Lithuania | Ekologija2:17-21 | 1996 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 64 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qureshi,A.A., K.W. Flood, S.R. Thompson, S.M. Janhurst, C.S. Inniss, and D.A. Rokosh | Comparison of a Luminescent Bacterial Test with Other Bioassays for Determining Toxicity of Pure Compounds and Complex Effluents | ASTM Spec. Tech. Publ.:179-195 | 1982 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 890 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Calamari,D., and R. Marchetti | The Toxicity of Mixtures of Metals and Surfactants to Rainbow Trout (Salmo gairdneri Rich.) | Water Res.7(10): 1453-1464 | 1973 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 1250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Calamari,D., and R. Marchetti | The Toxicity of Mixtures of Metals and Surfactants to Rainbow Trout (Salmo gairdneri Rich.) | Water Res.7(10): 1453-1464 | 1973 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 190 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Spear,P. | Copper Accumulation Kinetics and Lethal Tolerance in Relation to Fish Size | M.S.Thesis, Concordia University, Montreal, Canada:69 p. | 1977 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 58 | days | 22.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 22 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | LOEC | 84 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | LOEC | 28 | days | 726 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper | Can. J. Fish. Aquat. Sci.59(5): 768-777 | 2002 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 28 | days | 59 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | LOEC | 0.29 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | LOEC | 0.29 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 59.9 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 28 | days | 53.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 14 | days | 870 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Calamari,D., and R. Marchetti | The Toxicity of Mixtures of Metals and Surfactants to Rainbow Trout (Salmo gairdneri Rich.) | Water Res.7(10): 1453-1464 | 1973 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 43.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Little,E.E., and R.D. Calfee | Toxicity of Chlorine and Copper to Rainbow Trout and to White Sturgeon from the Kootenai River and Columbia River | Report by the U.S. Geological Survey, Columbia MO, for the U.S.. Fish and Wildlife Service, Spokane WA:24 p. | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 9 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 72 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 65 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 40 | days | 110 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 5660 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 319 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 14 | days | 1330 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 569 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 32.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Little,E.E., and R.D. Calfee | Toxicity of Chlorine and Copper to Rainbow Trout and to White Sturgeon from the Kootenai River and Columbia River | Report by the U.S. Geological Survey, Columbia MO, for the U.S.. Fish and Wildlife Service, Spokane WA:24 p. | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | 79.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Little,E.E., and R.D. Calfee | Toxicity of Chlorine and Copper to Rainbow Trout and to White Sturgeon from the Kootenai River and Columbia River | Report by the U.S. Geological Survey, Columbia MO, for the U.S.. Fish and Wildlife Service, Spokane WA:24 p. | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 71.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Little,E.E., and R.D. Calfee | Toxicity of Chlorine and Copper to Rainbow Trout and to White Sturgeon from the Kootenai River and Columbia River | Report by the U.S. Geological Survey, Columbia MO, for the U.S.. Fish and Wildlife Service, Spokane WA:24 p. | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Spear,P. | Copper Accumulation Kinetics and Lethal Tolerance in Relation to Fish Size | M.S.Thesis, Concordia University, Montreal, Canada:69 p. | 1977 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Spear,P. | Copper Accumulation Kinetics and Lethal Tolerance in Relation to Fish Size | M.S.Thesis, Concordia University, Montreal, Canada:69 p. | 1977 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 320 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 566 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 348 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 523 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon | Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.5(8): 1683-1689 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1.3 | days | 29 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 32 | days | 290 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 24 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vardy,D.W., J. Oellers, J.A. Doering, H. Hollert, J.P. Giesy, and M. Hecker | Sensitivity of Early Life Stages of White Sturgeon, Rainbow Trout, and Fathead Minnow to Copper | Ecotoxicology22(1): 139-147 | 2013 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.38 | days | >360 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 28 | days | 34 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 46 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 38 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 52 | days | 34 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 21 | days | 41 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 13.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Buhl,K.J., and S.J. Hamilton | Comparative Toxicity of Inorganic Contaminants Released by Placer Mining to Early Life Stages of Salmonids | Ecotoxicol. Environ. Saf.20(3): 325-342 | 1990 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 46.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Buhl,K.J., and S.J. Hamilton | Comparative Toxicity of Inorganic Contaminants Released by Placer Mining to Early Life Stages of Salmonids | Ecotoxicol. Environ. Saf.20(3): 325-342 | 1990 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28 | days | 110 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., J.A. Black, A.G. Westerman, and J.E. Hudson | Aquatic Toxicity Tests on Inorganic Elements Occurring in Oil Shale | In: C.Gale (Ed.), EPA-600/9-80-022, Oil Shale Symposium: Sampling, Analysis and Quality Assurance, March 1979, U.S.EPA, Cincinnati, OH:519-534 | 1980 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 59 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 11.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Marking,L.L., T.D. Bills, and J.R. Crowther | Effects of Five Diets on Sensitivity of Rainbow Trout to Eleven Chemicals | Prog. Fish-Cult.46(1): 1-5 | 1984 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 21 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 15.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Marking,L.L., T.D. Bills, and J.R. Crowther | Effects of Five Diets on Sensitivity of Rainbow Trout to Eleven Chemicals | Prog. Fish-Cult.46(1): 1-5 | 1984 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.25 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 21 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vardy,D.W., J. Oellers, J.A. Doering, H. Hollert, J.P. Giesy, and M. Hecker | Sensitivity of Early Life Stages of White Sturgeon, Rainbow Trout, and Fathead Minnow to Copper | Ecotoxicology22(1): 139-147 | 2013 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 39 | days | 0.17 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 0.17 | μmol/g TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and C.M. Wood | The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss | Aquat. Toxicol.62(3): 235-254 | 2003 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Herbert,D.W.M., and J.M. Vandyke | The Toxicity to Fish of Mixtures of Poisons. II. Copper-Ammonia and Zinc-Phenol Mixtures | Ann. Appl. Biol.53(3): 415-421 | 1964 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28 | days | 90 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., J.E. Hudson, J.A. Black, and A.G. Westerman | Embryo-Larval Bioassays on Inorganic Coal Elements and In Situ Biomonitoring of Coal-Waste Effluents | In: Symp., U.S.Fish Wildl.Serv., Dec.3-6, 1978, Surface Mining Fish Wildl.needs in Eastern U.S., WV:97-104 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 18.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Buhl,K.J., and S.J. Hamilton | Comparative Toxicity of Inorganic Contaminants Released by Placer Mining to Early Life Stages of Salmonids | Ecotoxicol. Environ. Saf.20(3): 325-342 | 1990 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 19.9 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 111 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 63 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 60 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | 141 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 22.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 23.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Marking,L.L., T.D. Bills, and J.R. Crowther | Effects of Five Diets on Sensitivity of Rainbow Trout to Eleven Chemicals | Prog. Fish-Cult.46(1): 1-5 | 1984 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 2 | days | 380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Svobodova,Z. | Acute Toxicity of Pesticides to Fish (Akutni Toxicita Pesticidu pro Ryby) | Agrochemia (Bratisl.)20(11): 328-332 | 1980 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 640 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Karan,V., S. Vitorovic, V. Tutundzic, and V. Poleksic | Functional Enzymes Activity and Gill Histology of Carp After Copper Sulfate Exposure and Recovery | Ecotoxicol. Environ. Saf.40(1-2): 49-55 | 1998 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 1 | days | 365 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ling,K.H., Y.M. Sin, and T.J. Lam | Effect of Copper Sulphate on Ichthyophthiriasis (White Spot Disease) in Goldfish (Carassius auratus) | Aquaculture118(1-2): 23-35 | 1993 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 2 | days | 8000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Karan,V., S. Vitorovic, V. Tutundzic, and V. Poleksic | Functional Enzymes Activity and Gill Histology of Carp After Copper Sulfate Exposure and Recovery | Ecotoxicol. Environ. Saf.40(1-2): 49-55 | 1998 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 3 | days | 8000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gopal,V., S. Parvathy, and P.R. Balasubramanian | Effect of Heavy Metals on the Blood Protein Biochemistry of the Fish Cyprinus carpio and Its Use as a Bio-Indicator of Pollution Stress | Environ. Monit. Assess.48:117-124 | 1997 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 3 | days | 1090 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar | Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio | J. Environ. Sci. Eng.53(3): 335-340 | 2011 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 890 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar | Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio | J. Environ. Sci. Eng.53(3): 335-340 | 2011 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 2 | days | 1160 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar | Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio | J. Environ. Sci. Eng.53(3): 335-340 | 2011 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 310 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar | Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio | J. Environ. Sci. Eng.53(3): 335-340 | 2011 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 3 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar | Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio | J. Environ. Sci. Eng.53(3): 335-340 | 2011 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 2 | days | 420 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar | Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio | J. Environ. Sci. Eng.53(3): 335-340 | 2011 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 38 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 1 | days | 490 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar | Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio | J. Environ. Sci. Eng.53(3): 335-340 | 2011 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 256 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Physiological | LOEL | 1 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and P. Sarnowski | The Effect of Mercury, Copper and Cadmium During Single and Combined Exposure on Oxygen Consumption of Oncorhynchus mykiss Wal. and Cyprinus carpio L. Larvae | Arch. Pol. Fish. 10(1): 15-22 | 2002 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Immunity | NOEL | 4 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | NOEL | 1 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and I. Slominska | The Effect of Copper on Common Carp (Cyprinus carpio L.) During Embryonic and Postembryonic Development | Pol. Arch. Hydrobiol.44(1/2): 261-272 | 1997 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muramoto,S. | Effect of Complexans (EDTA, NTA and DTPA) on the Exposure to high Concentrations of Cadmium, Copper, Zinc and Lead | Bull. Environ. Contam. Toxicol.25(6): 941-946 | 1980 | 2018/03/22 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | 4 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and I. Slominska | The Effect of Copper on Common Carp (Cyprinus carpio L.) During Embryonic and Postembryonic Development | Pol. Arch. Hydrobiol.44(1/2): 261-272 | 1997 | 2018/03/22 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | 0.24 | days | 64000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Turoboyski,L. | Attempt to Determine the Influence of high Doses of Some Chemical Compounds upon Carp Fry (Proba Okreslenia Wplywu Wysokich Dawek Niektorych Zwiazkow Chemicznych na Narybek Karpia) | Rocz. Nauk Roln.75B(3): 401-445 | 1960 | 2018/03/22 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | 2.8 | days | 5000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Marek,J., E. Szulkowska-Wojaczek, and Z. Czarna | The Effect of Copper (Cu2+) on Carp (Cyprinus carpio L.) Juveniles in a Laboratory Experiment | Pol. Arch. Hydrobiol.38(3-4): 485-494 | 1991 | 2018/03/22 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | 30 | days | 4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dhanapakiam,P., and V.K. Ramasamy | Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.) | J. Environ. Biol.22(2): 105-111 | 2001 | 2018/03/22 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | 10 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Marek,J., E. Szulkowska-Wojaczek, and Z. Czarna | The Effect of Copper (Cu2+) on Carp (Cyprinus carpio L.) Juveniles in a Laboratory Experiment | Pol. Arch. Hydrobiol.38(3-4): 485-494 | 1991 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 2 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.25 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 180 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar | Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio | J. Environ. Sci. Eng.53(3): 335-340 | 2011 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | 270 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 432 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 263 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 278 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1.5 | days | 730 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 1076 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | 490 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 550 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | 130 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.25 | days | >1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | 110 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 950 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.5 | days | 420 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 19 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hickie,B.E., N.J. Hutchinson, D.G. Dixon, and P.V. Hodson | Toxicity of Trace Metal Mixtures to Alevin Rainbow Trout (Oncorhynchus mykiss) and Larval Fathead Minnow (Pimephales promelas) in Soft, Acidic Water | Can. J. Fish. Aquat. Sci.50:1348-1355 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.75 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.75 | days | 330 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | <70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 230 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.38 | days | 330 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 170 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.25 | days | >360 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 190 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.5 | days | >360 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.13 | days | >360 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.25 | days | >360 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.75 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | <70 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Davies,P.H. | Water Pollution Studies. Investigations on the Toxicity of Metals to Fish | Federal Aid in Fish and Wildl.s Restoration, Job Progress Rep.No.F-33-R-15, Colorado Div.of Wildl., Ft.Collins, CO:38 p. | 1980 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | LOEC | 40 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 213 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shazili,N.A.M., and D. Pascoe | Variable Sensitivity of Rainbow Trout (Salmo gairdneri) Eggs and Alevins to Heavy Metals | Bull. Environ. Contam. Toxicol.36(3): 468-474 | 1986 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 8000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shazili,N.A.M., and D. Pascoe | Variable Sensitivity of Rainbow Trout (Salmo gairdneri) Eggs and Alevins to Heavy Metals | Bull. Environ. Contam. Toxicol.36(3): 468-474 | 1986 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shazili,N.A.M., and D. Pascoe | Variable Sensitivity of Rainbow Trout (Salmo gairdneri) Eggs and Alevins to Heavy Metals | Bull. Environ. Contam. Toxicol.36(3): 468-474 | 1986 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 2000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shazili,N.A.M., and D. Pascoe | Variable Sensitivity of Rainbow Trout (Salmo gairdneri) Eggs and Alevins to Heavy Metals | Bull. Environ. Contam. Toxicol.36(3): 468-474 | 1986 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 42 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 83 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 58 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 135 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mayer,F.L.,Jr., and M.R. Ellersieck | Manual of Acute Toxicity: Interpretation and Data Base for 410 Chemicals and 66 Species of Freshwater Animals | USDI Fish and Wildlife Service, Publication No.160, Washington, DC:505 p. | 1986 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mayer,F.L.,Jr., and M.R. Ellersieck | Manual of Acute Toxicity: Interpretation and Data Base for 410 Chemicals and 66 Species of Freshwater Animals | USDI Fish and Wildlife Service, Publication No.160, Washington, DC:505 p. | 1986 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 7 | days | 23 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Davies,P.H. | Water Pollution Studies. Investigations on the Toxicity of Metals to Fish | Federal Aid in Fish and Wildl.s Restoration, Job Progress Rep.No.F-33-R-15, Colorado Div.of Wildl., Ft.Collins, CO:38 p. | 1980 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 191 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 235 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Davies,P.H. | Water Pollution Studies. Investigations on the Toxicity of Metals to Fish | Federal Aid in Fish and Wildl.s Restoration, Job Progress Rep.No.F-33-R-15, Colorado Div.of Wildl., Ft.Collins, CO:38 p. | 1980 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | 191 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 510 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kazlauskiene,N., A. Burba, and G. Svecevicius | Acute Toxicity of Five Galvanic Heavy Metals to Hydrobionts | Ekologiia1:33-36 | 1994 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 1200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kazlauskiene,N., A. Burba, and G. Svecevicius | Acute Toxicity of Five Galvanic Heavy Metals to Hydrobionts | Ekologiia1:33-36 | 1994 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 1150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kazlauskiene,N., A. Burba, and G. Svecevicius | Acute Toxicity of Five Galvanic Heavy Metals to Hydrobionts | Ekologiia1:33-36 | 1994 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 430 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kazlauskiene,N., A. Burba, and G. Svecevicius | Acute Toxicity of Five Galvanic Heavy Metals to Hydrobionts | Ekologiia1:33-36 | 1994 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 930 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kazlauskiene,N., A. Burba, and G. Svecevicius | Acute Toxicity of Five Galvanic Heavy Metals to Hydrobionts | Ekologiia1:33-36 | 1994 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kazlauskiene,N., A. Burba, and G. Svecevicius | Acute Toxicity of Five Galvanic Heavy Metals to Hydrobionts | Ekologiia1:33-36 | 1994 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 111 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 143 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3 | days | 114 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 258 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 18 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hickie,B.E., N.J. Hutchinson, D.G. Dixon, and P.V. Hodson | Toxicity of Trace Metal Mixtures to Alevin Rainbow Trout (Oncorhynchus mykiss) and Larval Fathead Minnow (Pimephales promelas) in Soft, Acidic Water | Can. J. Fish. Aquat. Sci.50:1348-1355 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Davies,P.H. | Water Pollution Studies. Investigations on the Toxicity of Metals to Fish | Federal Aid in Fish and Wildl.s Restoration, Job Progress Rep.No.F-33-R-15, Colorado Div.of Wildl., Ft.Collins, CO:38 p. | 1980 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 22.35 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 32 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.5 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 2 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 2 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.33 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.88 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.88 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.17 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.33 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.5 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 29.76 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.5 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 43.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 16.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 28 | days | 26.66 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 27.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 29.98 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 21 | days | 28.98 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 14 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 12 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEL | 40 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEL | 56 | days | 721 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Shifts in a Fish's Resource Holding Power During a Contact Paired Interaction: The Influence of a Copper-Contaminated Diet in Rainbow Trout | Physiol. Biochem. Zool.78(5): 706-714 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEL | 44 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 43.55 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 2 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.5 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.25 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.17 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.17 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.88 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.33 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.5 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEL | 28 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.88 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.17 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.88 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.33 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.5 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.17 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 2 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.5 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.5 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.5 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 14.97 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vardy,D.W., J. Oellers, J.A. Doering, H. Hollert, J.P. Giesy, and M. Hecker | Sensitivity of Early Life Stages of White Sturgeon, Rainbow Trout, and Fathead Minnow to Copper | Ecotoxicology22(1): 139-147 | 2013 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 9.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vardy,D.W., J. Oellers, J.A. Doering, H. Hollert, J.P. Giesy, and M. Hecker | Sensitivity of Early Life Stages of White Sturgeon, Rainbow Trout, and Fathead Minnow to Copper | Ecotoxicology22(1): 139-147 | 2013 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 8.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vardy,D.W., J. Oellers, J.A. Doering, H. Hollert, J.P. Giesy, and M. Hecker | Sensitivity of Early Life Stages of White Sturgeon, Rainbow Trout, and Fathead Minnow to Copper | Ecotoxicology22(1): 139-147 | 2013 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 7.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vardy,D.W., J. Oellers, J.A. Doering, H. Hollert, J.P. Giesy, and M. Hecker | Sensitivity of Early Life Stages of White Sturgeon, Rainbow Trout, and Fathead Minnow to Copper | Ecotoxicology22(1): 139-147 | 2013 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 56 | days | 721 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campbell,H.A., R.D. Handy, and D.W. Sims | Shifts in a Fish's Resource Holding Power During a Contact Paired Interaction: The Influence of a Copper-Contaminated Diet in Rainbow Trout | Physiol. Biochem. Zool.78(5): 706-714 | 2005 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 21.75 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 28 | days | 1041.9 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 9 | days | 0.47 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hollis,L., L. Muench, and R.C. Playle | Influence of Dissolved Organic Matter on Copper Binding, and Calcium on Cadmium Binding, by Gills of Rainbow Trout | J. Fish Biol.50:703-720 | 1997 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 29 | days | 108 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 29 | days | 111 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 29 | days | 111 | g/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160 | 2002 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEL | 32 | days | 130 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 21.85 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 30 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gagnon,A., C. Jumarie, and A. Hontela | Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.78(1): 59-65 | 2006 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 7 | days | <=1610 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,J.L., V.F. Bruns, C.C. Coutant, and B.L. Carlile | Behavior and Reactions of Copper Sulfate in an Irrigation Canal | Pestic. Monit. J.3(3): 186-189 | 1969 | 2018/03/22 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 1 | days | 640 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nor,Y.M. | Effects of Organic Ligands on Toxicity of Copper and Zinc to Carassius auratus | Chem. Spec. Bioavail.3(3): 111-115 | 1990 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 7 | days | 5200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J. | Aquatic Toxicology of Trace Elements of Coal and Fly Ash | In: J.H.Thorp and J.W.Gibbons (Eds.), Dep.Energy Symp.Ser., Energy and Environmental Stress in Aquatic Systems, Augusta, GA48:219-240 | 1978 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 1 | days | <1500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Smith,M.J., and A.G. Heath | Acute Toxicity of Copper, Chromate, Zinc, and Cyanide to Freshwater Fish: Effect of Different Temperatures | Bull. Environ. Contam. Toxicol.22(1-2): 113-119 | 1979 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 1 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nor,Y.M. | Effects of Organic Ligands on Toxicity of Copper and Zinc to Carassius auratus | Chem. Spec. Bioavail.3(3): 111-115 | 1990 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 2 | days | 350 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nor,Y.M. | Effects of Organic Ligands on Toxicity of Copper and Zinc to Carassius auratus | Chem. Spec. Bioavail.3(3): 111-115 | 1990 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 2 | days | 460 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nor,Y.M. | Effects of Organic Ligands on Toxicity of Copper and Zinc to Carassius auratus | Chem. Spec. Bioavail.3(3): 111-115 | 1990 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 4 | days | 240 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nor,Y.M. | Effects of Organic Ligands on Toxicity of Copper and Zinc to Carassius auratus | Chem. Spec. Bioavail.3(3): 111-115 | 1990 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 3 | days | 330 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nor,Y.M. | Effects of Organic Ligands on Toxicity of Copper and Zinc to Carassius auratus | Chem. Spec. Bioavail.3(3): 111-115 | 1990 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 3 | days | 190 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nor,Y.M. | Effects of Organic Ligands on Toxicity of Copper and Zinc to Carassius auratus | Chem. Spec. Bioavail.3(3): 111-115 | 1990 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 2 | days | 355 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ling,K.H., Y.M. Sin, and T.J. Lam | Effect of Copper Sulphate on Ichthyophthiriasis (White Spot Disease) in Goldfish (Carassius auratus) | Aquaculture118(1-2): 23-35 | 1993 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 6 | days | 276 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ling,K.H., Y.M. Sin, and T.J. Lam | Effect of Copper Sulphate on Ichthyophthiriasis (White Spot Disease) in Goldfish (Carassius auratus) | Aquaculture118(1-2): 23-35 | 1993 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., R. MacPhail, D. Mahar, and B. Grimmelt | Evaluation of Antioxidant Circulatory Lipid-Soluble Vitamins and Sodium as Non-Invasive Indicators of Chronic Copper Exposure and Toxicity in Rainbow Trout, Oncorhynchus mykiss | Bull. Environ. Contam. Toxicol.80(6): 502-506 | 2008 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 1 | days | 424 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N. | Physiological Indicators of Waterborne Copper Toxicity in Freshwater Fish | Ph.D.Thesis, McMaster Univ., Hamilton, Ontario:224 p. | 2002 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.17 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEL | 63 | days | 990 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Julshamn,K., K.J. Andersen, O. Ringdal, and J. Brenna | Effect of Dietary Copper on the Hepatic Concentration and Subcellular Distribution of Copper and Zinc in the Rainbow Trout (Salmo gairdneri) | Aquaculture73:143-155 | 1988 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEL | 14 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 263 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 37.9 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 155 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vardy,D.W., J. Oellers, J.A. Doering, H. Hollert, J.P. Giesy, and M. Hecker | Sensitivity of Early Life Stages of White Sturgeon, Rainbow Trout, and Fathead Minnow to Copper | Ecotoxicology22(1): 139-147 | 2013 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 196 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 84.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 402 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Davies,P.H. | Water Pollution Studies. Investigations on the Toxicity of Metals to Fish | Federal Aid in Fish and Wildl.s Restoration, Job Progress Rep.No.F-33-R-15, Colorado Div.of Wildl., Ft.Collins, CO:38 p. | 1980 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 2 | days | 290 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Davies,P.H. | Water Pollution Studies. Investigations on the Toxicity of Metals to Fish | Federal Aid in Fish and Wildl.s Restoration, Job Progress Rep.No.F-33-R-15, Colorado Div.of Wildl., Ft.Collins, CO:38 p. | 1980 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 193 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 160.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Little,E.E., and R.D. Calfee | Toxicity of Chlorine and Copper to Rainbow Trout and to White Sturgeon from the Kootenai River and Columbia River | Report by the U.S. Geological Survey, Columbia MO, for the U.S.. Fish and Wildlife Service, Spokane WA:24 p. | 2008 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 6 | days | 193 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dixon,D.G., and J.W. Hilton | Influence of Available Dietary Carbohydrate Content on Tolerance of Waterborne Copper by Rainbow Trout, Salmo gairdneri Richardson | J. Fish Biol.19(5): 509-517 | 1981 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 201 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 6 | days | 198 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dixon,D.G., and J.W. Hilton | Influence of Available Dietary Carbohydrate Content on Tolerance of Waterborne Copper by Rainbow Trout, Salmo gairdneri Richardson | J. Fish Biol.19(5): 509-517 | 1981 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 240 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 7 | days | <=38 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,J.L., V.F. Bruns, C.C. Coutant, and B.L. Carlile | Behavior and Reactions of Copper Sulfate in an Irrigation Canal | Pestic. Monit. J.3(3): 186-189 | 1969 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 7 | days | <=231 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,J.L., V.F. Bruns, C.C. Coutant, and B.L. Carlile | Behavior and Reactions of Copper Sulfate in an Irrigation Canal | Pestic. Monit. J.3(3): 186-189 | 1969 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vosyliene,M.Z. | Haematological Parameters of Rainbow Trout (Oncorhynchus mykiss) During Short-Term Exposure to Copper | Ekologija3:12-18 | 1996 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 12 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 27 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 27 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 420 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Svecevicius,G., and M.Z. Vosyliene | Acute Toxicity of Copper to Common Freshwater Fishes of Lithuania | Ekologija2:17-21 | 1996 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 1 | days | 1.65 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Heerden,D., A. Vosloo, and M. Nikinmaa | Effects of Short-Term Copper Exposure on Gill Structure, Metallothionein and Hypoxia-Inducible Factor-1alpha (HIF-1alpha) Levels in Rainbow Trout (Oncorhynchus mykiss) | Aquat. Toxicol.69(3): 271-280 | 2004 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 63 | days | 603 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Julshamn,K., K.J. Andersen, O. Ringdal, and J. Brenna | Effect of Dietary Copper on the Hepatic Concentration and Subcellular Distribution of Copper and Zinc in the Rainbow Trout (Salmo gairdneri) | Aquaculture73:143-155 | 1988 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 21 | days | 13.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dethloff,G.M., D. Schlenk, J.T. Hamm, and H.C. Bailey | Alterations in Physiological Parameters of Rainbow Trout (Oncorhynchus mykiss) with Exposure to Copper and Copper/Zinc Mixtures | Ecotoxicol. Environ. Saf.42(3): 253-264 | 1999 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEL | 49 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 54 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.8 | days | 0.97 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1 | days | 0.89 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1 | days | 0.89 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 4 | days | 0.93 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.63 | days | 0.89 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.8 | days | 1.02 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1 | days | 1 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 4 | days | 0.96 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.1 | days | 0.97 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2.3 | days | 1.01 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 4 | days | 0.98 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.3 | days | 1.19 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1 | days | 1.13 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 4 | days | 0.97 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 4 | days | 0.87 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.29 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Handy,R.D. | The Assessment of Episodic Metal Pollution. I. Uses and Limitations of Tissue Contaminant Analysis in Rainbow Trout (Oncorhynchus mykiss) After Short Waterborne Exposure to Cadmium or Copper | Arch. Environ. Contam. Toxicol.22:74-81 | 1992 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.92 | days | 2000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gundogdu,A. | Acute Toxicity of Zinc and Copper for Rainbow Trout (Onchorhyncus mykiss) | J. Fish. Sci.2(5): 711-721 | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2.7 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gundogdu,A. | Acute Toxicity of Zinc and Copper for Rainbow Trout (Onchorhyncus mykiss) | J. Fish. Sci.2(5): 711-721 | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.2 | hours | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,T.L. | A Fast Indicator for Detecting Gross Pollution by Hazardous Chemicals | N. Z. J. Mar. Freshw. Res.13(3): 393-394 | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.35 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,T.L. | A Fast Indicator for Detecting Gross Pollution by Hazardous Chemicals | N. Z. J. Mar. Freshw. Res.13(3): 393-394 | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1 | hours | 2000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,T.L. | A Fast Indicator for Detecting Gross Pollution by Hazardous Chemicals | N. Z. J. Mar. Freshw. Res.13(3): 393-394 | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.33 | days | 2000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Brown,V.M., T.L. Shaw, and D.G. Shurben | Aspects of Water Quality and the Toxicity of Copper to Rainbow Trout | Water Res.8(10): 797-803 | 1974 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alexander,D.G., and R.M.V. Clarke | The Selection and Limitations of Phenol as a Reference Toxicant to Detect Differences in Sensitivity Among Groups of Rainbow Trout (Salmo gairdneri) | Water Res.12(12): 1085-1090 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.73 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alexander,D.G., and R.M.V. Clarke | The Selection and Limitations of Phenol as a Reference Toxicant to Detect Differences in Sensitivity Among Groups of Rainbow Trout (Salmo gairdneri) | Water Res.12(12): 1085-1090 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.78 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alexander,D.G., and R.M.V. Clarke | The Selection and Limitations of Phenol as a Reference Toxicant to Detect Differences in Sensitivity Among Groups of Rainbow Trout (Salmo gairdneri) | Water Res.12(12): 1085-1090 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.98 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alexander,D.G., and R.M.V. Clarke | The Selection and Limitations of Phenol as a Reference Toxicant to Detect Differences in Sensitivity Among Groups of Rainbow Trout (Salmo gairdneri) | Water Res.12(12): 1085-1090 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.46 | days | 0.87 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEL | 40 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 5450 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Karan,V., S. Vitorovic, V. Tutundzic, and V. Poleksic | Functional Enzymes Activity and Gill Histology of Carp After Copper Sulfate Exposure and Recovery | Ecotoxicol. Environ. Saf.40(1-2): 49-55 | 1998 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | LOEC | 4 | days | 130 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | LOEC | 65 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 58 | days | 22.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 21 | days | 60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 59.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 20.05 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | LOEC | 5 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Waiwood,K.G., and F.W.H. Beamish | Effects of Copper, pH and Hardness on the Critical Swimming Performance of Rainbow Trout (Salmo gairdneri Richardson) | Water Res.12(8): 611-619 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | LOEC | 5 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Waiwood,K.G., and F.W.H. Beamish | Effects of Copper, pH and Hardness on the Critical Swimming Performance of Rainbow Trout (Salmo gairdneri Richardson) | Water Res.12(8): 611-619 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 52 | days | 56.53 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 21 | days | 60.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 88.5 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.3 | days | 0.99 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 44.15 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.2 | days | 0.94 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEL | 44 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEL | 32 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEL | 49 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEL | 4 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEL | 14 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | LOEL | 1 | hours | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and P. Sarnowski | The Effect of Mercury, Copper and Cadmium During Single and Combined Exposure on Oxygen Consumption of Oncorhynchus mykiss Wal. and Cyprinus carpio L. Larvae | Arch. Pol. Fish. 10(1): 15-22 | 2002 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | LOEL | 1.4 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pyle,G., and C. Wood | Radiotracer Studies on Waterborne Copper Uptake, Distribution, and Toxicity in Rainbow Trout and Yellow Perch: A Comparative Analysis | Hum. Ecol. Risk Assess.14:243-265 | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEL | 65 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | LOEL | 1.4 | days | 231.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pyle,G., and C. Wood | Radiotracer Studies on Waterborne Copper Uptake, Distribution, and Toxicity in Rainbow Trout and Yellow Perch: A Comparative Analysis | Hum. Ecol. Risk Assess.14:243-265 | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | LOEL | 100 | days | 75.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood | Effects of Chronic Sublethal Exposure to Waterborne Cu, Cd or Zn in Rainbow Trout 1: Iono-Regulatory Disturbance and Metabolic Costs | Aquat. Toxicol.50(3): 231-243 | 2000 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | LOEL | 4 | days | 52.34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Niyogi,S., C.N. Kamunde, and C.M. Wood | Food Selection, Growth and Physiology in Relation to Dietary Sodium Chloride Content in Rainbow Trout (Oncorhynchus mykiss) Under Chronic Waterborne Cu Exposure | Aquat. Toxicol.77(2): 210-221 | 2006 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 7 | days | 44 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Mixtures of Zinc and Copper Sulphates to Rainbow Trout (Salmo gairdnerii Richardson) | Ann. Appl. Biol.49:535-538 | 1961 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 61.28 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 42 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 4 | days | 0.9 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 21 | days | 42 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 42 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 20.05 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 52 | days | 40 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 21 | days | 42 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 62 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 43 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 31 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 62 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 23 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.5 | days | 0.9 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 41 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gundogdu,A. | Acute Toxicity of Zinc and Copper for Rainbow Trout (Onchorhyncus mykiss) | J. Fish. Sci.2(5): 711-721 | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 28 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | 4 | days | 90 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | 40 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | 65 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 30 | days | 16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 58 | days | 11.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 40 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 4 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 65 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 58 | days | 11.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 28 | days | 27 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 4 | days | 87.65 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 28 | days | 38 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.45 | days | 1920 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 3 | days | 1100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Mixtures of Zinc and Copper Sulphates to Rainbow Trout (Salmo gairdnerii Richardson) | Ann. Appl. Biol.49:535-538 | 1961 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.25 | days | 4780 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., and J.F. Klaverkamp | The Acute Toxicity of Vanadium and Copper to Eyed Eggs of Rainbow Trout (Salmo gairdneri) | Water Res.16(6): 885-889 | 1982 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.9 | days | 424 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Taylor,L.N. | Physiological Indicators of Waterborne Copper Toxicity in Freshwater Fish | Ph.D.Thesis, McMaster Univ., Hamilton, Ontario:224 p. | 2002 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.84 | days | 394 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.57 | days | 693 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.84 | days | 545 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.89 | days | 293 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.4 | days | 238 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.42 | days | 1090 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.52 | days | 1410 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.61 | days | 1870 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.89 | days | 350 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 3 | days | 1.02 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.42 | days | 830 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 4 | days | 1.25 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Schwartz,M.L., P.J. Curtis, and R.C. Playle | Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss) | Environ. Toxicol. Chem.23(12): 2889-2899 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.45 | days | 520 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.5 | days | 380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.69 | days | 660 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.54 | days | 1120 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.2 | days | 420 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.6 | days | 440 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.1 | days | 1440 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 4 | days | 238 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.6 | days | 380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1 | days | 220 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 5 | hours | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gundogdu,A. | Acute Toxicity of Zinc and Copper for Rainbow Trout (Onchorhyncus mykiss) | J. Fish. Sci.2(5): 711-721 | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,T., P.K. Knudsen, C.J. Brauner, M. Busk, M.M. Vijayan, and F.B. Jensen | Copper Exposure Impairs Intra- and Extracellular Acid-Base Regulation During Hypercapnia in the Fresh Water Rainbow Trout (Oncorhynchus mykiss) | J. Comp. Physiol., B Biochem. Syst. Environ. Physiol.168(8): 591-599 | 1998 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.54 | days | 1490 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 14 | days | 8.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 1600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | <650 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1090 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | >810 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 560 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 16000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 660 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 690 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 44.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.67 | days | 498 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 20.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 3600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 116.41 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 46.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 80.81 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/22 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 1 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsuji,S., Y. Tonogai, Y. Ito, and S. Kanoh | The Influence of Rearing Temperatures on the Toxicity of Various Environmental Pollutants for Killifish (Oryzias latipes) | Jpn. J. Toxicol. Environ. Health32(1): 46-53 | 1986 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 7.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., J.R. Tomasso, and S.J. Klaine | Influence of Copper Exposure on Whole-Body Sodium Levels in Larval Fathead Minnows (Pimephales promelas) | Environ. Toxicol. Chem.27(6): 1442-1449 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 24.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., J.R. Tomasso, and S.J. Klaine | Influence of Copper Exposure on Whole-Body Sodium Levels in Larval Fathead Minnows (Pimephales promelas) | Environ. Toxicol. Chem.27(6): 1442-1449 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 21.4 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., J.R. Tomasso, and S.J. Klaine | Influence of Copper Exposure on Whole-Body Sodium Levels in Larval Fathead Minnows (Pimephales promelas) | Environ. Toxicol. Chem.27(6): 1442-1449 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 13.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., J.R. Tomasso, and S.J. Klaine | Influence of Copper Exposure on Whole-Body Sodium Levels in Larval Fathead Minnows (Pimephales promelas) | Environ. Toxicol. Chem.27(6): 1442-1449 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 7.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., J.R. Tomasso, and S.J. Klaine | Influence of Copper Exposure on Whole-Body Sodium Levels in Larval Fathead Minnows (Pimephales promelas) | Environ. Toxicol. Chem.27(6): 1442-1449 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 12.8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., J.R. Tomasso, and S.J. Klaine | Influence of Copper Exposure on Whole-Body Sodium Levels in Larval Fathead Minnows (Pimephales promelas) | Environ. Toxicol. Chem.27(6): 1442-1449 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 15.3 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., J.R. Tomasso, and S.J. Klaine | Influence of Copper Exposure on Whole-Body Sodium Levels in Larval Fathead Minnows (Pimephales promelas) | Environ. Toxicol. Chem.27(6): 1442-1449 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 10.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 460 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 4 | days | 36 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 900 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 440 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 16000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 940 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 1000 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 920 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 720 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 800 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | <560 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 800 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 430 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 9600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | >800 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 3700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 490 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 1600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | >800 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 580 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 11000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 830 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | <560 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 460 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 1090 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 13000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 96 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 9100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 322 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 30.2 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., J.R. Tomasso, and S.J. Klaine | Influence of Copper Exposure on Whole-Body Sodium Levels in Larval Fathead Minnows (Pimephales promelas) | Environ. Toxicol. Chem.27(6): 1442-1449 | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEL | 4 | days | 500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | NOEC | 9 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | NOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | NOEC | 3 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | 1 | days | 750 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nor,Y.M. | Effects of Organic Ligands on Toxicity of Copper and Zinc to Carassius auratus | Chem. Spec. Bioavail.3(3): 111-115 | 1990 | 2018/03/22 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 20 | days | 430 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lemke,A.E. | Toxicity of Copper, Cadmium, and Zinc to the Bluegill (Lepomis macrochirus) | Robert A.Taft Sanitary Engineering Center, U. S. Department of Health, Education and Welfare, Cincinnati, OH:19 p. | 1965 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | >470 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lemke,A.E. | Toxicity of Copper, Cadmium, and Zinc to the Bluegill (Lepomis macrochirus) | Robert A.Taft Sanitary Engineering Center, U. S. Department of Health, Education and Welfare, Cincinnati, OH:19 p. | 1965 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.67 | days | 422 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.33 | days | >520 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1.7 | days | 362 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEL | 28 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 322 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEL | 65 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stasiunaite,P. | Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss) | Acta Zool. Litu.15(3): 259-265 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 3 | days | 322 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.33 | days | 634 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 416 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1.3 | days | 433 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 1.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Verma,S.R., I.P. Tonk, and R.C. Dalela | Determination of the Maximum Acceptable Toxicant Concentration (MATC) and the Safe Concentration for Certain Aquatic Pollutants | Acta Hydrochim. Hydrobiol.9(3): 247-254 | 1981 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.61 | days | 3800 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 1400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Das,B.K., and N. Das | Impacts of Quicklime (CaO) on the Toxicity of Copper (CuSO4, 5H2O) to Fish and Fish Food Organisms | Chemosphere61(2): 186-191 | 2005 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 2.9 | hours | 26500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 160 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Daoust,P.Y. | Acute Pathological Effects of Mercury, Cadmium and Copper in Rainbow Trout | Ph.D.Thesis, Saskatoon, Saskatchewan:331 p. | 1981 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28 | days | 110 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Black,J.A., and W.J. Birge | An Avoidance Response Bioassay for Aquatic Pollutants | Res.Report No.123, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:34- | 1980 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28 | days | 90 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J. | Aquatic Toxicology of Trace Elements of Coal and Fly Ash | In: J.H.Thorp and J.W.Gibbons (Eds.), Dep.Energy Symp.Ser., Energy and Environmental Stress in Aquatic Systems, Augusta, GA48:219-240 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 36 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Buhl,K.J., and S.J. Hamilton | Comparative Toxicity of Inorganic Contaminants Released by Placer Mining to Early Life Stages of Salmonids | Ecotoxicol. Environ. Saf.20(3): 325-342 | 1990 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 327 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LOEC | 3 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 5 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hossain,M.A., M. Shariff, A.T. Law, and I. Patimah | Median Lethal Concentration of Copper to Goldfish Carassius auratus Linnaeus | Pak. J. Sci. Ind. Res.38(5-6): 196-199 | 1995 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 9 | days | 88 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | <50 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., A.C. Ryan, J.R. Tomasso, and S.J. Klaine | Evaluation of Acute Copper Toxicity to Larval Fathead Minnows (Pimephales promelas) in Soft Surface Waters | Environ. Toxicol. Chem.24(2): 408-414 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | <150 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., A.C. Ryan, J.R. Tomasso, and S.J. Klaine | Evaluation of Acute Copper Toxicity to Larval Fathead Minnows (Pimephales promelas) in Soft Surface Waters | Environ. Toxicol. Chem.24(2): 408-414 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | <100 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., A.C. Ryan, J.R. Tomasso, and S.J. Klaine | Evaluation of Acute Copper Toxicity to Larval Fathead Minnows (Pimephales promelas) in Soft Surface Waters | Environ. Toxicol. Chem.24(2): 408-414 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | <50 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Genderen,E.J., A.C. Ryan, J.R. Tomasso, and S.J. Klaine | Evaluation of Acute Copper Toxicity to Larval Fathead Minnows (Pimephales promelas) in Soft Surface Waters | Environ. Toxicol. Chem.24(2): 408-414 | 2005 | 2018/03/22 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | LOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 4 | days | 300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and J.A. McKee | The Toxicity to Goldfish of Mixtures of Chloramines, LAS and Copper | Tech.Rep.No.44, Water Resour.Res.Ctr., Univ.of Maryland, College Park, MD:31 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 1 | days | 1147 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and J.A. McKee | The Toxicity to Goldfish of Mixtures of Chloramines, LAS and Copper | Tech.Rep.No.44, Water Resour.Res.Ctr., Univ.of Maryland, College Park, MD:31 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 3 | days | 303 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and J.A. McKee | The Toxicity to Goldfish of Mixtures of Chloramines, LAS and Copper | Tech.Rep.No.44, Water Resour.Res.Ctr., Univ.of Maryland, College Park, MD:31 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LOEC | 9 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEL | 0.04 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and P. Sarnowski | The Effect of Mercury, Copper and Cadmium During Single and Combined Exposure on Oxygen Consumption of Oncorhynchus mykiss Wal. and Cyprinus carpio L. Larvae | Arch. Pol. Fish. 10(1): 15-22 | 2002 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LOEC | 8 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 7 | days | 88 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LOEC | 7 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LOEC | 5 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LOEC | 6 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 3 | days | 1380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC50 | 4 | days | 185.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC50 | 4 | days | 256.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC50 | 4 | days | 262.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC50 | 1 | days | 215.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC50 | 4 | days | 214.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC50 | 1 | days | 297.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 1 | days | 110 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., A. Sehgal, and M.K. Bhasin | "Man and Biosphere" - Studies on the Sikkim Himalayas. Part 2: Acute Toxicity of Mixed Copper-Zinc Solutions on Common Carp, Cyprinus carpio (Linn.) | Acta Hydrochim. Hydrobiol.12(2): 131-135 | 1984 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LOEC | 10 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 176 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 7 | days | 25 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 1 | days | 430 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar | Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio | J. Environ. Sci. Eng.53(3): 335-340 | 2011 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 40 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 30 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Physiological | NOEC | 0.21 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NOEC | 3.9 | days | 6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bai,W., W. Tian, Z. Zhang, X. He, Y. Ma, N. Liu, and Z. Chai | Effects of Copper Nanoparticles on the Development of Zebrafish Embryos | J. Nanosci. Nanotechnol.10(12): 8670-8676 | 2010 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | NOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LT50 | 2.5 | hours | 4000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ellis,M.M. | Detection and Measurement of Stream Pollution | In: Bull.Bur.Fish.No.22, U.S.Dep.Commerce, Washington, DC:365-437 | 1937 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 298 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LOEC | 4 | days | 700 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kong,X., H. Jiang, S. Wang, X. Wu, W. Fei, L. Li, G. Nie, and X. Li | Effects of Copper Exposure on the Hatching Status and Antioxidant Defense at Different Developmental Stages of Embryos and Larvae of Goldfish Carassius auratus | Chemosphere92(11): 1458-1464 | 2013 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 516 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28 | days | 56 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll | Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc | Environ. Toxicol. Chem.26(8): 1657-1665 | 2007 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 30.7 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 70 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | <580 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | >780 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 650 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 3300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | >830 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 5 | days | 110 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 1 | days | 94 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and C. Henderson | The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes | Proc. Ind. Waste Conf.10:453-463 | 1966 | 2018/03/22 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | NOEC | 7 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 2.8 | hours | 26500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 3 | days | 301 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ling,K.H., Y.M. Sin, and T.J. Lam | Effect of Copper Sulphate on Ichthyophthiriasis (White Spot Disease) in Goldfish (Carassius auratus) | Aquaculture118(1-2): 23-35 | 1993 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 3 | days | 300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and J.A. McKee | Acute Toxicity to Goldfish of Mixtures of Chloramines, Copper, and Linear Alkylate Sulfonate | Trans. Am. Fish. Soc.109(1): 132-141 | 1980 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 1 | days | 1150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and J.A. McKee | Acute Toxicity to Goldfish of Mixtures of Chloramines, Copper, and Linear Alkylate Sulfonate | Trans. Am. Fish. Soc.109(1): 132-141 | 1980 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 2 | days | 610 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and J.A. McKee | Acute Toxicity to Goldfish of Mixtures of Chloramines, Copper, and Linear Alkylate Sulfonate | Trans. Am. Fish. Soc.109(1): 132-141 | 1980 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 4 | days | 300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and J.A. McKee | Acute Toxicity to Goldfish of Mixtures of Chloramines, Copper, and Linear Alkylate Sulfonate | Trans. Am. Fish. Soc.109(1): 132-141 | 1980 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 650 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 950 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | >800 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 950 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 950 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.3 | days | 2450 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 3 | days | 350 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar | Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio | J. Environ. Sci. Eng.53(3): 335-340 | 2011 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.27 | days | 6500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 7 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 7 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 7 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | LOEC | 2 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | 29.9 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 4 | days | <20.05 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 21 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 7 | days | 41.06 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., and R. MacPhail | Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure | Arch. Environ. Contam. Toxicol.54(3): 493-503 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | >810 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 4300 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.88 | days | 1380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 4 | days | 10 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,B.M., M.M. Chao, O.R. Tedrow, A.D. McQueen, and J.H.,Jr. Rodgers | Responses of Lepomis macrochirus, Pimephales promelas, Hyalella azteca, Ceriodaphnia dubia, and Daphnia magna to Exposures of Algimycin PWF and Copper Sulfate Pentahydrate | J. Aquat. Plant Manag.46:176-183 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 560 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 4400 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 14000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 920 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 3000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 750 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 420 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 670 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 1.3 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 120 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | >=840 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 9 | days | 86 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 17000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LOEC | 4 | days | 363 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,B.M., M.M. Chao, O.R. Tedrow, A.D. McQueen, and J.H.,Jr. Rodgers | Responses of Lepomis macrochirus, Pimephales promelas, Hyalella azteca, Ceriodaphnia dubia, and Daphnia magna to Exposures of Algimycin PWF and Copper Sulfate Pentahydrate | J. Aquat. Plant Manag.46:176-183 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | LOEC | 3 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | LOEC | 8 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 2.7 | hours | 26500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.83 | days | 2450 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.63 | days | 2450 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.2 | days | 3800 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 1 | days | 850 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rao,T.S., M.S. Rao, and S.B.S.K. Prasad | Median Tolerance Limits of Some Chemicals to the Fresh Water Fish "Cyprinus carpio" | Indian J. Environ. Health17(2): 140-146 | 1975 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | IC10 | 58 | days | 17 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | IC10 | 58 | days | 22 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 4 | days | 47 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 0.24 | days | 6500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 8 | days | 95 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Skidmore,J.F., and I.C. Firth | Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc | Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p. | 1983 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 182 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 30 | days | 42 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 30 | days | 28 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 30 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 30 | days | 31 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.52 | days | 490 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 30 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 85.9 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 63 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT50 | 0.24 | days | 4960 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Richey,D., and D. Roseboom | Acute Toxicity of Copper to Some Fishes in high Alkalinity Water | Circular 131, Dep.Registration & Education, State of IL:24 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | NOEC | 16 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 4 | days | 125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Murray-Gulde,C.L., J.E. Heatley, A.L. Schwartzman, and J.H.,Jr. Rodgers | Algicidal Effectiveness of Clearigate, Cutrine-Plus, and Copper Sulfate and Margins of Safety Associated with Their Use | Arch. Environ. Contam. Toxicol.43(1): 19-27 | 2002 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 2900 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 137 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 4 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hossain,M.A., M. Shariff, A.T. Law, and I. Patimah | Median Lethal Concentration of Copper to Goldfish Carassius auratus Linnaeus | Pak. J. Sci. Ind. Res.38(5-6): 196-199 | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 155 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 81.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Howarth,R.S., and J.B. Sprague | Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH | Water Res.12(7): 455-462 | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 14 | days | 1.0419 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C.N., M. Grosell, J.N.A. Lott, and C.M. Wood | Copper Metabolism and Gut Morphology in Rainbow Trout (Oncorhynchus mykiss) During Chronic Sublethal Dietary Copper Exposure | Can. J. Fish. Aquat. Sci.58(2): 293-305 | 2001 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.38 | days | 860 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.52 | days | 650 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.88 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | NOEC | 3 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | NOEC | 2 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | NOEC | 0.5 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 14 | days | 15.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers | Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms | Arch. Environ. Contam. Toxicol.30(1): 40-46 | 1996 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 760 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan | Validity of Laboratory Tests for Predicting Copper Toxicity in Streams | EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p. | 1976 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Physiological | NOEC | 0.25 | days | 14.6 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Adeyemi,J.A., L.E. Deaton, T.C. Pesacreta, and P.L. Klerks | Effects of Copper on Osmoregulation in Sheepshead Minnow, Cyprinodon variegatus Acclimated to Different Salinities | Aquat. Toxicol.109:111-117 | 2012 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NOEC | 0.83 | days | 20 | μM | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tilton,F., J.K. La Du, M. Vue, N. Alzarban, and R.L. Tanguay | Dithiocarbamates have a Common Toxic Effect on Zebrafish Body Axis Formation | Toxicol. Appl. Pharmacol.216(1): 55-68 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 30 | days | 19 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 30 | days | 23 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 30 | days | 17 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 11.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Little,E.E., and R.D. Calfee | Toxicity of Chlorine and Copper to Rainbow Trout and to White Sturgeon from the Kootenai River and Columbia River | Report by the U.S. Geological Survey, Columbia MO, for the U.S.. Fish and Wildlife Service, Spokane WA:24 p. | 2008 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 14.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Little,E.E., and R.D. Calfee | Toxicity of Chlorine and Copper to Rainbow Trout and to White Sturgeon from the Kootenai River and Columbia River | Report by the U.S. Geological Survey, Columbia MO, for the U.S.. Fish and Wildlife Service, Spokane WA:24 p. | 2008 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 1 | days | 49.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Klima,K.E., and F.M. Applehans | Copper Exposure and the Degeneration of Olfactory Receptors in Rainbow Trout (Oncorhynchus mykiss) | Chem. Spec. Bioavail.2(4): 149-154 | 1990 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Physiological | NOEL | 1.2 | days | 53.13 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,A., E. Carew, and K.A. Sloman | The Effects of Copper on the Morphological and Functional Development of Zebrafish Embryos | Aquat. Toxicol.84(4): 431-438 | 2007 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 6 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gauthier,C., P. Couture, and G.G. Pyle | Metal Effects on Fathead Minnows (Pimephales promelas) Under Field and Laboratory Conditions | Ecotoxicol. Environ. Saf.63(3): 353-364 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 7 | days | 1.78 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J., M. Bowersox, H. Latimer, C. Barbour, J. Bearr, and J. Butcher | Effects of Pulsed Contaminant Exposures on Early Life Stages of the Fathead Minnow | Arch. Environ. Contam. Toxicol.49(4): 511-519 | 2005 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | NOEL | 4 | days | 100000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Pesticide Ecotoxicity Database (Formerly: Environmental Effects Database (EEDB)) | Environmental Fate and Effects Division, U.S.EPA, Washington, D.C.: | 1992 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Immunity | LOEC | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NOEL | 3 | days | 53.13 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,A., E. Carew, and K.A. Sloman | The Effects of Copper on the Morphological and Functional Development of Zebrafish Embryos | Aquat. Toxicol.84(4): 431-438 | 2007 | 2018/03/22 | |||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 7 | days | 5200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Birge,W.J., and J.A. Black | Effects of Copper on Embryonic and Juvenile Stages of Aquatic Animals | In: J.O.Nriagu (Ed.), Copper in the Environment, J.Wiley and Sons, NY:373-399 | 1979 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Immunity | LOEC | 8 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Immunity | LOEC | 8 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 0.29 | days | 525 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 16 | days | 127 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tate-Boldt,E.K., and A.S. Kolok | Copper Acclimation in Juvenile Fathead Minnows: Is a Cycle of Branchial Damage and Repair Necessary? | Aquat. Toxicol.87(1): 13-18 | 2008 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1.7 | days | 429 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 4 | days | 23 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vardy,D.W., J. Oellers, J.A. Doering, H. Hollert, J.P. Giesy, and M. Hecker | Sensitivity of Early Life Stages of White Sturgeon, Rainbow Trout, and Fathead Minnow to Copper | Ecotoxicology22(1): 139-147 | 2013 | 2018/03/22 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 1.5 | hours | 26500 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 2 | hours | 778 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 430 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker | Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals | Va.Water Resour.Res.Center, Bull.106, Office of Water Res.and Technol., OWRT Project B-084-VA, VA.Polytech.Inst.State Univ., Blacksburg, VA:88 p. | 1978 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 14 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 49 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 30 | days | 22.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEL | 28 | days | 579.1 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., M. Grosell, and C.M. Wood | The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water | Arch. Environ. Contam. Toxicol.49(4): 520-527 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 30 | days | 19.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 7 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 7 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 4 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gauthier,C., P. Couture, and G.G. Pyle | Metal Effects on Fathead Minnows (Pimephales promelas) Under Field and Laboratory Conditions | Ecotoxicol. Environ. Saf.63(3): 353-364 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 4.9 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gauthier,C., P. Couture, and G.G. Pyle | Metal Effects on Fathead Minnows (Pimephales promelas) Under Field and Laboratory Conditions | Ecotoxicol. Environ. Saf.63(3): 353-364 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 5.8 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gauthier,C., P. Couture, and G.G. Pyle | Metal Effects on Fathead Minnows (Pimephales promelas) Under Field and Laboratory Conditions | Ecotoxicol. Environ. Saf.63(3): 353-364 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 6 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gauthier,C., P. Couture, and G.G. Pyle | Metal Effects on Fathead Minnows (Pimephales promelas) Under Field and Laboratory Conditions | Ecotoxicol. Environ. Saf.63(3): 353-364 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 4.4 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gauthier,C., P. Couture, and G.G. Pyle | Metal Effects on Fathead Minnows (Pimephales promelas) Under Field and Laboratory Conditions | Ecotoxicol. Environ. Saf.63(3): 353-364 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 6 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gauthier,C., P. Couture, and G.G. Pyle | Metal Effects on Fathead Minnows (Pimephales promelas) Under Field and Laboratory Conditions | Ecotoxicol. Environ. Saf.63(3): 353-364 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 6 | days | 34 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gauthier,C., P. Couture, and G.G. Pyle | Metal Effects on Fathead Minnows (Pimephales promelas) Under Field and Laboratory Conditions | Ecotoxicol. Environ. Saf.63(3): 353-364 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 28 | days | 282 | ppm | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood | Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss): Interactions Between Dietary and Waterborne Copper Uptake | J. Exp. Biol.205:279-290 | 2002 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 190 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anderson,P.D., and P.A. Spear | Copper Pharmacokinetics in Fish Gills-II Body Size Relationships for Accumulation and Tolerance | Water Res.14(8): 1107-1111 | 1980 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC10 | 4 | days | 96.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 2 | days | 95 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., A. Sehgal, and M.K. Bhasin | "Man and Biosphere" - Studies on the Sikkim Himalayas. Part 2: Acute Toxicity of Mixed Copper-Zinc Solutions on Common Carp, Cyprinus carpio (Linn.) | Acta Hydrochim. Hydrobiol.12(2): 131-135 | 1984 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 0.5 | days | 164 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., A. Sehgal, and M.K. Bhasin | "Man and the Biosphere" -Studies on Sikkim Himalayas. Part 1: Acute Toxicity of Copper and Zinc to Common Carp Cyprinus carpio (Linn.) in Soft Water | Acta Hydrochim. Hydrobiol.11(6): 667-673 | 1983 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 3 | days | 84 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., A. Sehgal, and M.K. Bhasin | "Man and the Biosphere" -Studies on Sikkim Himalayas. Part 1: Acute Toxicity of Copper and Zinc to Common Carp Cyprinus carpio (Linn.) in Soft Water | Acta Hydrochim. Hydrobiol.11(6): 667-673 | 1983 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 1 | days | 110 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., A. Sehgal, and M.K. Bhasin | "Man and the Biosphere" -Studies on Sikkim Himalayas. Part 1: Acute Toxicity of Copper and Zinc to Common Carp Cyprinus carpio (Linn.) in Soft Water | Acta Hydrochim. Hydrobiol.11(6): 667-673 | 1983 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 2 | days | 95 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khangarot,B.S., A. Sehgal, and M.K. Bhasin | "Man and the Biosphere" -Studies on Sikkim Himalayas. Part 1: Acute Toxicity of Copper and Zinc to Common Carp Cyprinus carpio (Linn.) in Soft Water | Acta Hydrochim. Hydrobiol.11(6): 667-673 | 1983 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 130 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 0.38 | days | >360 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones | Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes | EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p. | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anderson,P.D., and P.A. Spear | Copper Pharmacokinetics in Fish Gills-II Body Size Relationships for Accumulation and Tolerance | Water Res.14(8): 1107-1111 | 1980 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 600 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shazili,N.A.M., and D. Pascoe | Variable Sensitivity of Rainbow Trout (Salmo gairdneri) Eggs and Alevins to Heavy Metals | Bull. Environ. Contam. Toxicol.36(3): 468-474 | 1986 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shazili,N.A.M., and D. Pascoe | Variable Sensitivity of Rainbow Trout (Salmo gairdneri) Eggs and Alevins to Heavy Metals | Bull. Environ. Contam. Toxicol.36(3): 468-474 | 1986 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shazili,N.A.M., and D. Pascoe | Variable Sensitivity of Rainbow Trout (Salmo gairdneri) Eggs and Alevins to Heavy Metals | Bull. Environ. Contam. Toxicol.36(3): 468-474 | 1986 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC10 | 1 | days | 176.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.25 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.5 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 0.49 | days | 1760 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., and J.F. Klaverkamp | The Acute Toxicity of Vanadium and Copper to Eyed Eggs of Rainbow Trout (Salmo gairdneri) | Water Res.16(6): 885-889 | 1982 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.7 | days | 860 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., and J.F. Klaverkamp | The Acute Toxicity of Vanadium and Copper to Eyed Eggs of Rainbow Trout (Salmo gairdneri) | Water Res.16(6): 885-889 | 1982 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.5 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 2 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | hours | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 2 | days | 650 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rao,T.S., M.S. Rao, and S.B.S.K. Prasad | Median Tolerance Limits of Some Chemicals to the Fresh Water Fish "Cyprinus carpio" | Indian J. Environ. Health17(2): 140-146 | 1975 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alam,M.K., and O.E. Maughan | The Effect of Malathion, Diazinon, and Various Concentrations of Zinc, Copper, Nickel, Lead, Iron, and Mercury on Fish | Biol. Trace Elem. Res.34(3): 225-236 | 1992 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alam,M.K., and O.E. Maughan | The Effect of Malathion, Diazinon, and Various Concentrations of Zinc, Copper, Nickel, Lead, Iron, and Mercury on Fish | Biol. Trace Elem. Res.34(3): 225-236 | 1992 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2 | days | <100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shazili,N.A.M., and D. Pascoe | Variable Sensitivity of Rainbow Trout (Salmo gairdneri) Eggs and Alevins to Heavy Metals | Bull. Environ. Contam. Toxicol.36(3): 468-474 | 1986 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 4 | days | 140 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 0.54 | days | 319 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 1.5 | days | 407 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | 90 | days | 162 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Benoit,D.A. | Chronic Effects of Copper on Survival, Growth, and Reproduction of the Bluegill (Lepomis macrochirus) | Trans. Am. Fish. Soc.104(2): 353-358 | 1975 | 2018/03/22 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | 4 | days | 1567 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Soucek,D.J., and G.P. Noblet | Copper Toxicity to the Endoparasitic Trematode (Posthodiplostomum minimum) Relative to Physid Snail and Bluegill Sunfish Intermediate Hosts | Environ. Toxicol. Chem.17(12):2512-2516 | 1998 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 0.5 | days | 761 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 4 | days | 525 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 0.42 | days | 1020 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 4 | days | 0.79 | μM | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal and Pharmaceutical Mixtures: Is Ion Loss the Mechanism Underlying Acute Toxicity and Widespread Additive Toxicity in Zebrafish? | Aquat. Toxicol.140/141:257-267 | 2013 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 7 | days | 0.16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/22 | ||||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC10 | 4 | days | 84.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 21 | days | 12.5 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio | Environ. Sci. Technol.44(6): 2156-2162 | 2010 | 2018/03/22 | ||||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC10 | 1 | days | 185.4 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 4 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 4 | days | 272 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,H., Y. Liang, S. Li, and J. Chang | Acute Toxicity, Respiratory Reaction, and Sensitivity of Three Cyprinid Fish Species Caused by Exposure to Four Heavy Metals | PLoS One8(6): 7 p. | 2013 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 14.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Marking,L.L., T.D. Bills, and J.R. Crowther | Effects of Five Diets on Sensitivity of Rainbow Trout to Eleven Chemicals | Prog. Fish-Cult.46(1): 1-5 | 1984 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 11.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Marking,L.L., T.D. Bills, and J.R. Crowther | Effects of Five Diets on Sensitivity of Rainbow Trout to Eleven Chemicals | Prog. Fish-Cult.46(1): 1-5 | 1984 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 40 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vardy,D.W., J. Oellers, J.A. Doering, H. Hollert, J.P. Giesy, and M. Hecker | Sensitivity of Early Life Stages of White Sturgeon, Rainbow Trout, and Fathead Minnow to Copper | Ecotoxicology22(1): 139-147 | 2013 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 22 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vardy,D.W., J. Oellers, J.A. Doering, H. Hollert, J.P. Giesy, and M. Hecker | Sensitivity of Early Life Stages of White Sturgeon, Rainbow Trout, and Fathead Minnow to Copper | Ecotoxicology22(1): 139-147 | 2013 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 4 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pistole,D.H., J.D. Peles, and K. Taylor | Influence of Metal Concentrations, Percent Salinity, and Length of Exposure on the Metabolic Rate of Fathead Minnows (Pimephales promelas) | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(1): 48-52 | 2008 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 2 | days | 15 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., C.M. Wood, and G.B. McClelland | Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892 | 2007 | 2018/03/22 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | 4 | days | 524 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Soucek,D.J., and G.P. Noblet | Copper Toxicity to the Endoparasitic Trematode (Posthodiplostomum minimum) Relative to Physid Snail and Bluegill Sunfish Intermediate Hosts | Environ. Toxicol. Chem.17(12):2512-2516 | 1998 | 2018/03/22 | ||||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC10 | 4 | days | 164.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC10 | 1 | days | 259.1 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 21 | days | 8 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland | Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio) | Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373 | 2009 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 7 | days | 0.16 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 0.85 | days | 72.2 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Klima,K.E., and F.M. Applehans | Copper Exposure and the Degeneration of Olfactory Receptors in Rainbow Trout (Oncorhynchus mykiss) | Chem. Spec. Bioavail.2(4): 149-154 | 1990 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | LOEC | 0.5 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | LOEC | 1 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | LOEC | 4 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 4 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Murray-Gulde,C.L., J.E. Heatley, A.L. Schwartzman, and J.H.,Jr. Rodgers | Algicidal Effectiveness of Clearigate, Cutrine-Plus, and Copper Sulfate and Margins of Safety Associated with Their Use | Arch. Environ. Contam. Toxicol.43(1): 19-27 | 2002 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 30 | days | 28 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Physiological | 4 | days | 65 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wang,H., Y. Liang, S. Li, and J. Chang | Acute Toxicity, Respiratory Reaction, and Sensitivity of Three Cyprinid Fish Species Caused by Exposure to Four Heavy Metals | PLoS One8(6): 7 p. | 2013 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 30 | days | 22 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., N. Wang, F.J. Dwyer, F.L.,Jr. Mayer, and C.G. Ingersoll | Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part II. Chronic Toxicity of Copper and Pentachlorophenol to Two Endangered Species and Two Surrogate Species | Arch. Environ. Contam. Toxicol.48(2): 155-165 | 2005 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 14 | days | 0.125 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dave,G., and R. Xiu | Toxicity of Mercury, Copper, Nickel, Lead, and Cobalt to Embryos and Larvae of Zebrafish, Brachydanio rerio | Arch. Environ. Contam. Toxicol.21:126-134 | 1991 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 14 | days | 1.41 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dave,G., and R. Xiu | Toxicity of Mercury, Copper, Nickel, Lead, and Cobalt to Embryos and Larvae of Zebrafish, Brachydanio rerio | Arch. Environ. Contam. Toxicol.21:126-134 | 1991 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 7 | days | 8.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 7 | days | 8.9 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/22 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 42 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 56 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Brinkman,S., and N. Vieira | Water Pollution Studies | Federal Aid Project F-243-R15, Job Progress Report, Colorado Div.of Wildlife, Fort Collins, Co:38 p. | 2008 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 7 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 63.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Little,E.E., and R.D. Calfee | Toxicity of Chlorine and Copper to Rainbow Trout and to White Sturgeon from the Kootenai River and Columbia River | Report by the U.S. Geological Survey, Columbia MO, for the U.S.. Fish and Wildlife Service, Spokane WA:24 p. | 2008 | 2018/03/22 | ||||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Physiological | LOEC | 0.25 | days | 14.6 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Adeyemi,J.A., L.E. Deaton, T.C. Pesacreta, and P.L. Klerks | Effects of Copper on Osmoregulation in Sheepshead Minnow, Cyprinodon variegatus Acclimated to Different Salinities | Aquat. Toxicol.109:111-117 | 2012 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Physiological | LOEC | 0.25 | days | 14.6 | μM | LABILE | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Adeyemi,J.A., L.E. Deaton, T.C. Pesacreta, and P.L. Klerks | Effects of Copper on Osmoregulation in Sheepshead Minnow, Cyprinodon variegatus Acclimated to Different Salinities | Aquat. Toxicol.109:111-117 | 2012 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Physiological | LOEC | 5 | hours | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Physiological | LOEC | 5 | hours | 300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LOEC | 3.9 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bai,W., W. Tian, Z. Zhang, X. He, Y. Ma, N. Liu, and Z. Chai | Effects of Copper Nanoparticles on the Development of Zebrafish Embryos | J. Nanosci. Nanotechnol.10(12): 8670-8676 | 2010 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LOEC | 7 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | LOEC | 16 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | LOEC | 8 | days | 75 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Peles,J.D., D.H. Pistole, and M.C. Moffe | Time-Specific and Population-Level Differences in Physiological Responses of Fathead Minnows (Pimephales promelas) and Golden Shiners (Notemigonus crysoleucas) Exposed to Copper | Aquat. Toxicol.109(0): 222-227 | 2012 | 2018/03/22 | |||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | 4 | days | 200 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nakayama,S.M.M., Y. Ikenaka, K. Muzandu, K. Choongo, J. Yabe, T. Muroya, S. Ijiri, M. Minagawa, T. Umemura, and M. Ishiz | Geographic Information System-Based Source Estimation of Copper Pollution in Lake Itezhi-Tezhi and Metal-Accumulation Profiles in Oreochromis spp. from Both Field and Laboratory Studies | Arch. Environ. Contam. Toxicol.64(1): 119-129 | 2013 | 2018/03/22 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LOEL | 2 | days | 53.13 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnson,A., E. Carew, and K.A. Sloman | The Effects of Copper on the Morphological and Functional Development of Zebrafish Embryos | Aquat. Toxicol.84(4): 431-438 | 2007 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Immunity | LOEC | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 225.6 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 257.1 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., C. Gerardi, E. Leppo, and T. Miorelli | Using a Water-Effect Ratio Approach to Establish Effects of an Effluent-Influenced Stream on Copper Toxicity to the Fathead Minnow | Environ. Toxicol. Chem.16(7): 1480-1487 | 1997 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 452 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2.1 | days | 416 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 382 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 0.5 | days | 445 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 394 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2.5 | days | 382 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1.5 | days | 391 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 3.3 | days | 378 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 3 | days | 382 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2.2 | days | 380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 482 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 8 | days | 482 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 930 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khunyakari,R.P., V. Tare, and R.N. Sharma | Effects of Some Trace Heavy Metals on Poecilia reticulata (Peters) | J. Environ. Biol.22(2): 141-144 | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 7 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 30 | days | 28.3 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 30 | days | 39.8 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | LOEC | 1 | days | 90 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pistole,D.H., J.D. Peles, and K. Taylor | Influence of Metal Concentrations, Percent Salinity, and Length of Exposure on the Metabolic Rate of Fathead Minnows (Pimephales promelas) | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(1): 48-52 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 487 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LOEC | 7 | days | 20 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola | Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae) | Acta Limnol. Brasil.20(3): 253-259 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Benson,W.H., and W.J. Birge | Heavy Metal Tolerance and Metallothionein Induction in Fathead Minnows: Results From Field and Laboratory Investigations | Environ. Toxicol. Chem.4(2): 209-217 | 1983 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 2 | days | 710 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Khunyakari,R.P., V. Tare, and R.N. Sharma | Effects of Some Trace Heavy Metals on Poecilia reticulata (Peters) | J. Environ. Biol.22(2): 141-144 | 2001 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 1 | days | 1170 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Park,K., and G.J. Heo | Acute and Subacute Toxicity of Copper Sulfate Pentahydrate (CuSO45.H2O) in the Guppy (Poecilia reticulata) | J. Vet. Med. Sci.71(3): 333-336 | 2009 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 1551 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., C. Gerardi, E. Leppo, and T. Miorelli | Using a Water-Effect Ratio Approach to Establish Effects of an Effluent-Influenced Stream on Copper Toxicity to the Fathead Minnow | Environ. Toxicol. Chem.16(7): 1480-1487 | 1997 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 708 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., C. Gerardi, E. Leppo, and T. Miorelli | Using a Water-Effect Ratio Approach to Establish Effects of an Effluent-Influenced Stream on Copper Toxicity to the Fathead Minnow | Environ. Toxicol. Chem.16(7): 1480-1487 | 1997 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 2 | days | 197 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., C. Gerardi, E. Leppo, and T. Miorelli | Using a Water-Effect Ratio Approach to Establish Effects of an Effluent-Influenced Stream on Copper Toxicity to the Fathead Minnow | Environ. Toxicol. Chem.16(7): 1480-1487 | 1997 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEC | 7 | days | 300 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | LOEC | 4 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pistole,D.H., J.D. Peles, and K. Taylor | Influence of Metal Concentrations, Percent Salinity, and Length of Exposure on the Metabolic Rate of Fathead Minnows (Pimephales promelas) | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(1): 48-52 | 2008 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Physiological | LOEL | 1 | days | 10 | mg/kg bdwt TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Varanka,Z., I. Rojik, I. Varanka, J. Nemcsok, and M. Abraham | Biochemical and Morphological Changes in Carp (Cyprinus carpio L.) Liver Following Exposure to Copper Sulfate and Tannic Acid | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.128(3): 467-478 | 2001 | 2018/03/22 | ||||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LT100 | 60 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Quick,T., and N.F. Cardarelli | Environmental Impact of Controlled Release Molluscicides and Their Degradation Products: A Preliminary Report | ACS Symp. Ser.53:90-104 | 1977 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LT100 | 60 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Quick,T., and N.F. Cardarelli | Environmental Impact of Controlled Release Molluscicides and Their Degradation Products: A Preliminary Report | ACS Symp. Ser.53:90-104 | 1977 | 2018/03/22 | |||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LT100 | 3.4 | days | 1380 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsai,C.F., and K.Y. Chang | Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish | Arch. Environ. Contam. Toxicol.13(1): 93-99 | 1984 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Physiological | NOEC | 0.21 | days | 150 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Alsop,D., and C.M. Wood | Metal Uptake and Acute Toxicity in Zebrafish: Common Mechanisms Across Multiple Metals | Aquat. Toxicol.105(3/4): 385-393 | 2011 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | NOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NOEC | 16 | days | 0.05 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dave,G., and R. Xiu | Toxicity of Mercury, Copper, Nickel, Lead, and Cobalt to Embryos and Larvae of Zebrafish, Brachydanio rerio | Arch. Environ. Contam. Toxicol.21:126-134 | 1991 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiological | NOEC | 1 | days | 60 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pistole,D.H., J.D. Peles, and K. Taylor | Influence of Metal Concentrations, Percent Salinity, and Length of Exposure on the Metabolic Rate of Fathead Minnows (Pimephales promelas) | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(1): 48-52 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 30 | days | 16.7 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang | Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species | EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p. | 2001 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 7 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pickering,Q.H., and J.M. Lazorchak | Evaluation of the Robustness of the Fathead Minnow, Pimephales promelas, Larval Survival and Growth Test, U.S. EPA Method 1000.0 | Environ. Toxicol. Chem.14(4): 653-659 | 1995 | 2018/03/22 | |||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LT100 | 60 | days | 5000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Quick,T., and N.F. Cardarelli | Environmental Impact of Controlled Release Molluscicides and Their Degradation Products: A Preliminary Report | ACS Symp. Ser.53:90-104 | 1977 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Immunity | LOEL | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/22 | |||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | NOEC | 7 | days | 63 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Immunity | LOEL | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Immunity | LOEL | 4 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda) | Aquat. Toxicol.68(4): 325-338 | 2004 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LOEL | 1 | days | 100 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and I. Slominska | The Effect of Copper on Common Carp (Cyprinus carpio L.) During Embryonic and Postembryonic Development | Pol. Arch. Hydrobiol.44(1/2): 261-272 | 1997 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Immunity | NOEC | 8 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Immunity | NOEC | 4 | days | 250 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet | Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.) | Arch. Environ. Contam. Toxicol.47(3): 370-378 | 2004 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Physiological | NOEL | 0.04 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jezierska,B., and P. Sarnowski | The Effect of Mercury, Copper and Cadmium During Single and Combined Exposure on Oxygen Consumption of Oncorhynchus mykiss Wal. and Cyprinus carpio L. Larvae | Arch. Pol. Fish. 10(1): 15-22 | 2002 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 1 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiological | NOEC | 0.33 | days | 210 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Giles,M.A., J.F. Klaverkamp, and S.G. Lawrence | The Acute Toxicity of Saline Groundwater and of Vanadium to Fish and Aquatic Invertebrates | Project No.AF 3.2.1, Prepared for the Alberta Oil Sands Environmental Research Program, Edmonton, Alberta:237 p. | 1979 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC50 | 1 | days | 351.6 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | LC50 | 1 | days | 503 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold | Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus | Environ. Toxicol.20(2): 150-159 | 2005 | 2018/03/22 | |||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 3 | days | 8000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Balambigai,N., and D. Aruna | Impact of Copper Sulphate, an Essential Micronutrient on ACh, AChE and Na+K+ATPase in Various Tissues of the Fish Cyprinus carpio (L.) | Res. J. Environ. Toxicol.5(2): 141-146 | 2011 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 0.29 | days | 580 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erickson,R.J. | Evaluation of a Model for the Prediction of the Effect of Fluctuating Concentrations on the Lethality of Copper to Fathead Minnows | Environmental Research Laboratory, U.S. Environmental Protection Agency, Duluth, MN:125 p. | 1985 | 2018/03/22 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | NOEC | 7 | days | 50 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms | EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p. | 1988 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 14 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 14 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 30 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J.M., S.J. Klaine, and J.B. Butcher | Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits | Environ. Sci. Technol.40(16): 5132-5138 | 2006 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 2.68 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J., M. Bowersox, H. Latimer, C. Barbour, J. Bearr, and J. Butcher | Effects of Pulsed Contaminant Exposures on Early Life Stages of the Fathead Minnow | Arch. Environ. Contam. Toxicol.49(4): 511-519 | 2005 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 1.7 | hours | 1000 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pyle,G., and C. Wood | Radiotracer Studies on Waterborne Copper Uptake, Distribution, and Toxicity in Rainbow Trout and Yellow Perch: A Comparative Analysis | Hum. Ecol. Risk Assess.14:243-265 | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 21 | days | 37 | μg/L | DISSOLVED | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 3.3 | hours | 160 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pyle,G., and C. Wood | Radiotracer Studies on Waterborne Copper Uptake, Distribution, and Toxicity in Rainbow Trout and Yellow Perch: A Comparative Analysis | Hum. Ecol. Risk Assess.14:243-265 | 2008 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 3.3 | hours | 400 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pyle,G., and C. Wood | Radiotracer Studies on Waterborne Copper Uptake, Distribution, and Toxicity in Rainbow Trout and Yellow Perch: A Comparative Analysis | Hum. Ecol. Risk Assess.14:243-265 | 2008 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 1.78 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J., M. Bowersox, H. Latimer, C. Barbour, J. Bearr, and J. Butcher | Effects of Pulsed Contaminant Exposures on Early Life Stages of the Fathead Minnow | Arch. Environ. Contam. Toxicol.49(4): 511-519 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 3.57 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamond,J., M. Bowersox, H. Latimer, C. Barbour, J. Bearr, and J. Butcher | Effects of Pulsed Contaminant Exposures on Early Life Stages of the Fathead Minnow | Arch. Environ. Contam. Toxicol.49(4): 511-519 | 2005 | 2018/03/22 | |||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 40 | μg/L | TOTAL | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox | Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas | Environ. Toxicol. Chem.25(5): 1376-1382 | 2006 | 2018/03/22 | |||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC20 | 45 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC20 | 4 | days | 30 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | 4 | days | 0.82~3.21 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC20 | 28 | days | 39 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC20 | 4 | days | 51 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | No Group Code | EC20 | 4 | days | 26 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | No Group Code | EC20 | 4 | days | 20 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 21 | days | >60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 52 | days | 32 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 52 | days | >56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 21 | days | >60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Cellular Effects | 60~190 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lee,H.C., P.N. Lu, H.L. Huang, C. Chu, H.P. Li, and H.J. Tsai | Zebrafish Transgenic Line huORFZ is an Effective Living Bioindicator for Detecting Environmental Toxicants | PLoS One9(3): 12 p. | 2014 | 2016/03/25 | ||||||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 3 | days | 60~190 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lee,H.C., P.N. Lu, H.L. Huang, C. Chu, H.P. Li, and H.J. Tsai | Zebrafish Transgenic Line huORFZ is an Effective Living Bioindicator for Detecting Environmental Toxicants | PLoS One9(3): 12 p. | 2014 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC20 | 21 | days | 47 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC20 | 4 | days | 11 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 28 | days | 30 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC20 | 4 | days | 44 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC20 | 4 | days | 50 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC20 | 4 | days | 20 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC20 | 21 | days | 43 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC20 | 52 | days | 36 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC20 | 4 | days | 45 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC20 | 4 | days | 45 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC20 | 4 | days | 51 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | 4 | days | 0.82~3.21 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2016/03/25 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Cellular Effects | 1~3 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lee,H.C., P.N. Lu, H.L. Huang, C. Chu, H.P. Li, and H.J. Tsai | Zebrafish Transgenic Line huORFZ is an Effective Living Bioindicator for Detecting Environmental Toxicants | PLoS One9(3): 12 p. | 2014 | 2016/03/25 | ||||||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | 4 | days | 0.82~3.21 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2016/03/25 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Cellular Effects | 1 | days | 100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lee,H.C., P.N. Lu, H.L. Huang, C. Chu, H.P. Li, and H.J. Tsai | Zebrafish Transgenic Line huORFZ is an Effective Living Bioindicator for Detecting Environmental Toxicants | PLoS One9(3): 12 p. | 2014 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 52 | days | >56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 52 | days | >56.53 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 28 | days | >53.8 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Growth | EC20 | 28 | days | 40 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abdel-Moneim,A., M. Moreira-Santos, and R. Ribeiro | A Short-Term Sublethal Toxicity Assay with Zebra Fish Based on Preying Rate and Its Integration with Mortality | Chemosphere120:568-574 | 2015 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Behavior | EC20 | 2.08 | days | 28 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abdel-Moneim,A., M. Moreira-Santos, and R. Ribeiro | A Short-Term Sublethal Toxicity Assay with Zebra Fish Based on Preying Rate and Its Integration with Mortality | Chemosphere120:568-574 | 2015 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC20 | 2 | days | 50 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abdel-Moneim,A., M. Moreira-Santos, and R. Ribeiro | A Short-Term Sublethal Toxicity Assay with Zebra Fish Based on Preying Rate and Its Integration with Mortality | Chemosphere120:568-574 | 2015 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC90 | 1 | days | 210 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lee,H.C., P.N. Lu, H.L. Huang, C. Chu, H.P. Li, and H.J. Tsai | Zebrafish Transgenic Line huORFZ is an Effective Living Bioindicator for Detecting Environmental Toxicants | PLoS One9(3): 12 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 28 | days | 43 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 21 | days | >60.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 21 | days | 36 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | 4 | days | 0.82~3.21 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang | Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers | Aquat. Toxicol.161:108-116 | 2015 | 2016/03/25 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Behavior | EC20 | 2.08 | days | 28 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Abdel-Moneim,A., M. Moreira-Santos, and R. Ribeiro | A Short-Term Sublethal Toxicity Assay with Zebra Fish Based on Preying Rate and Its Integration with Mortality | Chemosphere120:568-574 | 2015 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 28 | days | >53.8 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Geological Survey | Acute and Chronic Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Cadmium, Copper, Lead, or Zinc in Laboratory Water-Only Exposures | Sci. Investig. Rep.:120 p. | 2014 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Lethal | NOEC | 9 | days | 0.338 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Scudder ea 88 | 2016/02/08 | |||||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Lethal | EC50 | 28 | days | 0.123 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Scudder ea 88 | 2016/02/08 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiology, Behavior | EC50 | 30 | days | 0.534 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Waiwood and Beamish 78 | 2018/03/22 | |||||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Lethal | LOEC | 9 | days | 0.62 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Scudder ea 88 | 2016/02/08 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth_b | EC50 | 30 | days | 0.002 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Waiwood and Beamish 78 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiology, Behavior | EC50 | 30 | days | 0.017 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Waiwood and Beamish 78 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiology, Behavior | EC50 | 30 | days | 0.005 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Waiwood and Beamish 78 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth_b | EC50 | 30 | days | 0.008 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Waiwood and Beamish 78 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth_b | EC50 | 30 | days | 0.206 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Waiwood and Beamish 78 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiology, Behavior | EC50 | 30 | days | 0.009 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Waiwood and Beamish 78 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiology, Behavior | EC50 | 30 | days | 0.039 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Waiwood and Beamish 78 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth_b | EC50 | 30 | days | 0.027 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Waiwood and Beamish 78 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth_b | EC50 | 30 | days | 0.032 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Waiwood and Beamish 78 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiology, Behavior | EC50 | 30 | days | 0.05 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Waiwood and Beamish 78 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth_b | EC50 | 30 | days | 0.006 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Waiwood and Beamish 78 | 2018/03/22 | |||||||||
| 魚類 | Carassius auratus (Goldfish) | Lethal | EC50 | 72 | hours | 0.3 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Tsai and McKee 80 | 2016/02/08 | |||||||||
| 魚類 | Carassius auratus (Goldfish) | Lethal | EC50 | 48 | hours | 0.61 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Tsai and McKee 80 | 2016/02/08 | |||||||||
| 魚類 | Carassius auratus (Goldfish) | Lethal | EC50 | 96 | hours | 0.3 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Tsai and McKee 80 | 2016/02/08 | |||||||||
| 魚類 | Carassius auratus (Goldfish) | Lethal | EC50 | 24 | hours | 1.15 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Tsai and McKee 80 | 2016/02/08 | |||||||||
| 魚類 | Carassius auratus (Goldfish) | Lethal | EC50 | 48 | hours | 0.61 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Tsai and McKee 80 | 2016/02/08 | |||||||||
| 魚類 | Carassius auratus (Goldfish) | Lethal | EC50 | 72 | hours | 0.3 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Tsai and McKee 80 | 2016/02/08 | |||||||||
| 魚類 | Carassius auratus (Goldfish) | Lethal | EC50 | 24 | hours | 1.15 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Tsai and McKee 80 | 2016/02/08 | |||||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Lethal | EC50 | 96 | hours | 0.25 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Scudder ea 88 | 2016/02/08 | |||||||||
| 魚類 | Cyprinus carpio (Carp) | LC50 | 96 | hours | 99 | μg/L | 銅換算値 | 2 日本環境省 農薬登録保留基準(水産動植物) | 環境省 | 水産動植物の被害防止に係る農薬登録保留基準として環境大臣が定める基準の設定に関する資料 | 2018/03/15 | ||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | 7.34 | mg/L | 18 既存化学物質安全性(ハザード)評価シート | IPCS | Environmental Health Criteria, 200 | 1998 | 2016/02/26 | ||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | 0.884 | mg/L | 18 既存化学物質安全性(ハザード)評価シート | IPCS | Environmental Health Criteria, 200 | 1998 | 2016/02/26 | ||||||||
| 魚類 | Pimephales promelas (Fathead minnow) | 生殖阻害 | LC50 | 11 | months | 0.022 | mg/L | 18 既存化学物質安全性(ハザード)評価シート | EPA | Ambient Water Quality Criteria for Copper | 1984 | 2016/02/26 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | LC50 | 96 | hours | 0.46 | mg/L | 18 既存化学物質安全性(ハザード)評価シート | IPCS | Environmental Health Criteria, 200 | 1998 | 2016/02/26 | ||||||||
| 魚類 | Cyprinus carpio (Carp) | LC50 | 96 | hours | 0.3 | mg/L | 18 既存化学物質安全性(ハザード)評価シート | IPCS | Environmental Health Criteria, 200 | 1998 | 2016/02/26 | ||||||||
| 魚類 | Pimephales promelas (Fathead minnow) | 成長・生殖阻害 | LC50 | 11 | months | 0.014 | mg/L | 18 既存化学物質安全性(ハザード)評価シート | EPA | Ambient Water Quality Criteria for Copper | 1984 | 2016/02/26 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 96 | hours | 0.0138 | mg/L | 18 既存化学物質安全性(ハザード)評価シート | IPCS | Environmental Health Criteria, 200 | 1998 | 2016/02/26 | ||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | >100 | ppm | 3 USEPA Pesticide Ecotoxicity Database | J. McCann | 2004 | 2018/02/22 | |||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | 6.1 | ppm | 3 USEPA Pesticide Ecotoxicity Database | McCann/B. Montague | 2004 | 2018/02/22 | |||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | 4.75 | ppm | 3 USEPA Pesticide Ecotoxicity Database | McCann/B. Montague | 2004 | 2018/02/22 | |||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | 0.884 | ppm | 3 USEPA Pesticide Ecotoxicity Database | Mayer & Ellersieck | 1986 | 2018/02/22 | |||||||||
| 魚類 | Pimephales promelas (Fathead minnow) | LC50 | 96 | hours | 0.838 | ppm | 3 USEPA Pesticide Ecotoxicity Database | Mayer & Ellersieck | 1986 | 2018/02/22 | |||||||||
| 魚類 | Cyprinus carpio (Carp) | LC50 | 96 | hours | 300 | μg/L | 10 EHC (Environmental Health Criteria) | Alam MK & Maughan OE | The effect of malathion, diazinon, and various concentrations of zinc, copper, nickel, lead, iron, and mercury on fish. | Biol Trace Elem Res | 1992 | 2018/03/17 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Lethal | EC50 | 24 | hours | 0.14 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Shaw and Brown 74 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Lethal | EC50 | 24 | hours | 0.14 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Shaw and Brown 74 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Lethal | EC50 | 48 | hours | 0.12 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Shaw and Brown 74 | 2018/03/22 | |||||||||
| 魚類 | Cyprinus carpio (Carp) | LC50 | 96 | hours | 1000 | μg/L | 10 EHC (Environmental Health Criteria) | Alam MK & Maughan OE | The effect of malathion, diazinon, and various concentrations of zinc, copper, nickel, lead, iron, and mercury on fish. | Biol Trace Elem Res | 1992 | 2018/03/17 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Lethal | EC50 | 96 | hours | 0.4 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Giles and Klaverkamp 82 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Lethal | EC50 | 24 | hours | 0.13 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Shaw and Brown 74 | 2018/03/22 | |||||||||
| 魚類 | Carassius auratus (Goldfish) | LC50 | 96 | hours | 1.38 | ppm | 3 USEPA Pesticide Ecotoxicity Database | Mayer & Ellersieck | 1986 | 2018/03/22 | |||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | 0.884 | ppm | 3 USEPA Pesticide Ecotoxicity Database | Mayer & Ellersieck | 1986 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 96 | hours | 0.135 | ppm | 3 USEPA Pesticide Ecotoxicity Database | Mayer & Ellersieck | 1986 | 2018/03/22 | |||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | 6.1 | ppm | 3 USEPA Pesticide Ecotoxicity Database | McCann/B. Montague | 2004 | 2018/03/22 | |||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | 4.75 | ppm | 3 USEPA Pesticide Ecotoxicity Database | McCann/B. Montague | 2004 | 2018/03/22 | |||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | >100 | ppm | 3 USEPA Pesticide Ecotoxicity Database | J. McCann | 2004 | 2018/03/22 | |||||||||
| 魚類 | Pimephales promelas (Fathead minnow) | LC50 | 96 | hours | 0.838 | ppm | 3 USEPA Pesticide Ecotoxicity Database | Mayer & Ellersieck | 1986 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 96 | hours | 0.135 | ppm | 3 USEPA Pesticide Ecotoxicity Database | Mayer & Ellersieck | 1986 | 2018/02/22 | |||||||||
| 魚類 | Carassius auratus (Goldfish) | LC50 | 96 | hours | 1.38 | ppm | 3 USEPA Pesticide Ecotoxicity Database | Mayer & Ellersieck | 1986 | 2018/02/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 96 | hours | 135 | μg/L | 10 EHC (Environmental Health Criteria) | Mayer FL & Ellersieck MR | Manual of acute toxicity: Interpretation and data base for 410 chemicals and 66 species of freshwater animals. | Washington, DC, US Department of Interior, Fish and Wildlife Service | 1986 | 2018/03/17 | |||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | 884 | μg/L | 10 EHC (Environmental Health Criteria) | Mayer FL & Ellersieck MR | Manual of acute toxicity: Interpretation and data base for 410 chemicals and 66 species of freshwater animals. | Washington, DC, US Department of Interior, Fish and Wildlife Service | 1986 | 2018/03/17 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | LC50 | 96 | hours | 490 | μg/L | 10 EHC (Environmental Health Criteria) | Pickering Q, Brungs W, & Gast M | Effect of exposure time and copper concentration on reproduction of the fathead minnow (Pimephales promelas). | Water Res | 1977 | 2018/03/17 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | LC50 | 96 | hours | 838 | μg/L | 10 EHC (Environmental Health Criteria) | Mayer FL & Ellersieck MR | Manual of acute toxicity: Interpretation and data base for 410 chemicals and 66 species of freshwater animals. | Washington, DC, US Department of Interior, Fish and Wildlife Service | 1986 | 2018/03/17 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 96 | hours | 13.8 | μg/L | 10 EHC (Environmental Health Criteria) | Buhl KJ & Hamilton SJ | Comparative toxicity of inorganic contaminants released by placer mining to early life stages of salmonids. | Ecotoxicol Environ Saf | 1990 | 2018/03/17 | |||||||
| 魚類 | Carassius auratus (Goldfish) | LC50 | 96 | hours | 13800 | μg/L | 10 EHC (Environmental Health Criteria) | Mayer FL & Ellersieck MR | Manual of acute toxicity: Interpretation and data base for 410 chemicals and 66 species of freshwater animals. | Washington, DC, US Department of Interior, Fish and Wildlife Service | 1986 | 2018/03/17 | |||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | 7340 | μg/L | 10 EHC (Environmental Health Criteria) | Mayer FL & Ellersieck MR | Manual of acute toxicity: Interpretation and data base for 410 chemicals and 66 species of freshwater animals. | Washington, DC, US Department of Interior, Fish and Wildlife Service | 1986 | 2018/03/17 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | LC50 | 96 | hours | 460 | μg/L | 10 EHC (Environmental Health Criteria) | Pickering Q, Brungs W, & Gast M | Effect of exposure time and copper concentration on reproduction of the fathead minnow (Pimephales promelas). | Water Res | 1977 | 2018/03/17 | |||||||
| 魚類 | Lepomis macrochirus (Bluegill) | NOEL | 96 | hours | 100 | ppm | 3 USEPA Pesticide Ecotoxicity Database | J. McCann | 2004 | 2018/02/22 | |||||||||
| 魚類 | Pimephales promelas (Fathead minnow) | NOEL | 96 | hours | 0.838 | ppm | 3 USEPA Pesticide Ecotoxicity Database | Mayer & Ellersieck | 1986 | 2018/03/22 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | NOEL | 96 | hours | 0.135 | ppm | 3 USEPA Pesticide Ecotoxicity Database | Mayer & Ellersieck | 1986 | 2018/03/22 | |||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | NOEL | 96 | hours | 0.884 | ppm | 3 USEPA Pesticide Ecotoxicity Database | Mayer & Ellersieck | 1986 | 2018/03/22 | |||||||||
| 魚類 | Carassius auratus (Goldfish) | NOEL | 96 | hours | 1.38 | ppm | 3 USEPA Pesticide Ecotoxicity Database | Mayer & Ellersieck | 1986 | 2018/03/22 | |||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | NOEL | 96 | hours | 100 | ppm | 3 USEPA Pesticide Ecotoxicity Database | J. McCann | 2004 | 2018/03/22 | |||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | NOEL | 96 | hours | 6.1 | ppm | 3 USEPA Pesticide Ecotoxicity Database | McCann/B. Montague | 2004 | 2018/03/22 | |||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | NOEL | 96 | hours | 4.75 | ppm | 3 USEPA Pesticide Ecotoxicity Database | McCann/B. Montague | 2004 | 2018/03/22 |