【注意事項】
* 化学物質有害性情報データベース情報更新日が2019年9月以前はRead-acrossデータでも○としていないので、毒性値の取り扱いには注意が必要である。
| 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) | Read-across * | QSAR | GLP | 設定濃度 | 実測濃度 | 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 | Read-across | QSAR | GLP | nominal concentration | measured concentration | original work type | original work reliability rank | author | title | referenced journal | publication year | Information update date |
| 藻類 | Chlorella pyrenoidosa | Mortality//Mortality | LT50 | 2.15 | days | 10000 | μg/L | 16 ECOTOX | Wong,M.H. | Toxic Effects of Cobalt and Zinc to Chlorella pyrenoidosa (26) in Soft and Hard Water | Microbios28(111) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | IC25 | 24 | hours | 113.5 | μg/L | 16 ECOTOX | Thompson,J.A. | Cellular Fluorescence Capacity as an Endpoint in Algal Toxicity Testing | Chemosphere35(9) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | IC25 | 96 | hours | 31.5 | μg/L | 16 ECOTOX | Thompson,J.A. | Cellular Fluorescence Capacity as an Endpoint in Algal Toxicity Testing | Chemosphere35(9) | 2020/11/12 | |||||||
| 藻類 | Chlorella sp. | growth rate | IC25 | 72 | hours | 61 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 藻類 | Chlorella sp. | cell number | EC30 | 6 | days | 2 | mg/L | 0 mg/L / >0.1-<1 mg/L / ~1 mg/L / >1-<10 mg/L / >1 | 16 ECOTOX | Ji,J., Z. Long, and D. Lin | Toxicity of Oxide Nanoparticles to the Green Algae Chlorella sp. | Chem. Eng. J.170(2/3) | 2020/11/12 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Mortality//Mortality | NR-LETH | 7 | days | 700 | μg/L | 16 ECOTOX | Bartlett,L., F.W. Rabe, and W.H. Funk | Effects of Copper, Zinc and Cadmium on Selanastrum capricornutum | Water Res.8(3) | 2020/11/12 | |||||||
| 藻類 | Chlorella vulgaris | Mortality//Mortality | LC100 | 15 | days | 10 | μg/mL | 16 ECOTOX | Rai,L.C., A.K. Singh, and N. Mallick | Studies on Photosynthesis, the Associated Electron Transport System and Some Physiological Variables of Chlorella vulgaris Under Heavy Metal Stress | J. Plant Physiol.137(4) | 2020/11/12 | |||||||
| 藻類 | Chlorella vulgaris | Mortality//Mortality | LC50 | 15 | days | 2 | μg/mL | 16 ECOTOX | Rai,L.C., A.K. Singh, and N. Mallick | Studies on Photosynthesis, the Associated Electron Transport System and Some Physiological Variables of Chlorella vulgaris Under Heavy Metal Stress | J. Plant Physiol.137(4) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Physiology//Photosynthesis | IC25 | 96 | hours | 314 | μg/L | 16 ECOTOX | Thompson,J.A. | Cellular Fluorescence Capacity as an Endpoint in Algal Toxicity Testing | Chemosphere35(9) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | IC25 | 4 | days | 31.5 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Thompson,J.A. | Cellular Fluorescence Capacity as an Endpoint in Algal Toxicity Testing | Chemosphere35(9): 2027-2037 | 1997 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.0842 | nM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000001 | その他others [M] | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.00245 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000209 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000289 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 2 | days | 96 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pardos,M., C. Benninghoff, and R.L. Thomas | Photosynthetic and Population Growth Response of the Test Alga Selenastrum capricornutum Printz to Zinc, Cadmium and Suspended Sediment Elutriates | J. Appl. Phycol.10(2): 145-151 | 1998 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Physiology | EC50 | 4 | hours | 97 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pardos,M., C. Benninghoff, and R.L. Thomas | Photosynthetic and Population Growth Response of the Test Alga Selenastrum capricornutum Printz to Zinc, Cadmium and Suspended Sediment Elutriates | J. Appl. Phycol.10(2): 145-151 | 1998 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.00128 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Physiology | IC25 | 4 | days | 314 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Thompson,J.A. | Cellular Fluorescence Capacity as an Endpoint in Algal Toxicity Testing | Chemosphere35(9): 2027-2037 | 1997 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000143 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Chlorella vulgaris | Mortality | LC50 | 15 | days | 2000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rai,L.C., A.K. Singh, and N. Mallick | Studies on Photosynthesis, the Associated Electron Transport System and Some Physiological Variables of Chlorella vulgaris Under Heavy Metal Stress | J. Plant Physiol.137(4): 419-424 | 1991 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | IC25 | 1 | days | 113.5 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Thompson,J.A. | Cellular Fluorescence Capacity as an Endpoint in Algal Toxicity Testing | Chemosphere35(9): 2027-2037 | 1997 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000108 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | EC50 | 4 | hours | 175 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.0893 | nM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000139 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000158 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000109 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | EC50 | 4 | hours | 205 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000492 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000312 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 4 | days | 50 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000126 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | NOEL | 4 | days | 0.1 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000143 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 4 | days | 20 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Navicula pelliculosa | Population | 1 | days | 5~30 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wong,P.T.S., and Y.K. Chau | Zinc Toxicity to Freshwater Algae | Toxic. Assess.5(2): 167-177 | 1990 | 2016/03/25 | ||||||||
| 藻類 | Chlorella vulgaris | Biochemical | 15 | days | 1000~100000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rai,L.C., J.P. Gaur, and H.D. Kumar | Protective Effects of Certain Environmental Factors on the Toxicity of Zinc, Mercury and Methylmercury to Chlorella vulgaris | Environ. Res.25(2): 250-259 | 1981 | 2016/03/25 | ||||||||
| 藻類 | Chlorella vulgaris | Biochemical | 33 | days | 7500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosko,J.J., and J.W. Rachlin | The Effect of Cadmium, Copper, Mercury, Zinc and Lead on Cell Division, Growth, and Chlorophyll A Content of the Chlorophyte Chlorella vulgaris | Bull. Torrey Bot. Club104(3): 226-233 | 1977 | 2016/03/25 | |||||||
| 藻類 | Chlorella vulgaris | Population | 33 | days | 560 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosko,J.J., and J.W. Rachlin | The Effect of Cadmium, Copper, Mercury, Zinc and Lead on Cell Division, Growth, and Chlorophyll A Content of the Chlorophyte Chlorella vulgaris | Bull. Torrey Bot. Club104(3): 226-233 | 1977 | 2016/03/25 | |||||||
| 藻類 | Chlorella vulgaris | Population | 20 | days | 10000~100000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Maeda,S., M. Mizoguchi, A. Ohki, and T. Takeshita | Bioaccumulation of Zinc and Cadmium in Freshwater Alga, Chlorella vulgaris. Part I. Toxicity and Accumulation | Chemosphere21(8): 953-963 | 1990 | 2016/03/25 | ||||||||
| 藻類 | Chlorella vulgaris | Population | 21 | days | 1000~100000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rai,L.C., J.P. Gaur, and H.D. Kumar | Protective Effects of Certain Environmental Factors on the Toxicity of Zinc, Mercury and Methylmercury to Chlorella vulgaris | Environ. Res.25(2): 250-259 | 1981 | 2016/03/25 | ||||||||
| 藻類 | Chlorella vulgaris | Accumulation | 100000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Maeda,S., M. Mizoguchi, A. Ohki, J. Inanaga, and T. Takeshita | Bioaccumulation of Zinc and Cadmium in Freshwater Alga, Chlorella vulgaris. Part II. Association Mode of the Metals and all Tissue | Chemosphere21(8): 965-973 | 1990 | 2016/03/25 | |||||||||
| 藻類 | Anabaena flos-aquae | Cellular Effects | 4 | days | 20.6 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rachlin,J.W., T.E. Jensen, and B.E. Warkentine | Morphometric Analysis of the Response of Anabaena flos-aquae and Anabaena variabilis (Cyanophyceae) to Selected Concentrations of Zinc | Arch. Environ. Contam. Toxicol.14(4): 395-402 | 1985 | 2016/03/25 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | 14 | days | 10~160 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Greene,J.C., W.E. Miller, T. Shiroyama, and E. Merwin | Toxicity of Zinc to the Green Alga Selenastrum capricornutum as a Function of Phosphorus or Ionic Strength | In: Proc. Biostimulation - Nutrient Assessment Workshop, EPA 660/3-75-034, U. S. EPA, Corvallis, OR:28-43 | 1973 | 2016/03/25 | ||||||||
| 藻類 | Chlorella vulgaris | Population | 15 | days | 1000~100000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rai,L.C., J.P. Gaur, and H.D. Kumar | Protective Effects of Certain Environmental Factors on the Toxicity of Zinc, Mercury and Methylmercury to Chlorella vulgaris | Environ. Res.25(2): 250-259 | 1981 | 2016/03/25 | ||||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 4 | days | 20 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000192 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 4 | days | 50 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000309 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 4 | days | 20 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | NOEC | 4 | days | 20 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | LOEL | 4 | days | 1 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 4 | days | 50 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Physiology | LOEC | 4 | days | 500000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Thompson,J.A. | Cellular Fluorescence Capacity as an Endpoint in Algal Toxicity Testing | Chemosphere35(9): 2027-2037 | 1997 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 6 | days | 16 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bierkens,J., J. Maes, and F.V. Plaetse | Dose-Dependent Induction of Heat Shock Protein 70 Synthesis in Raphidocelis subcapitata Following Exposure to Different Classes of Environmental Pollutants | Environ. Pollut.101:91-97 | 1998 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 1 | days | 25000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Thompson,J.A. | Cellular Fluorescence Capacity as an Endpoint in Algal Toxicity Testing | Chemosphere35(9): 2027-2037 | 1997 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 4 | days | 50 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | LOEC | 4 | days | 12500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Thompson,J.A. | Cellular Fluorescence Capacity as an Endpoint in Algal Toxicity Testing | Chemosphere35(9): 2027-2037 | 1997 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Physiology | LOEC | 6 | days | 3.6 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bierkens,J., J. Maes, and F.V. Plaetse | Dose-Dependent Induction of Heat Shock Protein 70 Synthesis in Raphidocelis subcapitata Following Exposure to Different Classes of Environmental Pollutants | Environ. Pollut.101:91-97 | 1998 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Mortality | 7 | days | 700 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bartlett,L., F.W. Rabe, and W.H. Funk | Effects of Copper, Zinc and Cadmium on Selanastrum capricornutum | Water Res.8(3): 179-185 | 1974 | 2016/03/25 | |||||||
| 藻類 | Scenedesmus sp. | Population | LOEL | 6 | days | 5 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., and J.P. Gaur | Physiological Behavior of Scenedesmus sp. During Exposure to Elevated Levels of Cu and Zn and After Withdrawal of Metal Stress | Protoplasma229(1): 1-9 | 2006 | 2016/03/25 | ||||||
| 藻類 | Scenedesmus sp. | Biochemical | LOEL | 7 | days | 5 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., S.K. Mehta, A. Amar, and J.P. Gaur | Oxidative Stress in Scenedesmus sp. During Short- and Long-Term Exposure to Cu2+ and Zn2+ | Chemosphere62(4): 538-544 | 2006 | 2016/03/25 | ||||||
| 藻類 | Scenedesmus sp. | Accumulation | LOEL | 6 | hours | 5 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., S.K. Mehta, A. Amar, and J.P. Gaur | Oxidative Stress in Scenedesmus sp. During Short- and Long-Term Exposure to Cu2+ and Zn2+ | Chemosphere62(4): 538-544 | 2006 | 2016/03/25 | ||||||
| 藻類 | Scenedesmus sp. | Population | LOEL | 7 | days | 5 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., S.K. Mehta, A. Amar, and J.P. Gaur | Oxidative Stress in Scenedesmus sp. During Short- and Long-Term Exposure to Cu2+ and Zn2+ | Chemosphere62(4): 538-544 | 2006 | 2016/03/25 | ||||||
| 藻類 | Scenedesmus sp. | Biochemical | LOEL | 6 | days | 5 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., and J.P. Gaur | Physiological Behavior of Scenedesmus sp. During Exposure to Elevated Levels of Cu and Zn and After Withdrawal of Metal Stress | Protoplasma229(1): 1-9 | 2006 | 2016/03/25 | ||||||
| 藻類 | Scenedesmus sp. | Physiology | LOEL | 6 | days | 5 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., and J.P. Gaur | Physiological Behavior of Scenedesmus sp. During Exposure to Elevated Levels of Cu and Zn and After Withdrawal of Metal Stress | Protoplasma229(1): 1-9 | 2006 | 2016/03/25 | ||||||
| 藻類 | Scenedesmus sp. | Population | LOEL | 6 | hours | 5 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., S.K. Mehta, A. Amar, and J.P. Gaur | Oxidative Stress in Scenedesmus sp. During Short- and Long-Term Exposure to Cu2+ and Zn2+ | Chemosphere62(4): 538-544 | 2006 | 2016/03/25 | ||||||
| 藻類 | Scenedesmus sp. | Biochemical | LOEL | 6 | hours | 5 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., S.K. Mehta, A. Amar, and J.P. Gaur | Oxidative Stress in Scenedesmus sp. During Short- and Long-Term Exposure to Cu2+ and Zn2+ | Chemosphere62(4): 538-544 | 2006 | 2016/03/25 | ||||||
| 藻類 | Scenedesmus sp. | Accumulation | LOEL | 6 | days | 5 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., and J.P. Gaur | Physiological Behavior of Scenedesmus sp. During Exposure to Elevated Levels of Cu and Zn and After Withdrawal of Metal Stress | Protoplasma229(1): 1-9 | 2006 | 2016/03/25 | ||||||
| 藻類 | Scenedesmus sp. | Biochemical | LOEL | 2 | days | 5 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., and J.P. Gaur | Physiological Behavior of Scenedesmus sp. During Exposure to Elevated Levels of Cu and Zn and After Withdrawal of Metal Stress | Protoplasma229(1): 1-9 | 2006 | 2016/03/25 | ||||||
| 藻類 | Scenedesmus sp. | Biochemical | LOEL | 6 | hours | 25 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., S.K. Mehta, A. Amar, and J.P. Gaur | Oxidative Stress in Scenedesmus sp. During Short- and Long-Term Exposure to Cu2+ and Zn2+ | Chemosphere62(4): 538-544 | 2006 | 2016/03/25 | ||||||
| 藻類 | Chlorella sp. | Population | NOEC | 6 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ji,J., Z. Long, and D. Lin | Toxicity of Oxide Nanoparticles to the Green Algae Chlorella sp. | Chem. Eng. J.170(2/3): 525-530 | 2011 | 2016/03/25 | ||||||
| 藻類 | Scenedesmus sp. | Biochemical | LOEL | 7 | days | 5 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., S.K. Mehta, A. Amar, and J.P. Gaur | Oxidative Stress in Scenedesmus sp. During Short- and Long-Term Exposure to Cu2+ and Zn2+ | Chemosphere62(4): 538-544 | 2006 | 2016/03/25 | ||||||
| 藻類 | Chlorella sp. | Population | IC50 | 3 | days | 110 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Chlorella sp. | Population | LOEC | 6 | days | >1000~<10000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ji,J., Z. Long, and D. Lin | Toxicity of Oxide Nanoparticles to the Green Algae Chlorella sp. | Chem. Eng. J.170(2/3): 525-530 | 2011 | 2016/03/25 | |||||||
| 藻類 | Chlorella sp. | Population | IC25 | 3 | days | 61 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Desmodesmus subspicatus | Population | EC50 | 3 | days | 1020 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Eisentraeger,A., W. Dott, J. Klein, and S. Hahn | Comparative Studies on Algal Toxicity Testing Using Fluorometric Microplate and Erlenmeyer Flask Growth-Inhibition Assays | Ecotoxicol. Environ. Saf.54(3): 346-354 | 2003 | 2016/03/25 | ||||||
| 藻類 | Desmodesmus subspicatus | Population | EC50 | 3 | days | 680 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Eisentraeger,A., W. Dott, J. Klein, and S. Hahn | Comparative Studies on Algal Toxicity Testing Using Fluorometric Microplate and Erlenmeyer Flask Growth-Inhibition Assays | Ecotoxicol. Environ. Saf.54(3): 346-354 | 2003 | 2016/03/25 | ||||||
| 藻類 | Desmodesmus subspicatus | Population | EC50 | 3 | days | 1400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Eisentraeger,A., W. Dott, J. Klein, and S. Hahn | Comparative Studies on Algal Toxicity Testing Using Fluorometric Microplate and Erlenmeyer Flask Growth-Inhibition Assays | Ecotoxicol. Environ. Saf.54(3): 346-354 | 2003 | 2016/03/25 | ||||||
| 藻類 | Desmodesmus subspicatus | Population | EC50 | 3 | days | 1540 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Eisentraeger,A., W. Dott, J. Klein, and S. Hahn | Comparative Studies on Algal Toxicity Testing Using Fluorometric Microplate and Erlenmeyer Flask Growth-Inhibition Assays | Ecotoxicol. Environ. Saf.54(3): 346-354 | 2003 | 2016/03/25 | ||||||
| 藻類 | Desmodesmus subspicatus | Population | EC50 | 3 | days | 640 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Eisentraeger,A., W. Dott, J. Klein, and S. Hahn | Comparative Studies on Algal Toxicity Testing Using Fluorometric Microplate and Erlenmeyer Flask Growth-Inhibition Assays | Ecotoxicol. Environ. Saf.54(3): 346-354 | 2003 | 2016/03/25 | ||||||
| 藻類 | Chlorella sp. | Population | EC30 | 6 | days | 2000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ji,J., Z. Long, and D. Lin | Toxicity of Oxide Nanoparticles to the Green Algae Chlorella sp. | Chem. Eng. J.170(2/3): 525-530 | 2011 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000275 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000105 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Scenedesmus sp. | Accumulation | LOEL | 7 | days | 5 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., S.K. Mehta, A. Amar, and J.P. Gaur | Oxidative Stress in Scenedesmus sp. During Short- and Long-Term Exposure to Cu2+ and Zn2+ | Chemosphere62(4): 538-544 | 2006 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000264 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000267 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000107 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Chlorella sp. | Population | IC10 | 3 | days | 28 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Scenedesmus sp. | Biochemical | NOEL | 6 | hours | 5 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., S.K. Mehta, A. Amar, and J.P. Gaur | Oxidative Stress in Scenedesmus sp. During Short- and Long-Term Exposure to Cu2+ and Zn2+ | Chemosphere62(4): 538-544 | 2006 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000488 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000196 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 4 | days | 44.7 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 0.000131 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218 | 2002 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 50.9 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Turbak,S.C., S.B. Olson, and G.A. McFeters | Comparison of Algal Assay Systems for Detecting Waterborne Herbicides and Metals | Water Res.20(1): 91-96 | 1986 | 2016/03/25 | ||||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 4 | days | 52.6 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 39 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Zinc Acclimation and Its Effect on the Zinc Tolerance of Raphidocelis subcapitata and Chlorella vulgaris in Laboratory Experiments | Chemosphere45(4-5): 507-514 | 2001 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 4 | days | 309.816 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Atay,S., and H.B. Ozkoc | Effect of Sediment on the Bioavailability and Toxicity of Copper and Zinc to a Green Alga | Fresenius Environ. Bull.19(12a): 3018-3027 | 2010 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 3 | days | 138 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Zinc Acclimation and Its Effect on the Zinc Tolerance of Raphidocelis subcapitata and Chlorella vulgaris in Laboratory Experiments | Chemosphere45(4-5): 507-514 | 2001 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Biochemical | EC50 | 4 | days | 55 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Chlorella vulgaris | Population | EC50 | 3 | days | 153 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Zinc Acclimation and Its Effect on the Zinc Tolerance of Raphidocelis subcapitata and Chlorella vulgaris in Laboratory Experiments | Chemosphere45(4-5): 507-514 | 2001 | 2016/03/25 | ||||||
| 藻類 | Chlorella sp. | Physiology | 1 | hours | 650000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Filippis,L.F. | The Effect of Heavy Metal Compounds on the Permeability of Chlorella Cells | Z. Pflanzenphysiol.92(1): 39-49 | 1979 | 2016/03/25 | |||||||
| 藻類 | Scenedesmus sp. | Cellular Effects | NOEL | 2 | days | 25 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tripathi,B.N., and J.P. Gaur | Physiological Behavior of Scenedesmus sp. During Exposure to Elevated Levels of Cu and Zn and After Withdrawal of Metal Stress | Protoplasma229(1): 1-9 | 2006 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 4 | days | 454.762 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Atay,S., and H.B. Ozkoc | Effect of Sediment on the Bioavailability and Toxicity of Copper and Zinc to a Green Alga | Fresenius Environ. Bull.19(12a): 3018-3027 | 2010 | 2016/03/25 | ||||||
| 藻類 | Chlorella vulgaris | Physiology | EC50 | 0.17 | hours | 0.098 | mmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kral'ova,K., E. Masarovicova, and K. Gyoryova | Inhibition of Photosynthetic Electron Transport in Spinach Chloroplasts and Chlorella vulgaris and Reduction of Sinapis alba L. Growth by Some Zn(II) Compounds | Fresenius Environ. Bull.12(8): 857-860 | 2003 | 2016/03/25 | ||||||
| 藻類 | Chlorella vulgaris | Cellular Effects | EC50 | 33 | days | 5100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rosko,J.J., and J.W. Rachlin | The Effect of Cadmium, Copper, Mercury, Zinc and Lead on Cell Division, Growth, and Chlorophyll A Content of the Chlorophyte Chlorella vulgaris | Bull. Torrey Bot. Club104(3): 226-233 | 1977 | 2016/03/25 | ||||||
| 藻類 | Chlorella vulgaris | Population | EC50 | 3 | days | 34 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Zinc Acclimation and Its Effect on the Zinc Tolerance of Raphidocelis subcapitata and Chlorella vulgaris in Laboratory Experiments | Chemosphere45(4-5): 507-514 | 2001 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | EC50 | 4 | days | 65.4 | μg/L | 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 | 2016/03/25 | ||||||
| 藻類 | Selenastrum capricornutum | Biomass | EbC95 | 14 | days | 0.0404 | mg Zn/L [nominal] | 8 NITE 化学物質の初期リスク評価書 | Greene, J.C., Miller, W.E., Shiroyama, T. and Merwin, E. | Toxicity of zinc to the green alga Selenastrum capricornutum as a function of phosphorus or ionic strength. | National Technical Information Service, Springfield, VA. EPA-660/3-75-034. | 2021/03/12 | |||||||
| 藻類 | Selenastrum capricornutum | Biomass | EbC100 | 7 | days | 0.12 | mg Zn/L [nominal] | 8 NITE 化学物質の初期リスク評価書 | Bartlett, L., Rabe F. W. and Funk W. H. | Effects of copper, zinc and cadmium on Selenastrum capricornutum. | Water Res., 8, | 2021/03/12 | |||||||
| 藻類 | Scenedesmus acuminatus | Biomass | EbC50 | 0.09 | mg Zn/L | 8 NITE 化学物質の初期リスク評価書 | Stokes, P.M. | Multiple Metal Tolerance in Copper Tolerant Green Algae. | J. Plant Nutr., 3(1-4) | 2021/04/06 | |||||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | IC50 | 3 | days | 69 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., N.J. Rogers, S.C. Apte, G.E. Batley, G.E. Gadd, and P.S. Casey | Comparative Toxicity of Nanoparticulate ZnO, Bulk ZnO, and ZnCl2 to a Freshwater Microalga (Pseudokirchneriella subcapitata): The Importance of Particle Solubility | Environ. Sci. Technol.41(24): 8484-8490 | 2007 | 2016/03/25 | ||||||
| 藻類 | Chlorella vulgaris | Mortality | LC100 | 15 | days | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rai,L.C., A.K. Singh, and N. Mallick | Studies on Photosynthesis, the Associated Electron Transport System and Some Physiological Variables of Chlorella vulgaris Under Heavy Metal Stress | J. Plant Physiol.137(4): 419-424 | 1991 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | IC50 | 3 | days | 60 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., N.J. Rogers, S.C. Apte, G.E. Batley, G.E. Gadd, and P.S. Casey | Comparative Toxicity of Nanoparticulate ZnO, Bulk ZnO, and ZnCl2 to a Freshwater Microalga (Pseudokirchneriella subcapitata): The Importance of Particle Solubility | Environ. Sci. Technol.41(24): 8484-8490 | 2007 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | IC50 | 3 | days | 68 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., N.J. Rogers, S.C. Apte, G.E. Batley, G.E. Gadd, and P.S. Casey | Comparative Toxicity of Nanoparticulate ZnO, Bulk ZnO, and ZnCl2 to a Freshwater Microalga (Pseudokirchneriella subcapitata): The Importance of Particle Solubility | Environ. Sci. Technol.41(24): 8484-8490 | 2007 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | IC50 | 3 | days | 61 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franklin,N.M., N.J. Rogers, S.C. Apte, G.E. Batley, G.E. Gadd, and P.S. Casey | Comparative Toxicity of Nanoparticulate ZnO, Bulk ZnO, and ZnCl2 to a Freshwater Microalga (Pseudokirchneriella subcapitata): The Importance of Particle Solubility | Environ. Sci. Technol.41(24): 8484-8490 | 2007 | 2016/03/25 | ||||||
| 藻類 | Selenastrum capricornutum | EC50 | 0.136 | mg/L [mg Zn2+/L] | 4 OECD SIDS (HPVC) | OECD SIDS | SIDS INITIAL ASSESSMENT PROFILE | 2005 | 2016/03/01 | ||||||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000267 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Chlorella pyrenoidosa | growth rate | EC50 | 24 | hours | 0.24 | mg/L | 16 ECOTOX | Lin,K.C., Y.L. Lee, and C.Y. Chen | Metal Toxicity to Chlorella pyrenoidosa Assessed by a Short-Term Continuous Test | J. Hazard. Mater.142(1-2) | 2020/11/12 | |||||||
| 藻類 | Chlorella pyrenoidosa | growth rate | EC50 | 24 | hours | 0.057 | mg/L | 16 ECOTOX | Lin,K.C., Y.L. Lee, and C.Y. Chen | Metal Toxicity to Chlorella pyrenoidosa Assessed by a Short-Term Continuous Test | J. Hazard. Mater.142(1-2) | 2020/11/12 | |||||||
| 藻類 | Chlorella saccharophila | cell number | EC50 | 96 | hours | 7100 | μg/L | 16 ECOTOX | Rachlin,J.W., T.E. Jensen, B. Warkentine, and H.H. Lehman | The Growth Response of the Green Alga (Chlorella saccharophila) to Selected Concentrations of the Heavy Metals Cd, Cu, Pb, and Zn | In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000108 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 96 | hours | 44.7 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000312 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | growth rate | IC50 | 72 | hours | 68 | μg/L | 16 ECOTOX | Franklin,N.M., N.J. Rogers, S.C. Apte, G.E. Batley, G.E. Gadd, and P.S. Casey | Comparative Toxicity of Nanoparticulate ZnO, Bulk ZnO, and ZnCl2 to a Freshwater Microalga (Pseudokirchneriella subcapitata): The Importance of Particle Solubility | Environ. Sci. Technol.41(24) | 2020/11/12 | |||||||
| 藻類 | Phaeodactylum tricornutum | growth rate | EC50 | 96 | hours | 262.484 | μg/L | 0 mg/L / 0.25 mg/L / 0.50 mg/L / 0.75 mg/L / 1.00 | 16 ECOTOX | Atay,S., H.B. Ozkoc, and V.R. Uslu | Sediment Toxicity for Evaluation of Sediment Quality Guidelines and Bioavailability of Copper and Zinc | Fresenius Environ. Bull.22(4) | 2020/11/12 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | growth rate | IC50 | 72 | hours | 60 | μg/L | 16 ECOTOX | Franklin,N.M., N.J. Rogers, S.C. Apte, G.E. Batley, G.E. Gadd, and P.S. Casey | Comparative Toxicity of Nanoparticulate ZnO, Bulk ZnO, and ZnCl2 to a Freshwater Microalga (Pseudokirchneriella subcapitata): The Importance of Particle Solubility | Environ. Sci. Technol.41(24) | 2020/11/12 | |||||||
| 藻類 | Chlorella vulgaris | Biomass | EC50 | 72 | hours | 34 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Zinc Acclimation and Its Effect on the Zinc Tolerance of Raphidocelis subcapitata and Chlorella vulgaris in Laboratory Experiments | Chemosphere45(4-5) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | growth rate | EC50 | 72 | hours | 138 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Zinc Acclimation and Its Effect on the Zinc Tolerance of Raphidocelis subcapitata and Chlorella vulgaris in Laboratory Experiments | Chemosphere45(4-5) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.00000245 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000209 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000264 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Desmodesmus subspicatus | growth rate | EC50 | 72 | hours | 1.54 | mg/L | 16 ECOTOX | Eisentraeger,A., W. Dott, J. Klein, and S. Hahn | Comparative Studies on Algal Toxicity Testing Using Fluorometric Microplate and Erlenmeyer Flask Growth-Inhibition Assays | Ecotoxicol. Environ. Saf.54(3) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000192 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | weeks | 50.9 | μg/L | 16 ECOTOX | Turbak,S.C., S.B. Olson, and G.A. McFeters | Comparison of Algal Assay Systems for Detecting Waterborne Herbicides and Metals | Water Res.20(1) | 2020/11/12 | ||||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.0000000893 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 39 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Zinc Acclimation and Its Effect on the Zinc Tolerance of Raphidocelis subcapitata and Chlorella vulgaris in Laboratory Experiments | Chemosphere45(4-5) | 2020/11/12 | |||||||
| 藻類 | Desmodesmus subspicatus | Biomass | EC50 | 72 | hours | 0.68 | mg/L | 16 ECOTOX | Eisentraeger,A., W. Dott, J. Klein, and S. Hahn | Comparative Studies on Algal Toxicity Testing Using Fluorometric Microplate and Erlenmeyer Flask Growth-Inhibition Assays | Ecotoxicol. Environ. Saf.54(3) | 2020/11/12 | |||||||
| 藻類 | Desmodesmus subspicatus | Growth | EC50 | 72 | hours | 0.64 | mg/L | 16 ECOTOX | Eisentraeger,A., W. Dott, J. Klein, and S. Hahn | Comparative Studies on Algal Toxicity Testing Using Fluorometric Microplate and Erlenmeyer Flask Growth-Inhibition Assays | Ecotoxicol. Environ. Saf.54(3) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000309 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000126 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Skeletonema costatum | cell number | IC50 | 5 | hours | 20.37 | ppm | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000289 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Scenedesmus acuminatus | Growth (change in N/change in time) | EC50 | days | 90 | μg/L | 16 ECOTOX | Stokes,P.M. | Multiple Metal Tolerance in Copper Tolerant Green Algae | J. Plant Nutr.3(1-4): 667-678 | 2020/11/12 | ||||||||
| 藻類 | Pseudokirchneriella subcapitata | growth rate | EC50 | 96 | hours | 309.816 | μg/L | 0 ug/L / 250 ug/L / 500 ug/L / 750 ug/L / 1000 ug/ | 16 ECOTOX | Atay,S., and H.B. Ozkoc | Effect of Sediment on the Bioavailability and Toxicity of Copper and Zinc to a Green Alga | Fresenius Environ. Bull.19(12a) | 2020/11/12 | ||||||
| 藻類 | Desmodesmus subspicatus | growth rate | EC50 | 72 | hours | 1.02 | mg/L | 16 ECOTOX | Eisentraeger,A., W. Dott, J. Klein, and S. Hahn | Comparative Studies on Algal Toxicity Testing Using Fluorometric Microplate and Erlenmeyer Flask Growth-Inhibition Assays | Ecotoxicol. Environ. Saf.54(3) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000001 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000109 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Scenedesmus quadricauda | Growth | EC50 | 24 | hours | 4.44 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.00000128 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.0000000842 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Chlorella vulgaris | growth rate | EC50 | 72 | hours | 153 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Zinc Acclimation and Its Effect on the Zinc Tolerance of Raphidocelis subcapitata and Chlorella vulgaris in Laboratory Experiments | Chemosphere45(4-5) | 2020/11/12 | |||||||
| 藻類 | Scenedesmus quadricauda | Growth | EC50 | 24 | hours | 0.41 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | growth rate | IC50 | 72 | hours | 69 | μg/L | 16 ECOTOX | Franklin,N.M., N.J. Rogers, S.C. Apte, G.E. Batley, G.E. Gadd, and P.S. Casey | Comparative Toxicity of Nanoparticulate ZnO, Bulk ZnO, and ZnCl2 to a Freshwater Microalga (Pseudokirchneriella subcapitata): The Importance of Particle Solubility | Environ. Sci. Technol.41(24) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000488 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000158 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | growth rate | EC50 | 96 | hours | 454.762 | μg/L | 0 ug/L / 250 ug/L / 500 ug/L / 750 ug/L / 1000 ug/ | 16 ECOTOX | Atay,S., and H.B. Ozkoc | Effect of Sediment on the Bioavailability and Toxicity of Copper and Zinc to a Green Alga | Fresenius Environ. Bull.19(12a) | 2020/11/12 | ||||||
| 藻類 | Chlorella vulgaris | Physiology//Photosynthesis | EC50 | 10 | minutes | 0.098 | mmol/L | 16 ECOTOX | Kral'ova,K., E. Masarovicova, and K. Gyoryova | Inhibition of Photosynthetic Electron Transport in Spinach Chloroplasts and Chlorella vulgaris and Reduction of Sinapis alba L. Growth by Some Zn(II) Compounds | Fresenius Environ. Bull.12(8) | 2020/11/12 | |||||||
| 藻類 | Navicula incerta | Growth (change in N/change in time) | EC50 | 96 | hours | 26 | μg/L | 16 ECOTOX | Rachlin,J.W., T.E. Jensen, and B. Warkentine | The Growth Response of the Diatom Navicula incerta to Selected Concentrations of the Metals: Cadmium, Copper, Lead and Zinc | Bull. Torrey Bot. Club110(2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | growth rate | IC50 | 72 | hours | 61 | μg/L | 16 ECOTOX | Franklin,N.M., N.J. Rogers, S.C. Apte, G.E. Batley, G.E. Gadd, and P.S. Casey | Comparative Toxicity of Nanoparticulate ZnO, Bulk ZnO, and ZnCl2 to a Freshwater Microalga (Pseudokirchneriella subcapitata): The Importance of Particle Solubility | Environ. Sci. Technol.41(24) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000139 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000275 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000107 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000196 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000492 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000131 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000105 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Chlorella vulgaris | growth rate | EC50 | 9 | days | 0.85 | mg/dm3 | 16 ECOTOX | Latala,A., and W. Surosz | Growth of Four Planktonic Algae from Brackish Water in the Presence of Heavy Metals | Pol. Arch. Hydrobiol.46(2) | 2020/11/12 | |||||||
| 藻類 | Navicula incerta | Culture growth | EC50 | 9 | hours | 10 | mg/L [nominal] | 10 EHC (Environmental Health Criteria) | Rachlin JW, Jensen TE, & Warkentine B | The growth response of the diatom Navicula incerta to selected concentrations of the metals: cadmium, copper, lead and zinc. | Bull BullTorrey Bot Club, 110(2) | 2021/03/30 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | cell number | EC50 | 96 | hours | 52.6 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 藻類 | Chlorella sp. | growth rate | IC50 | 72 | hours | 110 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000143 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | EC50 | 72 | hours | 0.000000143 | M | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata: Possibilities and Limitations | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | cell number | EC50 | 96 | hours | 65.4 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | cell number | EC50 | 48 | hours | 96 | μg/L | 16 ECOTOX | Pardos,M., C. Benninghoff, and R.L. Thomas | Photosynthetic and Population Growth Response of the Test Alga Selenastrum capricornutum Printz to Zinc, Cadmium and Suspended Sediment Elutriates | J. Appl. Phycol.10(2) | 2020/11/12 | |||||||
| 藻類 | Desmodesmus subspicatus | growth rate | EC50 | 72 | hours | 1.4 | mg/L | 16 ECOTOX | Eisentraeger,A., W. Dott, J. Klein, and S. Hahn | Comparative Studies on Algal Toxicity Testing Using Fluorometric Microplate and Erlenmeyer Flask Growth-Inhibition Assays | Ecotoxicol. Environ. Saf.54(3) | 2020/11/12 | |||||||
| 藻類 | Phaeodactylum tricornutum | growth rate | EC50 | 96 | hours | 365.824 | μg/L | 0 mg/L / 0.25 mg/L / 0.50 mg/L / 0.75 mg/L / 1.00 | 16 ECOTOX | Atay,S., H.B. Ozkoc, and V.R. Uslu | Sediment Toxicity for Evaluation of Sediment Quality Guidelines and Bioavailability of Copper and Zinc | Fresenius Environ. Bull.22(4) | 2020/11/12 | ||||||
| 藻類 | Skeletonema costatum | Growth | EC50 | 72 | hours | 142 | μg/L | 16 ECOTOX | Walsh,G.E., L.L. McLaughlin, M.J. Yoder, P.H. Moody, E.M. Lores, J. Forester, and P.B. Wessinger-Duvall | Minutocellus polymorphus: A New Marine Diatom for Use in Algal Toxicity Tests | Environ. Toxicol. Chem.7(11) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 58 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth, Emergence | NOEC | 3 | days | 5.5 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 41 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth, Emergence | NOEC | 3 | days | 15 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 10 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 9.4 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth, Emergence | NOEC | 3 | days | 5.2 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth, Emergence | NOEC | 3 | days | 5.5 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth, Emergence | NOEC | 3 | days | 5.2 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 105 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 91 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 73 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth, Emergence | NOEC | 3 | days | 27 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Chlorella sp. | growth rate | NOEC | 72 | hours | 20 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | growth rate | NOEC | 96 | hours | 0.02 | mg/L | 16 ECOTOX | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | cell number | NOEC | 96 | hours | 0.02 | mg/L | 16 ECOTOX | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | growth rate | NOEC | 96 | hours | 0.02 | mg/L | 16 ECOTOX | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6) | 2020/11/12 | |||||||
| 藻類 | Navicula incerta | Growth | NOEC | 4 | days | 1000 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Rachlin, J.W. et al. | The growth response of the diatom Navicula incerta to selected concentrations of the metals: cadmium, copper, lead and zinc | Bull. Torrey Bot. Club 110 | 2021/04/02 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | growth rate | LOEC | 96 | hours | 0.05 | mg/L | 16 ECOTOX | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6) | 2020/11/12 | |||||||
| 藻類 | Selenastrum capricornutum | NOEC | 7 | days | 0.03 | mg Zn/L [nominal] | 8 NITE 化学物質の初期リスク評価書 | Bartlett, L., Rabe F. W. and Funk W. H. | Effects of copper, zinc and cadmium on Selenastrum capricornutum. | Water Res., 8, | 2021/04/06 | ||||||||
| 藻類 | Chlorella vulgaris | Growth | NOEC | 5 | weeks | 560 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Rosko, J.J. and J. W. Rachlin | The effect of cadmium, copper, mercury, zinc, and lead on cell division and chlorophyll a content of the chlorophyte Chlorella vulgaris | Bull. Torrey Bot. Club. 104 | 2021/04/02 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 228 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 藻類 | Chlorella pyrenoidosa | cell number | NOEC | 24 | hours | 0.02 | mg/L | 16 ECOTOX | Lin,K.C., Y.L. Lee, and C.Y. Chen | Metal Toxicity to Chlorella pyrenoidosa Assessed by a Short-Term Continuous Test | J. Hazard. Mater.142(1-2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | growth rate | LOEC | 96 | hours | 0.05 | mg/L | 16 ECOTOX | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6) | 2020/11/12 | |||||||
| 藻類 | Chlorella vulgaris | growth rate | EC10 | 9 | days | 0.52 | mg/dm3 | 16 ECOTOX | Latala,A., and W. Surosz | Growth of Four Planktonic Algae from Brackish Water in the Presence of Heavy Metals | Pol. Arch. Hydrobiol.46(2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Emergence, Growth | NOEC | 4 | days | 10 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Bartlett, L. et al. | Effects of copper, zinc and cadmium on Selenastrum capricornutum | Water Res. 8 | 2021/04/02 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Emergence, Growth | NOEC | 3 | days | 8 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 藻類 | Scenedesmus sp. | cell number | LOEL | 144 | hours | 5 | μM | 16 ECOTOX | Tripathi,B.N., and J.P. Gaur | Physiological Behavior of Scenedesmus sp. During Exposure to Elevated Levels of Cu and Zn and After Withdrawal of Metal Stress | Protoplasma229(1) | 2020/11/12 | |||||||
| 藻類 | Chlorella sp. | cell number | NOEC | 6 | days | 1 | mg/L | 0 mg/L / >0.1-<1 mg/L / ~1 mg/L / >1-<10 mg/L / >1 | 16 ECOTOX | Ji,J., Z. Long, and D. Lin | Toxicity of Oxide Nanoparticles to the Green Algae Chlorella sp. | Chem. Eng. J.170(2/3) | 2020/11/12 | ||||||
| 藻類 | Chlorella pyrenoidosa | cell number | NOEC | 24 | hours | 0.025 | mg/L | 16 ECOTOX | Lin,K.C., Y.L. Lee, and C.Y. Chen | Metal Toxicity to Chlorella pyrenoidosa Assessed by a Short-Term Continuous Test | J. Hazard. Mater.142(1-2) | 2020/11/12 | |||||||
| 藻類 | Scenedesmus acutus var. acutus | Physiology//Photosystem II (PSII) electron transport activity | NOEL | 1 | hours | 100 | μmol/L | 16 ECOTOX | Mallick,N., and F.H. Mohn | Use of Chlorophyll Fluorescence in Metal-Stress Research: A Case Study with the Green Microalga Scenedesmus | Ecotoxicol. Environ. Saf.55(1) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 186 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | LOEC | 24 | hours | 25 | μg/g | 16 ECOTOX | Thompson,J.A. | Cellular Fluorescence Capacity as an Endpoint in Algal Toxicity Testing | Chemosphere35(9) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth, Emergence | NOEC | 3 | days | 5.4 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | growth rate | LOEC | 96 | hours | 0.05 | mg/L | 16 ECOTOX | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6) | 2020/11/12 | |||||||
| 藻類 | Scenedesmus acutus | Biomass | LOEL | 7 | days | 1 | mg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth, Emergence | NOEC | 3 | days | 8.6 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Chlorella sp. | growth rate | IC10 | 72 | hours | 28 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 藻類 | Chlorella sp. | cell number | LOEC | 6 | days | >1~10 | mg/L | 0 mg/L / >0.1-<1 mg/L / ~1 mg/L / >1-<10 mg/L / >1 | 16 ECOTOX | Ji,J., Z. Long, and D. Lin | Toxicity of Oxide Nanoparticles to the Green Algae Chlorella sp. | Chem. Eng. J.170(2/3) | 2020/11/12 | ||||||
| 藻類 | Scenedesmus acutus | Biomass | LOEL | 7 | days | 1 | mg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 藻類 | Chlorella sp. | growth rate | LOEC | 72 | hours | 44 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 358 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Physiology//Photosynthesis | LOEC | 96 | hours | 500 | μg/g | 16 ECOTOX | Thompson,J.A. | Cellular Fluorescence Capacity as an Endpoint in Algal Toxicity Testing | Chemosphere35(9) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Biomass | LOEC | 96 | hours | 12.5 | μg/g | 16 ECOTOX | Thompson,J.A. | Cellular Fluorescence Capacity as an Endpoint in Algal Toxicity Testing | Chemosphere35(9) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 74 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth, Emergence | NOEC | 3 | days | 7.7 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Anabaena doliolum | growth rate | LOEL | 15 | days | 2.5 | μM | 16 ECOTOX | Tripathi,B.N., S.K. Mehta, and J.P. Gaur | Differential Sensitivity of Anabaena doliolum to Cu and Zn in Batch and Semicontinuous Cultures | Ecotoxicol. Environ. Saf.56(2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 7.4 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 124 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 8.5 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Scenedesmus sp. | Physiology//Nitrate Uptake (NO3-) | LOEL | 144 | hours | 5 | μM | 16 ECOTOX | Tripathi,B.N., and J.P. Gaur | Physiological Behavior of Scenedesmus sp. During Exposure to Elevated Levels of Cu and Zn and After Withdrawal of Metal Stress | Protoplasma229(1) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 131 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 藻類 | Scenedesmus acutus var. acutus | Physiology//Photosystem II (PSII) electron transport activity | LOEL | 12 | hours | 100 | μmol/L | 16 ECOTOX | Mallick,N., and F.H. Mohn | Use of Chlorophyll Fluorescence in Metal-Stress Research: A Case Study with the Green Microalga Scenedesmus | Ecotoxicol. Environ. Saf.55(1) | 2020/11/12 | |||||||
| 藻類 | Anabaena doliolum | growth rate | LOEL | 15 | days | 2.5 | μM | 16 ECOTOX | Tripathi,B.N., S.K. Mehta, and J.P. Gaur | Differential Sensitivity of Anabaena doliolum to Cu and Zn in Batch and Semicontinuous Cultures | Ecotoxicol. Environ. Saf.56(2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth, Emergence | NOEC | 3 | days | 6.8 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth, Emergence | NOEC | 3 | days | 7.9 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Scenedesmus acutus var. acutus | Physiology//Photosystem II (PSII) electron transport activity | LOEL | 1 | hours | 500 | μmol/L | 16 ECOTOX | Mallick,N., and F.H. Mohn | Use of Chlorophyll Fluorescence in Metal-Stress Research: A Case Study with the Green Microalga Scenedesmus | Ecotoxicol. Environ. Saf.55(1) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth, Emergence | NOEC | 3 | days | 4.9 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/23 | |||||||
| 藻類 | Chlorella vulgaris | growth rate | NOEC | 9 | days | 0.1 | mg/dm3 | 16 ECOTOX | Latala,A., and W. Surosz | Growth of Four Planktonic Algae from Brackish Water in the Presence of Heavy Metals | Pol. Arch. Hydrobiol.46(2) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | cell number | LOEC | 96 | hours | 0.05 | mg/L | 16 ECOTOX | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6) | 2020/11/12 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | growth rate | NOEC | 96 | hours | 0.02 | mg/L | 16 ECOTOX | Chao,M.R., and C.Y. Chen | No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests | Environ. Toxicol. Chem.19(6) | 2020/11/12 | |||||||
| 藻類 | Phaeodactylum tricornutum | growth rate | NOEC | 15 | days | 10000 | 12 ECHA Information on Registered Substances | Jensen A, Rystad B & Melsom S | Heavy metal tolerance of marine phytoplankton. 1. The tolerance of three algal species to zinc in coastal sea | J Exp Marine Biol & Ecol 15/2 | 2021/03/02 | ||||||||
| 藻類 | Chlorella sp. | growth rate | EC10 | 48 | hours | 16 | μg/L | ○ | 12 ECHA Information on Registered Substances | Wilde K. L. , Stauber J.L., Markich, S.J., Franklin N. M. and Brown, P.L. | The effect of pH on the uptake and toxicity of copper and zinc in a tropical freshwater alga (Chlorella sp. ) | Arch. Environm. Contam. Toxic. 51 | 2021/03/02 | ||||||
| 藻類 | Phaeodactylum tricornutum | growth rate | NOEC | 14 | days | 500 | ○ | 12 ECHA Information on Registered Substances | Braek GS, Malnes D & Jensen A | Heavy metal tolerance of marine phytoplankton. IV. combined effect of zinc and cadmium on growth and uptake in some marine diatoms. | J Exp Marine Biol & Ecol 42 | 2021/03/02 | |||||||
| 藻類 | Skeletonema costatum | growth rate | NOEC | 14 | days | 50 | ○ | 12 ECHA Information on Registered Substances | Braek GS, Malnes D & Jensen A | Heavy metal tolerance of marine phytoplankton. IV. combined effect of zinc and cadmium on growth and uptake in some marine diatoms. | J Exp Marine Biol & Ecol 42 | 2021/03/02 | |||||||
| 藻類 | Skeletonema costatum | growth rate | EC10 | 14 | days | 77.5 | μg/L | ○ | 12 ECHA Information on Registered Substances | Braek GS, Jensen A & Mohus A | Heavy metal tolerance of marine phytoplankton. III. Combined effects of copper and zinc ions on cultures of four common species. | J Exp Marine Biol & Ecol 25 | 2021/03/02 | ||||||
| 藻類 | Skeletonema costatum | growth rate | LOEC | 14 | days | 100 | ○ | 12 ECHA Information on Registered Substances | Braek GS, Jensen A & Mohus A | Heavy metal tolerance of marine phytoplankton. III. Combined effects of copper and zinc ions on cultures of four common species. | J Exp Marine Biol & Ecol 25 | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | EC10 | 48 | hours | 5.9 | μg/L | ○ | 12 ECHA Information on Registered Substances | Wilde K. L. , Stauber J.L., Markich, S.J., Franklin N. M. and Brown, P.L. | The effect of pH on the uptake and toxicity of copper and zinc in a tropical freshwater alga (Chlorella sp. ) | Arch. Environm. Contam. Toxic. 51 | 2021/03/02 | ||||||
| 藻類 | Chlorella sp. | growth rate | EC10 | 48 | hours | 350 | μg/L | ○ | 12 ECHA Information on Registered Substances | Wilde K. L. , Stauber J.L., Markich, S.J., Franklin N. M. and Brown, P.L. | The effect of pH on the uptake and toxicity of copper and zinc in a tropical freshwater alga (Chlorella sp. ) | Arch. Environm. Contam. Toxic. 51 | 2021/03/02 | ||||||
| 藻類 | Skeletonema costatum | growth rate | NOEC | 15 | days | 25 | 12 ECHA Information on Registered Substances | Jensen A, Rystad B & Melsom S | Heavy metal tolerance of marine phytoplankton. 1. The tolerance of three algal species to zinc in coastal sea | J Exp Marine Biol & Ecol 15/2 | 2021/03/02 | ||||||||
| 藻類 | Phaeodactylum tricornutum | growth rate | NOEC | 14 | days | 500 | 12 ECHA Information on Registered Substances | Braek GS, Jensen A & Mohus A | Heavy metal tolerance of marine phytoplankton. III. Combined effects of copper and zinc ions on cultures of four common species. | J Exp Marine Biol & Ecol 25 | 2021/03/02 | ||||||||
| 藻類 | Dunaliella tertiolecta | growth rate | NOEC | 96 | hours | 3278 | μg/L | ○ | 12 ECHA Information on Registered Substances | Miao A-J, Wang W-X & Juneau P | Comparison of Cd, Cu, And Zn toxic effects on four marine phytoplankton by Pulse-Amplitude-Modulated Fluorometry | Environmental Toxicology and Chemistry 24 (10) | 2021/03/02 | ||||||
| 藻類 | Dunaliella tertiolecta | growth rate | NOEC | 96 | hours | 0.63 | μmol/L | ○ | 12 ECHA Information on Registered Substances | Miao A-J, Wang W-X & Juneau P | Comparison of Cd, Cu, And Zn toxic effects on four marine phytoplankton by Pulse-Amplitude-Modulated Fluorometry | Environmental Toxicology and Chemistry 24 (10) | 2021/03/02 | ||||||
| 藻類 | Phaeodactylum tricornutum | growth rate | NOEC | 12 | days | 4800 | ○ | 12 ECHA Information on Registered Substances | Wikfors, G.H. and R. Ukeles | Growth and adaptation of estuarine unicellular algae in media with excess copper, cadmium or zinc, and effects of metal-contaminated algal food on Crassostrea virginica larvae | Mar. Ecol. Prog. Ser. 7 | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | EC10 | 48 | hours | 93 | μg/L | ○ | 12 ECHA Information on Registered Substances | Wilde K. L. , Stauber J.L., Markich, S.J., Franklin N. M. and Brown, P.L. | The effect of pH on the uptake and toxicity of copper and zinc in a tropical freshwater alga (Chlorella sp. ) | Arch. Environm. Contam. Toxic. 51 | 2021/03/02 | ||||||
| 藻類 | Chlorella sp. | growth rate | EC10 | 48 | hours | 105 | μg/L | ○ | 12 ECHA Information on Registered Substances | Wilde K. L. , Stauber J.L., Markich, S.J., Franklin N. M. and Brown, P.L. | The effect of pH on the uptake and toxicity of copper and zinc in a tropical freshwater alga (Chlorella sp. ) | Arch. Environm. Contam. Toxic. 51 | 2021/03/02 | ||||||
| 藻類 | Phaeodactylum tricornutum | growth rate | NOEC | 12 | days | 4800 | 12 ECHA Information on Registered Substances | Wikfors, G.H. and R. Ukeles | Growth and adaptation of estuarine unicellular algae in media with excess copper, cadmium or zinc, and effects of metal-contaminated algal food on Crassostrea virginica larvae | Mar. Ecol. Prog. Ser. 7 | 2021/03/02 | ||||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | hours | 1000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | ||||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | hours | 300 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | ||||||||
| 甲殻類 | Chironomus riparius | Mortality | NR-LETH | 96 | hours | 930.6 | μg/L | 16 ECOTOX | Postma,J.F., S. Mol, H. Larsen, and W. Admiraal | Life-Cycle Changes and Zinc Shortage in Cadmium-Tolerant Midges, Chironomus riparius (Diptera), Reared in the Absence of Cadmium | Environ. Toxicol. Chem.14(1) | 2020/11/12 | |||||||
| 甲殻類 | Chironomus tentans | Mortality | NR-LETH | 56 | days | 920~950200 | μg/L | 16 ECOTOX | Sibley,P.K., G.T. Ankley, A.M. Cotter, and E.N. Leonard | Predicting Chronic Toxicity of Sediments Spiked with Zinc: An Evaluation of the Acid-Volatile Sulfide Model Using a Life-Cycle Test with the Midge | Environ. Toxicol. Chem.15(12) | 2020/11/12 | |||||||
| 甲殻類 | Strongylocentrotus droebachiensis | Development | EC50 | 120 | hours | >26.6~50.6 | μg/L | 16 ECOTOX | Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani | Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters | Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea gigas | Metamorphosis | LOEC | 96 | hours | 500 | ppb | 16 ECOTOX | Chang,E.Y., S.L. Coon, M. Walch, and R. Weiner | Effects of Hyphomonas PM-1 Biofilms on the Toxicity of Copper and Zinc to Crassostrea gigas and Crassostrea virginica Larval Set | J. Shellfish Res.15(3) | 2020/11/12 | |||||||
| 甲殻類 | Dendraster excentricus | Development | EC50 | 72 | hours | >580~820 | μg/L | 16 ECOTOX | Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani | Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters | Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | hours | 30000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | ||||||||
| 甲殻類 | Strongylocentrotus purpuratus | Development | EC50 | 120 | hours | 23.1 | μg/L | 16 ECOTOX | Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani | Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters | Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | hours | 1000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | ||||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | hours | 10000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | ||||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | hours | 30000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | ||||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | 400 | hours | 3000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | 100 | hours | 1000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | |||||||
| 甲殻類 | Dendraster excentricus | Development | EC50 | 72 | hours | >580~820 | μg/L | 16 ECOTOX | Dinnel,P.A., J.M. Link, Q.J. Stober, M.W. Letourneau, and W.E. Roberts | Comparative Sensitivity of Sea Urchin Sperm Bioassays to Metals and Pesticides | Arch. Environ. Contam. Toxicol.18(5) | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | NR-LETH | 14 | days | 10 | μg/g | 16 ECOTOX | Burbidge,F.J., D.J. Macey, J. Webb, and V. Talbot | A Comparison Between Particulate (Elemental) Zinc and Soluble Zinc (ZnCl2) Uptake and Effects in the Mussel, Mytilus edulis | Arch. Environ. Contam. Toxicol.26(4) | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | hours | 3000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | ||||||||
| 甲殻類 | Corophium volutator | Growth//General growth rate | LOEC | 77 | days | 0.2 | mg/L | 16 ECOTOX | Conradi,M., and M.H. Depledge | Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator | Mar. Ecol. Prog. Ser.176 | 2020/11/12 | |||||||
| 甲殻類 | Chironomus tentans | Mortality | LC50 | 20 | days | 750 | μg/L | 16 ECOTOX | Sibley,P.K., G.T. Ankley, A.M. Cotter, and E.N. Leonard | Predicting Chronic Toxicity of Sediments Spiked with Zinc: An Evaluation of the Acid-Volatile Sulfide Model Using a Life-Cycle Test with the Midge | Environ. Toxicol. Chem.15(12) | 2020/11/12 | |||||||
| 甲殻類 | Chironomus riparius | Mortality | LC50 | 24 | hours | 94300 | μg/L | 16 ECOTOX | Ibrahim,H., R. Kheir, S. Helmi, J. Lewis, and M. Crane | Effects of Organophosphorus, Carbamate, Pyrethroid and Organochlorine Pesticides, and a Heavy Metal on Survival and Cholinesterase Activity of | Bull. Environ. Contam. Toxicol.60 | 2020/11/12 | |||||||
| 甲殻類 | Nitocra spinipes | Reproduction | EC50 | 13 | days | 430 | μg/L | 16 ECOTOX | Bengtsson,B.E., and B. Bergstrom | A Flowthrough Fecundity Test with Nitocra spinipes (Harpacticoidea Crustacea) for Aquatic Toxicity | Ecotoxicol. Environ. Saf.14 | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | hours | 10000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | ||||||||
| 甲殻類 | Crassostrea gigas | Search/explore/forage behavior | NOEC | 96 | hours | 500 | ppb | 16 ECOTOX | Chang,E.Y., S.L. Coon, M. Walch, and R. Weiner | Effects of Hyphomonas PM-1 Biofilms on the Toxicity of Copper and Zinc to Crassostrea gigas and Crassostrea virginica Larval Set | J. Shellfish Res.15(3) | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | 400 | hours | 3000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | NR-LETH | 14 | days | 2 | μg/g | 16 ECOTOX | Burbidge,F.J., D.J. Macey, J. Webb, and V. Talbot | A Comparison Between Particulate (Elemental) Zinc and Soluble Zinc (ZnCl2) Uptake and Effects in the Mussel, Mytilus edulis | Arch. Environ. Contam. Toxicol.26(4) | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | NR-ZERO | 11 | days | 300 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | |||||||
| 甲殻類 | Chironomus tentans | Mortality | NR-LETH | 20 | days | 11420~950200 | μg/L | 16 ECOTOX | Sibley,P.K., G.T. Ankley, A.M. Cotter, and E.N. Leonard | Predicting Chronic Toxicity of Sediments Spiked with Zinc: An Evaluation of the Acid-Volatile Sulfide Model Using a Life-Cycle Test with the Midge | Environ. Toxicol. Chem.15(12) | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | hours | 300 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | ||||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 72 | hours | 8130 | μg/L | 16 ECOTOX | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2) | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | hours | 30000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | ||||||||
| 甲殻類 | Chironomus riparius | Mortality | LC50 | 24 | hours | 25 | mg/L | 16 ECOTOX | Bechard,K.M., P.L. Gillis, and C.M. Wood | Acute Toxicity of Waterborne Cd, Cu, Pb, Ni, and Zn to First-Instar Chironomus riparius Larvae | Arch. Environ. Contam. Toxicol.54(3) | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Development | EC50 | 72 | hours | >96~314 | μg/L | 16 ECOTOX | Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani | Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters | Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | 400 | hours | 3000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Development//Maturity | LOEC | 63 | 0.2 | mg/L | 16 ECOTOX | Conradi,M., and M.H. Depledge | Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator | Mar. Ecol. Prog. Ser.176 | 2020/11/12 | ||||||||
| 甲殻類 | Corophium volutator | Development//Maturity | LOEC | 77 | 0.2 | mg/L | 16 ECOTOX | Conradi,M., and M.H. Depledge | Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator | Mar. Ecol. Prog. Ser.176 | 2020/11/12 | ||||||||
| 甲殻類 | Corophium volutator | Development//Maturity | LOEC | 87 | 0.2 | mg/L | 16 ECOTOX | Conradi,M., and M.H. Depledge | Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator | Mar. Ecol. Prog. Ser.176 | 2020/11/12 | ||||||||
| 甲殻類 | Corophium volutator | Growth(Length) | LOEC | 37 | days | 0.2 | mg/L | 16 ECOTOX | Conradi,M., and M.H. Depledge | Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator | Mar. Ecol. Prog. Ser.176 | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | MATC | 4 | days | 70 | μg/L | 16 ECOTOX | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10 | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | MATC | 4 | days | 70 | μg/L | 16 ECOTOX | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10 | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 72 | hours | 126.1 | μg/L | 16 ECOTOX | Attar,E.N., and E.J. Maly | Acute Toxicity of Cadmium, Zinc, and Cadmium-Zinc Mixtures to Daphnia magna | Arch. Environ. Contam. Toxicol.11(3) | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea gigas | Swimming | LOEC | 96 | hours | 1500 | ppb | 16 ECOTOX | Chang,E.Y., S.L. Coon, M. Walch, and R. Weiner | Effects of Hyphomonas PM-1 Biofilms on the Toxicity of Copper and Zinc to Crassostrea gigas and Crassostrea virginica Larval Set | J. Shellfish Res.15(3) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | NR-ZERO | 14 | days | 80 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3) | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Growth(Length) | LOEC | 56 | days | 0.2 | mg/L | 16 ECOTOX | Conradi,M., and M.H. Depledge | Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator | Mar. Ecol. Prog. Ser.176 | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea gigas | Search/explore/forage behavior | EC50 | 96 | hours | 1.2~1.3 | ppm | 16 ECOTOX | Chang,Y.Y.E. | Impact of Microbial Biofilms on the Toxicity of Copper and Zinc to Oyster Larval Development | Ph.D.Thesis, University of Maryland, College Park, MD | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Growth(Length) | LOEC | 44 | days | 0.2 | mg/L | 16 ECOTOX | Conradi,M., and M.H. Depledge | Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator | Mar. Ecol. Prog. Ser.176 | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea gigas | Growth | EC50 | 4 | days | 95 | μg/L | 16 ECOTOX | Watling,H.R. | Comparative Study of the Effects of Zinc, Cadmium, and Copper on the Larval Growth of Three Oyster Species | Bull. Environ. Contam. Toxicol.28 | 2020/11/12 | |||||||
| 甲殻類 | Mercenaria mercenaria | Mortality | LC50 | days | 195.4 | μg/L | 16 ECOTOX | Calabrese,A., J.R. MacInnes, D.A. Nelson, and J.E. Miller | Survival and Growth of Bivalve Larvae Under Heavy-Metal Stress | Mar. Biol.41 | 2020/11/12 | ||||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 60 | hours | 420.25 | μg/L | 16 ECOTOX | Attar,E.N., and E.J. Maly | Acute Toxicity of Cadmium, Zinc, and Cadmium-Zinc Mixtures to Daphnia magna | Arch. Environ. Contam. Toxicol.11(3) | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea gigas | Mortality | LC50 | 4 | days | 100 | μg/L | 16 ECOTOX | Watling,H.R. | Comparative Study of the Effects of Zinc, Cadmium, and Copper on the Larval Growth of Three Oyster Species | Bull. Environ. Contam. Toxicol.28 | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea gigas | Search/explore/forage behavior | LOEC | 96 | hours | 1500 | ppb | 16 ECOTOX | Chang,E.Y., S.L. Coon, M. Walch, and R. Weiner | Effects of Hyphomonas PM-1 Biofilms on the Toxicity of Copper and Zinc to Crassostrea gigas and Crassostrea virginica Larval Set | J. Shellfish Res.15(3) | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea gigas | Mortality | LC50 | 4 | days | 2.5 | μg/mL | 16 ECOTOX | Watling,H. | The Effects of Metals on Mollusc Filtering Rates | Trans. R. Soc. S. Afr.44(3) | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea gigas | Mortality | LC50 | 21 | days | 0.5 | μg/mL | 16 ECOTOX | Watling,H. | The Effects of Metals on Mollusc Filtering Rates | Trans. R. Soc. S. Afr.44(3) | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea gigas | Mortality | LC50 | 4 | days | 100 | μg/L | 16 ECOTOX | Watling,H.R. | Comparative Study of the Effects of Zinc, Cadmium, and Copper on the Larval Growth of Three Oyster Species | Bull. Environ. Contam. Toxicol.28 | 2020/11/12 | |||||||
| 甲殻類 | Mercenaria mercenaria | Mortality | LC50 | hours | 166 | μg/L | 16 ECOTOX | Calabrese,A., and D.A. Nelson | Inhibition of Embryonic Development of the Hard Clam, Mercenaria mercenaria, by Heavy Metals | Bull. Environ. Contam. Toxicol.11(1) | 2020/11/12 | ||||||||
| 甲殻類 | Mytilus edulis | Mortality | LC50 | 24 | hours | 20800 | μg/L | 16 ECOTOX | Hietanen,B., I. Sunila, and R. Kristoffersson | Toxic Effects of Zinc on the Common Mussel Mytilus edulis L. (Bivalvia) in Brackish Water. I. Physiological and Histopathological Studies | Ann. Zool. Fennici25(4) | 2020/11/12 | |||||||
| 甲殻類 | Palaemonetes pugio | Mortality | NR-ZERO | days | 0.24~0.26 | ppm | 16 ECOTOX | McKenney,C.L.,Jr. | Ecophysiological Studies on the Ontogeny of Euryplasticity in the Caridean Shrimp, Palaemonetes pugio (Hothuis) and Modifications by Zinc | Ph.D. Thesis, Texas A&M University, College Station TX | 2020/11/12 | ||||||||
| 甲殻類 | Crassostrea gigas | Metamorphosis | EC50 | 96 | hours | 0.5 | ppm | 16 ECOTOX | Chang,Y.Y.E. | Impact of Microbial Biofilms on the Toxicity of Copper and Zinc to Oyster Larval Development | Ph.D.Thesis, University of Maryland, College Park, MD | 2020/11/12 | |||||||
| 甲殻類 | Nitocra spinipes | Reproduction | EC50 | 2 | weeks | ca.0.245~0.425 | mg/L | 16 ECOTOX | Bengtsson,B.E., and B. Bergstrom | Toxicity Tests with Nitocra spinipes (Crustacea) and Some Metals Released from a Smelter Industry | In: K.Muller (Ed.), Coastal Research in the Gulf of Bothnia, Chapter 33, Dr.W.Junk Publ., The Hague, Netherlands:439-444 / Chem.Abstr.97 | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | hours | 30000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | ||||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | hours | 10000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | ||||||||
| 甲殻類 | Crassostrea gigas | Metamorphosis | NOEC | 96 | hours | 100 | ppb | 16 ECOTOX | Chang,E.Y., S.L. Coon, M. Walch, and R. Weiner | Effects of Hyphomonas PM-1 Biofilms on the Toxicity of Copper and Zinc to Crassostrea gigas and Crassostrea virginica Larval Set | J. Shellfish Res.15(3) | 2020/11/12 | |||||||
| 甲殻類 | Strongylocentrotus droebachiensis | Development | EC50 | 120 | hours | >27~51 | μg/L | 16 ECOTOX | Dinnel,P.A., J.M. Link, Q.J. Stober, M.W. Letourneau, and W.E. Roberts | Comparative Sensitivity of Sea Urchin Sperm Bioassays to Metals and Pesticides | Arch. Environ. Contam. Toxicol.18(5) | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea gigas | Filtration rate | EC50 | 15 | hours | 1080 | μg/L | 0 ug/L / >0-400 ug/L | 16 ECOTOX | Watling,H. | The Effects of Metals on Mollusc Filtering Rates | Trans. R. Soc. S. Afr.44(3) | 2020/11/12 | ||||||
| 甲殻類 | Crassostrea gigas | Swimming | EC50 | 96 | hours | 1.2~1.3 | ppm | 16 ECOTOX | Chang,Y.Y.E. | Impact of Microbial Biofilms on the Toxicity of Copper and Zinc to Oyster Larval Development | Ph.D.Thesis, University of Maryland, College Park, MD | 2020/11/12 | |||||||
| 甲殻類 | Nitocra spinipes | Reproduction | EC50 | 13 | days | 170 | μg/L | 16 ECOTOX | Bengtsson,B.E., and B. Bergstrom | A Flowthrough Fecundity Test with Nitocra spinipes (Harpacticoidea Crustacea) for Aquatic Toxicity | Ecotoxicol. Environ. Saf.14 | 2020/11/12 | |||||||
| 甲殻類 | Mercenaria mercenaria | Growth(Growth rate) | EC50 | 168 | hours | 308.6 | μg/L | 16 ECOTOX | Keppler,C.J., and A.H. Ringwood | Effects of Metal Exposures on Juvenile Clams, Mercenaria mercenaria | Bull. Environ. Contam. Toxicol.68(1) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | NR-ZERO | 4 | days | 170 | μg/L | 16 ECOTOX | Muyssen,B.T.A., K.A.C. De Schamphelaere, and C.R. Janssen | Mechanisms of Chronic Waterborne Zn Toxicity in Daphnia magna | Aquat. Toxicol.77(4) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 96 | hours | 67.91 | μg/L | 16 ECOTOX | Attar,E.N., and E.J. Maly | Acute Toxicity of Cadmium, Zinc, and Cadmium-Zinc Mixtures to Daphnia magna | Arch. Environ. Contam. Toxicol.11(3) | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Growth(Length) | LOEC | 18 | days | 0.2 | mg/L | 16 ECOTOX | Conradi,M., and M.H. Depledge | Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator | Mar. Ecol. Prog. Ser.176 | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Growth(Length) | LOEC | 29 | days | 0.2 | mg/L | 16 ECOTOX | Conradi,M., and M.H. Depledge | Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator | Mar. Ecol. Prog. Ser.176 | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Survivorship | LOEC | 100 | days | 0.8 | mg/L | 16 ECOTOX | Conradi,M., and M.H. Depledge | Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator | Mar. Ecol. Prog. Ser.176 | 2020/11/12 | |||||||
| 甲殻類 | Strongylocentrotus purpuratus | Development | EC50 | 120 | hours | 23 | μg/L | 16 ECOTOX | Dinnel,P.A., J.M. Link, Q.J. Stober, M.W. Letourneau, and W.E. Roberts | Comparative Sensitivity of Sea Urchin Sperm Bioassays to Metals and Pesticides | Arch. Environ. Contam. Toxicol.18(5) | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Growth(Length) | LOEC | 70 | days | 0.2 | mg/L | 16 ECOTOX | Conradi,M., and M.H. Depledge | Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator | Mar. Ecol. Prog. Ser.176 | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea gigas | Swimming | NOEC | 96 | hours | 500 | ppb | 16 ECOTOX | Chang,E.Y., S.L. Coon, M. Walch, and R. Weiner | Effects of Hyphomonas PM-1 Biofilms on the Toxicity of Copper and Zinc to Crassostrea gigas and Crassostrea virginica Larval Set | J. Shellfish Res.15(3) | 2020/11/12 | |||||||
| 甲殻類 | Palaemonetes pugio | Mortality | NR-LETH | 22.67 | days | 0.26 | ppm | 16 ECOTOX | McKenney,C.L.,Jr. | Ecophysiological Studies on the Ontogeny of Euryplasticity in the Caridean Shrimp, Palaemonetes pugio (Hothuis) and Modifications by Zinc | Ph.D. Thesis, Texas A&M University, College Station TX | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea gigas | Growth | EC50 | 4 | days | 80 | μg/L | 16 ECOTOX | Watling,H.R. | Comparative Study of the Effects of Zinc, Cadmium, and Copper on the Larval Growth of Three Oyster Species | Bull. Environ. Contam. Toxicol.28 | 2020/11/12 | |||||||
| 甲殻類 | Acartia tonsa | Reproduction | LOEC | 7 | days | 3.05 | μg/g dry fd | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Growth(Length) | LOEC | 11 | days | 0.2 | mg/L | 16 ECOTOX | Conradi,M., and M.H. Depledge | Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator | Mar. Ecol. Prog. Ser.176 | 2020/11/12 | |||||||
| 甲殻類 | Acartia tonsa | Survival | LOEC | 7 | days | 14 | μg/g dry fd | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Palaemonetes pugio | Mortality | NR-LETH | 15 | days | 0.95~0.98 | ppm | 16 ECOTOX | McKenney,C.L.,Jr. | Ecophysiological Studies on the Ontogeny of Euryplasticity in the Caridean Shrimp, Palaemonetes pugio (Hothuis) and Modifications by Zinc | Ph.D. Thesis, Texas A&M University, College Station TX | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Physiology//Metabolized energy | NOEL | 96 | hours | 1000 | μg/L | 16 ECOTOX | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2) | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Survivorship | NOEC | 100 | days | 0.6 | mg/L | 16 ECOTOX | Conradi,M., and M.H. Depledge | Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator | Mar. Ecol. Prog. Ser.176 | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Physiology//Metabolized energy | NOEL | 4 | days | 275.3 | μg/g dry wt | 16 ECOTOX | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1) | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Population//Sex ratio | NOEC | 77 | 0.8 | mg/L | 16 ECOTOX | Conradi,M., and M.H. Depledge | Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator | Mar. Ecol. Prog. Ser.176 | 2020/11/12 | ||||||||
| 甲殻類 | Palaemonetes pugio | Mortality | NR-LETH | 16 | days | 0.95~0.98 | ppm | 16 ECOTOX | McKenney,C.L.,Jr. | Ecophysiological Studies on the Ontogeny of Euryplasticity in the Caridean Shrimp, Palaemonetes pugio (Hothuis) and Modifications by Zinc | Ph.D. Thesis, Texas A&M University, College Station TX | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Physiology//Metabolized energy | NOEL | 96 | hours | 1000 | μg/L | 16 ECOTOX | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2) | 2020/11/12 | |||||||
| 甲殻類 | Acartia tonsa | Survival | NOEC | 7 | days | 3.05 | μg/g dry fd | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | MATC | 4 | days | 70 | μg/L | 16 ECOTOX | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10 | 2020/11/12 | |||||||
| 甲殻類 | Acartia tonsa | Survival | EC20 | 7 | days | 1.86 | μg/g dry fd | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Acartia tonsa | Reproduction | NOEC | 7 | days | 3.05 | μg/g dry fd | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia sp. | Immobile | EC50 | 72 | hours | 0.54 | mg/L | 16 ECOTOX | Thomas,J.M., J.R. Skalski, J.F. Cline, M.C. McShane, J.C. Simpson, W.E. Miller, S.A. Peterson, C.A. Callahan, and J.C. | Characterization of Chemical Waste Site Contamination and Determination of Its Extent Using Bioassays | Environ. Toxicol. Chem.5 | 2020/11/12 | |||||||
| 甲殻類 | Acartia tonsa | Reproduction | EC20 | 7 | days | 0.55 | μg/g dry fd | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Palaemonetes pugio | Mortality | NR-LETH | 38.15 | days | 0.24~0.26 | ppm | 16 ECOTOX | McKenney,C.L.,Jr. | Ecophysiological Studies on the Ontogeny of Euryplasticity in the Caridean Shrimp, Palaemonetes pugio (Hothuis) and Modifications by Zinc | Ph.D. Thesis, Texas A&M University, College Station TX | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Physiology//Metabolized energy | NOEL | 96 | hours | 1000 | μg/L | 16 ECOTOX | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2) | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | MATC | 4 | days | 20 | μg/L | 16 ECOTOX | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10 | 2020/11/12 | |||||||
| 甲殻類 | Palaemonetes pugio | Mortality | NR-LETH | 31 | days | 0.23~0.32 | ppm | 16 ECOTOX | McKenney,C.L.,Jr. | Ecophysiological Studies on the Ontogeny of Euryplasticity in the Caridean Shrimp, Palaemonetes pugio (Hothuis) and Modifications by Zinc | Ph.D. Thesis, Texas A&M University, College Station TX | 2020/11/12 | |||||||
| 甲殻類 | Palaemonetes pugio | Mortality | NR-LETH | 14.85 | days | 0.95~0.98 | ppm | 16 ECOTOX | McKenney,C.L.,Jr. | Ecophysiological Studies on the Ontogeny of Euryplasticity in the Caridean Shrimp, Palaemonetes pugio (Hothuis) and Modifications by Zinc | Ph.D. Thesis, Texas A&M University, College Station TX | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | NR-LETH | 14 | days | 250 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3) | 2020/11/12 | |||||||
| 甲殻類 | Palaemonetes pugio | Mortality | NR-LETH | 33 | days | 0.97~1.01 | ppm | 16 ECOTOX | McKenney,C.L.,Jr. | Ecophysiological Studies on the Ontogeny of Euryplasticity in the Caridean Shrimp, Palaemonetes pugio (Hothuis) and Modifications by Zinc | Ph.D. Thesis, Texas A&M University, College Station TX | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | NR-LETH | 14 | days | 250 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LOEL | 21 | days | 350 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | LOEL | 4 | days | 1 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 4 | days | 20 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10:47-55 | 1991 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Reproduction | LOEL | 21 | days | 375 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | LOEL | 21 | days | 400 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 4 | days | 70 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10:47-55 | 1991 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LOEL | 21 | days | 350 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Accumulation | LOEL | 7 | days | 170 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., K.A.C. De Schamphelaere, and C.R. Janssen | Mechanisms of Chronic Waterborne Zn Toxicity in Daphnia magna | Aquat. Toxicol.77(4): 393-401 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LOEL | 21 | days | 750 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | LOEL | 21 | days | 375 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | LOEL | 1 | days | 500 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | LOEL | 4 | days | 1 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 140 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10:47-55 | 1991 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 630 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | LOEL | 4 | days | 1 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | LOEL | 4 | days | 1 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LOEL | 21 | days | 250 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 630 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 209 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 630 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 169 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Carlson,A.R., H. Nelson, and D. Hammermeister | Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data | EPA-600/3-86-026, U.S.EPA, Duluth, MN:68 p. | 1986 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Behavior | LOEL | 7 | days | 340 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., K.A.C. De Schamphelaere, and C.R. Janssen | Mechanisms of Chronic Waterborne Zn Toxicity in Daphnia magna | Aquat. Toxicol.77(4): 393-401 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 425 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 445 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 575 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 4 | days | 70 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10:47-55 | 1991 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Physiology | NOEC | 2 | days | 860 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bowmer,C.T., R.N. Hooftman, A.O. Hanstveit, P.W.M. Venderbosch, and N. Van der Hoeven | The Ecotoxicity and the Biodegradability of Lactic Acid, Alkyl Lactate Esters and Lactate Salts | Chemosphere37(7): 1317-1333 | 1998 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 320 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 445 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 7 | days | 70 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10:47-55 | 1991 | 2016/03/25 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 40 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10:47-55 | 1991 | 2016/03/25 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 7 | days | 140 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10:47-55 | 1991 | 2016/03/25 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 4 | days | 70 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10:47-55 | 1991 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 320 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 1 | days | 169.7 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 163 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Carlson,A.R., H. Nelson, and D. Hammermeister | Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data | EPA-600/3-86-026, U.S.EPA, Duluth, MN:68 p. | 1986 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 1800 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gillespie,W.B.J., W.B. Hawkins, J.H.,Jr. Rodgers, M.L. Cano, and P.B. Dorn | Transfers and Transformations of Zinc in Flow-Through Wetland Microcosms | Ecotoxicol. Environ. Saf.43(2): 126-132 | 1999 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 165 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Carlson,A.R., H. Nelson, and D. Hammermeister | Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data | EPA-600/3-86-026, U.S.EPA, Duluth, MN:68 p. | 1986 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 8400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Weltens,R., F. Vanderplaetse, C. Vangenechten, and T. Verhulst | Automated beta Galactosidase Activity Bioassay for Adult Daphnia magna Versus Classic Immobilization Test | Bull. Environ. Contam. Toxicol.65(2): 139-146 | 2000 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamantino,T.C., E. Almeida, A.M.V.M. Soares, and L. Guilhermino | Lactate Dehydrogenase Activity as an Effect Criterion in Toxicity Tests with Daphnia magna Straus | Chemosphere45(4-5): 553-560 | 2001 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC85 | 2 | days | 14.28 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1): 182-189 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 127.7 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC85 | 2 | days | 8.44 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1): 182-189 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 525 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chapman,G.A., S. Ota, and F. Recht | Effects of Water Hardness on the Toxicity of Metals to Daphnia magna | U.S.EPA, Corvallis, OR:17 p. | 1980 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 1 | days | 200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsui,M.T.K., W.X. Wang, and L.M. Chu | Influence of Glyphosate and Its Formulation (Roundup) on the Toxicity and Bioavailability of Metals to Ceriodaphnia dubia | Environ. Pollut.138(1): 59-68 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 110 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mahar,A.M., and M.C. Watzin | Effects of Metal and Organophosphate Mixtures on Ceriodaphnia dubia Survival and Reproduction | Environ. Toxicol. Chem.24(7): 1579-1586 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 1 | days | 3.85 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hockett,J.R., and D.R. Mount | Use of Metal Chelating Agents to Differentiate Among Sources of Acute Aquatic Toxicity | Environ. Toxicol. Chem.15(10): 1687-1693 | 1996 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 1 | days | 169.7 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,S.M., and R.A. Roline | Comparison of Rapid Toxicity Tests with a Standard Acute Test | Technical Memorandum 8220-97-9, Bureau of Reclamation, U.S. Department of the Interior, Denver, CO:12 p. | 1997 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 630 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | 2.67 | days | 150 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anderson,B.G. | The Apparent Thresholds of Toxicity to Daphnia magna for Chlorides of Various Metals when Added to Lake Erie Water | Trans. Am. Fish. Soc.78:96-113 | 1948 | 2016/03/25 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 145 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Carlson,A.R., H. Nelson, and D. Hammermeister | Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data | EPA-600/3-86-026, U.S.EPA, Duluth, MN:68 p. | 1986 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Population | LOEC | 21 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Enserink,E.L., J.L. Maas-Diepeveen, and C.J. Van Leeuwen | Combined Effects of Metals: An Ecotoxicological Evaluation | Water Res.25(6): 679-687 | 1991 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | LOEL | 7 | days | 170 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., K.A.C. De Schamphelaere, and C.R. Janssen | Mechanisms of Chronic Waterborne Zn Toxicity in Daphnia magna | Aquat. Toxicol.77(4): 393-401 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | LOEL | 4 | days | 275300 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LOEL | 21 | days | 250 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | LOEL | 21 | days | 450 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Multigeneration Zinc Acclimation and Tolerance in Daphnia magna: Implications for Water-Quality Guidelines and Ecological Risk Assessment | Environ. Toxicol. Chem.20(9): 2053-2060 | 2001 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | LOEC | 14 | days | 115 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LOEC | 1 | days | >1000~<10000 | 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 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 210 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gale,N.L., B.G. Wixson, and M. Erten | An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater | Trace Subst. Environ. Health25:169-183 | 1992 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LOEC | 21 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Enserink,E.L., J.L. Maas-Diepeveen, and C.J. Van Leeuwen | Combined Effects of Metals: An Ecotoxicological Evaluation | Water Res.25(6): 679-687 | 1991 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | LOEL | 2 | days | 250 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., K.A.C. De Schamphelaere, and C.R. Janssen | Mechanisms of Chronic Waterborne Zn Toxicity in Daphnia magna | Aquat. Toxicol.77(4): 393-401 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Growth | LOEC | 21 | days | 120 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Enserink,E.L., J.L. Maas-Diepeveen, and C.J. Van Leeuwen | Combined Effects of Metals: An Ecotoxicological Evaluation | Water Res.25(6): 679-687 | 1991 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | LOEC | 14 | days | 115 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Growth | LOEC | 14 | days | 170 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 550 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamantino,T.C., E. Almeida, A.M.V.M. Soares, and L. Guilhermino | Lactate Dehydrogenase Activity as an Effect Criterion in Toxicity Tests with Daphnia magna Straus | Chemosphere45(4-5): 553-560 | 2001 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | LOEC | 2 | days | 550 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamantino,T.C., E. Almeida, A.M.V.M. Soares, and L. Guilhermino | Characterization of Cholinesterases from Daphnia magna Straus and Their Inhibition by Zinc | Bull. Environ. Contam. Toxicol.71(2): 219-225 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | LOEC | 21 | days | 115 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Growth | LOEC | 21 | days | 115 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | LOEC | 21 | days | >100~<1000 | 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 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Physiology | NOEL | 21 | days | 450 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Multigeneration Zinc Acclimation and Tolerance in Daphnia magna: Implications for Water-Quality Guidelines and Ecological Risk Assessment | Environ. Toxicol. Chem.20(9): 2053-2060 | 2001 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | 14 | days | 250 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Mortality | 14 | days | 250 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Mortality | 2 | days | 1700 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Pittinger,C.A., D.J. Versteeg, B.A. Blatz, and E.M. Meiers | Environmental Toxicology of Succinate Tartrates | Aquat. Toxicol.24(1-2): 83-102 | 1992 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Mortality | 1 | days | 0.00001 | その他others [mol/L] | 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 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 400 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 7 | days | 122 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mahar,A.M., and M.C. Watzin | Effects of Metal and Organophosphate Mixtures on Ceriodaphnia dubia Survival and Reproduction | Environ. Toxicol. Chem.24(7): 1579-1586 | 2005 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Population | NOEL | 21 | days | 800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Multigeneration Zinc Acclimation and Tolerance in Daphnia magna: Implications for Water-Quality Guidelines and Ecological Risk Assessment | Environ. Toxicol. Chem.20(9): 2053-2060 | 2001 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | 4 | days | 170 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., K.A.C. De Schamphelaere, and C.R. Janssen | Mechanisms of Chronic Waterborne Zn Toxicity in Daphnia magna | Aquat. Toxicol.77(4): 393-401 | 2006 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Biochemical | NOEL | 4 | days | 0.1 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | NOEL | 4 | days | 53600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 350 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Population | NOEL | 21 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Population | NOEL | 21 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | NOEL | 21 | days | 2500 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Growth | NOEL | 21 | days | 300 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Multigeneration Zinc Acclimation and Tolerance in Daphnia magna: Implications for Water-Quality Guidelines and Ecological Risk Assessment | Environ. Toxicol. Chem.20(9): 2053-2060 | 2001 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 9800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cabejszek,I., and M. Stasiak | Studies on the Toxic Effects of Some Metals on the Water Biocenosis - Daphnia magna Employed as Index (Part II) | Roczyn. Zakl. Hig. Warsaw11:533-540 | 1960 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 7 | days | 110 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mahar,A.M., and M.C. Watzin | Effects of Metal and Organophosphate Mixtures on Ceriodaphnia dubia Survival and Reproduction | Environ. Toxicol. Chem.24(7): 1579-1586 | 2005 | 2016/03/25 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 110 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mahar,A.M., and M.C. Watzin | Effects of Metal and Organophosphate Mixtures on Ceriodaphnia dubia Survival and Reproduction | Environ. Toxicol. Chem.24(7): 1579-1586 | 2005 | 2016/03/25 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 7 | days | 5~292 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Carlson,A.R., H. Nelson, and D. Hammermeister | Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data | EPA-600/3-86-026, U.S.EPA, Duluth, MN:68 p. | 1986 | 2016/03/25 | ||||||||
| 甲殻類 | Daphnia magna | Reproduction | 21 | days | 74 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biesinger,K.E., G.M. Christensen, and J.T. Fiandt | Effects of Metal Salt Mixtures on Daphnia magna Reproduction | Ecotoxicol. Environ. Saf.11(1): 9-14 | 1986 | 2016/03/25 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | <=1890 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gillespie,W.B.J., W.B. Hawkins, J.H.,Jr. Rodgers, M.L. Cano, and P.B. Dorn | Transfers and Transformations of Zinc in Flow-Through Wetland Microcosms | Ecotoxicol. Environ. Saf.43(2): 126-132 | 1999 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Reproduction | 21 | days | 140.3 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biesinger,K.E., G.M. Christensen, and J.T. Fiandt | Effects of Metal Salt Mixtures on Daphnia magna Reproduction | Ecotoxicol. Environ. Saf.11(1): 9-14 | 1986 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Mortality | 21 | days | 80 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Reproduction | 21 | days | 47~136 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chapman,G.A., S. Ota, and F. Recht | Effects of Water Hardness on the Toxicity of Metals to Daphnia magna | U.S.EPA, Corvallis, OR:17 p. | 1980 | 2016/03/25 | ||||||||
| 甲殻類 | Daphnia magna | Mortality | 14 | days | 80 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 122 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mahar,A.M., and M.C. Watzin | Effects of Metal and Organophosphate Mixtures on Ceriodaphnia dubia Survival and Reproduction | Environ. Toxicol. Chem.24(7): 1579-1586 | 2005 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Cellular Effects | 1 | days | 2000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Griffiths,P.R.E. | Morphological and Ultrastructural Effects of Sublethal Cadmium Poisoning on Daphnia | Environ. Res.22(2): 277-284 | 1980 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Accumulation | 35 | days | 250 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Memmert,U. | Bioaccumulation of Zinc in Two Freshwater Organisms (Daphnia magna, Crustacea and Brachydanio rerio, Pisces) | Water Res.21(1): 99-106 | 1987 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Mortality | 10000~100000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bodar,C.W.M., A.V.D. Zee, P.A. Voogt, H. Wynne, and D.I. Zandee | Toxicity of Heavy Metals to Early Life Stages of Daphnia magna | Ecotoxicol. Environ. Saf.17(3): 333-338 | 1989 | 2016/03/25 | ||||||||||
| 甲殻類 | Daphnia magna | Biochemical | 1 | days | 100~1000 | 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 | 2016/03/25 | ||||||||
| 甲殻類 | Daphnia magna | Cellular Effects | 1 | days | 12~1000 | 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 | 2016/03/25 | ||||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 250 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 320 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 209 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 250 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 750 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | NOEC | 2 | days | 275 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamantino,T.C., E. Almeida, A.M.V.M. Soares, and L. Guilhermino | Characterization of Cholinesterases from Daphnia magna Straus and Their Inhibition by Zinc | Bull. Environ. Contam. Toxicol.71(2): 219-225 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 80 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Growth | NOEC | 21 | days | 80 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Growth | NOEC | 14 | days | 115 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 350 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 320 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 300 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Multigeneration Zinc Acclimation and Tolerance in Daphnia magna: Implications for Water-Quality Guidelines and Ecological Risk Assessment | Environ. Toxicol. Chem.20(9): 2053-2060 | 2001 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | NOEC | 1 | days | 1000 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 340 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 100 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 14 | days | 80 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 14 | days | 80 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | NOEC | 2 | days | 275 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamantino,T.C., E. Almeida, A.M.V.M. Soares, and L. Guilhermino | Lactate Dehydrogenase Activity as an Effect Criterion in Toxicity Tests with Daphnia magna Straus | Chemosphere45(4-5): 553-560 | 2001 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 575 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 100 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | NOEL | 4 | days | 0.1 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 21 | days | 320 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | NOEL | 4 | days | 0.1 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | NOEL | 4 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | NOEL | 4 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 2500 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 1000 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 750 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | NOEL | 4 | days | 0.1 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | NOEL | 21 | days | 1000 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | NOEL | 4 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | NOEL | 4 | days | 275300 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Accumulation | NOEL | 7 | days | 115 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., K.A.C. De Schamphelaere, and C.R. Janssen | Mechanisms of Chronic Waterborne Zn Toxicity in Daphnia magna | Aquat. Toxicol.77(4): 393-401 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Behavior | NOEL | 7 | days | 250 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., K.A.C. De Schamphelaere, and C.R. Janssen | Mechanisms of Chronic Waterborne Zn Toxicity in Daphnia magna | Aquat. Toxicol.77(4): 393-401 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | NOEL | 2 | days | 170 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., K.A.C. De Schamphelaere, and C.R. Janssen | Mechanisms of Chronic Waterborne Zn Toxicity in Daphnia magna | Aquat. Toxicol.77(4): 393-401 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | NOEL | 7 | days | 115 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., K.A.C. De Schamphelaere, and C.R. Janssen | Mechanisms of Chronic Waterborne Zn Toxicity in Daphnia magna | Aquat. Toxicol.77(4): 393-401 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Behavior | NOEL | 14 | days | 115 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., K.A.C. De Schamphelaere, and C.R. Janssen | Mechanisms of Chronic Waterborne Zn Toxicity in Daphnia magna | Aquat. Toxicol.77(4): 393-401 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEL | 21 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | <5 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6): 1309-1315 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 2407 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | <4 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6): 1309-1315 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 1103 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Multigeneration Zinc Acclimation and Tolerance in Daphnia magna: Implications for Water-Quality Guidelines and Ecological Risk Assessment | Environ. Toxicol. Chem.20(9): 2053-2060 | 2001 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | >5~<10 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6): 1309-1315 | 2002 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 10 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6): 1309-1315 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 160 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:19 p. | 1982 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 6 | mM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6): 1309-1315 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 470 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:19 p. | 1982 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 11.4 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6): 1309-1315 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 22.7 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6): 1309-1315 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 400 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 160 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 93800 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 2307 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | >5~<10 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6): 1309-1315 | 2002 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | >5~<10 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6): 1309-1315 | 2002 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 115 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 115 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 1 | days | 5500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sorvari,J., and M. Sillanpaa | Influence of Metal Complex Formation on Heavy Metal and Free EDTA and DTPA Acute Toxicity Determined by Daphnia magna | Chemosphere33(6): 1119-1127 | 1996 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 245 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | EC50 | 2 | hours | 820 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Weltens,R., F. Vanderplaetse, C. Vangenechten, and T. Verhulst | Automated beta Galactosidase Activity Bioassay for Adult Daphnia magna Versus Classic Immobilization Test | Bull. Environ. Contam. Toxicol.65(2): 139-146 | 2000 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 3 | days | 8130 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | >5~<10 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6): 1309-1315 | 2002 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 3468 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | >10~<15 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6): 1309-1315 | 2002 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 8.4 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6): 1309-1315 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 1639 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Multigeneration Zinc Acclimation and Tolerance in Daphnia magna: Implications for Water-Quality Guidelines and Ecological Risk Assessment | Environ. Toxicol. Chem.20(9): 2053-2060 | 2001 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 590 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | EC50 | 2 | days | 1008 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamantino,T.C., E. Almeida, A.M.V.M. Soares, and L. Guilhermino | Characterization of Cholinesterases from Daphnia magna Straus and Their Inhibition by Zinc | Bull. Environ. Contam. Toxicol.71(2): 219-225 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | EC50 | 1.25 | hours | 882.9 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Biochemical | EC50 | 2 | days | 100900 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamantino,T.C., E. Almeida, A.M.V.M. Soares, and L. Guilhermino | Lactate Dehydrogenase Activity as an Effect Criterion in Toxicity Tests with Daphnia magna Straus | Chemosphere45(4-5): 553-560 | 2001 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 313 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 90 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 308 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 341 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 331 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 328 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 14 | days | 85 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 3143 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 520 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 634 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 991 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia sp. | Mortality | LC50 | 1 | days | 4500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qureshi,S.A., A.B. Saksena, and V.P. Singh | Acute Toxicity of Some Heavy Metals to Fish Food Organisms | Int. J. Environ. Stud.14(4): 325-327 | 1980 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia sp. | Mortality | LC50 | 2 | days | 3200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Qureshi,S.A., A.B. Saksena, and V.P. Singh | Acute Toxicity of Some Heavy Metals to Fish Food Organisms | Int. J. Environ. Stud.14(4): 325-327 | 1980 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia sp. | No Group Code | EC50 | 3 | days | 540 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Thomas,J.M., J.R. Skalski, J.F. Cline, M.C. McShane, J.C. Simpson, W.E. Miller, S.A. Peterson, C.A. Callahan, and J.C. G | Characterization of Chemical Waste Site Contamination and Determination of Its Extent Using Bioassays | Environ. Toxicol. Chem.5:487-501 | 1986 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | NOEC | 1 | days | 1000 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsui,M.T.K., W.X. Wang, and L.M. Chu | Influence of Glyphosate and Its Formulation (Roundup) on the Toxicity and Bioavailability of Metals to Ceriodaphnia dubia | Environ. Pollut.138(1): 59-68 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 502 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 233 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Biochemical | EC50 | 1.25 | hours | 882.9 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,S.M., and R.A. Roline | Comparison of Rapid Toxicity Tests with a Standard Acute Test | Technical Memorandum 8220-97-9, Bureau of Reclamation, U.S. Department of the Interior, Denver, CO:12 p. | 1997 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 2963 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 3491 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 14 | days | 136 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 4367 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 823 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 423 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 277 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 911 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 14 | days | 84 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 394 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 179 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 114 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC10 | 21 | days | 557 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 2716 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 280 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biesinger,K.E., and G.M. Christensen | Effects of Various Metals on Survival, Growth, Reproduction and Metabolism of Daphnia magna | J. Fish. Res. Board Can.29(12): 1691-1700 | 1972 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 48.2 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC15 | 2 | days | 11 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1): 182-189 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2.5 | days | 420.25 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Attar,E.N., and E.J. Maly | Acute Toxicity of Cadmium, Zinc, and Cadmium-Zinc Mixtures to Daphnia magna | Arch. Environ. Contam. Toxicol.11(3): 291-296 | 1982 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 1.49 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hockett,J.R., and D.R. Mount | Use of Metal Chelating Agents to Differentiate Among Sources of Acute Aquatic Toxicity | Environ. Toxicol. Chem.15(10): 1687-1693 | 1996 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 54.3 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 46.2 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 14 | days | 177 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 1.61 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hockett,J.R., and D.R. Mount | Use of Metal Chelating Agents to Differentiate Among Sources of Acute Aquatic Toxicity | Environ. Toxicol. Chem.15(10): 1687-1693 | 1996 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 14 | days | 165 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 12.54 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1): 182-189 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 60.4 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 5000 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 126.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Attar,E.N., and E.J. Maly | Acute Toxicity of Cadmium, Zinc, and Cadmium-Zinc Mixtures to Daphnia magna | Arch. Environ. Contam. Toxicol.11(3): 291-296 | 1982 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 2300 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Diamantino,T.C., E. Almeida, A.M.V.M. Soares, and L. Guilhermino | Lactate Dehydrogenase Activity as an Effect Criterion in Toxicity Tests with Daphnia magna Straus | Chemosphere45(4-5): 553-560 | 2001 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 210 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erten-Unal,M., B.G. Wixson, N. Gale, and J.L. Pitt | Evaluation of Toxicity, Bioavailability and Speciation of Lead, Zinc and Cadmium in Mine/Mill Wastewaters | Chem. Spec. Bioavail.10(2): 37-46 | 1998 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 47700 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gale,N.L., B.G. Wixson, and M. Erten | An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater | Trace Subst. Environ. Health25:169-183 | 1992 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC15 | 2 | days | 1.88 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1): 182-189 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 21 | days | 164 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 127.7 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nelson,S.M., and R.A. Roline | Comparison of Rapid Toxicity Tests with a Standard Acute Test | Technical Memorandum 8220-97-9, Bureau of Reclamation, U.S. Department of the Interior, Denver, CO:12 p. | 1997 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | LC50 | 1 | days | 14000 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 9564 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2): 69-79 | 2002 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 3 | days | 8700 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cabejszek,I., and M. Stasiak | Studies on the Toxic Effects of Some Metals on the Water Biocenosis - Daphnia magna Employed as Index (Part II) | Roczyn. Zakl. Hig. Warsaw11:533-540 | 1960 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 112 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 50.4 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 60.8 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1.5 | days | 861.06 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Attar,E.N., and E.J. Maly | Acute Toxicity of Cadmium, Zinc, and Cadmium-Zinc Mixtures to Daphnia magna | Arch. Environ. Contam. Toxicol.11(3): 291-296 | 1982 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 4 | days | 67.91 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Attar,E.N., and E.J. Maly | Acute Toxicity of Cadmium, Zinc, and Cadmium-Zinc Mixtures to Daphnia magna | Arch. Environ. Contam. Toxicol.11(3): 291-296 | 1982 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 21 | days | 840 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Enserink,E.L., J.L. Maas-Diepeveen, and C.J. Van Leeuwen | Combined Effects of Metals: An Ecotoxicological Evaluation | Water Res.25(6): 679-687 | 1991 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 1 | days | 1.61 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hockett,J.R., and D.R. Mount | Use of Metal Chelating Agents to Differentiate Among Sources of Acute Aquatic Toxicity | Environ. Toxicol. Chem.15(10): 1687-1693 | 1996 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 11600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cabejszek,I., and M. Stasiak | Studies on the Toxic Effects of Some Metals on the Water Biocenosis - Daphnia magna Employed as Index (Part II) | Roczyn. Zakl. Hig. Warsaw11:533-540 | 1960 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 334 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chapman,G.A., S. Ota, and F. Recht | Effects of Water Hardness on the Toxicity of Metals to Daphnia magna | U.S.EPA, Corvallis, OR:17 p. | 1980 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 122 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mahar,A.M., and M.C. Watzin | Effects of Metal and Organophosphate Mixtures on Ceriodaphnia dubia Survival and Reproduction | Environ. Toxicol. Chem.24(7): 1579-1586 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 4 | days | 7700 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cabejszek,I., and M. Stasiak | Studies on the Toxic Effects of Some Metals on the Water Biocenosis - Daphnia magna Employed as Index (Part II) | Roczyn. Zakl. Hig. Warsaw11:533-540 | 1960 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 655 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chapman,G.A., S. Ota, and F. Recht | Effects of Water Hardness on the Toxicity of Metals to Daphnia magna | U.S.EPA, Corvallis, OR:17 p. | 1980 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 2 | days | 3.99 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1): 182-189 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 70.8 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 124 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 21 | days | 158 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biesinger,K.E., and G.M. Christensen | Effects of Various Metals on Survival, Growth, Reproduction and Metabolism of Daphnia magna | J. Fish. Res. Board Can.29(12): 1691-1700 | 1972 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 346 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 465 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 102 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biesinger,K.E., and G.M. Christensen | Effects of Various Metals on Survival, Growth, Reproduction and Metabolism of Daphnia magna | J. Fish. Res. Board Can.29(12): 1691-1700 | 1972 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biesinger,K.E., and G.M. Christensen | Effects of Various Metals on Survival, Growth, Reproduction and Metabolism of Daphnia magna | J. Fish. Res. Board Can.29(12): 1691-1700 | 1972 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 476 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 610 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Population | EC50 | 21 | days | 570 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Enserink,E.L., J.L. Maas-Diepeveen, and C.J. Van Leeuwen | Combined Effects of Metals: An Ecotoxicological Evaluation | Water Res.25(6): 679-687 | 1991 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Population | EC50 | 21 | days | 139 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 2800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bowmer,C.T., R.N. Hooftman, A.O. Hanstveit, P.W.M. Venderbosch, and N. Van der Hoeven | The Ecotoxicity and the Biodegradability of Lactic Acid, Alkyl Lactate Esters and Lactate Salts | Chemosphere37(7): 1317-1333 | 1998 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 120 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Population | EC50 | 21 | days | 174 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 798.94 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Attar,E.N., and E.J. Maly | Acute Toxicity of Cadmium, Zinc, and Cadmium-Zinc Mixtures to Daphnia magna | Arch. Environ. Contam. Toxicol.11(3): 291-296 | 1982 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Population | EC50 | 21 | days | 145 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 1019 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | LC0 | 1 | days | 300 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Population | EC50 | 21 | days | 173 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC100 | 2 | days | 324 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tsui,M.T.K., W.X. Wang, and L.M. Chu | Influence of Glyphosate and Its Formulation (Roundup) on the Toxicity and Bioavailability of Metals to Ceriodaphnia dubia | Environ. Pollut.138(1): 59-68 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | LC100 | 1 | days | 38000 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 555 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 207 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 828 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 644 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 269 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 688 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Population | EC50 | 21 | days | 121 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 124 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 413 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 350 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heijerick,D.G., C.R. Janssen, and W.M. De Coen | The Combined Effects of Hardness, pH, and Dissolved Organic Carbon on the Chronic Toxicity of Zn to D. magna: Development of a Surface Response Model | Arch. Environ. Contam. Toxicol.44(2): 210-217 | 2003 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 14 | days | 135 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3): 436-442 | 2007 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Population | EC50 | 21 | days | 160 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Behavior | LOEL | 14 | days | 170 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., K.A.C. De Schamphelaere, and C.R. Janssen | Mechanisms of Chronic Waterborne Zn Toxicity in Daphnia magna | Aquat. Toxicol.77(4): 393-401 | 2006 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LOEL | 21 | days | 750 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LOEL | 21 | days | 350 | μg/L | 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 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | LOEL | 21 | days | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Multigeneration Zinc Acclimation and Tolerance in Daphnia magna: Implications for Water-Quality Guidelines and Ecological Risk Assessment | Environ. Toxicol. Chem.20(9): 2053-2060 | 2001 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Growth | LOEL | 21 | days | 450 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Multigeneration Zinc Acclimation and Tolerance in Daphnia magna: Implications for Water-Quality Guidelines and Ecological Risk Assessment | Environ. Toxicol. Chem.20(9): 2053-2060 | 2001 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Population | EC50 | 21 | days | 148 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Population | EC50 | 21 | days | 138 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 91 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 123 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 96 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4): 895-901 | 2005 | 2016/03/25 | |||||||
| 甲殻類 | Chironomus tentans | Mortality | LC50 | 20 | days | 0.75 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Sibley, P.K., Ankley, G.T., Cotter, A.M. and Leonard, E.N. | Predicting chronic toxicity of sediments spiked with zinc: An evaluation of the acid-volatile sulfide model using a Life-cycle test with the midge. | Environ. Toxicol. Chem., 15 | 2021/03/12 | |||||||
| 甲殻類 | Dendraster excentricus | Reproduction(Fertilization) | EC50 | 60 | minutes | 16 | μg/L | 16 ECOTOX | Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani | Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters | Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA | 2020/11/12 | |||||||
| 甲殻類 | Dendraster excentricus | Reproduction(Fertilization) | EC50 | 60 | minutes | 23 | μg/L | 16 ECOTOX | Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani | Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters | Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA | 2020/11/12 | |||||||
| 甲殻類 | Dendraster excentricus | Reproduction | EC50 | 1.3 | hours | 28 | μg/L | 16 ECOTOX | Dinnel,P.A., J.M. Link, Q.J. Stober, M.W. Letourneau, and W.E. Roberts | Comparative Sensitivity of Sea Urchin Sperm Bioassays to Metals and Pesticides | Arch. Environ. Contam. Toxicol.18(5) | 2020/11/12 | |||||||
| 甲殻類 | Dendraster excentricus | Reproduction(Fertilization) | EC50 | 60 | minutes | 59.7 | μg/L | 16 ECOTOX | Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani | Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters | Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA | 2020/11/12 | |||||||
| 甲殻類 | Dendraster excentricus | Reproduction(Fertilization) | EC50 | 60 | minutes | 8.5 | μg/L | 16 ECOTOX | Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani | Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters | Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA | 2020/11/12 | |||||||
| 甲殻類 | Arbacia punctulata | Reproduction(Fertilization) | EC50 | 1 | hours | 0.121 | mg/L | 16 ECOTOX | Nacci,D., E. Jackim, and R. Walsh | Comparative Evaluation of Three Rapid Marine Toxicity Tests: Sea Urchin Early Embryo Growth Test, Sea Urchin Sperm Cell Toxicity Test and Microtox | Environ. Toxicol. Chem.5 | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | EC50 | 0.07 | mg/L [mg Zn2+/L] | 4 OECD SIDS (HPVC) | OECD SIDS | SIDS INITIAL ASSESSMENT PROFILE | 2005 | 2016/03/01 | ||||||||||
| 甲殻類 | Dinophilus gyrociliatus | Intrinsic rate of increase | NOEL | 3 | days | 1.6 | μg/mL | 16 ECOTOX | Crema,R., and M. Mauri | Short-Term Effects of Enhanced Zinc Concentrations on Population Parameters of Dinophilus gyrociliatus (Polychaeta) | Fresenius Environ. Bull.10(2) | 2020/11/12 | |||||||
| 甲殻類 | Dinophilus gyrociliatus | Reproduction | LOEL | 2 | days | 0.25 | μg/mL | 16 ECOTOX | Crema,R., and M. Mauri | Short-Term Effects of Enhanced Zinc Concentrations on Population Parameters of Dinophilus gyrociliatus (Polychaeta) | Fresenius Environ. Bull.10(2) | 2020/11/12 | |||||||
| 甲殻類 | Ophryotrocha diadema | Mortality | LC50 | 96 | hours | 0.69 | mg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Ophryotrocha diadema | Mortality | LC50 | 96 | hours | 1310 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Dinophilus gyrociliatus | Mortality | LC50 | 96 | hours | 1 | μg/mL | 16 ECOTOX | Mauri,M., E. Baraldi, and R. Simonini | Effects of Zinc Exposure on the Polychaete Dinophilus gyrociliatus: A Life-Table Response Experiment | Aquat. Toxicol.65(1) | 2020/11/12 | |||||||
| 甲殻類 | Dinophilus gyrociliatus | Reproduction | LOEL | 3 | days | 1.4 | μg/mL | 16 ECOTOX | Crema,R., and M. Mauri | Short-Term Effects of Enhanced Zinc Concentrations on Population Parameters of Dinophilus gyrociliatus (Polychaeta) | Fresenius Environ. Bull.10(2) | 2020/11/12 | |||||||
| 甲殻類 | Ophryotrocha diadema | Mortality | LC50 | 48 | hours | 330~1000 | μg/L | 16 ECOTOX | Parker,J.G. | The Effects of Selected Chemicals and Water Quality on the Marine Polychaete Ophryotrocha diadema | Water Res.18(7) | 2020/11/12 | |||||||
| 甲殻類 | Dinophilus gyrociliatus | Reproduction | LOEL | 2 | days | 1.4 | μg/mL | 16 ECOTOX | Crema,R., and M. Mauri | Short-Term Effects of Enhanced Zinc Concentrations on Population Parameters of Dinophilus gyrociliatus (Polychaeta) | Fresenius Environ. Bull.10(2) | 2020/11/12 | |||||||
| 甲殻類 | Neanthes arenaceodentata | Mortality | LC50 | 96 | hours | 1500 | μg/L | 16 ECOTOX | Reish,D.J., and J.A. Lemay | Toxicity and Bioconcentration of Metals and Organic Compounds by Polychaeta | Ophelia5(suppl.) | 2020/11/12 | |||||||
| 甲殻類 | Dinophilus gyrociliatus | Intrinsic rate of increase | NOEL | 2 | days | 1 | μg/mL | 16 ECOTOX | Crema,R., and M. Mauri | Short-Term Effects of Enhanced Zinc Concentrations on Population Parameters of Dinophilus gyrociliatus (Polychaeta) | Fresenius Environ. Bull.10(2) | 2020/11/12 | |||||||
| 甲殻類 | Capitella capitata | Mortality | LC50 | 96 | hours | 3.09 | mg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Neanthes arenaceodentata | Mortality | LC50 | 96 | hours | 1.11 | mg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Capitella capitata | Mortality | LC50 | 96 | hours | 12480 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Neanthes arenaceodentata | Mortality | LC50 | 96 | hours | 1.82 | mg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Capitella capitata | Mortality | LC50 | 96 | hours | 2500 | μg/L | 16 ECOTOX | Reish,D.J., and J.A. Lemay | Toxicity and Bioconcentration of Metals and Organic Compounds by Polychaeta | Ophelia5(suppl.) | 2020/11/12 | |||||||
| 甲殻類 | Dinophilus gyrociliatus | Reproduction | LOEL | 2 | days | 0.25 | μg/mL | 16 ECOTOX | Crema,R., and M. Mauri | Short-Term Effects of Enhanced Zinc Concentrations on Population Parameters of Dinophilus gyrociliatus (Polychaeta) | Fresenius Environ. Bull.10(2) | 2020/11/12 | |||||||
| 甲殻類 | Neanthes arenaceodentata | Mortality | LC50 | 96 | hours | 1400 | μg/L | 16 ECOTOX | Reish,D.J., and T.V. Gerlinger | The Effects of Cadmium, Lead, and Zinc on Survival and Reproduction in the Polychaetous annelid Neanthes arenaceodentata (F.Nereididae) | In: P.A.Hutchings (Ed.), Proc.of the First Int.Polychaete Conf., Sydney, Aust., July 1983, The Linnean Society of New South Wales, Australia | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea virginica | Metamorphosis | NOEC | 96 | hours | 100 | ppb | 16 ECOTOX | Chang,E.Y., S.L. Coon, M. Walch, and R. Weiner | Effects of Hyphomonas PM-1 Biofilms on the Toxicity of Copper and Zinc to Crassostrea gigas and Crassostrea virginica Larval Set | J. Shellfish Res.15(3) | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea virginica | Swimming | NOEC | 96 | hours | 1500 | ppb | 16 ECOTOX | Chang,E.Y., S.L. Coon, M. Walch, and R. Weiner | Effects of Hyphomonas PM-1 Biofilms on the Toxicity of Copper and Zinc to Crassostrea gigas and Crassostrea virginica Larval Set | J. Shellfish Res.15(3) | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | 60 | hours | 30000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | LT50 | 60 | hours | 30000 | μg/L | 16 ECOTOX | Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah | The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary | Mar. Biol.68(2) | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea virginica | Search/explore/forage behavior | NOEC | 96 | hours | 500 | ppb | 16 ECOTOX | Chang,E.Y., S.L. Coon, M. Walch, and R. Weiner | Effects of Hyphomonas PM-1 Biofilms on the Toxicity of Copper and Zinc to Crassostrea gigas and Crassostrea virginica Larval Set | J. Shellfish Res.15(3) | 2020/11/12 | |||||||
| 甲殻類 | Ophryotrocha diadema | Mortality | LC50 | 96 | hours | 5.61 | mg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Capitella capitata | Mortality | LC50 | 96 | hours | 7200 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea virginica | Metamorphosis | LOEC | 96 | hours | 500 | ppb | 16 ECOTOX | Chang,E.Y., S.L. Coon, M. Walch, and R. Weiner | Effects of Hyphomonas PM-1 Biofilms on the Toxicity of Copper and Zinc to Crassostrea gigas and Crassostrea virginica Larval Set | J. Shellfish Res.15(3) | 2020/11/12 | |||||||
| 甲殻類 | Capitella capitata | Mortality | LC50 | 96 | hours | 3.61 | mg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Neanthes arenaceodentata | Mortality | LC50 | 96 | hours | 1760 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Capitella capitata | Mortality | LC50 | 96 | hours | 5.07 | mg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Neanthes arenaceodentata | Mortality | LC50 | 96 | hours | 1.77 | mg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Neanthes arenaceodentata | Mortality | LC50 | 96 | hours | 1800 | μg/L | 16 ECOTOX | Reish,D.J., and T.V. Gerlinger | The Effects of Cadmium, Lead, and Zinc on Survival and Reproduction in the Polychaetous annelid Neanthes arenaceodentata (F.Nereididae) | In: P.A.Hutchings (Ed.), Proc.of the First Int.Polychaete Conf., Sydney, Aust., July 1983, The Linnean Society of New South Wales, Australia | 2020/11/12 | |||||||
| 甲殻類 | Capitella capitata | Mortality | LC50 | 96 | hours | 16.3 | mg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Ophryotrocha diadema | Mortality | LC50 | 96 | hours | 1730 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Acartia tonsa | Mortality | LC50 | 96 | hours | 294.2 | μg/L | 16 ECOTOX | Lussier,S., and J.A. Cardin | Results of Acute Toxicity Tests Conducted with Zinc at ERL, Narragansett | U.S.EPA, Narragansett, RI | 2020/11/12 | |||||||
| 甲殻類 | Daphnia pulex | Mortality | LC85 | 48 | hours | 6.61 | μmol/L | 16 ECOTOX | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC85 | 48 | hours | 8.44 | μmol/L | 16 ECOTOX | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Survival | LOEC | 24 | hours | >1000~10000 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Nitocra spinipes | Mortality | LOEC | 6 | days | 400 | μg/L | 0 ug/L / 28 ug/L / 53 ug/L / 100 ug/L / 190 ug/L / | 16 ECOTOX | Ytreberg,E., J. Karlsson, and B. Eklund | Comparison of Toxicity and Release Rates of Cu and Zn from Anti-Fouling Paints Leached in Natural and Artificial Brackish Seawater | Sci. Total Environ.408(12) | 2020/11/12 | ||||||
| 甲殻類 | Nitocra spinipes | Development//Normal | LOEC | 6 | days | 400 | μg/L | 0 ug/L / 28 ug/L / 53 ug/L / 100 ug/L / 190 ug/L / | 16 ECOTOX | Ytreberg,E., J. Karlsson, and B. Eklund | Comparison of Toxicity and Release Rates of Cu and Zn from Anti-Fouling Paints Leached in Natural and Artificial Brackish Seawater | Sci. Total Environ.408(12) | 2020/11/12 | ||||||
| 甲殻類 | Palaemonetes pugio | Mortality | LC50 | 48 | hours | 11300 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 46.2 | μM | 16 ECOTOX | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1) | 2020/11/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | LC50 | 48 | hours | 1890 | μg/L | 16 ECOTOX | PBS&J Environmental Toxicology Laboratory | Copper and Zinc Water-Effect Ratio Determinations with Simulated Downstream (Outfall 001 in Receiving Water) and Laboratory Synthetic Seawater. Project Summary 1998 and 1999 | PBS&J Job.No.20026, Environ.Toxicol.Lab., Houston, TX | 2020/11/12 | |||||||
| 甲殻類 | Nitocra spinipes | Mortality | LC50 | 96 | hours | 890 | μg/L | 16 ECOTOX | Ytreberg,E., J. Karlsson, and B. Eklund | Comparison of Toxicity and Release Rates of Cu and Zn from Anti-Fouling Paints Leached in Natural and Artificial Brackish Seawater | Sci. Total Environ.408(12) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia pulex | Mortality | LC50 | 24 | hours | 360 | μg/L | 16 ECOTOX | Lee,D.R. | Development of an Invertebrate Bioassay to Screen Petroleum Refinery Effluents Discharged into Freshwater | Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 48 | hours | 3.99 | μmol/L | 16 ECOTOX | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia pulex | Mortality | LC50 | 48 | hours | 260 | μg/L | 16 ECOTOX | Lee,D.R. | Development of an Invertebrate Bioassay to Screen Petroleum Refinery Effluents Discharged into Freshwater | Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 47700 | μg/L | 16 ECOTOX | Gale,N.L., B.G. Wixson, and M. Erten | An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater | Trace Subst. Environ. Health25 | 2020/11/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | LC50 | 48 | hours | 2031 | μg/L | 16 ECOTOX | PBS&J Environmental Toxicology Laboratory | Copper and Zinc Water-Effect Ratio Determinations with Simulated Downstream (Outfall 001 in Receiving Water) and Laboratory Synthetic Seawater. Project Summary 1998 and 1999 | PBS&J Job.No.20026, Environ.Toxicol.Lab., Houston, TX | 2020/11/12 | |||||||
| 甲殻類 | Daphnia pulex | Mortality | LC50 | 48 | hours | 232.488 | μg/L | 16 ECOTOX | Jindal,R., and A. Verma | Heavy Metal Toxicity to Daphnia pulex | Indian J. Environ. Health32(3): 289-292 | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 24 | hours | 169.7 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 525 | μg/L | 16 ECOTOX | Chapman,G.A., S. Ota, and F. Recht | Effects of Water Hardness on the Toxicity of Metals to Daphnia magna | U.S.EPA, Corvallis, OR | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 48 | hours | 100 | μg/L | 16 ECOTOX | Tsui,M.T.K., W.X. Wang, and L.M. Chu | Influence of Glyphosate and Its Formulation (Roundup) on the Toxicity and Bioavailability of Metals to Ceriodaphnia dubia | Environ. Pollut.138(1) | 2020/11/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | LC50 | 48 | hours | 2428 | μg/L | 16 ECOTOX | PBS&J Environmental Toxicology Laboratory | Copper and Zinc Water-Effect Ratio Determinations with Simulated Downstream (Outfall 001 in Receiving Water) and Laboratory Synthetic Seawater. Project Summary 1998 and 1999 | PBS&J Job.No.20026, Environ.Toxicol.Lab., Houston, TX | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 48 | hours | 163 | μg/L | 16 ECOTOX | Carlson,A.R., H. Nelson, and D. Hammermeister | Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data | EPA-600/3-86-026, U.S.EPA, Duluth, MN | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 70.8 | μM | 16 ECOTOX | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 50.4 | μM | 16 ECOTOX | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 8.4 | mg/L | 16 ECOTOX | Weltens,R., F. Vanderplaetse, C. Vangenechten, and T. Verhulst | Automated beta Galactosidase Activity Bioassay for Adult Daphnia magna Versus Classic Immobilization Test | Bull. Environ. Contam. Toxicol.65(2) | 2020/11/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | LC50 | 96 | hours | 520.8 | μg/L | 16 ECOTOX | Lussier,S., and J.H. Gentile | Results of Acute Toxicity Tests Conducted with Zinc at ERL, Narragansett | U.S.EPA, Narragansett, RI | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 0.8 | mg/L | 16 ECOTOX | Diamantino,T.C., E. Almeida, A.M.V.M. Soares, and L. Guilhermino | Lactate Dehydrogenase Activity as an Effect Criterion in Toxicity Tests with Daphnia magna Straus | Chemosphere45(4/5) | 2020/11/12 | |||||||
| 甲殻類 | Mysidopsis bigelowi | Mortality | LC50 | 96 | hours | 591.3 | μg/L | 16 ECOTOX | Lussier,S., and J.H. Gentile | Results of Acute Toxicity Tests Conducted with Zinc at ERL, Narragansett | U.S.EPA, Narragansett, RI | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 24 | hours | 1.61 | μM | 16 ECOTOX | Hockett,J.R., and D.R. Mount | Use of Metal Chelating Agents to Differentiate Among Sources of Acute Aquatic Toxicity | Environ. Toxicol. Chem.15(10) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 36 | hours | 861.06 | μg/L | 16 ECOTOX | Attar,E.N., and E.J. Maly | Acute Toxicity of Cadmium, Zinc, and Cadmium-Zinc Mixtures to Daphnia magna | Arch. Environ. Contam. Toxicol.11(3) | 2020/11/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | NR-ZERO | 96 | hours | 183 | μg/L | 16 ECOTOX | Lussier,S.M., W.S. Boothman, S. Poucher, D. Champlin, and A. Helmstetten | Comparison of Dissolved and Total Metals Concentrations from Acute Tests with Saltwater Organisms | Environ. Toxicol. Chem.18(5) | 2020/11/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | NR-ZERO | 48 | hours | 1000 | μg/L | 16 ECOTOX | PBS&J Environmental Toxicology Laboratory | Copper and Zinc Water-Effect Ratio Determinations with Simulated Downstream (Outfall 001 in Receiving Water) and Laboratory Synthetic Seawater. Project Summary 1998 and 1999 | PBS&J Job.No.20026, Environ.Toxicol.Lab., Houston, TX | 2020/11/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | LC50 | 48 | hours | 1380 | μg/L | 16 ECOTOX | PBS&J Environmental Toxicology Laboratory | Copper and Zinc Water-Effect Ratio Determinations with Simulated Downstream (Outfall 001 in Receiving Water) and Laboratory Synthetic Seawater. Project Summary 1998 and 1999 | PBS&J Job.No.20026, Environ.Toxicol.Lab., Houston, TX | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 12.54 | μmol/L | 16 ECOTOX | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | LC50 | 48 | hours | 2032 | μg/L | 16 ECOTOX | PBS&J Environmental Toxicology Laboratory | Copper and Zinc Water-Effect Ratio Determinations with Simulated Downstream (Outfall 001 in Receiving Water) and Laboratory Synthetic Seawater. Project Summary 1998 and 1999 | PBS&J Job.No.20026, Environ.Toxicol.Lab., Houston, TX | 2020/11/12 | |||||||
| 甲殻類 | Nitocra spinipes | Mortality | LC50 | 96 | hours | 1300 | μg/L | 16 ECOTOX | Bengtsson,B.E., and B. Bergstrom | A Flowthrough Fecundity Test with Nitocra spinipes (Harpacticoidea Crustacea) for Aquatic Toxicity | Ecotoxicol. Environ. Saf.14 | 2020/11/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | LC50 | 48 | hours | 1862 | μg/L | 16 ECOTOX | PBS&J Environmental Toxicology Laboratory | Copper and Zinc Water-Effect Ratio Determinations with Simulated Downstream (Outfall 001 in Receiving Water) and Laboratory Synthetic Seawater. Project Summary 1998 and 1999 | PBS&J Job.No.20026, Environ.Toxicol.Lab., Houston, TX | 2020/11/12 | |||||||
| 甲殻類 | Daphnia pulex | Mortality | LC50 | 24 | hours | 740 | μg/L | 16 ECOTOX | Lee,D.R. | Development of an Invertebrate Bioassay to Screen Petroleum Refinery Effluents Discharged into Freshwater | Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 0.21 | mg/L | 16 ECOTOX | Erten-Unal,M., B.G. Wixson, N. Gale, and J.L. Pitt | Evaluation of Toxicity, Bioavailability and Speciation of Lead, Zinc and Cadmium in Mine/Mill Wastewaters | Chem. Spec. Bioavail.10(2) | 2020/11/12 | |||||||
| 甲殻類 | Penaeus setiferus | Mortality | LC50 | 72 | hours | 51640 | μg/L | 16 ECOTOX | Vanegas,C., S. Espina, A.V. Botello, and S. Villanueva | Acute Toxicity and Synergism of Cadmium and Zinc in White Shrimp, Penaeus setiferus, Juveniles | Bull. Environ. Contam. Toxicol.58 | 2020/11/12 | |||||||
| 甲殻類 | Penaeus duorarum | Mortality | LC50 | 96 | hours | 1050 | μg/L | 16 ECOTOX | Cripe,G.M. | Comparative Acute Toxicities of Several Pesticides and Metals to Mysidopsis bahia and Postlarval Penaeus duorarum | Environ. Toxicol. Chem.13(11) | 2020/11/12 | |||||||
| 甲殻類 | Penaeus setiferus | Mortality | LC50 | 48 | hours | 78860 | μg/L | 16 ECOTOX | Vanegas,C., S. Espina, A.V. Botello, and S. Villanueva | Acute Toxicity and Synergism of Cadmium and Zinc in White Shrimp, Penaeus setiferus, Juveniles | Bull. Environ. Contam. Toxicol.58 | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC85 | 48 | hours | 14.28 | μmol/L | 16 ECOTOX | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 1.8 | mg/L | 16 ECOTOX | Mohammed,A. | Comparative Sensitivities of the Tropical Cladoceran, Ceriodaphnia rigaudii and the Temperate Species Daphnia magna to Seven Toxicants | Toxicol. Environ. Chem.89(2) | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 24 | hours | 3.85 | μM | 16 ECOTOX | Hockett,J.R., and D.R. Mount | Use of Metal Chelating Agents to Differentiate Among Sources of Acute Aquatic Toxicity | Environ. Toxicol. Chem.15(10) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 655 | μg/L | 16 ECOTOX | Chapman,G.A., S. Ota, and F. Recht | Effects of Water Hardness on the Toxicity of Metals to Daphnia magna | U.S.EPA, Corvallis, OR | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 798.94 | μg/L | 16 ECOTOX | Attar,E.N., and E.J. Maly | Acute Toxicity of Cadmium, Zinc, and Cadmium-Zinc Mixtures to Daphnia magna | Arch. Environ. Contam. Toxicol.11(3) | 2020/11/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | LC50 | 48 | hours | 4200 | μg/L | 16 ECOTOX | PBS&J Environmental Toxicology Laboratory | Copper and Zinc Water-Effect Ratio Determinations with Simulated Downstream (Outfall 001 in Receiving Water) and Laboratory Synthetic Seawater. Project Summary 1998 and 1999 | PBS&J Job.No.20026, Environ.Toxicol.Lab., Houston, TX | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 48.2 | μM | 16 ECOTOX | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1) | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 24 | hours | 200 | μg/L | 16 ECOTOX | Tsui,M.T.K., W.X. Wang, and L.M. Chu | Influence of Glyphosate and Its Formulation (Roundup) on the Toxicity and Bioavailability of Metals to Ceriodaphnia dubia | Environ. Pollut.138(1) | 2020/11/12 | |||||||
| 甲殻類 | Nitocra spinipes | Mortality | LC50 | 96 | hours | 850 | μg/L | 16 ECOTOX | Bengtsson,B.E., and B. Bergstrom | A Flowthrough Fecundity Test with Nitocra spinipes (Harpacticoidea Crustacea) for Aquatic Toxicity | Ecotoxicol. Environ. Saf.14 | 2020/11/12 | |||||||
| 甲殻類 | Daphnia pulex | Mortality | LC50 | 48 | hours | 4.18 | μmol/L | 16 ECOTOX | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea virginica | Mortality | EC50 | 48 | hours | 205.7 | μg/L | 16 ECOTOX | MacInnes,J.R., and A. Calabrese | Response of Embryos of the American Oyster, Crassostrea virginica, to Heavy Metals at Different Temperatures | In: D.S.McLusky, and A.J.Berry (Eds.), Physiology and Behaviour of Marine Organisms, Permagon Press, New York, NY | 2020/11/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | LC50 | 96 | hours | 547.2 | μg/L | 16 ECOTOX | Lussier,S., and J.H. Gentile | Results of Acute Toxicity Tests Conducted with Zinc at ERL, Narragansett | U.S.EPA, Narragansett, RI | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 334 | μg/L | 16 ECOTOX | Chapman,G.A., S. Ota, and F. Recht | Effects of Water Hardness on the Toxicity of Metals to Daphnia magna | U.S.EPA, Corvallis, OR | 2020/11/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | LC50 | 96 | hours | 303 | μg/L | 16 ECOTOX | Cripe,G.M. | Comparative Acute Toxicities of Several Pesticides and Metals to Mysidopsis bahia and Postlarval Penaeus duorarum | Environ. Toxicol. Chem.13(11) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 24 | hours | 5000 | μg/L | 16 ECOTOX | Poynton,H.C., J.R. Varshavsky, B. Chang, G. Cavigiolio, S. Chan, P.S. Holman, A.V. Loguinov, D.J. Bauer, K. Komachi, E. | Daphnia magna Ecotoxicogenomics Provides Mechanistic Insights into Metal Toxicity | Environ. Sci. Technol.41(3) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 60.4 | μM | 16 ECOTOX | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1) | 2020/11/12 | |||||||
| 甲殻類 | Strongylocentrotus purpuratus | Reproduction(Fertilization) | EC50 | 60 | minutes | 206.1 | μg/L | 16 ECOTOX | Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani | Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters | Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | >600~800 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | >600~800 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | 2307 | μg/L | 16 ECOTOX | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 24 | hours | 5500 | μg/L | 16 ECOTOX | Sorvari,J., and M. Sillanpaa | Influence of Metal Complex Formation on Heavy Metal and Free EDTA and DTPA Acute Toxicity Determined by Daphnia magna | Chemosphere33(6) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | >5~10 | mM | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | 1639 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Multigeneration Zinc Acclimation and Tolerance in Daphnia magna: Implications for Water-Quality Guidelines and Ecological Risk Assessment | Environ. Toxicol. Chem.20(9) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | 22.7 | μM | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | 3143 | μg/L | 16 ECOTOX | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | 6 | mM | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | 160 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | >600~800 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia pulex | Mortality | LC50 | 48 | hours | 380 | μg/L | 16 ECOTOX | Lee,D.R. | Development of an Invertebrate Bioassay to Screen Petroleum Refinery Effluents Discharged into Freshwater | Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA | 2020/11/12 | |||||||
| 甲殻類 | Strongylocentrotus droebachiensis | Reproduction(Fertilization) | EC50 | 60 | minutes | 382.8 | μg/L | 16 ECOTOX | Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani | Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters | Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | 11.4 | μM | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6) | 2020/11/12 | |||||||
| 甲殻類 | Strongylocentrotus purpuratus | Reproduction(Fertilization) | EC50 | 60 | minutes | 261.8 | μg/L | 16 ECOTOX | Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani | Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters | Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA | 2020/11/12 | |||||||
| 甲殻類 | Strongylocentrotus droebachiensis | Reproduction | EC50 | 1.3 | hours | 383 | μg/L | 16 ECOTOX | Dinnel,P.A., J.M. Link, Q.J. Stober, M.W. Letourneau, and W.E. Roberts | Comparative Sensitivity of Sea Urchin Sperm Bioassays to Metals and Pesticides | Arch. Environ. Contam. Toxicol.18(5) | 2020/11/12 | |||||||
| 甲殻類 | Strongylocentrotus droebachiensis | Reproduction(Fertilization) | EC50 | 60 | minutes | 147.6 | μg/L | 16 ECOTOX | Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani | Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters | Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA | 2020/11/12 | |||||||
| 甲殻類 | Strongylocentrotus purpuratus | Reproduction | EC50 | 1.3 | hours | 262 | μg/L | 16 ECOTOX | Dinnel,P.A., J.M. Link, Q.J. Stober, M.W. Letourneau, and W.E. Roberts | Comparative Sensitivity of Sea Urchin Sperm Bioassays to Metals and Pesticides | Arch. Environ. Contam. Toxicol.18(5) | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea virginica | Search/explore/forage behavior | EC50 | 96 | hours | 1.3 | ppm | 16 ECOTOX | Chang,Y.Y.E. | Impact of Microbial Biofilms on the Toxicity of Copper and Zinc to Oyster Larval Development | Ph.D.Thesis, University of Maryland, College Park, MD | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Ability to detach from substrate | EC50 | 24 | hours | 640 | μg/L | 16 ECOTOX | Hietanen,B., I. Sunila, and R. Kristoffersson | Toxic Effects of Zinc on the Common Mussel Mytilus edulis L. (Bivalvia) in Brackish Water. I. Physiological and Histopathological Studies | Ann. Zool. Fennici25(4) | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea virginica | Mortality | EC50 | 48 | hours | 324.5 | μg/L | 16 ECOTOX | MacInnes,J.R., and A. Calabrese | Response of Embryos of the American Oyster, Crassostrea virginica, to Heavy Metals at Different Temperatures | In: D.S.McLusky, and A.J.Berry (Eds.), Physiology and Behaviour of Marine Organisms, Permagon Press, New York, NY | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea virginica | Metamorphosis | EC50 | 96 | hours | 0.3 | ppm | 16 ECOTOX | Chang,Y.Y.E. | Impact of Microbial Biofilms on the Toxicity of Copper and Zinc to Oyster Larval Development | Ph.D.Thesis, University of Maryland, College Park, MD | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea virginica | Mortality | EC50 | 48 | hours | 229.6 | μg/L | 16 ECOTOX | MacInnes,J.R., and A. Calabrese | Response of Embryos of the American Oyster, Crassostrea virginica, to Heavy Metals at Different Temperatures | In: D.S.McLusky, and A.J.Berry (Eds.), Physiology and Behaviour of Marine Organisms, Permagon Press, New York, NY | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Valve closure | EC50 | 24 | hours | 1350 | μg/L | 16 ECOTOX | Hietanen,B., I. Sunila, and R. Kristoffersson | Toxic Effects of Zinc on the Common Mussel Mytilus edulis L. (Bivalvia) in Brackish Water. I. Physiological and Histopathological Studies | Ann. Zool. Fennici25(4) | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea gigas | Development | EC50 | 48 | hours | 206.5 | μg/L | 16 ECOTOX | Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani | Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters | Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea virginica | Mortality | LC50 | 48 | hours | 310 | μg/L | 16 ECOTOX | Calabrese,A., R.S. Collier, D.A. Nelson, and J.R. MacInnes | The Toxicity of Heavy Metals to Embryos of the American Oyster Crassostrea virginica | Mar. Biol.18(3) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | 590 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 48 | hours | 127.7 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 60.8 | μM | 16 ECOTOX | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1) | 2020/11/12 | |||||||
| 甲殻類 | Nitocra spinipes | Mortality | LC50 | 96 | hours | 1450 | μg/L | 16 ECOTOX | Bengtsson,B.E. | Use of a Harpacticoid Copepod in Toxicity Tests | Mar. Pollut. Bull.9 | 2020/11/12 | |||||||
| 甲殻類 | Nitocra spinipes | Mortality | LC25 | 96 | hours | 550 | μg/L | 16 ECOTOX | Ytreberg,E., J. Karlsson, and B. Eklund | Comparison of Toxicity and Release Rates of Cu and Zn from Anti-Fouling Paints Leached in Natural and Artificial Brackish Seawater | Sci. Total Environ.408(12) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia pulex | Mortality | LC15 | 48 | hours | 2.63 | μmol/L | 16 ECOTOX | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC15 | 48 | hours | 11 | μmol/L | 16 ECOTOX | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC15 | 48 | hours | 1.88 | μmol/L | 16 ECOTOX | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC100 | 48 | hours | 324 | μg/L | 16 ECOTOX | Tsui,M.T.K., W.X. Wang, and L.M. Chu | Influence of Glyphosate and Its Formulation (Roundup) on the Toxicity and Bioavailability of Metals to Ceriodaphnia dubia | Environ. Pollut.138(1) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | LC100 | 24 | hours | 38 | mg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 甲殻類 | Penaeus setiferus | Mortality | LC50 | 96 | hours | 43870 | μg/L | 16 ECOTOX | Vanegas,C., S. Espina, A.V. Botello, and S. Villanueva | Acute Toxicity and Synergism of Cadmium and Zinc in White Shrimp, Penaeus setiferus, Juveniles | Bull. Environ. Contam. Toxicol.58 | 2020/11/12 | |||||||
| 甲殻類 | Nitocra spinipes | Mortality | LC50 | 96 | hours | 0.85 | mg/L | 16 ECOTOX | Bengtsson,B.E., and B. Bergstrom | Toxicity Tests with Nitocra spinipes (Crustacea) and Some Metals Released from a Smelter Industry | In: K.Muller (Ed.), Coastal Research in the Gulf of Bothnia, Chapter 33, Dr.W.Junk Publ., The Hague, Netherlands:439-444 / Chem.Abstr.97 | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 210 | μg/L | 16 ECOTOX | Gale,N.L., B.G. Wixson, and M. Erten | An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater | Trace Subst. Environ. Health25 | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 48 | hours | 1.61 | μM | 16 ECOTOX | Hockett,J.R., and D.R. Mount | Use of Metal Chelating Agents to Differentiate Among Sources of Acute Aquatic Toxicity | Environ. Toxicol. Chem.15(10) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | 280 | μg/L | 16 ECOTOX | Biesinger,K.E., and G.M. Christensen | Effects of Various Metals on Survival, Growth, Reproduction and Metabolism of Daphnia magna | J. Fish. Res. Board Can.29(12) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 24 | hours | 2.3 | mg/L | 16 ECOTOX | Diamantino,T.C., E. Almeida, A.M.V.M. Soares, and L. Guilhermino | Lactate Dehydrogenase Activity as an Effect Criterion in Toxicity Tests with Daphnia magna Straus | Chemosphere45(4/5) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | 4367 | μg/L | 16 ECOTOX | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 54.3 | μM | 16 ECOTOX | Canli,M. | Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | LC50 | 24 | hours | 14 | mg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 48 | hours | 1.49 | μM | 16 ECOTOX | Hockett,J.R., and D.R. Mount | Use of Metal Chelating Agents to Differentiate Among Sources of Acute Aquatic Toxicity | Environ. Toxicol. Chem.15(10) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | LC0 | 24 | hours | 0.3 | mg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | 4 | mM | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | >600~800 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | 3468 | μg/L | 16 ECOTOX | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | 100 | μg/L | 16 ECOTOX | Biesinger,K.E., and G.M. Christensen | Effects of Various Metals on Survival, Growth, Reproduction and Metabolism of Daphnia magna | J. Fish. Res. Board Can.29(12) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mobility | EC50 | 48 | hours | 2800 | μg/L | 16 ECOTOX | Bowmer,C.T., R.N. Hooftman, A.O. Hanstveit, P.W.M. Venderbosch, and N. Van der Hoeven | The Ecotoxicity and the Biodegradability of Lactic Acid, Alkyl Lactate Esters and Lactate Salts | Chemosphere37(7) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | 2716 | μg/L | 16 ECOTOX | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | 10 | mM | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6) | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea virginica | Search/explore/forage behavior | LOEC | 96 | hours | 1500 | ppb | 16 ECOTOX | Chang,E.Y., S.L. Coon, M. Walch, and R. Weiner | Effects of Hyphomonas PM-1 Biofilms on the Toxicity of Copper and Zinc to Crassostrea gigas and Crassostrea virginica Larval Set | J. Shellfish Res.15(3) | 2020/11/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | LC50 | 48 | hours | 1779 | μg/L | 16 ECOTOX | PBS&J Environmental Toxicology Laboratory | Copper and Zinc Water-Effect Ratio Determinations with Simulated Downstream (Outfall 001 in Receiving Water) and Laboratory Synthetic Seawater. Project Summary 1998 and 1999 | PBS&J Job.No.20026, Environ.Toxicol.Lab., Houston, TX | 2020/11/12 | |||||||
| 甲殻類 | Crassostrea virginica | Swimming | EC50 | 96 | hours | 1.3 | ppm | 16 ECOTOX | Chang,Y.Y.E. | Impact of Microbial Biofilms on the Toxicity of Copper and Zinc to Oyster Larval Development | Ph.D.Thesis, University of Maryland, College Park, MD | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | NOEC | 24 | hours | 1000 | μg/L | 16 ECOTOX | Poynton,H.C., J.R. Varshavsky, B. Chang, G. Cavigiolio, S. Chan, P.S. Holman, A.V. Loguinov, D.J. Bauer, K. Komachi, E. | Daphnia magna Ecotoxicogenomics Provides Mechanistic Insights into Metal Toxicity | Environ. Sci. Technol.41(3) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | 2407 | μg/L | 16 ECOTOX | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | >600~800 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | 400 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia obtusa | Immobile | EC50 | 24 | hours | 3 | mg/L | 16 ECOTOX | Memmert,U. | Seasonal Variation of Heavy Metal Concentration (Cd, Pb, Zn) in Four Ponds and Occurrence of Daphnia | In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K. | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobilization | EC50 | 48 | hours | 0.28 | mg/L [nominal] | 10 EHC (Environmental Health Criteria) | Biesinger KE & Christensen GM | Effects of various metals on survival, growth, reproduction, and metabolism of Daphnia magna. | J Fish Res Board Can, 29 | 2021/03/30 | |||||||
| 甲殻類 | Daphnia sp. | Mortality | LC50 | 24 | hours | 4500 | μg/L | 16 ECOTOX | Qureshi,S.A., A.B. Saksena, and V.P. Singh | Acute Toxicity of Some Heavy Metals to Fish Food Organisms | Int. J. Environ. Stud.14(4) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | 93800 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia curvirostris | Immobile | EC50 | 24 | hours | 1.1 | mg/L | 16 ECOTOX | Memmert,U. | Seasonal Variation of Heavy Metal Concentration (Cd, Pb, Zn) in Four Ponds and Occurrence of Daphnia | In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K. | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | >5~10 | mM | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia rosea | Immobile | EC50 | 48 | hours | 2500 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia rigaudi | Mortality | LC50 | 48 | hours | 1.09 | mg/L | 16 ECOTOX | Mohammed,A. | Comparative Sensitivities of the Tropical Cladoceran, Ceriodaphnia rigaudii and the Temperate Species Daphnia magna to Seven Toxicants | Toxicol. Environ. Chem.89(2) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | 470 | μg/L | 4.0 ug/L / 62 ug/L / 120 ug/L / 250 ug/L / 540 ug/ | 16 ECOTOX | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | 1103 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Multigeneration Zinc Acclimation and Tolerance in Daphnia magna: Implications for Water-Quality Guidelines and Ecological Risk Assessment | Environ. Toxicol. Chem.20(9) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | >5~10 | mM | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | >600~800 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4) | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis | Mortality | LC50 | 24 | hours | 20.8 | mg/L [nominal] | 10 EHC (Environmental Health Criteria) | Hietanen B, Sunila I, & Kristoffersson R | Toxic effects of zinc on the common mussel Mytilus edulis L. (Bivalvia) in brackish water. I Physiological and histopathological studies. | Ann Zool Fenn, 25 | 2021/03/30 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | >5~10 | mM | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | 160 | μg/L | 1.9 ug/L / 63 ug/L / 120 ug/L / 250 ug/L / 550 ug/ | 16 ECOTOX | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | 9564 | μg/L | 16 ECOTOX | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | 8.4 | μM | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia ambigua | Mortality | LC85 | 48 | hours | 13.43 | μmol/L | 16 ECOTOX | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | 3491 | μg/L | 16 ECOTOX | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia ambigua | Mortality | LC15 | 48 | hours | 1.19 | μmol/L | 16 ECOTOX | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | >600~800 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4) | 2020/11/12 | |||||||
| 甲殻類 | Acanthomysis costata | Mortality | LC50 | 96 | hours | 260 | μg/L | 16 ECOTOX | Asato,S.L., and D.J. Reish | The Effects of Heavy Metals on the Survival and Feeding of Holmesimysis costata (Crustacea: Mysidacea) | In: Proceedings of the 7th International Symposium on Marine Biology, California State University, Long Beach, CA | 2020/11/12 | |||||||
| 甲殻類 | Daphnia ambigua | Mortality | LC50 | 48 | hours | 4.66 | μmol/L | 16 ECOTOX | Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt | Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | 2963 | μg/L | 16 ECOTOX | Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt | Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations | Aquat. Toxicol.56(2) | 2020/11/12 | |||||||
| 甲殻類 | Mytilus edulis planulatus | Mortality | LC50 | 96 | hours | 2.5 | mg/L | 10 EHC (Environmental Health Criteria) | Ahsanullah M | Acute toxicity of cadmium and zinc to seven invertebrate species from Western Port, Victoria. Australian. | J Mar Freshwater Res, 27 | 2021/03/10 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | >10~15 | mM | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 48 | hours | 5 | mM | 16 ECOTOX | Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen | Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics: Development and Validation of a Biotic Ligand Model | Environ. Toxicol. Chem.21(6) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | NR-LETH | 48 | hours | 1700 | μg/L | 16 ECOTOX | Pittinger,C.A., D.J. Versteeg, B.A. Blatz, and E.M. Meiers | Environmental Toxicology of Succinate Tartrates | Aquat. Toxicol.24(1-2) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mobility | NOEC | 48 | hours | 860 | μg/L | 16 ECOTOX | Bowmer,C.T., R.N. Hooftman, A.O. Hanstveit, P.W.M. Venderbosch, and N. Van der Hoeven | The Ecotoxicity and the Biodegradability of Lactic Acid, Alkyl Lactate Esters and Lactate Salts | Chemosphere37(7) | 2020/11/12 | |||||||
| 甲殻類 | Mercenaria mercenaria | Mortality | LC50 | 48 | hours | 0.195 | mg Zn/L [nominal] | 8 NITE 化学物質の初期リスク評価書 | Calabrese, A. and Nelson, D.A. | Inhibition of embryonic development of the hard clam, Mercenaria mercenaria, by heavy metals. | Bull. Environ. Contam. Toxicol., Jan, 11 | 2021/03/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 48 | hours | >600~800 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc | Environ. Toxicol. Chem.24(4) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia sp. | Mortality | LC50 | 48 | hours | 3200 | μg/L | 16 ECOTOX | Qureshi,S.A., A.B. Saksena, and V.P. Singh | Acute Toxicity of Some Heavy Metals to Fish Food Organisms | Int. J. Environ. Stud.14(4) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Survival | NOEC | 24 | hours | 1000 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Palaemon sp. | Mortality | LC50 | 96 | hours | 9.5 | mg/L | 10 EHC (Environmental Health Criteria) | Ahsanullah M | Acute toxicity of cadmium and zinc to seven invertebrate species from Western Port, Victoria. Australian. | J Mar Freshwater Res, 27 | 2021/04/09 | |||||||
| 甲殻類 | Nitocra spinipes | Mortality | LC50 | 96 | hours | 1.3 | mg/L [nominal] | 10 EHC (Environmental Health Criteria) | Bengtsson BE & Bergström B | A flowthrough fecundity test with Nitocra spinipes (Harpacticoidea crustacea) for aquatic toxicity. | Ecotoxicol Environ Saf, 14 | 2021/03/30 | |||||||
| 甲殻類 | Crassostrea virginica | Mortality | LC50 | 48 | hours | 0.31 | mg/L [nominal] | 10 EHC (Environmental Health Criteria) | Calabrese A, Collier RS, Nelson DA, & MacInnes JR | The toxicity of heavy metals to embryos of the American oyster Crassostrea virginica. | Mar Biol, 18 | 2021/03/30 | |||||||
| 甲殻類 | Nitocra spinipes | Mortality | NOEC | 6 | days | 190 | μg/L | 0 ug/L / 28 ug/L / 53 ug/L / 100 ug/L / 190 ug/L / | 16 ECOTOX | Ytreberg,E., J. Karlsson, and B. Eklund | Comparison of Toxicity and Release Rates of Cu and Zn from Anti-Fouling Paints Leached in Natural and Artificial Brackish Seawater | Sci. Total Environ.408(12) | 2020/11/12 | ||||||
| 甲殻類 | Mytilus edulis planulatus | Inactivity 活動停止 | EC50 | 96 | hours | 2.5 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Ahsanullah, M. | Acute toxicity of cadmium and zinc to seven invertebrate species from western port, Victoria. | Aust.J.Mar.Freshwater Res., 27 | 2021/03/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 0.334 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Chapman, G.A., Ota S. and Recht, F. | Effects of water hardness on the toxicity of metals to daphnia magna. | U.S.EPA, Corvallis, OR | 2021/03/12 | |||||||
| 甲殻類 | Mytilus edulis planulatus | Mortality | LC50 | 96 | hours | 3.6 | mg/L | 10 EHC (Environmental Health Criteria) | Ahsanullah M | Acute toxicity of cadmium and zinc to seven invertebrate species from Western Port, Victoria. Australian. | J Mar Freshwater Res, 27 | 2021/03/10 | |||||||
| 甲殻類 | Nitocra spinipes | Mortality | LC50 | 96 | hours | 0.85 | mg/L [nominal] | 10 EHC (Environmental Health Criteria) | Bengtsson BE & Bergström B | A flowthrough fecundity test with Nitocra spinipes (Harpacticoidea crustacea) for aquatic toxicity. | Ecotoxicol Environ Saf, 14 | 2021/03/30 | |||||||
| 甲殻類 | Nitocra spinipes | Development//Normal | NOEC | 6 | days | 190 | μg/L | 0 ug/L / 28 ug/L / 53 ug/L / 100 ug/L / 190 ug/L / | 16 ECOTOX | Ytreberg,E., J. Karlsson, and B. Eklund | Comparison of Toxicity and Release Rates of Cu and Zn from Anti-Fouling Paints Leached in Natural and Artificial Brackish Seawater | Sci. Total Environ.408(12) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 0.7989 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Attar, E.N. and Maly, E.J. | Acute toxicity of cadmium, zinc, and cadmium-zinc mixtures to daphnia magna. | Arch. Environ. Contam. Toxicol., 11 | 2021/03/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | NR-LETH | 48 | hours | 4530 | μg/L | 16 ECOTOX | PBS&J Environmental Toxicology Laboratory | Copper and Zinc Water-Effect Ratio Determinations with Simulated Downstream (Outfall 001 in Receiving Water) and Laboratory Synthetic Seawater. Project Summary 1998 and 1999 | PBS&J Job.No.20026, Environ.Toxicol.Lab., Houston, TX | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 0.1 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Biesinger, K.E. and Christensen, G.M. | Effects of various metals on survival growth, reproduction and metabolism of daphnia magna. | J. Fish. Res. Board Can., 29 | 2021/03/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 48 | hours | 0.032 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Carlson, A.R. and Roush, T.H. | Site-specific water quality studies of the Straight River, Minnesota: Complex effluent toxicity, zinc toxicity, and biological survey relationships. | National Technical Information Service, Springfield, VA. EPA-600/3-85-005. | 2021/03/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | LC50 | 96 | hours | 0.499 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Lussier, S.M., Gentile, H. and Walker, J. | Acute and chronic effects heavy metals and cyanide Mysidopsis bahia (Crustacea: Mysidacea). | Aquat. Toxicol., 7 | 2021/03/12 | |||||||
| 甲殻類 | Americamysis bahia | Mortality | NR-LETH | 48 | hours | 5200 | μg/L | 16 ECOTOX | PBS&J Environmental Toxicology Laboratory | Copper and Zinc Water-Effect Ratio Determinations with Simulated Downstream (Outfall 001 in Receiving Water) and Laboratory Synthetic Seawater. Project Summary 1998 and 1999 | PBS&J Job.No.20026, Environ.Toxicol.Lab., Houston, TX | 2020/11/12 | |||||||
| 甲殻類 | Daphnia pulex | Mortality | NR-LETH | 48 | hours | 0.5 | mg/L | 16 ECOTOX | Pretorius,P.J., P.W. Linder, J.L. Slabbert, and P.W. Wade | The Chemical Behaviour of Heavy Metals and Their Bioavailability and Toxicity to Organisms: Implications for Environmental Quality Criteria | S. Afr. J. Sci.97(9-10) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | NR-LETH | 24 | hours | 0.00001 | mol/L | 16 ECOTOX | Stom,D.I., and L.D. Zubareva | Comparative Resistance of Daphnia and Epischura to Toxic Substances in Acute Exposure | Hydrobiol. J.30(3) | 2020/11/12 | |||||||
| 甲殻類 | Palaemon sp. | Inactivity 活動停止 | EC50 | 96 | hours | 9.5 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Ahsanullah, M. | Acute toxicity of cadmium and zinc to seven invertebrate species from western port, Victoria. | Aust.J.Mar.Freshwater Res., 27 | 2021/03/12 | |||||||
| 甲殻類 | Daphnia magna | Lethal | EC50 | 48 | hours | 2.8 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Bowmer ea 98 | 2016/02/08 | |||||||||
| 甲殻類 | Mysidopsis bahia | mortality | LC50 | 96 | hours | 0.499 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Lussier SM, Gentile JH, Walker J | Acute and chronic effects of heavy metals and | Aquat Toxicol 7 | 2020/12/23 | |||||||
| 甲殻類 | Ceriodaphnia dubia | mobility | EC50 | 48 | hours | 413 | μg/L | ○ | 12 ECHA Information on Registered Substances | Hyne R.V., Pablo F, Moreno J; , Markisch S.J. | Influence of water chemistry on the acute toxicity of copper and zinc to the cladoceran Ceriodaphnia dubia | Environm. Toxic. & Chemistry 24 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mortality | NOEC | 48 | hours | 0.86 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Bowmer CT, Hooftman RN, Hanstveit AO, Venderbosch PWM, Van der Hoeven N | The ecotoxicity and the biodegradability of lactic acid, alkyl lactate esters and lactate salts | Chemosphere 37 | 2020/12/23 | |||||||
| 甲殻類 | Daphnia magna | mortality | EC20 | 48 | hours | 2.8 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Bowmer CT, Hooftman RN, Hanstveit AO, Venderbosch PWM, Van der Hoeven N | The ecotoxicity and the biodegradability of lactic acid, alkyl lactate esters and lactate salts | Chemosphere 37 | 2020/12/23 | |||||||
| 甲殻類 | Daphnia magna | mobility | LC50 | 48 | hours | 259 | μg/L | ○ | 12 ECHA Information on Registered Substances | Barata C, Baird D, Markisch S. | Influence of genetic and environmental factors on the tolerance of Daphnia magna Straus to essential and non-essential metals | Aquatic toxicology 42 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 1.8 | mg/L | ○ | 12 ECHA Information on Registered Substances | Blinova I, Ivask A Heinlaan M, Mortimer M and Kahru A. | Ecotoxicity of nanoparticles of CuO and ZnO in natural water. | Environmental pollution 158 | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 123 | μg/L | ○ | 12 ECHA Information on Registered Substances | Belanger SE and Cherry DS | Interacting effects of pH , acclimation and heavy metals on acute and chronic toxicity of ceriodaphnia dubia (cladocera) | Journal of crustacean biology 10(2) | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | mobility | EC50 | 48 | hours | 200 | μg/L | ○ | 12 ECHA Information on Registered Substances | Hyne R.V., Pablo F, Moreno J; , Markisch S.J. | Influence of water chemistry on the acute toxicity of copper and zinc to the cladoceran Ceriodaphnia dubia | Environm. Toxic. & Chemistry 24 | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | mobility | EC50 | 48 | hours | 155 | μg/L | ○ | 12 ECHA Information on Registered Substances | Hyne R.V., Pablo F, Moreno J; , Markisch S.J. | Influence of water chemistry on the acute toxicity of copper and zinc to the cladoceran Ceriodaphnia dubia | Environm. Toxic. & Chemistry 24 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 2140 | μg/L | ○ | 12 ECHA Information on Registered Substances | De Schamphelaere K.A.C., Lofts, S. and Janssen | Bioavailability models for predicting acute and chronic toxicity of zinc to algae, Daphnids and fish in natural surface waters. | Environm. Toxicol. & Chemistry 24 nr 5 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | LC50 | 48 | hours | 1060 | μg/L | ○ | 12 ECHA Information on Registered Substances | Barata C, Baird D, Markisch S. | Influence of genetic and environmental factors on the tolerance of Daphnia magna Straus to essential and non-essential metals | Aquatic toxicology 42 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | LC50 | 48 | hours | 131 | μg/L | ○ | 12 ECHA Information on Registered Substances | Barata C, Baird D, Markisch S. | Influence of genetic and environmental factors on the tolerance of Daphnia magna Straus to essential and non-essential metals | Aquatic toxicology 42 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | LC50 | 48 | hours | 457 | μg/L | ○ | 12 ECHA Information on Registered Substances | Barata C, Baird D, Markisch S. | Influence of genetic and environmental factors on the tolerance of Daphnia magna Straus to essential and non-essential metals | Aquatic toxicology 42 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | LC50 | 48 | hours | 601 | μg/L | ○ | 12 ECHA Information on Registered Substances | Barata C, Baird D, Markisch S. | Influence of genetic and environmental factors on the tolerance of Daphnia magna Straus to essential and non-essential metals | Aquatic toxicology 42 | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | >530 | μg/L | ○ | 12 ECHA Information on Registered Substances | Schubauer-Berrigan M.k., Dierkes J.R., Monson P.D. and Ankley, G.T. | pH-dependent toxicity of Cd, Cu, Ni, Pb and Zn to Ceriodaphnia dubia , Pimephales promelas, Hyalella azteca and Lumbricus variegatus. | Envrionmental Toxicology and Chemistry. Vol. 12 | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 360 | μg/L | ○ | 12 ECHA Information on Registered Substances | Schubauer-Berrigan M.k., Dierkes J.R., Monson P.D. and Ankley, G.T. | pH-dependent toxicity of Cd, Cu, Ni, Pb and Zn to Ceriodaphnia dubia , Pimephales promelas, Hyalella azteca and Lumbricus variegatus. | Envrionmental Toxicology and Chemistry. Vol. 12 | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 95 | μg/L | ○ | 12 ECHA Information on Registered Substances | Schubauer-Berrigan M.k., Dierkes J.R., Monson P.D. and Ankley, G.T. | pH-dependent toxicity of Cd, Cu, Ni, Pb and Zn to Ceriodaphnia dubia , Pimephales promelas, Hyalella azteca and Lumbricus variegatus. | Envrionmental Toxicology and Chemistry. Vol. 12 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 280 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 268 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 1.4 | mg/L | ○ | 12 ECHA Information on Registered Substances | Blinova I, Ivask A Heinlaan M, Mortimer M and Kahru A. | Ecotoxicity of nanoparticles of CuO and ZnO in natural water. | Environmental pollution 158 | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | mobility | LC50 | 48 | hours | 174 | μg/L | ○ | 12 ECHA Information on Registered Substances | Cooper N.L., Bidwell J.R., Kumar, A. | Toxicity of copper, lead and zinc mixtures to Ceriodaphnia dubia and Daphnia carinata | Ecotoxicology and Environmental Safety 72 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 2 | mg/L | ○ | 12 ECHA Information on Registered Substances | Blinova I, Ivask A Heinlaan M, Mortimer M and Kahru A. | Ecotoxicity of nanoparticles of CuO and ZnO in natural water. | Environmental pollution 158 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 1.6 | mg/L | ○ | 12 ECHA Information on Registered Substances | Blinova I, Ivask A Heinlaan M, Mortimer M and Kahru A. | Ecotoxicity of nanoparticles of CuO and ZnO in natural water. | Environmental pollution 158 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 2.5 | mg/L | ○ | 12 ECHA Information on Registered Substances | Blinova I, Ivask A Heinlaan M, Mortimer M and Kahru A. | Ecotoxicity of nanoparticles of CuO and ZnO in natural water. | Environmental pollution 158 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 1.4 | mg/L | ○ | 12 ECHA Information on Registered Substances | Blinova I, Ivask A Heinlaan M, Mortimer M and Kahru A. | Ecotoxicity of nanoparticles of CuO and ZnO in natural water. | Environmental pollution 158 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 1.7 | mg/L | ○ | 12 ECHA Information on Registered Substances | Blinova I, Ivask A Heinlaan M, Mortimer M and Kahru A. | Ecotoxicity of nanoparticles of CuO and ZnO in natural water. | Environmental pollution 158 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 800 | μg/L | 12 ECHA Information on Registered Substances | Attar E.N., and Maly E.J. | Acute toxicity of cadmium, zinc and cadmium-zinc mixtures to Daphnia magna | Arch. Environm. Contam. Toxicol. 11 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 100 | μg/L | 12 ECHA Information on Registered Substances | Biesinger K.E., & Christensen G.M. | effects of various metals on survival, growth , reproduction and metabolism of daphnia magna | Journal of the fisheries research board of Canada | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 280 | μg/L | 12 ECHA Information on Registered Substances | Biesinger K.E., & Christensen G.M. | effects of various metals on survival, growth , reproduction and metabolism of daphnia magna | Journal of the fisheries research board of Canada | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | mobility | EC50 | 48 | hours | 670 | μg/L | 12 ECHA Information on Registered Substances | Muyssen B.T.A. and Jansseen C.R. | Tolerance and acclimation to inc of Ceriodaphnia dubia | Environmental pollution 117 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 399 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 321 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 556 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | LC50 | 48 | hours | 962 | μg/L | ○ | 12 ECHA Information on Registered Substances | Barata C, Baird D, Markisch S. | Influence of genetic and environmental factors on the tolerance of Daphnia magna Straus to essential and non-essential metals | Aquatic toxicology 42 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mortality | LC50 | 48 | hours | 500 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia pulex | not specified | LC50 | 48 | hours | 107 | μg/L | ○ | 12 ECHA Information on Registered Substances | Mount DI and Norberg TJ | A seven-day life cycle cladoceran toxicity test | Environm. Toxicol. & Chemistry Vol 3 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 353 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 615 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 425 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 1220 | μg/L | ○ | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | effect parameter not explicitly mentioned | EC50 | 48 | hours | 860 | μg/L | ○ | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 2909 | μg/L | ○ | 12 ECHA Information on Registered Substances | Muysen B.T.A., Bossuyt B.T.A. and Jansen, C.R. | Inter- and intra-species variation in acute zinc tolerance of field-collected cladoceran populations | Chemosphere 61 | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | mobility | EC50 | 48 | hours | 416 | μg/L | ○ | 12 ECHA Information on Registered Substances | Muysen B.T.A., Bossuyt B.T.A. and Jansen, C.R. | Inter- and intra-species variation in acute zinc tolerance of field-collected cladoceran populations | Chemosphere 61 | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 500 | μg/L | ○ | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | ||||||||
| 甲殻類 | Ceriodaphnia dubia | effect parameter not explicitly mentioned | EC50 | 48 | hours | 360 | μg/L | ○ | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 1833 | μg/L | ○ | 12 ECHA Information on Registered Substances | Muysen B.T.A., Bossuyt B.T.A. and Jansen, C.R. | Inter- and intra-species variation in acute zinc tolerance of field-collected cladoceran populations | Chemosphere 61 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | LC50 | 48 | hours | 330 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | mobility | LC50 | 48 | hours | 530 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | mobility | LC50 | 48 | hours | 660 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 120 | μg/L | ○ | 12 ECHA Information on Registered Substances | Belanger SE and Cherry DS | Interacting effects of pH , acclimation and heavy metals on acute and chronic toxicity of ceriodaphnia dubia (cladocera) | Journal of crustacean biology 10(2) | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 687 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 399 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 392 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 477 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 399 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 706 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 169 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 523 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | not specified | LC50 | 48 | hours | 68 | μg/L | ○ | 12 ECHA Information on Registered Substances | Mount DI and Norberg TJ | A seven-day life cycle cladoceran toxicity test | Environm. Toxicol. & Chemistry Vol 3 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 765 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 432 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 190 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 105 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | not specified | LC50 | 48 | hours | 76 | μg/L | ○ | 12 ECHA Information on Registered Substances | Mount DI and Norberg TJ | A seven-day life cycle cladoceran toxicity test | Environm. Toxicol. & Chemistry Vol 3 | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 101 | μg/L | ○ | 12 ECHA Information on Registered Substances | Belanger SE and Cherry DS | Interacting effects of pH , acclimation and heavy metals on acute and chronic toxicity of ceriodaphnia dubia (cladocera) | Journal of crustacean biology 10(2) | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 399 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia pulex | mobility | EC50 | 48 | hours | 1014 | μg/L | ○ | 12 ECHA Information on Registered Substances | Clifford M and McGeer J.C. | Development of a biotic ligand model for the acute toxicity os zinc to Daphnia pulex in soft waters | Aquatic toxicology 91 | 2021/03/02 | ||||||
| 甲殻類 | Capitella capitata | Mortality | LC50 | 28 | days | 5490 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Survival | NOEC | 63 | days | 1 | mg/L | 0 mg/L / 0.2 mg/L / 0.5 mg/L / 1 mg/L | 16 ECOTOX | Fabrega,J., R. Tantra, A. Amer, B. Stolpe, J. Tomkins, T. Fry, J.R. Lead, C.R. Tyler, and T.S. Galloway | Sequestration of Zinc from Zinc Oxide Nanoparticles and Life Cycle Effects in the Sediment Dweller Amphipod Corophium volutator | Environ. Sci. Technol.46(2) | 2020/11/12 | ||||||
| 甲殻類 | Dinophilus gyrociliatus | Population//Generation time | LOEL | days | 0.25 | ppm | 16 ECOTOX | Mauri,M., E. Baraldi, and R. Simonini | Effects of Zinc Exposure on the Polychaete Dinophilus gyrociliatus: A Life-Table Response Experiment | Aquat. Toxicol.65(1) | 2020/11/12 | ||||||||
| 甲殻類 | Crassostrea gigas | Reproduction(Fertilization) | EC50 | 60 | minutes | 443.6 | μg/L | 16 ECOTOX | Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani | Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters | Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA | 2020/11/12 | |||||||
| 甲殻類 | Dinophilus gyrociliatus | Reproduction | LOEL | days | 0.25 | ppm | 16 ECOTOX | Mauri,M., E. Baraldi, and R. Simonini | Effects of Zinc Exposure on the Polychaete Dinophilus gyrociliatus: A Life-Table Response Experiment | Aquat. Toxicol.65(1) | 2020/11/12 | ||||||||
| 甲殻類 | Dinophilus gyrociliatus | Population//Population growth rate | NOEL | days | 1 | ppm | 16 ECOTOX | Mauri,M., E. Baraldi, and R. Simonini | Effects of Zinc Exposure on the Polychaete Dinophilus gyrociliatus: A Life-Table Response Experiment | Aquat. Toxicol.65(1) | 2020/11/12 | ||||||||
| 甲殻類 | Dinophilus gyrociliatus | Mortality//Life expectancy | NOEL | days | 1 | ppm | 16 ECOTOX | Mauri,M., E. Baraldi, and R. Simonini | Effects of Zinc Exposure on the Polychaete Dinophilus gyrociliatus: A Life-Table Response Experiment | Aquat. Toxicol.65(1) | 2020/11/12 | ||||||||
| 甲殻類 | Capitella capitata | Mortality | LC50 | 28 | days | 2650 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | MATC | 7 | days | 140 | μg/L | 16 ECOTOX | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10 | 2020/11/12 | |||||||
| 甲殻類 | Neanthes arenaceodentata | Mortality | LC50 | 28 | days | 1400 | μg/L | 16 ECOTOX | Reish,D.J., and T.V. Gerlinger | The Effects of Cadmium, Lead, and Zinc on Survival and Reproduction in the Polychaetous annelid Neanthes arenaceodentata (F.Nereididae) | In: P.A.Hutchings (Ed.), Proc.of the First Int.Polychaete Conf., Sydney, Aust., July 1983, The Linnean Society of New South Wales, Australia | 2020/11/12 | |||||||
| 甲殻類 | Neanthes arenaceodentata | Mortality | LC50 | 28 | days | 700 | μg/L | 16 ECOTOX | Reish,D.J., and T.V. Gerlinger | The Effects of Cadmium, Lead, and Zinc on Survival and Reproduction in the Polychaetous annelid Neanthes arenaceodentata (F.Nereididae) | In: P.A.Hutchings (Ed.), Proc.of the First Int.Polychaete Conf., Sydney, Aust., July 1983, The Linnean Society of New South Wales, Australia | 2020/11/12 | |||||||
| 甲殻類 | Neanthes arenaceodentata | Mortality | LC50 | 28 | days | 1190 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Capitella capitata | Mortality | LC50 | 28 | days | 3220 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Capitella capitata | Mortality | LC50 | 28 | days | 1510 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Neanthes arenaceodentata | Mortality | LC50 | 28 | days | 350 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Neanthes arenaceodentata | Mortality | LC50 | 28 | days | 1650 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Neanthes arenaceodentata | Mortality | LC50 | 28 | days | 1090 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Capitella capitata | Mortality | LC50 | 28 | days | 1030 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Neanthes arenaceodentata | Reproduction | LOEC | months | 320 | μg/L | 16 ECOTOX | Reish,D.J., and T.V. Gerlinger | The Effects of Cadmium, Lead, and Zinc on Survival and Reproduction in the Polychaetous annelid Neanthes arenaceodentata (F.Nereididae) | In: P.A.Hutchings (Ed.), Proc.of the First Int.Polychaete Conf., Sydney, Aust., July 1983, The Linnean Society of New South Wales, Australia | 2020/11/12 | ||||||||
| 甲殻類 | Neanthes arenaceodentata | Reproduction | LOEC | months | 320 | μg/L | 16 ECOTOX | Reish,D.J., and T.V. Gerlinger | The Effects of Cadmium, Lead, and Zinc on Survival and Reproduction in the Polychaetous annelid Neanthes arenaceodentata (F.Nereididae) | In: P.A.Hutchings (Ed.), Proc.of the First Int.Polychaete Conf., Sydney, Aust., July 1983, The Linnean Society of New South Wales, Australia | 2020/11/12 | ||||||||
| 甲殻類 | Capitella capitata | Mortality | LC50 | 28 | days | 2590 | μg/L | 16 ECOTOX | Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer | Toxicity of Formulated Mine Tailings on Marine Polychaete | Marine Biological Consultants, Coasta Mesa, CA | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Growth(Length) | LOEC | 63 | days | 0.2 | mg/L | 0 mg/L / 0.2 mg/L / 0.5 mg/L / 1 mg/L | 16 ECOTOX | Fabrega,J., R. Tantra, A. Amer, B. Stolpe, J. Tomkins, T. Fry, J.R. Lead, C.R. Tyler, and T.S. Galloway | Sequestration of Zinc from Zinc Oxide Nanoparticles and Life Cycle Effects in the Sediment Dweller Amphipod Corophium volutator | Environ. Sci. Technol.46(2) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Growth(Length) | LOEC | 21 | days | 0.12 | mg/L | 16 ECOTOX | Enserink,E.L., J.L. Maas-Diepeveen, and C.J. Van Leeuwen | Combined Effects of Metals: An Ecotoxicological Evaluation | Water Res.25(6) | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Growth//Specific growth rate | LOEC | 23 | days | 1 | mg/L | 0 mg/L / 0.2 mg/L / 0.5 mg/L / 1 mg/L | 16 ECOTOX | Fabrega,J., R. Tantra, A. Amer, B. Stolpe, J. Tomkins, T. Fry, J.R. Lead, C.R. Tyler, and T.S. Galloway | Sequestration of Zinc from Zinc Oxide Nanoparticles and Life Cycle Effects in the Sediment Dweller Amphipod Corophium volutator | Environ. Sci. Technol.46(2) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality | NR-ZERO | 21 | days | 80 | μg/L | 16 ECOTOX | Muyssen,B.T.A., and C.R. Janssen | Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna | Ecotoxicol. Environ. Saf.68(3) | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Growth(Length) | LOEC | 23 | days | 0.5 | mg/L | 0 mg/L / 0.2 mg/L / 0.5 mg/L / 1 mg/L | 16 ECOTOX | Fabrega,J., R. Tantra, A. Amer, B. Stolpe, J. Tomkins, T. Fry, J.R. Lead, C.R. Tyler, and T.S. Galloway | Sequestration of Zinc from Zinc Oxide Nanoparticles and Life Cycle Effects in the Sediment Dweller Amphipod Corophium volutator | Environ. Sci. Technol.46(2) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Intrinsic rate of increase | LOEC | 21 | days | 1 | mg/L | 16 ECOTOX | Enserink,E.L., J.L. Maas-Diepeveen, and C.J. Van Leeuwen | Combined Effects of Metals: An Ecotoxicological Evaluation | Water Res.25(6) | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Development//Sexual development | LOEC | 63 | days | 0.5 | mg/L | 0 mg/L / 0.2 mg/L / 0.5 mg/L / 1 mg/L | 16 ECOTOX | Fabrega,J., R. Tantra, A. Amer, B. Stolpe, J. Tomkins, T. Fry, J.R. Lead, C.R. Tyler, and T.S. Galloway | Sequestration of Zinc from Zinc Oxide Nanoparticles and Life Cycle Effects in the Sediment Dweller Amphipod Corophium volutator | Environ. Sci. Technol.46(2) | 2020/11/12 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | MATC | 7 | days | 70 | μg/L | 16 ECOTOX | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10 | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Immobile | EC50 | 21 | days | 158 | μg/L | 16 ECOTOX | Biesinger,K.E., and G.M. Christensen | Effects of Various Metals on Survival, Growth, Reproduction and Metabolism of Daphnia magna | J. Fish. Res. Board Can.29(12) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Reproduction | LOEC | 21 | days | >100~1000 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 21 | days | 0.84 | mg/L | 16 ECOTOX | Enserink,E.L., J.L. Maas-Diepeveen, and C.J. Van Leeuwen | Combined Effects of Metals: An Ecotoxicological Evaluation | Water Res.25(6) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Survival | LOEC | 21 | days | 1 | mg/L | 16 ECOTOX | Enserink,E.L., J.L. Maas-Diepeveen, and C.J. Van Leeuwen | Combined Effects of Metals: An Ecotoxicological Evaluation | Water Res.25(6) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Population//Population carrying capacity | EC50 | 21 | days | 0.57 | mg/L | 16 ECOTOX | Enserink,E.L., J.L. Maas-Diepeveen, and C.J. Van Leeuwen | Combined Effects of Metals: An Ecotoxicological Evaluation | Water Res.25(6) | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Survival | LOEC | 100 | days | 0.2 | mg/L | 0 mg/L / 0.2 mg/L / 0.5 mg/L / 1 mg/L | 16 ECOTOX | Fabrega,J., R. Tantra, A. Amer, B. Stolpe, J. Tomkins, T. Fry, J.R. Lead, C.R. Tyler, and T.S. Galloway | Sequestration of Zinc from Zinc Oxide Nanoparticles and Life Cycle Effects in the Sediment Dweller Amphipod Corophium volutator | Environ. Sci. Technol.46(2) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 156 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 143 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 152 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 48 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 155 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 143 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 54 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 136 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 92 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Survival | LC50 | 21 | days | 158 | μg/L | 10 EHC (Environmental Health Criteria) | Biesinger KE & Christensen GM | Effects of various metals on survival, growth, reproduction, and metabolism of Daphnia magna. | J Fish Res Board Can, 29 | 2021/03/30 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 82 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Emergence, Survival, Reproduction | NOEC | 17 | days | 420 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Enserink, E.L. et al. | Combined effects of metals: an ecotoxicological evaluation | Water Res. 25 | 2021/03/23 | |||||||
| 甲殻類 | Daphnia magna | Survival, Reproduction | NOEC | 3 | weeks | 310 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Enserink, E.L. et al. | Combined effects of metals: an ecotoxicological evaluation | Water Res. 25 | 2021/03/23 | |||||||
| 甲殻類 | Daphnia magna | Growth | NOEC | 3 | weeks | 37 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Enserink, E.L. et al. | Combined effects of metals: an ecotoxicological evaluation | Water Res. 25 | 2021/03/23 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Emergence, Reproduction | NOEC | 7 | days | 50 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Masters, J.A. et al. | Validation of a four-day Ceriodaphnia toxicity test and statistical considerations in data analysis | Environ. Toxicol. Chem. 10 | 2021/03/23 | |||||||
| 甲殻類 | Daphnia magna | Reproduction | NOEC | 3 | weeks | 74 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Biesinger. K.E. et al. | Effects of metal salt mixtures on Daphnia magna reproduction | Ecotox. Environ. Saf. 11 | 2021/03/23 | |||||||
| 甲殻類 | Daphnia magna | Emergence, Reproduction | NOEC | 3 | weeks | 35 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Biesinger, K.E. and G.M. Christensen | Effects of various metals on survival, growth, reproduction, and metabolism of Daphnia magna | J. Fish. Res. Bd. Can. 29 | 2021/03/23 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 21 | days | 42 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Chapman G.A. et al. | Effects of Water Hardness on the Toxicity of Metals to Daphnia Magna | Status Report 1980, U.S. EPA, Corvallius, Oregon 97330 | 2021/03/23 | |||||||
| 甲殻類 | Corophium volutator | Development//Sexual development | NOEC | 63 | days | 0.2 | mg/L | 0 mg/L / 0.2 mg/L / 0.5 mg/L / 1 mg/L | 16 ECOTOX | Fabrega,J., R. Tantra, A. Amer, B. Stolpe, J. Tomkins, T. Fry, J.R. Lead, C.R. Tyler, and T.S. Galloway | Sequestration of Zinc from Zinc Oxide Nanoparticles and Life Cycle Effects in the Sediment Dweller Amphipod Corophium volutator | Environ. Sci. Technol.46(2) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 21 | days | 43 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Chapman G.A. et al. | Effects of Water Hardness on the Toxicity of Metals to Daphnia Magna | Status Report 1980, U.S. EPA, Corvallius, Oregon 97330 | 2021/03/23 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Emergence, Reproduction | NOEC | 4 | days | 14 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Masters, J.A. et al. | Validation of a four-day Ceriodaphnia toxicity test and statistical considerations in data analysis | Environ. Toxicol. Chem. 10 | 2021/03/23 | |||||||
| 甲殻類 | Americamysis bahia | Mortality, Delayed first birth date, Number of larvae produced | NOEC | 36 | days | 0.12 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Lussier, S.M., Gentile, H. and Walker, J. | Acute and chronic effects heavy metals and cyanide Mysidopsis bahia (Crustacea: Mysidacea). | Aquat. Toxicol., 7, | 2021/03/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Emergence, Reproduction | NOEC | 4 | days | 50 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Masters, J.A. et al. | Validation of a four-day Ceriodaphnia toxicity test and statistical considerations in data analysis | Environ. Toxicol. Chem. 10 | 2021/04/02 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 50 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 0.102 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Biesinger, K.E. and Christensen, G.M. | Effects of various metals on survival growth, reproduction and metabolism of daphnia magna. | J. Fish. Res. Board Can., 29 | 2021/03/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Emergence, Survival | NOEC | 7 | days | 29 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Masters, J.A. et al. | Validation of a four-day Ceriodaphnia toxicity test and statistical considerations in data analysis | Environ. Toxicol. Chem. 10 | 2021/03/23 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 21 | days | 0.158 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Biesinger, K.E. and Christensen, G.M. | Effects of various metals on survival growth, reproduction and metabolism of daphnia magna. | J. Fish. Res. Board Can., 29 | 2021/03/12 | |||||||
| 甲殻類 | Corophium volutator | Survival | NOEC | 23 | days | 1 | mg/L | 0 mg/L / 0.2 mg/L / 0.5 mg/L / 1 mg/L | 16 ECOTOX | Fabrega,J., R. Tantra, A. Amer, B. Stolpe, J. Tomkins, T. Fry, J.R. Lead, C.R. Tyler, and T.S. Galloway | Sequestration of Zinc from Zinc Oxide Nanoparticles and Life Cycle Effects in the Sediment Dweller Amphipod Corophium volutator | Environ. Sci. Technol.46(2) | 2020/11/12 | ||||||
| 甲殻類 | Corophium volutator | Development//Sexual development | NOEC | 100 | days | 1 | mg/L | 0 mg/L / 0.2 mg/L / 0.5 mg/L / 1 mg/L | 16 ECOTOX | Fabrega,J., R. Tantra, A. Amer, B. Stolpe, J. Tomkins, T. Fry, J.R. Lead, C.R. Tyler, and T.S. Galloway | Sequestration of Zinc from Zinc Oxide Nanoparticles and Life Cycle Effects in the Sediment Dweller Amphipod Corophium volutator | Environ. Sci. Technol.46(2) | 2020/11/12 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | LC50 | 7 | days | 0.145 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Carlson, A.R., Nelson, H. and Hammermeister, D. | Evalution of site-specific criteria for copper and zinc: an integration of metal addition toxicity, effluent and receiving water toxicity, and ecological survey data. | EPA-600/3-86-026, U.S.EPA, Duluth, MN | 2021/03/12 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Emergence, Survival | NOEC | 4 | days | 50 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Masters, J.A. et al. | Validation of a four-day Ceriodaphnia toxicity test and statistical considerations in data analysis | Environ. Toxicol. Chem. 10 | 2021/04/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Emergence, Survival | NOEC | 4 | days | 50 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Masters, J.A. et al. | Validation of a four-day Ceriodaphnia toxicity test and statistical considerations in data analysis | Environ. Toxicol. Chem. 10 | 2021/03/23 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Emergence, Reproduction | NOEC | 7 | days | 100 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Masters, J.A. et al. | Validation of a four-day Ceriodaphnia toxicity test and statistical considerations in data analysis | Environ. Toxicol. Chem. 10 | 2021/03/23 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 425 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G., C.R. Janssen and W.M. De Coen | The combined effects of hardness, pH, and dissolved organic carbon on the chronic toxicity of Zn to D. magna: Development of a surface response model | Arch. Environ. Toxicol. 44 | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 575 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G. and C.R. Janssen | Factors affecting the bioavailability of zinc in chronic toxicity testing with Daphnia magna | Summary draft report of ILZRO Project ZEH-2, Laboratory for Environmental Toxicology and Aquatic Ecology, Gent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 320 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G., C.R. Janssen and W.M. De Coen | The combined effects of hardness, pH, and dissolved organic carbon on the chronic toxicity of Zn to D. magna: Development of a surface response model | Arch. Environ. Toxicol. 44 | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 320 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G., C.R. Janssen and W.M. De Coen | The combined effects of hardness, pH, and dissolved organic carbon on the chronic toxicity of Zn to D. magna: Development of a surface response model | Arch. Environ. Toxicol. 44 | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 630 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G. and C.R. Janssen | Factors affecting the bioavailability of zinc in chronic toxicity testing with Daphnia magna | Summary draft report of ILZRO Project ZEH-2, Laboratory for Environmental Toxicology and Aquatic Ecology, Gent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Production of young | EC50 | 21 | days | 102 | μg/L | 10 EHC (Environmental Health Criteria) | Biesinger KE & Christensen GM | Effects of various metals on survival, growth, reproduction, and metabolism of Daphnia magna. | J Fish Res Board Can, 29 | 2021/03/30 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 209 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G., C.R. Janssen and W.M. De Coen | The combined effects of hardness, pH, and dissolved organic carbon on the chronic toxicity of Zn to D. magna: Development of a surface response model | Arch. Environ. Toxicol. 44 | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 445 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G. and C.R. Janssen | Factors affecting the bioavailability of zinc in chronic toxicity testing with Daphnia magna | Summary draft report of ILZRO Project ZEH-2, Laboratory for Environmental Toxicology and Aquatic Ecology, Gent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 630 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G., C.R. Janssen and W.M. De Coen | The combined effects of hardness, pH, and dissolved organic carbon on the chronic toxicity of Zn to D. magna: Development of a surface response model | Arch. Environ. Toxicol. 44 | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 445 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G. and C.R. Janssen | Factors affecting the bioavailability of zinc in chronic toxicity testing with Daphnia magna | Summary draft report of ILZRO Project ZEH-2, Laboratory for Environmental Toxicology and Aquatic Ecology, Gent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Emergence, Survival | NOEC | 7 | days | 100 | μg/L Zn [nominal] | 7 EU Risk Assessment Report (EUリスク評価書) | Masters, J.A. et al. | Validation of a four-day Ceriodaphnia toxicity test and statistical considerations in data analysis | Environ. Toxicol. Chem. 10 | 2021/03/23 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 630 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G., C.R. Janssen and W.M. De Coen | The combined effects of hardness, pH, and dissolved organic carbon on the chronic toxicity of Zn to D. magna: Development of a surface response model | Arch. Environ. Toxicol. 44 | 2021/03/24 | |||||||
| 甲殻類 | Acartia tonsa | Survival | NOEC | 3 | days | 176 | μg/g dry fd | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Growth//Specific growth rate | NOEC | 23 | days | 0.5 | mg/L | 0 mg/L / 0.2 mg/L / 0.5 mg/L / 1 mg/L | 16 ECOTOX | Fabrega,J., R. Tantra, A. Amer, B. Stolpe, J. Tomkins, T. Fry, J.R. Lead, C.R. Tyler, and T.S. Galloway | Sequestration of Zinc from Zinc Oxide Nanoparticles and Life Cycle Effects in the Sediment Dweller Amphipod Corophium volutator | Environ. Sci. Technol.46(2) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 320 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G. and C.R. Janssen | Factors affecting the bioavailability of zinc in chronic toxicity testing with Daphnia magna | Summary draft report of ILZRO Project ZEH-2, Laboratory for Environmental Toxicology and Aquatic Ecology, Gent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 320 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G. and C.R. Janssen | Factors affecting the bioavailability of zinc in chronic toxicity testing with Daphnia magna | Summary draft report of ILZRO Project ZEH-2, Laboratory for Environmental Toxicology and Aquatic Ecology, Gent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 209 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G., C.R. Janssen and W.M. De Coen | The combined effects of hardness, pH, and dissolved organic carbon on the chronic toxicity of Zn to D. magna: Development of a surface response model | Arch. Environ. Toxicol. 44 | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 575 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G., C.R. Janssen and W.M. De Coen | The combined effects of hardness, pH, and dissolved organic carbon on the chronic toxicity of Zn to D. magna: Development of a surface response model | Arch. Environ. Toxicol. 44 | 2021/03/24 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | MATC | 7 | days | 140 | μg/L | 16 ECOTOX | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10 | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 630 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G. and C.R. Janssen | Factors affecting the bioavailability of zinc in chronic toxicity testing with Daphnia magna | Summary draft report of ILZRO Project ZEH-2, Laboratory for Environmental Toxicology and Aquatic Ecology, Gent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction | EC50 | 21 | days | 102 | μg/L | 16 ECOTOX | Biesinger,K.E., and G.M. Christensen | Effects of Various Metals on Survival, Growth, Reproduction and Metabolism of Daphnia magna | J. Fish. Res. Board Can.29(12) | 2020/11/12 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 21 | days | 97 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Chapman G.A. et al. | Effects of Water Hardness on the Toxicity of Metals to Daphnia Magna | Status Report 1980, U.S. EPA, Corvallius, Oregon 97330 | 2021/03/23 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 161 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 320 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G., C.R. Janssen and W.M. De Coen | The combined effects of hardness, pH, and dissolved organic carbon on the chronic toxicity of Zn to D. magna: Development of a surface response model | Arch. Environ. Toxicol. 44 | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 1000 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | Heijerick, D.G., C.R. Janssen and W.M. De Coen | The combined effects of hardness, pH, and dissolved organic carbon on the chronic toxicity of Zn to D. magna: Development of a surface response model | Arch. Environ. Toxicol. 44 | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 117 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 133 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 154 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | MATC | 7 | days | 40 | μg/L | 16 ECOTOX | Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce | Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis | Environ. Toxicol. Chem.10 | 2020/11/12 | |||||||
| 甲殻類 | Corophium volutator | Growth(Length) | NOEC | 100 | days | 1 | mg/L | 0 mg/L / 0.2 mg/L / 0.5 mg/L / 1 mg/L | 16 ECOTOX | Fabrega,J., R. Tantra, A. Amer, B. Stolpe, J. Tomkins, T. Fry, J.R. Lead, C.R. Tyler, and T.S. Galloway | Sequestration of Zinc from Zinc Oxide Nanoparticles and Life Cycle Effects in the Sediment Dweller Amphipod Corophium volutator | Environ. Sci. Technol.46(2) | 2020/11/12 | ||||||
| 甲殻類 | Corophium volutator | Growth//Specific growth rate | NOEC | 100 | days | 1 | mg/L | 0 mg/L / 0.2 mg/L / 0.5 mg/L / 1 mg/L | 16 ECOTOX | Fabrega,J., R. Tantra, A. Amer, B. Stolpe, J. Tomkins, T. Fry, J.R. Lead, C.R. Tyler, and T.S. Galloway | Sequestration of Zinc from Zinc Oxide Nanoparticles and Life Cycle Effects in the Sediment Dweller Amphipod Corophium volutator | Environ. Sci. Technol.46(2) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 98 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 168 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 161 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 161 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Daphnia magna | Reproduction, Survival | NOEC | 3 | weeks | 158 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 甲殻類 | Corophium volutator | Growth(Length) | NOEC | 23 | days | 0.2 | mg/L | 0 mg/L / 0.2 mg/L / 0.5 mg/L / 1 mg/L | 16 ECOTOX | Fabrega,J., R. Tantra, A. Amer, B. Stolpe, J. Tomkins, T. Fry, J.R. Lead, C.R. Tyler, and T.S. Galloway | Sequestration of Zinc from Zinc Oxide Nanoparticles and Life Cycle Effects in the Sediment Dweller Amphipod Corophium volutator | Environ. Sci. Technol.46(2) | 2020/11/12 | ||||||
| 甲殻類 | Corophium volutator | Development//Sexual development | NOEC | 23 | days | 1 | mg/L | 0 mg/L / 0.2 mg/L / 0.5 mg/L / 1 mg/L | 16 ECOTOX | Fabrega,J., R. Tantra, A. Amer, B. Stolpe, J. Tomkins, T. Fry, J.R. Lead, C.R. Tyler, and T.S. Galloway | Sequestration of Zinc from Zinc Oxide Nanoparticles and Life Cycle Effects in the Sediment Dweller Amphipod Corophium volutator | Environ. Sci. Technol.46(2) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Lethal | NOEC | 48 | hours | 0.86 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Bowmer ea 98 | 2016/02/08 | |||||||||
| 甲殻類 | Mysidopsis bahia | mortality, reproduction | NOEC | 36 | days | 0.12 | mg/L | 9 ECETOC Aquatic Toxicity, EAT | Lussier SM, Gentile JH, Walker J | Acute and chronic effects of heavy metals and | Aquat Toxicol 7 | 2020/12/23 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 21 | days | 97 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | EC10 | 3 | weeks | 420 | μg/L | 12 ECHA Information on Registered Substances | Enserink E.L., Maas-Diepeveen J.L. and Van Leeuwen C.J. | Combined effects of metals: an ecotoxicological evaluation. | Wat. Res. Vol 25, No 6 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 50 | days | 83 | μg/L | ○ | 12 ECHA Information on Registered Substances | Palauskis J.D. and Winner R.W. | effects of water hardness and humic acid on zinc toxicity to Daphnia magna Straus | Aquatic Toxicologhy 12 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 50 | days | 159 | μg/L | ○ | 12 ECHA Information on Registered Substances | Palauskis J.D. and Winner R.W. | effects of water hardness and humic acid on zinc toxicity to Daphnia magna Straus | Aquatic Toxicologhy 12 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 50 | days | 208 | μg/L | ○ | 12 ECHA Information on Registered Substances | Palauskis J.D. and Winner R.W. | effects of water hardness and humic acid on zinc toxicity to Daphnia magna Straus | Aquatic Toxicologhy 12 | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 1 | weeks | 25 | μg/L | ○ | 12 ECHA Information on Registered Substances | Belanger SE and Cherry DS | Interacting effects of pH acclimation, pH, and heavy metals on acute and chronic toxicity to ceriodphnia dubia (cladocera) | Journal of crustacean biology 10(2) | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | reproduction and survival | NOEC | 3 | weeks | 100 | μg/L | ○ | 12 ECHA Information on Registered Substances | Münzinger A. and Monicelli F. | A comparison of the sensitivity of three Dapnia magna populations under chronic heavy metal stress | Ecotoxicology and Environmental safety 22 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | reproduction and survival | NOEC | 3 | weeks | 100 | μg/L | ○ | 12 ECHA Information on Registered Substances | Münzinger A. and Monicelli F. | A comparison of the sensitivity of three Dapnia magna populations under chronic heavy metal stress | Ecotoxicology and Environmental safety 22 | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 4 | days | 50 | μg/L | 12 ECHA Information on Registered Substances | Masters J.A. , Lewis, M.A., Davidson, D.H. and Bruce, R.D. | Validation of a four-day Ceriodaphnia test and statistical considerations in data analysis | Environ. Toxicol. Chem. 10 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 4 | days | 14 | μg/L | 12 ECHA Information on Registered Substances | Masters J.A. , Lewis, M.A., Davidson, D.H. and Bruce, R.D. | Validation of a four-day Ceriodaphnia test and statistical considerations in data analysis | Environ. Toxicol. Chem. 10 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 50 | days | 33 | μg/L | ○ | 12 ECHA Information on Registered Substances | Palauskis J.D. and Winner R.W. | effects of water hardness and humic acid on zinc toxicity to Daphnia magna Straus | Aquatic Toxicologhy 12 | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 7 | days | 100 | μg/L | 12 ECHA Information on Registered Substances | Masters J.A. , Lewis, M.A., Davidson, D.H. and Bruce, R.D. | Validation of a four-day Ceriodaphnia test and statistical considerations in data analysis | Environ. Toxicol. Chem. 10 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 50 | days | 31 | μg/L | ○ | 12 ECHA Information on Registered Substances | Palauskis J.D. and Winner R.W. | effects of water hardness and humic acid on zinc toxicity to Daphnia magna Straus | Aquatic Toxicologhy 12 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 21 | days | 43 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 21 | days | 42 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 35 | μg/L | 12 ECHA Information on Registered Substances | Biesinger K.E. and Christensen G.M. | Effects of various metals on survival, growth, reproduction, and metabolism of daphnia magna | Journal of the Fisheries research board of Canada, Vol 29, nr 12 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 74 | μg/L | 12 ECHA Information on Registered Substances | Biesinger et al | Effects of metal salt mixtures on Daphnia magna reproduction | Ecotox. Environm. Safety 11 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | growth | LOEC | 3 | weeks | 120 | μg/L | 12 ECHA Information on Registered Substances | Enserink E.L., Maas-Diepeveen J.L. and Van Leeuwen C.J. | Combined effects of metals: an ecotoxicological evaluation. | Wat. Res. Vol 25, No 6 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | growth | NOEC | 3 | weeks | 37 | μg/L | 12 ECHA Information on Registered Substances | Enserink E.L., Maas-Diepeveen J.L. and Van Leeuwen C.J. | Combined effects of metals: an ecotoxicological evaluation. | Wat. Res. Vol 25, No 6 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | LOEC | 3 | weeks | 1000 | μg/L | 12 ECHA Information on Registered Substances | Enserink E.L., Maas-Diepeveen J.L. and Van Leeuwen C.J. | Combined effects of metals: an ecotoxicological evaluation. | Wat. Res. Vol 25, No 6 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 310 | μg/L | 12 ECHA Information on Registered Substances | Enserink E.L., Maas-Diepeveen J.L. and Van Leeuwen C.J. | Combined effects of metals: an ecotoxicological evaluation. | Wat. Res. Vol 25, No 6 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | survival | LOEC | 3 | weeks | 1000 | μg/L | 12 ECHA Information on Registered Substances | Enserink E.L., Maas-Diepeveen J.L. and Van Leeuwen C.J. | Combined effects of metals: an ecotoxicological evaluation. | Wat. Res. Vol 25, No 6 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 7 | days | 50 | μg/L | 12 ECHA Information on Registered Substances | Masters J.A. , Lewis, M.A., Davidson, D.H. and Bruce, R.D. | Validation of a four-day Ceriodaphnia test and statistical considerations in data analysis | Environ. Toxicol. Chem. 10 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 168 | μg/L | 12 ECHA Information on Registered Substances | Heijerick D.G, De Schamphelaere K.A.C. Van Sprang P.A. and Janssen C.R. | Development of a chronic biotic zinc biotic ligand model for Daphnia magna | ecotoxicology and environmental safety 62 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 1 | weeks | 45 | μg/L | ○ | 12 ECHA Information on Registered Substances | Belanger SE and Cherry DS | Interacting effects of pH acclimation, pH, and heavy metals on acute and chronic toxicity to ceriodphnia dubia (cladocera) | Journal of crustacean biology 10(2) | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 1 | weeks | 29 | μg/L | ○ | 12 ECHA Information on Registered Substances | Belanger SE and Cherry DS | Interacting effects of pH acclimation, pH, and heavy metals on acute and chronic toxicity to ceriodphnia dubia (cladocera) | Journal of crustacean biology 10(2) | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 1 | weeks | 33 | μg/L | ○ | 12 ECHA Information on Registered Substances | Belanger SE and Cherry DS | Interacting effects of pH acclimation, pH, and heavy metals on acute and chronic toxicity to ceriodphnia dubia (cladocera) | Journal of crustacean biology 10(2) | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 1 | weeks | 40 | μg/L | ○ | 12 ECHA Information on Registered Substances | Belanger SE and Cherry DS | Interacting effects of pH acclimation, pH, and heavy metals on acute and chronic toxicity to ceriodphnia dubia (cladocera) | Journal of crustacean biology 10(2) | 2021/03/02 | ||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 1 | weeks | 50 | μg/L | ○ | 12 ECHA Information on Registered Substances | Belanger SE and Cherry DS | Interacting effects of pH acclimation, pH, and heavy metals on acute and chronic toxicity to ceriodphnia dubia (cladocera) | Journal of crustacean biology 10(2) | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | reproduction and survival | NOEC | 3 | weeks | 100 | μg/L | ○ | 12 ECHA Information on Registered Substances | Münzinger A. and Monicelli F. | A comparison of the sensitivity of three Dapnia magna populations under chronic heavy metal stress | Ecotoxicology and Environmental safety 22 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | reproduction and survival | NOEC | 3 | weeks | 136 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction and survival | NOEC | 3 | weeks | 143 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 39 | μg/L | 12 ECHA Information on Registered Substances | Heijerick D.G, De Schamphelaere K.A.C. Van Sprang P.A. and Janssen C.R. | Development of a chronic biotic zinc biotic ligand model for Daphnia magna | ecotoxicology and environmental safety 62 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 50 | days | 84 | μg/L | ○ | 12 ECHA Information on Registered Substances | Palauskis J.D. and Winner R.W. | effects of water hardness and humic acid on zinc toxicity to Daphnia magna Straus | Aquatic Toxicologhy 12 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 79 | μg/L | 12 ECHA Information on Registered Substances | Heijerick D.G, De Schamphelaere K.A.C. Van Sprang P.A. and Janssen C.R. | Development of a chronic biotic zinc biotic ligand model for Daphnia magna | ecotoxicology and environmental safety 62 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | survival and emergence | EC10 | 3 | weeks | 420 | μg/L | 12 ECHA Information on Registered Substances | Enserink E.L., Maas-Diepeveen J.L. and Van Leeuwen C.J. | Combined effects of metals: an ecotoxicological evaluation. | Wat. Res. Vol 25, No 6 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 161 | μg/L | 12 ECHA Information on Registered Substances | Heijerick D.G, De Schamphelaere K.A.C. Van Sprang P.A. and Janssen C.R. | Development of a chronic biotic zinc biotic ligand model for Daphnia magna | ecotoxicology and environmental safety 62 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 73 | μg/L | 12 ECHA Information on Registered Substances | De Schamphelaere K.A.C., Lofts, S. and Janssen C.R. | Bioavailability models for predicting acute and chronic toxicity of zinc to algae, Daphnids and fish in natural surface waters. | Environm. Toxicol. & Chemistry 24 nr 5 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 143 | μg/L | 12 ECHA Information on Registered Substances | De Schamphelaere K.A.C., Lofts, S. and Janssen C.R. | Bioavailability models for predicting acute and chronic toxicity of zinc to algae, Daphnids and fish in natural surface waters. | Environm. Toxicol. & Chemistry 24 nr 5 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 154 | μg/L | 12 ECHA Information on Registered Substances | Heijerick D.G, De Schamphelaere K.A.C. Van Sprang P.A. and Janssen C.R. | Development of a chronic biotic zinc biotic ligand model for Daphnia magna | ecotoxicology and environmental safety 62 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 133 | μg/L | 12 ECHA Information on Registered Substances | Heijerick D.G, De Schamphelaere K.A.C. Van Sprang P.A. and Janssen C.R. | Development of a chronic biotic zinc biotic ligand model for Daphnia magna | ecotoxicology and environmental safety 62 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 117 | μg/L | 12 ECHA Information on Registered Substances | Heijerick D.G, De Schamphelaere K.A.C. Van Sprang P.A. and Janssen C.R. | Development of a chronic biotic zinc biotic ligand model for Daphnia magna | ecotoxicology and environmental safety 62 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 155 | μg/L | 12 ECHA Information on Registered Substances | De Schamphelaere K.A.C., Lofts, S. and Janssen C.R. | Bioavailability models for predicting acute and chronic toxicity of zinc to algae, Daphnids and fish in natural surface waters. | Environm. Toxicol. & Chemistry 24 nr 5 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 95 | μg/L | 12 ECHA Information on Registered Substances | De Schamphelaere K.A.C., Lofts, S. and Janssen C.R. | Bioavailability models for predicting acute and chronic toxicity of zinc to algae, Daphnids and fish in natural surface waters. | Environm. Toxicol. & Chemistry 24 nr 5 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 244 | μg/L | 12 ECHA Information on Registered Substances | De Schamphelaere K.A.C., Lofts, S. and Janssen C.R. | Bioavailability models for predicting acute and chronic toxicity of zinc to algae, Daphnids and fish in natural surface waters. | Environm. Toxicol. & Chemistry 24 nr 5 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 251 | μg/L | 12 ECHA Information on Registered Substances | De Schamphelaere K.A.C., Lofts, S. and Janssen C.R. | Bioavailability models for predicting acute and chronic toxicity of zinc to algae, Daphnids and fish in natural surface waters. | Environm. Toxicol. & Chemistry 24 nr 5 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 3 | weeks | 48 | μg/L | 12 ECHA Information on Registered Substances | Heijerick D.G, De Schamphelaere K.A.C. Van Sprang P.A. and Janssen C.R. | Development of a chronic biotic zinc biotic ligand model for Daphnia magna | ecotoxicology and environmental safety 62 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction and survival | NOEC | 3 | weeks | 92 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction and survival | NOEC | 3 | weeks | 48 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction and survival | NOEC | 3 | weeks | 152 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction and survival | NOEC | 3 | weeks | 155 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction and survival | NOEC | 3 | weeks | 156 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction and survival | NOEC | 3 | weeks | 143 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction and survival | NOEC | 3 | weeks | 82 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction and survival | NOEC | 3 | weeks | 54 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | survival | NOEC | 3 | weeks | 310 | μg/L | 12 ECHA Information on Registered Substances | Enserink E.L., Maas-Diepeveen J.L. and Van Leeuwen C.J. | Combined effects of metals: an ecotoxicological evaluation. | Wat. Res. Vol 25, No 6 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction and survival | NOEC | 3 | weeks | 50 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1600~2000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2200~2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1400~1600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3600~3800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4200~4400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 5000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1800~2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1600~1800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1600~1800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 584 | hours | 1800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4200~4400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 594 | hours | 3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 200 | hours | 278 | μg/L | 16 ECOTOX | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 4200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 186 | hours | 555 | μg/L | 16 ECOTOX | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1600~1800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 4200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 114 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 144 | hours | 7260 | μg/L | 16 ECOTOX | Bradley,R.W., C. Duquesnay, and J.B. Sprague | Acclimation of Rainbow Trout, Salmo gairdneri Richardson, to Zinc: Kinetics and Mechanism of Enhanced Tolerance Induction | J. Fish Biol.27(4) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4000~4200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4400~4600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 554 | hours | >4200~4400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2000~2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 594 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >900~1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >5000~5200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 110 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42 | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 594 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 144 | hours | 4850 | μg/L | 16 ECOTOX | Bradley,R.W., C. Duquesnay, and J.B. Sprague | Acclimation of Rainbow Trout, Salmo gairdneri Richardson, to Zinc: Kinetics and Mechanism of Enhanced Tolerance Induction | J. Fish Biol.27(4) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1400~1600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1600~1800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 4600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 144 | hours | 5210 | μg/L | 16 ECOTOX | Bradley,R.W., C. Duquesnay, and J.B. Sprague | Acclimation of Rainbow Trout, Salmo gairdneri Richardson, to Zinc: Kinetics and Mechanism of Enhanced Tolerance Induction | J. Fish Biol.27(4) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 257 | μg/L | 16 ECOTOX | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4400~4600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4000~4200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 604 | hours | >1200~1400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3400~3600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2200~2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 168 | hours | 501 | μg/L | 16 ECOTOX | Cusimano,R.F., D.F. Brakke, and G.A. Chapman | Effects of pH on the Toxicities of Cadmium, Copper, and Zinc to Steelhead Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.43(8) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2200~2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 644 | hours | 2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4000~4200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 4800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 168 | hours | 97 | μg/L | 16 ECOTOX | Cusimano,R.F., D.F. Brakke, and G.A. Chapman | Effects of pH on the Toxicities of Cadmium, Copper, and Zinc to Steelhead Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.43(8) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3400~3600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 120 | hours | 5000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 117 | hours | 2818 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 141 | hours | 3077 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 156 | hours | 3004 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 198 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 9920 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42 | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 554 | hours | >4200~4400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4600~4800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 574 | hours | >5200~5400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3600~3800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 4200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1400~1600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4000~4200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 634 | hours | 3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1200~1400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 180 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42 | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 674 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1400~1600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1000~1100 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >800~1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 594 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4000~4200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1400~1600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1600~1800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2000~2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1600~1800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 200 | hours | 120 | μg/L | 16 ECOTOX | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3400~3600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1800~2000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 554 | hours | 5000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 168 | hours | 66 | μg/L | 16 ECOTOX | Cusimano,R.F., D.F. Brakke, and G.A. Chapman | Effects of pH on the Toxicities of Cadmium, Copper, and Zinc to Steelhead Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.43(8) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 30 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42 | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2200~2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 724 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28 | days | 1120 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1600~1800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2000~2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 634 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 144 | hours | 4200 | μg/L | 16 ECOTOX | Bradley,R.W., C. Duquesnay, and J.B. Sprague | Acclimation of Rainbow Trout, Salmo gairdneri Richardson, to Zinc: Kinetics and Mechanism of Enhanced Tolerance Induction | J. Fish Biol.27(4) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 664 | hours | 600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 109 | μg/L | 16 ECOTOX | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4200~4400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 144 | hours | 3960 | μg/L | 16 ECOTOX | Bradley,R.W., C. Duquesnay, and J.B. Sprague | Acclimation of Rainbow Trout, Salmo gairdneri Richardson, to Zinc: Kinetics and Mechanism of Enhanced Tolerance Induction | J. Fish Biol.27(4) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 584 | hours | 1600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1600~1800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1400~1600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 184 | μg/L | 16 ECOTOX | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 574 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 37.2 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4000~4200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 574 | hours | 4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 329 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 26.8 | μg/L | 16 ECOTOX | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1800~2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >5200~5400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 554 | hours | 4200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 880 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42 | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 684 | hours | 600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 1.12 | mg/L | 16 ECOTOX | Birge,W.J., J.A. Black, A.G. Westerman, and B.A. Ramey | Fish and Amphibian Embryos - a Model System for Evaluating Teratogenicity | Fundam. Appl. Toxicol.3:237-242 | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4600~4800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1000~1200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 28.2 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 160 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42 | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 124 | μg/L | 16 ECOTOX | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 574 | hours | >4000~4200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 23.9 | μg/L | 16 ECOTOX | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LOEC | 20 | hours | 35~350 | mM | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Reproduction(Fecundity) | NOEC | 459 | days | 2.5 | mg/dm3 | 16 ECOTOX | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3) | 2020/11/12 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Morphology//Organ weight in relationship to body weight | NOEC | 459 | days | 2.5 | mg/dm3 | 16 ECOTOX | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3) | 2020/11/12 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Reproduction | LOEC | days | 2.5 | mg/dm3 | 16 ECOTOX | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3) | 2020/11/12 | ||||||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction//Velocity | LOEC | 2 | hours | 50 | ppm | 16 ECOTOX | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction//Motility | LOEC | 2 | hours | 100 | ppm | 16 ECOTOX | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1) | 2020/11/12 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Reproduction | LOEC | days | 2.5 | mg/dm3 | 16 ECOTOX | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3) | 2020/11/12 | ||||||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction//Velocity | LOEC | 2 | hours | 10 | ppm | 16 ECOTOX | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction//Velocity | LOEC | 2 | hours | 100 | ppm | 16 ECOTOX | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1) | 2020/11/12 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NR-ZERO | 48 | hours | 65000 | μg/L | 16 ECOTOX | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381 | 2020/11/12 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NR-ZERO | 24 | hours | 87000 | μg/L | 16 ECOTOX | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381 | 2020/11/12 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NR-ZERO | 7 | days | 80~100 | μg/L | 16 ECOTOX | Rougier,F., A. Menudier, C. Bosgiraud, and J.A. Nicolas | Copper and Zinc Exposure of Zebrafish, Brachydanio rerio (Hamilton-Buchaman): Effects in Experimental Listeria Infection | Ecotoxicol. Environ. Saf.34(2) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NR-LETH | 24 | hours | 45000 | μg/L | 16 ECOTOX | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381 | 2020/11/12 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Reproduction | NOEC | days | 1 | mg/dm3 | 16 ECOTOX | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3) | 2020/11/12 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality(Hatch) | LOEC | 24 | hours | 10 | μg/mL | 0 ug/ml / 10 ug/ml | 16 ECOTOX | Xia,T., Y. Zhao, T. Sager, S. George, S. Pokhrel, N. Li, D. Schoenfeld, H. Meng, S. Lin, X. Wang, M. Wang, Z. Ji, J.I. | Decreased Dissolution of ZnO by Iron Doping Yields Nanoparticles with Reduced Toxicity in the Rodent Lung and Zebrafish Embryos | ACS Nano5(2) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 96 | hours | 6500 | μg/L | 16 ECOTOX | Bresch,H. | Investigation of the Long-Term Action of Xenobiotics on Fish with Special Regard to Reproduction | Ecotoxicol. Environ. Saf.6(1) | 2020/11/12 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 96 | hours | 25000 | μg/L | 16 ECOTOX | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381 | 2020/11/12 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | hours | 66000 | μg/L | 16 ECOTOX | Eisler,R. | Acute Toxicity of Zinc to the Killfish, Fundulus heteroclitus | Chesapeake Sci.8 | 2020/11/12 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 48 | hours | 105000 | μg/L | 16 ECOTOX | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381 | 2020/11/12 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 168 | hours | 52000 | μg/L | 16 ECOTOX | Eisler,R., and R.J. Hennekey | Acute Toxicities of Cd2+, Cr+6, Hg2+, Ni2+ and Zn2+ to Estuarine Macrofauna | Arch. Environ. Contam. Toxicol.6(2-3) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Intoxication//Immobile | EC50 | 96 | hours | 550 | μg/L | 16 ECOTOX | Carlson,A.R., H. Nelson, and D. Hammermeister | Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data | EPA-600/3-86-026, U.S.EPA, Duluth, MN | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Intoxication//Immobile | EC50 | 96 | hours | 191 | μg/L | 16 ECOTOX | Carlson,A.R., H. Nelson, and D. Hammermeister | Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data | EPA-600/3-86-026, U.S.EPA, Duluth, MN | 2020/11/12 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NR-ZERO | 96 | hours | 8000 | μg/L | 16 ECOTOX | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381 | 2020/11/12 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | NR-ZERO | 35 | days | 260.3 | μg/L | 16 ECOTOX | Gheorghiu,C., D.J. Marcogliese, and M. Scott | Concentration-Dependent Effects of Waterborne Zinc on Population Dynamics of Gyrodactylus turnbulli (Monogenea) on Isolated Guppies (Poecilia reticulata) | Parasitology132(2) | 2020/11/12 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Survival | NOEC | 72 | hours | 10 | μg/mL | 0 ug/ml / 10 ug/ml | 16 ECOTOX | Xia,T., Y. Zhao, T. Sager, S. George, S. Pokhrel, N. Li, D. Schoenfeld, H. Meng, S. Lin, X. Wang, M. Wang, Z. Ji, J.I. | Decreased Dissolution of ZnO by Iron Doping Yields Nanoparticles with Reduced Toxicity in the Rodent Lung and Zebrafish Embryos | ACS Nano5(2) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NR-LETH | 48 | hours | 155000 | μg/L | 16 ECOTOX | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381 | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4000~4200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 574 | hours | 4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2000~2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 684 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1000~1200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Carassius auratus (Goldfish) | Reproduction(Fecundity) | NOEC | 232 | days | 2.5 | mg/dm3 | 16 ECOTOX | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 664 | hours | 1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction//Velocity | NOEC | 2 | hours | 10 | ppm | 16 ECOTOX | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >5000~5200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | NR-ZERO | 459 | days | 0.85~1.2 | mg/dm3 | 16 ECOTOX | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | NR-ZERO | 30 | days | 0.08 | mg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Morphology//Organ weight in relationship to body weight | NOEC | 459 | days | 2.5 | mg/dm3 | 16 ECOTOX | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3) | 2020/11/12 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Reproduction | NOEC | days | 1 | mg/dm3 | 16 ECOTOX | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3) | 2020/11/12 | ||||||||
| 魚類 | Carassius auratus (Goldfish) | Reproduction(Fecundity) | NOEC | 128 | days | 2.5 | mg/dm3 | 16 ECOTOX | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction//Motility | NOEC | 2 | hours | 50 | ppm | 16 ECOTOX | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction//Velocity | NOEC | 2 | hours | 50 | ppm | 16 ECOTOX | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2000~2100 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 5120 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42 | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1400~1600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1600~1800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 200 | hours | 93 | μg/L | 16 ECOTOX | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2000~2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1400~1600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 614 | hours | 3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 4460 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42 | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >5200~5400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2000~2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 614 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2200~2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1400~1600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 614 | hours | 3800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 544 | hours | 4200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 11100 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42 | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >800~1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >800~1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 684 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2200~2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3600~3800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1200~1400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 654 | hours | >2200~2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2200~2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 58.8 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 6000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1800~2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4000~4200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 27.3 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >800~1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2200~2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1600~1800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 644 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2800~3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4400~4600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1800~2000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >900~1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2200~2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 644 | hours | 800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3600~3800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1400~1600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2000~2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 53.3 | μg/L | 16 ECOTOX | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1800~2000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >800~1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 33.3 | μg/L | 16 ECOTOX | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 5400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >800~1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1200~1400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2200~2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >1400~1600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 3000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 170 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3600~3800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 594 | hours | >3600~3800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Avoidance//Chemical avoidance | LOEC | 20 | minutes | 50 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | 2000 | minutes | >2~5 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2200~2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | >2~5 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | 20 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | 10 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | >5~10 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | >5~10 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | >2~5 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | >2~5 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 114 | hours | 2476 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 120 | hours | 680 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 141 | hours | 3090 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 131 | hours | 695 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 1200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 144 | hours | 6230 | μg/L | 16 ECOTOX | Bradley,R.W., C. Duquesnay, and J.B. Sprague | Acclimation of Rainbow Trout, Salmo gairdneri Richardson, to Zinc: Kinetics and Mechanism of Enhanced Tolerance Induction | J. Fish Biol.27(4) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 5000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | 10000 | minutes | >1~2 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | >5~10 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | 10000 | minutes | >2~5 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | 200 | minutes | 50 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | 5 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | 162 | minutes | 30 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | 2 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | >20~50 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | 10000 | minutes | >2~5 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >4200~4400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | >1~2 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | 285 | minutes | 10 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | 20 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | >10~20 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | 0.5 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | 10000 | minutes | >2~5 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | 150 | minutes | 20 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | 2000 | minutes | 2 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | >5~10 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | minutes | >2~5 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 594 | hours | >3600~3800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NR-LETH | 4 | days | 7.5 | mg/L | 16 ECOTOX | Birge,W.J., J.A. Black, A.G. Westerman, and B.A. Ramey | Fish and Amphibian Embryos - a Model System for Evaluating Teratogenicity | Fundam. Appl. Toxicol.3:237-242 | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | 200 | minutes | >5~10 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2200~2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | LT50 | 180 | minutes | 20 | ppm | 16 ECOTOX | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >800~1000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Avoidance//Chemical avoidance | MATC | 20 | minutes | 20 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 634 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 120 | hours | 150 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 664 | hours | >600~800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Avoidance//Chemical avoidance | NOEC | 20 | minutes | 10 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3600~3800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | 2000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 574 | hours | >3400~3600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3200~3400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3400~3600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 554 | hours | >5000~5200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2400~2600 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NR-ZERO | hours | 1.08 | μmol/L | 16 ECOTOX | Zia,S., and D.G. McDonald | Role of the Gills and Gill Chloride Cells in Metal Uptake in the Freshwater-Adapted Rainbow Trout, Oncorhynchus mykiss | Can. J. Fish. Aquat. Sci.51(11) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3800~4000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >3000~3200 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 554 | hours | >4800~5000 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2600~2800 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | hours | >2200~2400 | μg/L | 16 ECOTOX | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12) | 2020/11/12 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 24 | hours | 31800 | μg/L | 16 ECOTOX | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381 | 2020/11/12 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 48 | hours | 28000 | μg/L | 16 ECOTOX | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381 | 2020/11/12 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 144 | hours | 9.1 | mg/L | 16 ECOTOX | Widianarko,B., F.X.S. Kuntoro, C.A.M. Van Gestel, and N.M. Van Straalen | Toxicokinetics and Toxicity of Zinc Under Time-Varying Exposure in the Guppy (Poecilia reticulata) | Environ. Toxicol. Chem.20(4) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1200~<1400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3600~<3800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1600~<1800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1400~<1600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2200~<2400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 27.67 | days | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1400~<1600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >800~<1000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >900~<1000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >5000~<5200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2200~<2400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 25.58 | days | 3400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4000~<4200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4200~<4400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2000~<2200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 27.67 | days | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4000~<4200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >800~<1000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2200~<2400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 184 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1): 67-75 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 26.8 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1): 67-75 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 53.3 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1): 67-75 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 109 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1): 67-75 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 170 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 204 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 469 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 297 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 251 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 33.3 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1): 67-75 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 95 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1400~<1600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3400~<3600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2200~<2400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >5200~<5400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1600~<1800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28.08 | days | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 23.92 | days | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3600~<3800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1600~<1800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 24.33 | days | 1800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2200~<2400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1600~<1800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1400~<1600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2000~<2200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28.5 | days | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 181 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2200~<2400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1400~<1600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 26.83 | days | 800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1800~<2000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1400~<1600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2000~<2200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3600~<3800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1800~<2200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 24.75 | days | >3600~<3800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 26.83 | days | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4400~<4600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1600~<1800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 24.75 | days | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4000~<4200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 24.75 | days | >3000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3400~<3600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >800~<1000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 23.08 | days | >5000~<5200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4000~<4200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1800~<2000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 23.9 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1): 67-75 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 124 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1): 67-75 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1400~<1600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 23.92 | days | >4000~<4200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30.17 | days | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 26.42 | days | 3200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >5200~<5400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1600~<1800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1000~<1100 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 26.42 | days | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 246 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2000~<2200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 3.75 | days | 10 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 132 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 24.75 | days | >3600~<3800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1000~<1200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 130 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 107 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4000~<4200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 25.58 | days | 3800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2200~<2400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1600~<2000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1600~<1800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 117 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 23.08 | days | >4800~<5000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >900~<1000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 24.75 | days | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2000~<2200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1400~<1600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 24.33 | days | 1600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 23.92 | days | >5200~<5400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 25.17 | days | >1200~<1400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1600~<1800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1000~<1200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 23.08 | days | >4200~<4400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2000~<2200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4400~<4600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2200~<2400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 23.08 | days | 5000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28.5 | days | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 23.92 | days | 4000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2000~<2200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2000~<2100 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1400~<1600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3400~<3600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3600~<3800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2200~<2400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1800~<2200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1400~<1600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 60 | days | 520 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Leeuwen,C.J., E.M.M. Grootelaar, and G. Niebeek | Fish Embryos as Teratogenicity Screens: A Comparison of Embryotoxicity Between Fish and Birds | Ecotoxicol. Environ. Saf.20(1): 42-52 | 1990 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 23.92 | days | >3400~3600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 14 | days | 1920 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 1.48 | days | 7500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 35 | days | 1920 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 35 | days | 1920 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 1 | days | 1920 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 21 | days | 1920 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 1 | days | 1920 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEL | 7 | days | 300 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 7 | days | 1920 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 9.28 | hours | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Physiology | NOEC | 4 | days | 2200 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NOEC | 3 | days | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Xia,T., Y. Zhao, T. Sager, S. George, S. Pokhrel, N. Li, D. Schoenfeld, H. Meng, S. Lin, X. Wang, M. Wang, Z. Ji, J.I. Z | Decreased Dissolution of ZnO by Iron Doping Yields Nanoparticles with Reduced Toxicity in the Rodent Lung and Zebrafish Embryos | ACS Nano5(2): 1223-1235 | 2011 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 14 | days | 1520 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 21 | days | 1520 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 7 | days | 1520 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 1 | days | 1520 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 44480 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 7 | days | 1920 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEL | 7 | days | 300 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 450 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LOEC | 20 | hours | 35~350 | 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 | 2016/03/25 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Physiology | LOEC | 4 | days | 2224 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | No Group Code | LOEC | 7 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Leeuwen,C.J., E.M.M. Grootelaar, and G. Niebeek | Fish Embryos as Teratogenicity Screens: A Comparison of Embryotoxicity Between Fish and Birds | Ecotoxicol. Environ. Saf.20(1): 42-52 | 1990 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LOEC | 7 | days | 3200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Leeuwen,C.J., E.M.M. Grootelaar, and G. Niebeek | Fish Embryos as Teratogenicity Screens: A Comparison of Embryotoxicity Between Fish and Birds | Ecotoxicol. Environ. Saf.20(1): 42-52 | 1990 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | LOEL | 7 | days | 300 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Biochemical | LOEL | 2 | days | 0.6 | その他others [mg/kg bdwt] | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw-Allen,P., M. Elliott, and C.H. Jagoe | A Microscaled Mercury Saturation Assay for Metallothionein in Fish | Environ. Toxicol. Chem.22(9): 2005-2012 | 2003 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 2.49 | days | 100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 300 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28.5 | days | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 300 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 1.64 | days | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 11.9 | hours | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 1.41 | days | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 12.9 | hours | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 2.23 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 1 | days | 45000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381:1-9 | 1965 | 2016/03/25 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LOEL | 7 | days | 300 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 55 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1): 87-96 | 2006 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Behavior | 0.33 | hours | 216 | μg/L | 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 | 2016/03/25 | |||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Behavior | 0.33 | hours | 43700 | μg/L | 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 | 2016/03/25 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Behavior | 3700~6700 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., and J.J. Loos | Changed Feeding Rate of Brachydanio rerio (Hamilton Buchanan) Resulting From Exposure to Sublethal Concentrations of Zinc, Potassium | Proc. Pa. Acad. Sci.40:47-52 | 1967 | 2016/03/25 | ||||||||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | 1 | days | 100~10000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hiraoka,Y., S. Ishizawa, T. Kamada, and H. Okuda | Acute Toxicity of 14 Different Kinds of Metals Affecting Medaka Fry | Hiroshima J. Med. Sci.34(3): 327-330 | 1985 | 2016/03/25 | ||||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 4 | days | 100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 4 | days | 10 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 21 | days | 1920 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Biochemical | 0.6 | その他others [mg/kg bdwt] | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw-Allen,P., M. Elliott, and C.H. Jagoe | A Microscaled Mercury Saturation Assay for Metallothionein in Fish | Environ. Toxicol. Chem.22(9): 2005-2012 | 2003 | 2016/03/25 | |||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Behavior | 0.7 | hours | 43700 | μg/L | 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 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 149 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1): 87-96 | 2006 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 1340 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 1660 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 1240 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 1640 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 830 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Physiology | 4 | days | 2212 | μg/L | 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 | 2016/03/25 | |||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Biochemical | 0.6 | その他others [mg/kg bdwt] | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Shaw-Allen,P., M. Elliott, and C.H. Jagoe | A Microscaled Mercury Saturation Assay for Metallothionein in Fish | Environ. Toxicol. Chem.22(9): 2005-2012 | 2003 | 2016/03/25 | |||||||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | 7 | days | 80~100 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rougier,F., A. Menudier, C. Bosgiraud, and J.A. Nicolas | Copper and Zinc Exposure of Zebrafish, Brachydanio rerio (Hamilton-Buchaman): Effects in Experimental Listeria Infection | Ecotoxicol. Environ. Saf.34(2): 134-140 | 1996 | 2016/03/25 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 2 | days | 155000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381:1-9 | 1965 | 2016/03/25 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | 4 | days | 120 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:19 p. | 1982 | 2016/03/25 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 4 | days | 8000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381:1-9 | 1965 | 2016/03/25 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 1 | days | 87000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381:1-9 | 1965 | 2016/03/25 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 2 | days | 65000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381:1-9 | 1965 | 2016/03/25 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 7 | days | 80~100 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rougier,F., A. Menudier, C. Bosgiraud, and J.A. Nicolas | Copper and Zinc Exposure of Zebrafish, Brachydanio rerio (Hamilton-Buchaman): Effects in Experimental Listeria Infection | Ecotoxicol. Environ. Saf.34(2): 134-140 | 1996 | 2016/03/25 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 4 | days | 71168 | μg/L | 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 | 2016/03/25 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | 1 | days | >20000~<30000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Xia,T., Y. Zhao, T. Sager, S. George, S. Pokhrel, N. Li, D. Schoenfeld, H. Meng, S. Lin, X. Wang, M. Wang, Z. Ji, J.I. Z | Decreased Dissolution of ZnO by Iron Doping Yields Nanoparticles with Reduced Toxicity in the Rodent Lung and Zebrafish Embryos | ACS Nano5(2): 1223-1235 | 2011 | 2016/03/25 | ||||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | 4 | days | 120~2000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:19 p. | 1982 | 2016/03/25 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | 35 | days | 250 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Memmert,U. | Bioaccumulation of Zinc in Two Freshwater Organisms (Daphnia magna, Crustacea and Brachydanio rerio, Pisces) | Water Res.21(1): 99-106 | 1987 | 2016/03/25 | |||||||
| 魚類 | Oryzias latipes (Japanese medaka) | Accumulation | 6.9~45.2 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nakagawa,H., and S. Ishio | Aspects of Accumulation of Copper, Manganese and Zinc Ions in the Egg of Medaka Oryzias latipes | Nippon Suisan Gakkaishi55(1): 117-121 | 1989 | 2016/03/25 | ||||||||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | 7 | days | 150~250 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rougier,F., A. Menudier, C. Bosgiraud, and J.A. Nicolas | Copper and Zinc Exposure of Zebrafish, Brachydanio rerio (Hamilton-Buchaman): Effects in Experimental Listeria Infection | Ecotoxicol. Environ. Saf.34(2): 134-140 | 1996 | 2016/03/25 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 7 | days | 150~250 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rougier,F., A. Menudier, C. Bosgiraud, and J.A. Nicolas | Copper and Zinc Exposure of Zebrafish, Brachydanio rerio (Hamilton-Buchaman): Effects in Experimental Listeria Infection | Ecotoxicol. Environ. Saf.34(2): 134-140 | 1996 | 2016/03/25 | ||||||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | 45 | days | 23.7~260.3 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gheorghiu,C., D.J. Marcogliese, and M. Scott | Concentration-Dependent Effects of Waterborne Zinc on Population Dynamics of Gyrodactylus turnbulli (Monogenea) on Isolated Guppies (Poecilia reticulata) | Parasitology132(2): 225-232 | 2006 | 2016/03/25 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Biochemical | 7 | days | 50~250 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rougier,F., D. Troutaud, A. Ndoye, and P. Deschaux | Non-specific Immune Response of Zebrafish, Brachydanio rerio (Hamilton-Buchanan) Following Copper and Zinc Exposure | Fish Shellfish Immunol.4:115-127 | 1994 | 2016/03/25 | ||||||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | 6.25 | days | 100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chen,C.W., and R.E. Selleck | A Kinetic Model of Fish Toxicity Threshold | J. Water Pollut. Control Fed.41(7): R294 - R308 | 1969 | 2016/03/25 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 2 | days | >50000~<60000 | 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 | 2016/03/25 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | 35 | days | 260.3 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gheorghiu,C., D.J. Marcogliese, and M. Scott | Concentration-Dependent Effects of Waterborne Zinc on Population Dynamics of Gyrodactylus turnbulli (Monogenea) on Isolated Guppies (Poecilia reticulata) | Parasitology132(2): 225-232 | 2006 | 2016/03/25 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 1 | days | 31800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381:1-9 | 1965 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 9600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr. | Environment and Time in Fish Toxicity | Ind. Wastes2(1): 1-4 | 1957 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 387 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Carlson,A.R., H. Nelson, and D. Hammermeister | Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data | EPA-600/3-86-026, U.S.EPA, Duluth, MN:68 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 550 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Carlson,A.R., H. Nelson, and D. Hammermeister | Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data | EPA-600/3-86-026, U.S.EPA, Duluth, MN:68 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 5370 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 2 | days | 7240 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 1 | days | 7240 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 2 | days | 20000 | μg/L | 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) | Eisei Kagaku32(1): 46-53 | 1986 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 25000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381:1-9 | 1965 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 38100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gale,N.L., B.G. Wixson, and M. Erten | An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater | Trace Subst. Environ. Health25:169-183 | 1992 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2580 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erten-Unal,M., B.G. Wixson, N. Gale, and J.L. Pitt | Evaluation of Toxicity, Bioavailability and Speciation of Lead, Zinc and Cadmium in Mine/Mill Wastewaters | Chem. Spec. Bioavail.10(2): 37-46 | 1998 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 2 | days | 28000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381:1-9 | 1965 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 47700 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Erten-Unal,M., B.G. Wixson, N. Gale, and J.L. Pitt | Evaluation of Toxicity, Bioavailability and Speciation of Lead, Zinc and Cadmium in Mine/Mill Wastewaters | Chem. Spec. Bioavail.10(2): 37-46 | 1998 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | >6500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bresch,H. | Investigation of the Long-Term Action of Xenobiotics on Fish with Special Regard to Reproduction | Ecotoxicol. Environ. Saf.6(1): 102-112 | 1982 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 8020 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., and A. Scheier | The Effects of Periodic Low Oxygen upon the Toxicity of Various Chemicals to Aquatic Organisms | Proc. 12th Ind. Waste Conf. Purdue Univ. Eng. Ext. Ser. No. 94, Eng. Bull.42:165-176 | 1958 | 2016/03/25 | ||||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 1 | days | 35000 | μg/L | 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) | Eisei Kagaku32(1): 46-53 | 1986 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LOEC | 1 | days | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Xia,T., Y. Zhao, T. Sager, S. George, S. Pokhrel, N. Li, D. Schoenfeld, H. Meng, S. Lin, X. Wang, M. Wang, Z. Ji, J.I. Z | Decreased Dissolution of ZnO by Iron Doping Yields Nanoparticles with Reduced Toxicity in the Rodent Lung and Zebrafish Embryos | ACS Nano5(2): 1223-1235 | 2011 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 2 | days | 105000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., A. Scheier, and J.J. Loos | A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf. | Not. Nat. Acad. Nat. Sci. Philadelphia 381:1-9 | 1965 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 50200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gale,N.L., B.G. Wixson, and M. Erten | An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater | Trace Subst. Environ. Health25:169-183 | 1992 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 19.7 | hours | 7500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 1.84 | days | 7500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 21.1 | hours | 7500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 11.4 | hours | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 2.42 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Growth | EC50 | 7 | days | 18500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Leeuwen,C.J., E.M.M. Grootelaar, and G. Niebeek | Fish Embryos as Teratogenicity Screens: A Comparison of Embryotoxicity Between Fish and Birds | Ecotoxicol. Environ. Saf.20(1): 42-52 | 1990 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiology | EC50 | 4 | days | 550 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Carlson,A.R., H. Nelson, and D. Hammermeister | Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data | EPA-600/3-86-026, U.S.EPA, Duluth, MN:68 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 7450 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., and A. Scheier | The Relationship of Bluegill Sunfish Body Size to Tolerance for Some Common Chemicals | In: Proc.13th Ind.Waste Conf.,Series No.95, Eng.Bull.43, Purdue Univ.,IN:243-252 | 1959 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 43700 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gale,N.L., B.G. Wixson, and M. Erten | An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater | Trace Subst. Environ. Health25:169-183 | 1992 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 6910 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., and A. Scheier | The Relationship of Bluegill Sunfish Body Size to Tolerance for Some Common Chemicals | In: Proc.13th Ind.Waste Conf.,Series No.95, Eng.Bull.43, Purdue Univ.,IN:243-252 | 1959 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 7200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., and A. Scheier | The Relationship of Bluegill Sunfish Body Size to Tolerance for Some Common Chemicals | In: Proc.13th Ind.Waste Conf.,Series No.95, Eng.Bull.43, Purdue Univ.,IN:243-252 | 1959 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2580 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gale,N.L., B.G. Wixson, and M. Erten | An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater | Trace Subst. Environ. Health25:169-183 | 1992 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 7 | days | 500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gillespie,W.B.J., W.B. Hawkins, J.H.,Jr. Rodgers, M.L. Cano, and P.B. Dorn | Transfers and Transformations of Zinc in Flow-Through Wetland Microcosms | Ecotoxicol. Environ. Saf.43(2): 126-132 | 1999 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 7 | days | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Leeuwen,C.J., E.M.M. Grootelaar, and G. Niebeek | Fish Embryos as Teratogenicity Screens: A Comparison of Embryotoxicity Between Fish and Birds | Ecotoxicol. Environ. Saf.20(1): 42-52 | 1990 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 2860~3780 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Patrick,R., J.,Jr. Cairns, and A. Scheier | The Relative Sensitivity of Diatoms, Snails, and Fish to Twenty Common Constituents of Industrial Wastes | Prog. Fish-Cult.30(3): 137-140 | 1968 | 2016/03/25 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 47700 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Gale,N.L., B.G. Wixson, and M. Erten | An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater | Trace Subst. Environ. Health25:169-183 | 1992 | 2016/03/25 | ||||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 2 | days | 20000 | μg/L | 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) | Eisei Kagaku32(1): 46-53 | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Physiology | EC50 | 4 | days | 191 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Carlson,A.R., H. Nelson, and D. Hammermeister | Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data | EPA-600/3-86-026, U.S.EPA, Duluth, MN:68 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 7140 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 6710 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 4820 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 6880 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 7450 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 7620 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 6230 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 1 | days | 40000 | μg/L | 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) | Eisei Kagaku32(1): 46-53 | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 6230 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 7500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., J.W. Hall, E.L. Morgan, R.E. Sparks, W.T. Waller, and G.F. Westlake | The Development of an Automated Biological Monitoring System for Water Quality | Bull.No.59, Virginia Water Resour.Res.Ctr., Virginia Polytechnic Inst.and State Univ., Blacksburg,VA:50 p. | 1973 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 8340 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 6090 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 4200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., and A. Scheier | A Comparison of the Toxicity of Some Common Industrial Waste Components Tested Individually and Combined | Prog. Fish-Cult.30(1): 3-8 | 1968 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 260 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:19 p. | 1982 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:19 p. | 1982 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 3 | days | >50000~<60000 | 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 | 2016/03/25 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 1 | days | >60000~<70000 | 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 | 2016/03/25 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 6120 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 6 | days | 9100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Widianarko,B., F.X.S. Kuntoro, C.A.M. Van Gestel, and N.M. Van Straalen | Toxicokinetics and Toxicity of Zinc Under Time-Varying Exposure in the Guppy (Poecilia reticulata) | Environ. Toxicol. Chem.20(4): 763-768 | 2001 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 7620 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 8490 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 6090 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 5960 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 6900 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 7450 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 3 | days | 6400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Widianarko,B., F.X.S. Kuntoro, C.A.M. Van Gestel, and N.M. Van Straalen | Toxicokinetics and Toxicity of Zinc Under Time-Varying Exposure in the Guppy (Poecilia reticulata) | Environ. Toxicol. Chem.20(4): 763-768 | 2001 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 6600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 6140 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 9470 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 2 | days | 20000 | μg/L | 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) | Eisei Kagaku32(1): 46-53 | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 1 | days | 6888 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 10130~12500 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., and A. Scheier | The Effects of Temperature and Hardness of Water upon the Toxicity of Zinc to the Common Bluegill (Lepomis macrochirus Raf.) | Not. Nat. Acad. Nat. Sci. Philadelphia 299:12- | 1957 | 2016/03/25 | |||||||
| 魚類 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | 2860~3780 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,J.,Jr., and A. Scheier | The Effects of Temperature and Hardness of Water upon the Toxicity of Zinc to the Common Bluegill (Lepomis macrochirus Raf.) | Not. Nat. Acad. Nat. Sci. Philadelphia 299:12- | 1957 | 2016/03/25 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 6730 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 4 | days | 3250 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anderson,P.D., and L.J. Weber | Toxic Response as a Quantitative Function of Body Size | Toxicol. Appl. Pharmacol.33(3): 471-483 | 1975 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 1640 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 1 | days | 20000 | μg/L | 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) | Eisei Kagaku32(1): 46-53 | 1986 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 30 | days | 38.4 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 4.8 | hours | 19100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5): 685-694 | 1985 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 13 | hours | 19600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5): 685-694 | 1985 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 30 | days | 99.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 30 | days | 171 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 30 | days | 99.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 30 | days | 337 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >5000~<5200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 30 | days | 103 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 6.3 | hours | 26900 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5): 685-694 | 1985 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 30 | days | 67.9 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 30 | days | 73.6 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 30 | days | 104 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 30 | days | 290 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 30 | days | 46.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 30 | days | 83.2 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 69 | days | 300 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 30 | days | 312 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | EC20 | 69 | days | 147 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 2250 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 69 | days | 199 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | EC10 | 69 | days | 147 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 69 | days | 300 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC10 | 69 | days | 199 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | EC10 | 69 | days | 88 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | EC10 | 69 | days | 191 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 8.2 | hours | 19600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5): 685-694 | 1985 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 69 | days | 387 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 12.9 | hours | 13800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5): 685-694 | 1985 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 69 | days | 387 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 69 | days | >362 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC50 | 60 | days | 520 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Leeuwen,C.J., E.M.M. Grootelaar, and G. Niebeek | Fish Embryos as Teratogenicity Screens: A Comparison of Embryotoxicity Between Fish and Birds | Ecotoxicol. Environ. Saf.20(1): 42-52 | 1990 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 4.9 | hours | 19200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5): 685-694 | 1985 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 9.4 | hours | 19100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5): 685-694 | 1985 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 10.4 | hours | 5780 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5): 685-694 | 1985 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | EC20 | 69 | days | >362 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1800~<2200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >800~<1000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 23.08 | days | 4200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC10 | 30 | days | 34.5 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 27.25 | days | >2200~<2400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4200~<4400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2200~<2400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 24.75 | days | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1800~<2000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >800~<1000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Cyprinus carpio (Carp) | Cellular Effects | 50000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ali,S.S., M.A. Qureshi, M.J. Iqbal, and A.R. Shakoori | Zinc-Induced Biochemical Alterations in the Liver of Common Carp, Cyprinus carpio | Bull. Dep. Zool. Univ. Panjab7:1-11 | 1992 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 10 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 10 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | NOEC | 4 | days | 35 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1): 87-96 | 2006 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 10 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Cellular Effects | LOEC | 10 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Cellular Effects | LOEC | 20 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 10 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | EC10 | 69 | days | 88 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 10 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 10 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction | LOEC | 2 | hours | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1): 5-14 | 2000 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction | LOEC | 2 | hours | 100000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1): 5-14 | 2000 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Cellular Effects | LOEC | 10 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction | LOEC | 2 | hours | 100000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1): 5-14 | 2000 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Cellular Effects | LOEC | 30 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 30 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEC | 20 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | NOEC | 10 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction | LOEC | 2 | hours | 50000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1): 5-14 | 2000 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Cellular Effects | 12 | hours | 25000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wong,M.H., K.C. Luk, and K.Y. Choi | The Effects of Zinc and Copper Salts on Cyprinus carpio and Ctenopharyngodon idellus | Acta Anat.99(4): 450-454 | 1977 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | 7000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Berman,S.A. | Localization of Alkaline and Acid Phosphatases in the Intestines of Carp and a Change in Their Activity Under the Effect of Cobalt, Manganese, and Zinc | Stroit. Rajon. Urala Zapadn. Sib. SSSR, Pered. Proizv. Opyt Naucno-teh. Dostiz. Rekom. dla Vnedr.176:4-24 | 1972 | 2016/03/25 | |||||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | 50000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ali,S.S., M.A. Qureshi, M.J. Iqbal, and A.R. Shakoori | Zinc-Induced Biochemical Alterations in the Liver of Common Carp, Cyprinus carpio | Bull. Dep. Zool. Univ. Panjab7:1-11 | 1992 | 2016/03/25 | |||||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | 20 | days | 80 | μg/L | 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 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | 2 | hours | 5000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rojik,I., J. Nemcsok, and L. Boross | Morphological and Biochemical Studies on Liver, Kidney and Gill of Fishes Affected by Pesticides | Acta Biol. Hung.34(1): 81-92 | 1983 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | 50000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ali,S.S., M.A. Qureshi, M.J. Iqbal, and A.R. Shakoori | Biochemical Effects of Zinc on the Muscle of Common Carp, Cyprinus carpio | Bull. Dep. Zool. Univ. Panjab3:71-78 | 1988 | 2016/03/25 | |||||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | 50000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ali,S.S., M.A. Qureshi, M.J. Iqbal, and A.R. Shakoori | Biochemical Effects of Zinc on the Muscle of Common Carp, Cyprinus carpio | Bull. Dep. Zool. Univ. Panjab3:71-78 | 1988 | 2016/03/25 | |||||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | LOEL | 2 | days | 10 | μM | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Franco,J.L., T. Posser, J.J. Mattos, A. Sanchez-Chardi, R. Trevisan, C.S. Oliveira, P.S.M. Carvalho, R.B. Leal, M.R.F. M | Biochemical Alterations in Juvenile Carp (Cyprinus carpio) Exposed to Zinc: Glutathione Reductase as a Target | Mar. Environ. Res.66:88-89 | 2008 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Cellular Effects | 12 | hours | 25000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wong,M.H., K.C. Luk, and K.Y. Choi | The Effects of Zinc and Copper Salts on Cyprinus carpio and Ctenopharyngodon idellus | Acta Anat.99(4): 450-454 | 1977 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | 2 | hours | 50000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nemcsok,J., A. Nemeth, Z. Buzas, and L. Boross | Effects of Copper, Zinc and Paraquat on Acetylcholinesterase Activity in Carp (Cyprinus carpio L.) | Aquat. Toxicol.5(1): 23-31 | 1984 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | 2 | hours | 4800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nemcsok,J., and L. Boross | Comparative Studies on the Sensitivity of Different Fish Species to Metal Pollution | Acta Biol. Acad. Sci. Hung.33(1): 23-27 | 1982 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | 25 | days | 100~10000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Marek,J., E. Szulkowska-Wojaczek, R. Polechonski, and W. Dobicki | Effect of the Zinc Chloride ZnCl2 to Carp Fry Cyprinus carpio L. of on Aquarium Conditions | Zeszyty Naukowe Akademii Rolniczej We Wroclawiu Zootechnika34(200): 135-144 | 1990 | 2016/03/25 | ||||||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | 15 | days | 500 | μg/L | 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 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | 2 | hours | 500~50000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Nemcsok,J., and L. Boross | The Effect of Pesticides on the Proteolitic Enzyme Activity of Fishes | Acta Biol. Szeged.27(1-4): 3-7 | 1981 | 2016/03/25 | ||||||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | 63 | days | 100 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1): 87-96 | 2006 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | 2 | days | 5000~20000 | 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 | 2016/03/25 | ||||||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | 64 | days | 100 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1): 87-96 | 2006 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | 12 | hours | 10000~100000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wong,M.H., K.C. Luk, and K.Y. Choi | The Effects of Zinc and Copper Salts on Cyprinus carpio and Ctenopharyngodon idellus | Acta Anat.99(4): 450-454 | 1977 | 2016/03/25 | ||||||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction | NOEC | 2 | hours | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1): 5-14 | 2000 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Cellular Effects | NOEC | 20 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | NOEC | 10 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | NOEC | 10 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | NOEC | 10 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | NOEC | 30 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Cellular Effects | NOEC | 30 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | NOEC | 10 | days | 80 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | 64 | days | 100 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1): 87-96 | 2006 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction | NOEC | 2 | hours | 50000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1): 5-14 | 2000 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | 4 | days | 0.05~100 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1): 87-96 | 2006 | 2016/03/25 | ||||||||
| 魚類 | Cyprinus carpio (Carp) | Reproduction | NOEC | 2 | hours | 50000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1): 5-14 | 2000 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | 1.79 | days | 100 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1): 87-96 | 2006 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | 2 | hours | 500000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1): 5-14 | 2000 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | 30 | days | 80 | μg/L | 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 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Biochemical | 50000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ali,S.S., M.A. Qureshi, M.J. Iqbal, and A.R. Shakoori | Zinc-Induced Biochemical Alterations in the Liver of Common Carp, Cyprinus carpio | Bull. Dep. Zool. Univ. Panjab7:1-11 | 1992 | 2016/03/25 | |||||||||
| 魚類 | Cyprinus carpio (Carp) | Accumulation | 63 | days | 100 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1): 87-96 | 2006 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4600~<4800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | NOEC | 4 | days | 49 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1): 87-96 | 2006 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 10 | hours | 27000 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2.5 | days | 298 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | >5000~<10000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | >2000~<5000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.5 | days | 193 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2.5 | days | 851 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 3.5 | days | 148 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2.5 | days | 434 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2 | days | 2200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 3.5 | days | 390 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1 | days | 296 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | >10000~<20000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2 | days | 577 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 6.94 | days | >2000~<5000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.04 | days | 23000 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 4 | days | 15000 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 6.58 | hours | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 6.94 | days | >2000~<5000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 20000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 3 | hours | 20000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 5000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 3.33 | hours | 50000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 3 | days | 73 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 69 | days | 279 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2 | days | 49 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2.7 | hours | 30000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | >1530 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 69 | days | 279 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 69 | days | 279 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2.71 | days | 19000 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | <500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2.5 | hours | 20000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 6.94 | days | >1000~<2000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.39 | days | 2000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | >5000~<10000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 20000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | >2000~<5000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 6.94 | days | >2000~<5000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1 | days | 296 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | >2000~<5000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | >2000~<5000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | >20000~<50000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | >5000~<10000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 3.33 | hours | >5000~<10000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.39 | days | >2000~<5000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | >1000~<2000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 4.75 | hours | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | >5000~<10000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lloyd,R. | The Toxicity of Zinc Sulphate to Rainbow Trout | Ann. Appl. Biol.48(1): 84-94 | 1960 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 538 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1 | days | 146 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 69 | days | 117 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 60 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Leeuwen,C.J., E.M.M. Grootelaar, and G. Niebeek | Fish Embryos as Teratogenicity Screens: A Comparison of Embryotoxicity Between Fish and Birds | Ecotoxicol. Environ. Saf.20(1): 42-52 | 1990 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 60 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Leeuwen,C.J., E.M.M. Grootelaar, and G. Niebeek | Fish Embryos as Teratogenicity Screens: A Comparison of Embryotoxicity Between Fish and Birds | Ecotoxicol. Environ. Saf.20(1): 42-52 | 1990 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 69 | days | 365 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 69 | days | 117 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 371 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | >800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | >538 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 162 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 69 | days | 365 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | >1740 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | No Group Code | LOEC | 60 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Van Leeuwen,C.J., E.M.M. Grootelaar, and G. Niebeek | Fish Embryos as Teratogenicity Screens: A Comparison of Embryotoxicity Between Fish and Birds | Ecotoxicol. Environ. Saf.20(1): 42-52 | 1990 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | >1020 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | >1410 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | >3580 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 30 | days | 3000 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 69 | days | 365 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 363 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 166 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | >1280 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | 351 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 356 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | >371 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 3.5 | days | 585 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2 | days | 39 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2 | days | 1690 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1 | days | 149 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 3.5 | days | 113 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 3 | days | 771 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.5 | days | 73 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.07 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.91 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 4.2 | hours | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1.5 | days | 97 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 69 | days | 365 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2 | days | 39 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 69 | days | 279 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2 | days | 1130 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 3 | days | 294 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 1 | days | 74 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2 | days | 579 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEL | 30 | days | 10 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez-Dardon,J., I. Voccia, A. Hontela, S. Chilmonczyk, M. Dunier, H. Boermans, B. Blakley, and M. Fournier | Immunomodulation by Heavy Metals Tested Individually or in Mixtures in Rainbow Trout (Oncorhynchus mykiss) Exposed In Vivo | Environ. Toxicol. Chem.18(7): 1492-1497 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular Effects | LOEL | 28 | days | 930 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 10 | hours | 183.8 | その他others [nmol/kg] | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chowdhury,M.J., M. Grosell, D.G. McDonald, and C.M. Wood | Plasma Clearance of Cadmium and Zinc in Non-acclimated and Metal-Acclimated Trout | Aquat. Toxicol.64(3): 259-275 | 2003 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 117 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | >1670 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | 345 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2 | days | 291 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | 0.000001 | その他others [M] | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Swinehart,J.H. | The Effects of Humic Substances on the Interactions of Metal Ions with Organisms and Liposomes | Final Tech.Rep.,USGS Grant Award 14-08-0001-G1625, Univ.of California, Davis, CA:103 p. | 1990 | 2016/03/25 | |||||||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 5 | days | 7960 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiology | 4 | days | 147 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,M.A., R.R. Garton, and R.A. Tubb | Use of Fish Ventilation Frequency to Estimate Chronically Safe Toxicant Concentrations | Trans. Am. Fish. Soc.111(1): 70-77 | 1982 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | 0.7 | hours | 47 | μg/L | 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 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 21 | days | 42~336 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 7 | days | 2025 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 21 | days | 42~336 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4.04 | days | 1713 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 5.67 | days | 837 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 1250 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Castren,M., and A. Oikari | Changes of the Liver UDP-Glucuronosyltransferase Activity in Trout (Salmo gairdneri Rich.) Acutely Exposed to Selected Aquatic Toxicants | Comp. Biochem. Physiol. C Comp. Pharmacol.86(2): 357-360 | 1987 | 2016/03/25 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 4 | days | 10720 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular Effects | 4 | days | 1250 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tuurala,H., and A. Soivio | Structural and Circulatory Changes in the Secondary Lamellae of Salmo gairdneri Gills After Sublethal Exposures to Dehydroabietic Acid and Zinc | Aquat. Toxicol.2(1): 21-29 | 1982 | 2016/03/25 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 6 | days | 5420 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 10 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | 1.08 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zia,S., and D.G. McDonald | Role of the Gills and Gill Chloride Cells in Metal Uptake in the Freshwater-Adapted Rainbow Trout, Oncorhynchus mykiss | Can. J. Fish. Aquat. Sci.51(11): 2482-2492 | 1994 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular Effects | 1.08 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zia,S., and D.G. McDonald | Role of the Gills and Gill Chloride Cells in Metal Uptake in the Freshwater-Adapted Rainbow Trout, Oncorhynchus mykiss | Can. J. Fish. Aquat. Sci.51(11): 2482-2492 | 1994 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 280 | days | 58.8 | ppm | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Satoh,S., T. Takeuchi, and T. Watanabe | Availability to Rainbow Trout of Zinc in White Fish Meal and of Various Zinc Compounds | Nippon Suisan Gakkaishi53(4): 595-599 | 1987 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 10 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 40 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42:731-736 | 1985 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1): 25-31 | 1980 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | 100000 | その他others [M] | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Swinehart,J.H. | The Effects of Humic Substances on the Interactions of Metal Ions with Organisms and Liposomes | Final Tech.Rep.,USGS Grant Award 14-08-0001-G1625, Univ.of California, Davis, CA:103 p. | 1990 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | 0.0005~0.002 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Swinehart,J.H. | The Effects of Humic Substances on the Interactions of Metal Ions with Organisms and Liposomes | Final Tech.Rep.,USGS Grant Award 14-08-0001-G1625, Univ.of California, Davis, CA:103 p. | 1990 | 2016/03/25 | ||||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 69 | days | <117 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | 4 | days | 1250 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Castren,M., and A. Oikari | Changes of the Liver UDP-Glucuronosyltransferase Activity in Trout (Salmo gairdneri Rich.) Acutely Exposed to Selected Aquatic Toxicants | Comp. Biochem. Physiol. C Comp. Pharmacol.86(2): 357-360 | 1987 | 2016/03/25 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Reproduction | NOEC | 232 | days | 2500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Carassius auratus (Goldfish) | Accumulation | 9.3 | その他others [uCi] | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hibiya,T., and M. Oguri | Gill Absorption and Tissue Distribution of Some Radionuclides (Cr-51, Hg-203, Zn-65 and Ag-110m. 110) in Fish | Nippon Suisan Gakkaishi27(11): 996-1000 | 1961 | 2016/03/25 | |||||||||
| 魚類 | Carassius auratus (Goldfish) | Cellular Effects | 1 | hours | 6500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Vijayamadhavan,K.T., and T. Iwai | Histochemical Observations on the Permeation of Heavy Metals into Taste Buds of Goldfish | Nippon Suisan Gakkaishi41(6): 631-639 | 1975 | 2016/03/25 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | 4 | hours | 0.5~2 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Davalli,P., E. Carpene, G.P. Serrazanetti, S. Bettuzzi, R. Viviani, and A. Corti | Responses of Polyamine Metabolism to Metal Treatment (Co, Cu, Zn, Cd) in the Liver of the Goldfish (Carassius auratus): Distinct Effect of Season and Temperature | Comp. Biochem. Physiol. C Comp. Pharmacol.97(2): 305-310 | 1990 | 2016/03/25 | ||||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | 1 | days | 0.5 | その他others [mg/kg bdwt] | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Davalli,P., G.P. Serrazanetti, E. Carpene, A. Corti, and R. Viviani | Changes in the Activity of Hepatic Enzymes in the Goldfish (Carassius auratus) upon Administration of Heavy Metals | Ital. J. Biochem.39(2): 135A - 137A | 1990 | 2016/03/25 | |||||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | 459 | days | 850~1200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||||
| 魚類 | Carassius auratus (Goldfish) | Growth | NOEC | 459 | days | 2500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Reproduction | NOEC | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||||
| 魚類 | Carassius auratus (Goldfish) | Growth | NOEC | 459 | days | 2500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 7 | days | 2540 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Reproduction | NOEC | 459 | days | 2500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | 0.000001 | その他others [M] | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Swinehart,J.H. | The Effects of Humic Substances on the Interactions of Metal Ions with Organisms and Liposomes | Final Tech.Rep.,USGS Grant Award 14-08-0001-G1625, Univ.of California, Davis, CA:103 p. | 1990 | 2016/03/25 | |||||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 459 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 232 | days | 2500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 128 | days | 2500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 459 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | NOEC | 232 | days | 2500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Reproduction | NOEC | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 459 | days | 2500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Reproduction | LOEC | 2500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||||
| 魚類 | Carassius auratus (Goldfish) | Biochemical | LOEC | 459 | days | 2500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Reproduction | LOEC | 2500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||||
| 魚類 | Carassius auratus (Goldfish) | Reproduction | NOEC | 128 | days | 2500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk | Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc | Pol. Arch. Hydrobiol.43(3): 365-371 | 1996 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 165 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | 0~0.001 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Swinehart,J.H. | The Effects of Humic Substances on the Interactions of Metal Ions with Organisms and Liposomes | Final Tech.Rep.,USGS Grant Award 14-08-0001-G1625, Univ.of California, Davis, CA:103 p. | 1990 | 2016/03/25 | ||||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 974 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 169 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 401 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 45.4 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 157 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 30 | days | 974 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 159 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 256 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 786 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 90.3 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 30 | days | 159 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 95.1 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 78.9 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 31.5 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 30 | days | 166 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 69 | days | 214 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 69 | days | 214 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 69 | days | <117 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 69 | days | <117 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | NOEC | 0.33 | hours | 10 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | 0.33 | hours | 20 | μg/L | 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 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 69 | days | <117 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 151 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 1.08 | μmol/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zia,S., and D.G. McDonald | Role of the Gills and Gill Chloride Cells in Metal Uptake in the Freshwater-Adapted Rainbow Trout, Oncorhynchus mykiss | Can. J. Fish. Aquat. Sci.51(11): 2482-2492 | 1994 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 30 | days | 3000~13000 | 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 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | 0.000001 | その他others [M] | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Swinehart,J.H. | The Effects of Humic Substances on the Interactions of Metal Ions with Organisms and Liposomes | Final Tech.Rep.,USGS Grant Award 14-08-0001-G1625, Univ.of California, Davis, CA:103 p. | 1990 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 72 | days | 262 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,M.A., R.R. Garton, and R.A. Tubb | Use of Fish Ventilation Frequency to Estimate Chronically Safe Toxicant Concentrations | Trans. Am. Fish. Soc.111(1): 70-77 | 1982 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 72 | days | 148 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,M.A., R.R. Garton, and R.A. Tubb | Use of Fish Ventilation Frequency to Estimate Chronically Safe Toxicant Concentrations | Trans. Am. Fish. Soc.111(1): 70-77 | 1982 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 72 | days | 444 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,M.A., R.R. Garton, and R.A. Tubb | Use of Fish Ventilation Frequency to Estimate Chronically Safe Toxicant Concentrations | Trans. Am. Fish. Soc.111(1): 70-77 | 1982 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 72 | days | 819 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,M.A., R.R. Garton, and R.A. Tubb | Use of Fish Ventilation Frequency to Estimate Chronically Safe Toxicant Concentrations | Trans. Am. Fish. Soc.111(1): 70-77 | 1982 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiology | 4 | days | 141 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,M.A., R.R. Garton, and R.A. Tubb | Use of Fish Ventilation Frequency to Estimate Chronically Safe Toxicant Concentrations | Trans. Am. Fish. Soc.111(1): 70-77 | 1982 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiology | 4 | days | 117~144 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,M.A., R.R. Garton, and R.A. Tubb | Use of Fish Ventilation Frequency to Estimate Chronically Safe Toxicant Concentrations | Trans. Am. Fish. Soc.111(1): 70-77 | 1982 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiology | 4 | days | 814 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,M.A., R.R. Garton, and R.A. Tubb | Use of Fish Ventilation Frequency to Estimate Chronically Safe Toxicant Concentrations | Trans. Am. Fish. Soc.111(1): 70-77 | 1982 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 7.33 | days | 1804 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 30 | days | 48 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 56 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:19 p. | 1982 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2.5 | days | 220 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 4 | days | 230 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:19 p. | 1982 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 69 | days | 1005 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4): 41-66 | 2008 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 69 | days | 1005 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 28 | days | 930 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 28 | days | 930 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 28 | days | 930 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 14 | days | 170 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular Effects | NOEL | 14 | days | 930 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 69 | days | 214 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 69 | days | 214 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | 72 | days | 86 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cairns,M.A., R.R. Garton, and R.A. Tubb | Use of Fish Ventilation Frequency to Estimate Chronically Safe Toxicant Concentrations | Trans. Am. Fish. Soc.111(1): 70-77 | 1982 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4200~<4400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >6000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3400~<3600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 338 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 2 | days | 149 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 25.58 | days | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >600~<800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular Effects | NOEL | 28 | days | 170 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 28 | days | 930 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 14 | days | 930 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular Effects | NOEL | 28 | days | 930 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular Effects | NOEL | 14 | days | 930 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 28 | days | 930 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 14 | days | 930 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | NOEL | 14 | days | 930 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 730 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >800~<1000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4200~<4400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2200~<2400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 23.08 | days | >4200~<4400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 23.92 | days | 4000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 108 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 171 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 2280 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Biochemical | LOEL | 14 | days | 170 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Lange,A., O. Ausseil, and H. Segner | Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc | Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 212 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 159 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 224 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 441 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 130 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 548 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 368 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 141 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4600~<4800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 194 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3600~<3800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 27.67 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 344 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 257 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey | Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc | Environ. Toxicol. Chem.21(1): 67-75 | 2002 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1400~<1600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3200~<3400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Cellular Effects | LOEL | 30 | days | 10 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez-Dardon,J., I. Voccia, A. Hontela, S. Chilmonczyk, M. Dunier, H. Boermans, B. Blakley, and M. Fournier | Immunomodulation by Heavy Metals Tested Individually or in Mixtures in Rainbow Trout (Oncorhynchus mykiss) Exposed In Vivo | Environ. Toxicol. Chem.18(7): 1492-1497 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 212 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2200~<2400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4000~<4200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3800~<4000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 191 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >800~<1000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1600~<1800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 169 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Physiology | LOEL | 30 | days | 10 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Sanchez-Dardon,J., I. Voccia, A. Hontela, S. Chilmonczyk, M. Dunier, H. Boermans, B. Blakley, and M. Fournier | Immunomodulation by Heavy Metals Tested Individually or in Mixtures in Rainbow Trout (Oncorhynchus mykiss) Exposed In Vivo | Environ. Toxicol. Chem.18(7): 1492-1497 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 671 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cusimano,R.F., D.F. Brakke, and G.A. Chapman | Effects of pH on the Toxicities of Cadmium, Copper, and Zinc to Steelhead Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.43(8): 1497-1503 | 1986 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 160 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42:731-736 | 1985 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 7 | days | 501 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cusimano,R.F., D.F. Brakke, and G.A. Chapman | Effects of pH on the Toxicities of Cadmium, Copper, and Zinc to Steelhead Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.43(8): 1497-1503 | 1986 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 97 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cusimano,R.F., D.F. Brakke, and G.A. Chapman | Effects of pH on the Toxicities of Cadmium, Copper, and Zinc to Steelhead Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.43(8): 1497-1503 | 1986 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 66 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cusimano,R.F., D.F. Brakke, and G.A. Chapman | Effects of pH on the Toxicities of Cadmium, Copper, and Zinc to Steelhead Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.43(8): 1497-1503 | 1986 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 7 | days | 66 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cusimano,R.F., D.F. Brakke, and G.A. Chapman | Effects of pH on the Toxicities of Cadmium, Copper, and Zinc to Steelhead Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.43(8): 1497-1503 | 1986 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 11100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42:731-736 | 1985 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 110 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42:731-736 | 1985 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2600~<2800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4460 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42:731-736 | 1985 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 904 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 7260 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., C. Duquesnay, and J.B. Sprague | Acclimation of Rainbow Trout, Salmo gairdneri Richardson, to Zinc: Kinetics and Mechanism of Enhanced Tolerance Induction | J. Fish Biol.27(4): 367-369 | 1985 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4000~<4200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 22.67 | days | 4200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1600~<1800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 3800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEL | 30 | days | 3000 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5120 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42:731-736 | 1985 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 198 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 240 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:19 p. | 1982 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28 | days | 1120 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 69 | days | 387 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 130 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 123 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 2170 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 114 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 7 | days | 97 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Cusimano,R.F., D.F. Brakke, and G.A. Chapman | Effects of pH on the Toxicities of Cadmium, Copper, and Zinc to Steelhead Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.43(8): 1497-1503 | 1986 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 8.33 | days | 120 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6): 841-847 | 1978 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 815 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6): 841-847 | 1978 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 28.2 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 329 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 880 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42:731-736 | 1985 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 361 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 58.8 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 209 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 1860 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 2560 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 1470 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 282 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 6230 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., C. Duquesnay, and J.B. Sprague | Acclimation of Rainbow Trout, Salmo gairdneri Richardson, to Zinc: Kinetics and Mechanism of Enhanced Tolerance Induction | J. Fish Biol.27(4): 367-369 | 1985 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 12800 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1200~<1400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 117 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.:21 p. | 2007 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 4200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., C. Duquesnay, and J.B. Sprague | Acclimation of Rainbow Trout, Salmo gairdneri Richardson, to Zinc: Kinetics and Mechanism of Enhanced Tolerance Induction | J. Fish Biol.27(4): 367-369 | 1985 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 215 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28 | days | 1060 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 9920 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42:731-736 | 1985 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1 | days | 3120 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 4850 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., C. Duquesnay, and J.B. Sprague | Acclimation of Rainbow Trout, Salmo gairdneri Richardson, to Zinc: Kinetics and Mechanism of Enhanced Tolerance Induction | J. Fish Biol.27(4): 367-369 | 1985 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | >1530 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 260 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:19 p. | 1982 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Behavior | LOEC | 0.33 | hours | 50 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 351 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 2310 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 4.88 | days | 2818 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 173 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 5 | days | >5000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 256 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 1670 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | >375 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | 2310 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | >1380 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | LOEC | 30 | days | >1280 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LOEC | 30 | days | 665 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 7.75 | days | 555 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6): 841-847 | 1978 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 27.3 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 37.2 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 5 | days | 150 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA:55 p. | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 136 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6): 841-847 | 1978 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 93 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6): 841-847 | 1978 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 6.5 | days | 3004 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | >651 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6): 841-847 | 1978 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 6 | days | 3960 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., C. Duquesnay, and J.B. Sprague | Acclimation of Rainbow Trout, Salmo gairdneri Richardson, to Zinc: Kinetics and Mechanism of Enhanced Tolerance Induction | J. Fish Biol.27(4): 367-369 | 1985 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 8.33 | days | 278 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6): 841-847 | 1978 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 5.88 | days | 3090 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 5.46 | days | 695 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 4.75 | days | 2476 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 5 | days | 680 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LETC | 5.88 | days | 3077 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 8.33 | days | 93 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6): 841-847 | 1978 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 214 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 283 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 180 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42:731-736 | 1985 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 151 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 1170 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 483 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 759 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 802 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Bradley,R.W., and J.B. Sprague | The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.42:731-736 | 1985 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 26.83 | days | 2800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3600~<3800 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 1510 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 339 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 153 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4000~<4200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 177 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28 | days | 1060 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 1755 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Chapman,G.A., and D.G. Stevens | Acutely Lethal Levels of Cadmium, Copper, and Zinc to Adult Male Coho Salmon and Steelhead | Trans. Am. Fish. Soc.107(6): 837-840 | 1978 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2200~<2400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >4400~<4600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 26.42 | days | >3000~<3200 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 271 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >1200~<1400 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 226 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3): 329-336 | 1989 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2800~<3000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | >2400~<2600 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 2200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman | Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout | Environ. Toxicol. Chem.18(12): 2875-2881 | 1999 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28 | days | 1120 | μg/L | 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 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 610 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 583 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 30 | days | 1240 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23): 6201-6209 | 2004 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 23.6 | hours | 7500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LT50 | 15.5 | hours | 10000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p. | 1986 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 0.14 | mg/L [mg Zn2+/L] | 4 OECD SIDS (HPVC) | OECD SIDS | SIDS INITIAL ASSESSMENT PROFILE | 2005 | 2016/03/01 | ||||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 469 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Physiology//Ventilation | LOEC | 4 | days | 2.224 | mg/L | 0 mg/L / 2.224 mg/L / 4.448 mg/L / 8.896 mg/L / 17 | 16 ECOTOX | 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) | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 35.6 | hours | 7.5 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 39.33 | hours | 10000 | μg/L | 16 ECOTOX | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 12.9 | hours | 10 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 23.6 | hours | 7.5 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 90 | hours | 10 | μg/L | 16 ECOTOX | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 33.9 | hours | 10 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 53.5 | hours | 1000 | μg/L | 16 ECOTOX | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 194 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 212 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 24 | hours | 3120 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Menidia menidia (Atlantic silverside) | Mortality | NR-LETH | 96 | hours | 32000 | ppb | 16 ECOTOX | Cardin,J.A. | Acute Toxicity Data for Zinc and the Saltwater Fish, Fundulus heteroclitus, Menidia menidia and Pseudopleuronectes americanus | Memo to D.J.Hansen, U.S.EPA, Narragansett, RI | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 11.9 | hours | 10 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 11.4 | hours | 10 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 43700 | μg/L | 16 ECOTOX | Gale,N.L., B.G. Wixson, and M. Erten | An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater | Trace Subst. Environ. Health25 | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 59.7 | hours | 100 | μg/L | 16 ECOTOX | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1) | 2020/11/12 | |||||||
| 魚類 | Menidia menidia (Atlantic silverside) | Mortality | NR-LETH | 96 | hours | 25000 | ppb | 16 ECOTOX | Cardin,J.A. | Acute Toxicity Data for Zinc and the Saltwater Fish, Fundulus heteroclitus, Menidia menidia and Pseudopleuronectes americanus | Memo to D.J.Hansen, U.S.EPA, Narragansett, RI | 2020/11/12 | |||||||
| 魚類 | Menidia menidia (Atlantic silverside) | Mortality | NR-LETH | 96 | hours | 25000 | ppb | 16 ECOTOX | Cardin,J.A. | Acute Toxicity Data for Zinc and the Saltwater Fish, Fundulus heteroclitus, Menidia menidia and Pseudopleuronectes americanus | Memo to D.J.Hansen, U.S.EPA, Narragansett, RI | 2020/11/12 | |||||||
| 魚類 | Menidia menidia (Atlantic silverside) | Mortality | NR-LETH | 96 | hours | 32000 | ppb | 16 ECOTOX | Cardin,J.A. | Acute Toxicity Data for Zinc and the Saltwater Fish, Fundulus heteroclitus, Menidia menidia and Pseudopleuronectes americanus | Memo to D.J.Hansen, U.S.EPA, Narragansett, RI | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 44.2 | hours | 7.5 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 117 | μg/L | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut. | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 6.3 | hours | 26900 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NR-ZERO | 96 | hours | 56 | μg/L | 2.4 ug/L / 16 ug/L / 31 ug/L / 56 ug/L / 130 ug/L | 16 ECOTOX | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 15.5 | hours | 10 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 48 | hours | 20000 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NR-ZERO | 96 | hours | 230 | μg/L | 2.9 ug/L / 25 ug/L / 55 ug/L / 120 ug/L / 230 ug/L | 16 ECOTOX | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI | 2020/11/12 | ||||||
| 魚類 | Lepomis macrochirus | Mortality | LC50 | 96 | hours | 10130~12500 | μg/L | 16 ECOTOX | Cairns,J.,Jr., and A. Scheier | The Effects of Temperature and Hardness of Water upon the Toxicity of Zinc to the Common Bluegill (Lepomis macrochirus Raf.) | Not. Nat. Acad. Nat. Sci. Philadelphia 299 | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 24 | hours | 7620 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 117 | μg/L | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4) | 2020/11/12 | |||||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 48 | hours | 20000 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 24 | hours | 35000 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LC50 | 96 | hours | 1700 | μg/L | 16 ECOTOX | Lewis,W.M. | Acute and Chronic Responses of Menidia beryllina, Rivulus marmoratus, and Cyprinodon variegatus to Malathion and Zinc Chloride | M.S.Thesis, Florida Institute of Technology, Melbourne, FL | 2020/11/12 | |||||||
| 魚類 | Menidia menidia (Atlantic silverside) | Mortality | LC50 | 96 | hours | 4960 | ppb | 16 ECOTOX | Cardin,J.A. | Acute Toxicity Data for Zinc and the Saltwater Fish, Fundulus heteroclitus, Menidia menidia and Pseudopleuronectes americanus | Memo to D.J.Hansen, U.S.EPA, Narragansett, RI | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 6.73 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Lepomis macrochirus | Mortality | LC50 | 96 | hours | 7200 | μg/L | 16 ECOTOX | Cairns,J.,Jr., and A. Scheier | The Relationship of Bluegill Sunfish Body Size to Tolerance for Some Common Chemicals | In: Proc.13th Ind.Waste Conf.,Series No.95, Eng.Bull.43, Purdue Univ.,IN | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 8.34 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 550 | μg/L | 16 ECOTOX | Carlson,A.R., H. Nelson, and D. Hammermeister | Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data | EPA-600/3-86-026, U.S.EPA, Duluth, MN | 2020/11/12 | |||||||
| 魚類 | Lepomis macrochirus | Mortality | LC50 | 96 | hours | 7.5 | mg/L | 16 ECOTOX | Cairns,J.,Jr., J.W. Hall, E.L. Morgan, R.E. Sparks, W.T. Waller, and G.F. Westlake | The Development of an Automated Biological Monitoring System for Water Quality | Bull.No.59, Virginia Water Resour.Res.Ctr., Virginia Polytechnic Inst.and State Univ., Blacksburg,VA | 2020/11/12 | |||||||
| 魚類 | Lepomis macrochirus | Mortality | LC50 | 96 | hours | 2860~3780 | μg/L | 16 ECOTOX | Patrick,R., J.,Jr. Cairns, and A. Scheier | The Relative Sensitivity of Diatoms, Snails, and Fish to Twenty Common Constituents of Industrial Wastes | Prog. Fish-Cult.30(3) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 441 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | LC50 | 96 | hours | 5800~10000 | μg/L | 16 ECOTOX | Lewis,W.M. | Acute and Chronic Responses of Menidia beryllina, Rivulus marmoratus, and Cyprinodon variegatus to Malathion and Zinc Chloride | M.S.Thesis, Florida Institute of Technology, Melbourne, FL | 2020/11/12 | |||||||
| 魚類 | Lepomis macrochirus | Mortality | LC50 | 96 | hours | 7450 | μg/L | 16 ECOTOX | Cairns,J.,Jr., and A. Scheier | The Relationship of Bluegill Sunfish Body Size to Tolerance for Some Common Chemicals | In: Proc.13th Ind.Waste Conf.,Series No.95, Eng.Bull.43, Purdue Univ.,IN | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 6.12 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 246 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 8490 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 13 | hours | 19600 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 4.8 | hours | 19100 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 4.9 | hours | 19200 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 66 | μg/L | 16 ECOTOX | Cusimano,R.F., D.F. Brakke, and G.A. Chapman | Effects of pH on the Toxicities of Cadmium, Copper, and Zinc to Steelhead Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.43(8) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 153 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 136 | μg/L | 16 ECOTOX | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 226 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 1170 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 130 | μg/L | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut. | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 671 | μg/L | 16 ECOTOX | Cusimano,R.F., D.F. Brakke, and G.A. Chapman | Effects of pH on the Toxicities of Cadmium, Copper, and Zinc to Steelhead Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.43(8) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 610 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 344 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 12.9 | hours | 13800 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 271 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 93 | μg/L | 16 ECOTOX | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 12.8 | mg/L | 16 ECOTOX | Gundogdu,A. | Acute Toxicity of Zinc and Copper for Rainbow Trout (Onchorhyncus mykiss) | J. Fish. Sci.2(5) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 1470 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 132 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 141 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 107 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 123 | μg/L | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut. | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 130 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 1510 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 97 | μg/L | 16 ECOTOX | Cusimano,R.F., D.F. Brakke, and G.A. Chapman | Effects of pH on the Toxicities of Cadmium, Copper, and Zinc to Steelhead Trout (Salmo gairdneri) | Can. J. Fish. Aquat. Sci.43(8) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 2280 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 651 | μg/L | 16 ECOTOX | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 2560 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 58 | hours | 1000 | μg/L | 16 ECOTOX | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 21.1 | hours | 7.5 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Physiology//Ventilation | MATC/ | 4 | days | 2.212 | mg/L | 0 mg/L / 2.224 mg/L / 4.448 mg/L / 8.896 mg/L / 17 | 16 ECOTOX | 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) | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 171 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Physiology//Ventilation | NOEC | 4 | days | 2.2 | mg/L | 0 mg/L / 2.224 mg/L / 4.448 mg/L / 8.896 mg/L / 17 | 16 ECOTOX | 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) | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | Mortality | NR-ZERO | 96 | hours | 120 | μg/L | 1.8 ug/L / 61 ug/L / 120 ug/L / 240 ug/L / 540 ug/ | 16 ECOTOX | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI | 2020/11/12 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 96 | hours | 2250 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 96 | hours | 830 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 96 | hours | 450 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 96 | hours | 1640 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 96 | hours | 55 | μmol/L | 16 ECOTOX | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 96 | hours | 1240 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 9.4 | hours | 19100 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 96 | hours | 1340 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 1755 | μg/L | 16 ECOTOX | Chapman,G.A., and D.G. Stevens | Acutely Lethal Levels of Cadmium, Copper, and Zinc to Adult Male Coho Salmon and Steelhead | Trans. Am. Fish. Soc.107(6) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 96 | hours | 1640 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 297 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 96 | hours | 149 | μmol/L | 16 ECOTOX | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 2170 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | NOEC | 96 | hours | 49 | μmol/L | 16 ECOTOX | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | NOEC | 96 | hours | 35 | μmol/L | 16 ECOTOX | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | NR-LETH | 43 | hours | 100 | μmol/L | 16 ECOTOX | Hattink,J., G. De Boeck, and R. Blust | Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions | Environ. Toxicol. Chem.25(1) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | NR-LETH | 2 | hours | 500 | ppm | 16 ECOTOX | Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler | The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies | Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 483 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 10.4 | hours | 5780 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | ET50 | 8.2 | hours | 19600 | μg/L | 16 ECOTOX | Bradley,R.W., and J.B. Sprague | Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size | Environ. Toxicol. Chem.4(5) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LT50 | 19.7 | hours | 7.5 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 96 | hours | 1660 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 251 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 48 | hours | 579 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 4.82 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 72 | hours | 294 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 95 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 24 | hours | 6900 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 24 | hours | 74 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 36 | hours | 193 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 5960 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 260 | μg/L | 2.9 ug/L / 25 ug/L / 55 ug/L / 120 ug/L / 230 ug/L | 16 ECOTOX | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 24 | hours | 215 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Menidia menidia (Atlantic silverside) | Mortality | LC50 | 96 | hours | 2728 | ppb | 16 ECOTOX | Cardin,J.A. | Acute Toxicity Data for Zinc and the Saltwater Fish, Fundulus heteroclitus, Menidia menidia and Pseudopleuronectes americanus | Memo to D.J.Hansen, U.S.EPA, Narragansett, RI | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 240 | μg/L | 2.4 ug/L / 16 ug/L / 31 ug/L / 56 ug/L / 130 ug/L | 16 ECOTOX | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 6090 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 2.58 | mg/L | 16 ECOTOX | Erten-Unal,M., B.G. Wixson, N. Gale, and J.L. Pitt | Evaluation of Toxicity, Bioavailability and Speciation of Lead, Zinc and Cadmium in Mine/Mill Wastewaters | Chem. Spec. Bioavail.10(2) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 72 | hours | 771 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 38100 | μg/L | 16 ECOTOX | Gale,N.L., B.G. Wixson, and M. Erten | An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater | Trace Subst. Environ. Health25 | 2020/11/12 | |||||||
| 魚類 | Lepomis macrochirus | Mortality | LC50 | 96 | hours | 6910 | μg/L | 16 ECOTOX | Cairns,J.,Jr., and A. Scheier | The Relationship of Bluegill Sunfish Body Size to Tolerance for Some Common Chemicals | In: Proc.13th Ind.Waste Conf.,Series No.95, Eng.Bull.43, Purdue Univ.,IN | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 36 | hours | 97 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 25 | hours | 23 | mg/L | 16 ECOTOX | Gundogdu,A. | Acute Toxicity of Zinc and Copper for Rainbow Trout (Onchorhyncus mykiss) | J. Fish. Sci.2(5) | 2020/11/12 | |||||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | LC50 | 96 | hours | 1000~10000 | μg/L | 16 ECOTOX | Lewis,W.M. | Acute and Chronic Responses of Menidia beryllina, Rivulus marmoratus, and Cyprinodon variegatus to Malathion and Zinc Chloride | M.S.Thesis, Florida Institute of Technology, Melbourne, FL | 2020/11/12 | |||||||
| 魚類 | Menidia menidia (Atlantic silverside) | Mortality | LC50 | 96 | hours | 3060 | ppb | 16 ECOTOX | Cardin,J.A. | Acute Toxicity Data for Zinc and the Saltwater Fish, Fundulus heteroclitus, Menidia menidia and Pseudopleuronectes americanus | Memo to D.J.Hansen, U.S.EPA, Narragansett, RI | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 6.23 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 7.14 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 209 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 6.71 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | NR-ZERO | 4 | days | 71.168 | mg/L | 0 mg/L / 2.224 mg/L / 4.448 mg/L / 8.896 mg/L / 17 | 16 ECOTOX | 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) | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 9.47 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 24 | hours | 20000 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 47.7 | mg/L | 16 ECOTOX | Erten-Unal,M., B.G. Wixson, N. Gale, and J.L. Pitt | Evaluation of Toxicity, Bioavailability and Speciation of Lead, Zinc and Cadmium in Mine/Mill Wastewaters | Chem. Spec. Bioavail.10(2) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 6140 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 6.6 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 48 | hours | 31500 | μg/L | 16 ECOTOX | Dorfman,D. | Tolerance of Fundulus heteroclitus to Different Metals in Salt Waters | Bull. N. J. Acad. Sci.22(2) | 2020/11/12 | |||||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LC50 | 96 | hours | 1000~10000 | μg/L | 16 ECOTOX | Lewis,W.M. | Acute and Chronic Responses of Menidia beryllina, Rivulus marmoratus, and Cyprinodon variegatus to Malathion and Zinc Chloride | M.S.Thesis, Florida Institute of Technology, Melbourne, FL | 2020/11/12 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 96 | hours | 6.76 | mg/L | 16 ECOTOX | Anderson,P.D., and L.J. Weber | Toxic Response as a Quantitative Function of Body Size | Toxicol. Appl. Pharmacol.33(3) | 2020/11/12 | |||||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 24 | hours | 40000 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Lepomis macrochirus | Mortality | LC50 | 96 | hours | 9600 | μg/L | 16 ECOTOX | Cairns,J.,Jr. | Environment and Time in Fish Toxicity | Ind. Wastes2(1) | 2020/11/12 | |||||||
| 魚類 | Menidia menidia (Atlantic silverside) | Mortality | LC50 | 96 | hours | 3703 | ppb | 16 ECOTOX | Cardin,J.A. | Acute Toxicity Data for Zinc and the Saltwater Fish, Fundulus heteroclitus, Menidia menidia and Pseudopleuronectes americanus | Memo to D.J.Hansen, U.S.EPA, Narragansett, RI | 2020/11/12 | |||||||
| 魚類 | Lepomis macrochirus | Mortality | LC50 | 96 | hours | 8020 | μg/L | 16 ECOTOX | Cairns,J.,Jr., and A. Scheier | The Effects of Periodic Low Oxygen upon the Toxicity of Various Chemicals to Aquatic Organisms | Proc. 12th Ind. Waste Conf. Purdue Univ. Eng. Ext. Ser. No. 94, Eng. Bull.42 | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 260 | μg/L | 3.6 ug/L / 60 ug/L / 120 ug/L / 240 ug/L / 550 ug/ | 16 ECOTOX | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 24 | hours | 146 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 181 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 904 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | LC50 | 96 | hours | 30 | μg/L | 16 ECOTOX | Lewis,W.M. | Acute and Chronic Responses of Menidia beryllina, Rivulus marmoratus, and Cyprinodon variegatus to Malathion and Zinc Chloride | M.S.Thesis, Florida Institute of Technology, Melbourne, FL | 2020/11/12 | |||||||
| 魚類 | Menidia beryllina (Inland Silverside) | Mortality | LC50 | 96 | hours | 21000 | μg/L | 16 ECOTOX | Lewis,W.M. | Acute and Chronic Responses of Menidia beryllina, Rivulus marmoratus, and Cyprinodon variegatus to Malathion and Zinc Chloride | M.S.Thesis, Florida Institute of Technology, Melbourne, FL | 2020/11/12 | |||||||
| 魚類 | Lepomis macrochirus | Mortality | LC50 | 24 | hours | 7240 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 24 | hours | 6880 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 48 | hours | 96500 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 2580 | μg/L | 16 ECOTOX | Gale,N.L., B.G. Wixson, and M. Erten | An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater | Trace Subst. Environ. Health25 | 2020/11/12 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 96 | hours | 17500 | μg/L | 16 ECOTOX | Dorfman,D. | Tolerance of Fundulus heteroclitus to Different Metals in Salt Waters | Bull. N. J. Acad. Sci.22(2) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 6090 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 72 | hours | 73 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 48 | hours | 577 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 214 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 24 | hours | 296 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 24 | hours | 296 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 65 | hours | 19 | mg/L | 16 ECOTOX | Gundogdu,A. | Acute Toxicity of Zinc and Copper for Rainbow Trout (Onchorhyncus mykiss) | J. Fish. Sci.2(5) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 815 | μg/L | 16 ECOTOX | Chapman,G.A. | Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead | Trans. Am. Fish. Soc.107(6) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 48 | hours | 1690 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 169 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 48 | hours | 49 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 84 | hours | 113 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 130 | μg/L | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 60 | hours | 851 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 48 | hours | 1130 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 84 | hours | 390 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 48 | hours | 149 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 24 | hours | 149 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 36 | hours | 73 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 10 | hours | 27 | mg/L | 16 ECOTOX | Gundogdu,A. | Acute Toxicity of Zinc and Copper for Rainbow Trout (Onchorhyncus mykiss) | J. Fish. Sci.2(5) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 48 | hours | 2200 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 84 | hours | 585 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Lepomis macrochirus | Mortality | LC50 | 96 | hours | 5370 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 60 | hours | 220 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 72 | hours | 31500 | μg/L | 16 ECOTOX | Dorfman,D. | Tolerance of Fundulus heteroclitus to Different Metals in Salt Waters | Bull. N. J. Acad. Sci.22(2) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 7450 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 548 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 48 | hours | 39 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 204 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 48 | hours | 291 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 191 | μg/L | 16 ECOTOX | Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb | Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout | Bull. Environ. Contam. Toxicol.43(3) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 60 | hours | 434 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 283 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 48 | hours | 39 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 730 | μg/L | 16 ECOTOX | De Schamphelaere,K.A.C., and C.R. Janssen | Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model | Environ. Sci. Technol.38(23) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 60 | hours | 298 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 84 | hours | 148 | μg/L | 16 ECOTOX | Stratus Consulting Inc. | Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin: Acute Toxicity Report | Prepared for the U.S.EPA, Seattle, WA | 2020/11/12 | |||||||
| 魚類 | Lepomis macrochirus | Mortality | LC50 | 96 | hours | 2860~3780 | μg/L | 16 ECOTOX | Cairns,J.,Jr., and A. Scheier | The Effects of Temperature and Hardness of Water upon the Toxicity of Zinc to the Common Bluegill (Lepomis macrochirus Raf.) | Not. Nat. Acad. Nat. Sci. Philadelphia 299 | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 25.61 | hours | 1000 | μg/L | 16 ECOTOX | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 96 | hours | 15 | mg/L | 16 ECOTOX | Gundogdu,A. | Acute Toxicity of Zinc and Copper for Rainbow Trout (Onchorhyncus mykiss) | J. Fish. Sci.2(5) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LT50 | 45.8 | hours | 1000 | μg/L | 16 ECOTOX | Biegert,E.K., and V. Valkovic | Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals | Period. Biol.82(1) | 2020/11/12 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 96 | hours | 0.45 | mg Zn/L [nominal] | 8 NITE 化学物質の初期リスク評価書 | Alam, M.K. and Maughan, O.E. | The effect of malathion, diazinon, and various concentrations of zinc, copper, nickel, lead, iron, and mercury on fish. | Biol. Trace Elem. Res., 34 | 2021/03/12 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 96 | hours | 3.25 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Anderson, P.D. and Weber, L.J. | Toxic response as a quantitative function of body size. | Toxicol. Appl. Pharmacol., 33 | 2021/03/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 0.393 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Carlson, A.R. and Roush, T.H. | Site-specific water quality studies of the Straight River, Minnesota: Complex effluent toxicity, zinc toxicity, and biological survey relationships. | National Technical Information Service, Springfield, VA. EPA-600/3-85-005. | 2021/03/12 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 72 | hours | 23000 | μg/L | 16 ECOTOX | Dorfman,D. | Tolerance of Fundulus heteroclitus to Different Metals in Salt Waters | Bull. N. J. Acad. Sci.22(2) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 0.815 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Chapman, G.A. | Toxicities of cadmium, copper, and zinc to four juvenile stages of chinook salmon and steelhead. | Trans. Am. Fish. Soc., 107 | 2021/03/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 0.551 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Carlson, A.R., Nelson, H. and Hammermeister, D. | Evalution of site-specific criteria for copper and zinc: an integration of metal addition toxicity, effluent and receiving water toxicity, and ecological survey data. | EPA-600/3-86-026, U.S.EPA, Duluth, MN | 2021/03/12 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 72 | hours | >50~60 | mg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 168 | hours | 0.066 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Cusimano, R.F., Brakka, D.F. and Chapman, G.A. | Effects of pH on the toxicities of cadmium, copper, and zinc to steelhead trout (Salmo gairdneri). | Can. J. Fish. Aquat. Sci., 43 | 2021/03/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 0.093 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Chapman, G.A. | Toxicities of cadmium, copper, and zinc to four juvenile stages of chinook salmon and steelhead. | Trans. Am. Fish. Soc., 107 | 2021/03/12 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 96 | hours | 31500 | μg/L | 16 ECOTOX | Dorfman,D. | Tolerance of Fundulus heteroclitus to Different Metals in Salt Waters | Bull. N. J. Acad. Sci.22(2) | 2020/11/12 | |||||||
| 魚類 | Lepomis macrochirus | Mortality | LC50 | 96 | hours | 4200 | μg/L | 16 ECOTOX | Cairns,J.,Jr., and A. Scheier | A Comparison of the Toxicity of Some Common Industrial Waste Components Tested Individually and Combined | Prog. Fish-Cult.30(1) | 2020/11/12 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 24 | hours | >60~70 | mg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 24 | hours | 7450 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 48 | hours | >50~60 | mg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 24 | hours | 36000 | μg/L | 16 ECOTOX | Dorfman,D. | Tolerance of Fundulus heteroclitus to Different Metals in Salt Waters | Bull. N. J. Acad. Sci.22(2) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 0.136 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Chapman, G.A. | Toxicities of cadmium, copper, and zinc to four juvenile stages of chinook salmon and steelhead. | Trans. Am. Fish. Soc., 107 | 2021/03/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 2.17 | mg/L [nominal] | 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, 20 | 2021/03/30 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 0.17 | mg/L [nominal] | 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, 20 | 2021/04/02 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 48 | hours | 27500 | μg/L | 16 ECOTOX | Dorfman,D. | Tolerance of Fundulus heteroclitus to Different Metals in Salt Waters | Bull. N. J. Acad. Sci.22(2) | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 1.76 | mg/L [nominal] | 10 EHC (Environmental Health Criteria) | Chapman GA & Stevens DG | Acutely lethal levels of cadmium, copper, and zinc to adult male Coho salmon and steelhead. | Trans Am Fish Soc, 107 (6) | 2021/03/30 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 6.23 | mg/L | 0 mg/L / 0.5-20.0 mg/L | 16 ECOTOX | Hobson,J.F. | Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc | Ph.D.Thesis, University of Kentucky, Lexington, KY | 2020/11/12 | ||||||
| 魚類 | Carassius auratus (Goldfish) | Mortality | LC50 | 7 | days | 2.54 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Birge, W.J. | Aquatic toxicology of trace elements of coal and fly ash. | Thorp, J.H., and Gibbons, J.w. (eds) ,dep. Energy symp. Ser., Energy and environmental stress in aquatic systems, augusta, GA, 48 | 2021/03/12 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 96 | hours | 44.48 | mg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 387 | μg/L | 16 ECOTOX | Carlson,A.R., H. Nelson, and D. Hammermeister | Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data | EPA-600/3-86-026, U.S.EPA, Duluth, MN | 2020/11/12 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 48 | hours | 96.5 | mg/L | 10 EHC (Environmental Health Criteria) | Burton DT & Fisher DJ | Acute toxicity of cadmium, copper, zinc, ammonia, 3,3ʼ-dichlorobenzidine, 2,6-dichloro-4-nitroaniline, methylene chloride, and 2,4,6-trichlorophenol to juvenile grass shrimp and killifish. | Bull Environ Contam Toxicol, 44 | 2021/03/10 | |||||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | Mortality | LC50 | 96 | hours | 11.3 | mg/L | 16 ECOTOX | Moreau,C.J., P.L. Klerks, and C.N. Haas | Interaction Between Phenanthrene and Zinc in Their Toxicity to the Sheepshead Minnow (Cyprinodon variegatus) | Arch. Environ. Contam. Toxicol.37(2) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 50200 | μg/L | 16 ECOTOX | Gale,N.L., B.G. Wixson, and M. Erten | An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater | Trace Subst. Environ. Health25 | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 47700 | μg/L | 16 ECOTOX | Gale,N.L., B.G. Wixson, and M. Erten | An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater | Trace Subst. Environ. Health25 | 2020/11/12 | |||||||
| 魚類 | Lepomis macrochirus | Mortality | LC50 | 48 | hours | 7240 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 96 | hours | 60000 | μg/L | 16 ECOTOX | Eisler,R., and R.J. Hennekey | Acute Toxicities of Cd2+, Cr+6, Hg2+, Ni2+ and Zn2+ to Estuarine Macrofauna | Arch. Environ. Contam. Toxicol.6(2-3) | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 24 | hours | 6888 | μg/L | 16 ECOTOX | 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 | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 24 | hours | 7620 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 96 | hours | 83041 | ppb | 16 ECOTOX | Cardin,J.A. | Acute Toxicity Data for Zinc and the Saltwater Fish, Fundulus heteroclitus, Menidia menidia and Pseudopleuronectes americanus | Memo to D.J.Hansen, U.S.EPA, Narragansett, RI | 2020/11/12 | |||||||
| 魚類 | Pimephales promelas | Mortality | LC50 | 96 | hours | 400 | μg/L | 1.8 ug/L / 61 ug/L / 120 ug/L / 240 ug/L / 540 ug/ | 16 ECOTOX | Hammermeister,D., C. Northcott, L. Brooke, and D. Call | Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water | Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 96 | hours | 0.066 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Cusimano, R.F., Brakka, D.F. and Chapman, G.A. | Effects of pH on the toxicities of cadmium, copper, and zinc to steelhead trout (Salmo gairdneri). | Can. J. Fish. Aquat. Sci., 43 | 2021/03/12 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 96 | hours | 60 | mg/L [nominal] | 10 EHC (Environmental Health Criteria) | Eisler R & Hennekey RJ | Acute toxicities of Cd2+, Cr+6, Hg2+, Ni2+ and Zn2+ to estuarine macrofauna. | Arch Environ Contam Toxicol, 6 | 2021/03/30 | |||||||
| 魚類 | Menidia menidia (Atlantic silverside) | Mortality | LC50 | 96 | hours | 4170 | ppb | 16 ECOTOX | Cardin,J.A. | Acute Toxicity Data for Zinc and the Saltwater Fish, Fundulus heteroclitus, Menidia menidia and Pseudopleuronectes americanus | Memo to D.J.Hansen, U.S.EPA, Narragansett, RI | 2020/11/12 | |||||||
| 魚類 | Oryzias latipes (Japanese medaka) | Mortality | LC50 | 48 | hours | 20000 | μg/L | 16 ECOTOX | 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) | 2020/11/12 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | Mortality | LC50 | 72 | hours | 6.4 | mg/L | 16 ECOTOX | Widianarko,B., F.X.S. Kuntoro, C.A.M. Van Gestel, and N.M. Van Straalen | Toxicokinetics and Toxicity of Zinc Under Time-Varying Exposure in the Guppy (Poecilia reticulata) | Environ. Toxicol. Chem.20(4) | 2020/11/12 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 24 | hours | 47500 | μg/L | 16 ECOTOX | Dorfman,D. | Tolerance of Fundulus heteroclitus to Different Metals in Salt Waters | Bull. N. J. Acad. Sci.22(2) | 2020/11/12 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | Mortality | LC50 | 24 | hours | 125000 | μg/L | 16 ECOTOX | Eisler,R., and R.J. Hennekey | Acute Toxicities of Cd2+, Cr+6, Hg2+, Ni2+ and Zn2+ to Estuarine Macrofauna | Arch. Environ. Contam. Toxicol.6(2-3) | 2020/11/12 | |||||||
| 魚類 | Lepomis macrochirus | Mortality | LC50 | 96 | hours | >=2.86~<=3.78 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Cairns, J.Jr. and Scheier, A. | The effects of temperature and hardness of water upon the toxicity of zinc to the common bluegill (Lepomis Macrochirus Raf.). | Not Nat. (Phila), 299 | 2021/03/12 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 780 | μg/L | ○ | 12 ECHA Information on Registered Substances | Schubauer-Berrigan M.k., Dierkes J.R., Monson P.D. and Ankley, G.T. | pH-dependent toxicity of Cd, Cu, Ni, Pb and Zn to Ceriodaphnia dubia , Pimephales promelas, Hyalella azteca and Lumbricus variegatus. | Envrionmental Toxicology and Chemistry. Vol. 12 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 95 | hours | 330 | μg/L | ○ | 12 ECHA Information on Registered Substances | Schubauer-Berrigan M.k., Dierkes J.R., Monson P.D. and Ankley, G.T. | pH-dependent toxicity of Cd, Cu, Ni, Pb and Zn to Ceriodaphnia dubia , Pimephales promelas, Hyalella azteca and Lumbricus variegatus. | Envrionmental Toxicology and Chemistry. Vol. 12 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 500 | μg/L | ○ | 12 ECHA Information on Registered Substances | Schubauer-Berrigan M.k., Dierkes J.R., Monson P.D. and Ankley, G.T. | pH-dependent toxicity of Cd, Cu, Ni, Pb and Zn to Ceriodaphnia dubia , Pimephales promelas, Hyalella azteca and Lumbricus variegatus. | Envrionmental Toxicology and Chemistry. Vol. 12 | 2021/03/02 | ||||||
| 魚類 | Clupea harengus | development | NOEC | 27 | days | 25 | μg/L | ○ | 12 ECHA Information on Registered Substances | Somasundaram B, King PE & Shackley SE | Some morphological effects of zinc upon the yolk- sac larvae of Clupea harengus L. | J. Fish Biol 25 | 2021/03/02 | ||||||
| 魚類 | Clupea harengus | larval development | LOEC | 27 | days | 50 | μg/L | ○ | 12 ECHA Information on Registered Substances | Somasundaram B, King PE & Shackley SE | Some morphological effects of zinc upon the yolk- sac larvae of Clupea harengus L. | J. Fish Biol 25 | 2021/03/02 | ||||||
| 魚類 | Clupea harengus | Development (ultrastructure of posterior gu | NOEC | 17 | days | 500 | μg/L | ○ | 12 ECHA Information on Registered Substances | Somasundaram B, King PE & Shackley S | The Effect of Zinc on the ultrastructure of the posterior gut and pronephric ducts of the larva of Clupea harengus L | Comp. Biochem. Physiol. 81C (1) | 2021/03/02 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth(Length) | MATC | 69 | days | 279 | μg/L | <10 ug/L / 117 ug/L / 214 ug/L / 365 ug/L / 665 ug | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4) | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth(Length) | EC20 | 69 | days | 362 | μg/L | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut. | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth(Weight) | MATC | 69 | days | 279 | μg/L | <10 ug/L / 117 ug/L / 214 ug/L / 365 ug/L / 665 ug | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4) | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth(Length) | MATC | 69 | days | 279 | μg/L | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut. | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth(Weight) | MATC | 69 | days | 279 | μg/L | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut. | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth(Length) | EC20 | 69 | days | 362 | μg/L | <10 ug/L / 117 ug/L / 214 ug/L / 365 ug/L / 665 ug | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4) | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | MATC | 69 | days | 117 | μg/L | <10 ug/L / 117 ug/L / 214 ug/L / 365 ug/L / 665 ug | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4) | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth(Weight) | EC20 | 69 | days | 387 | μg/L | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut. | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | MATC | 69 | days | 117 | μg/L | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut. | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth(Weight) | EC20 | 69 | days | 387 | μg/L | <10 ug/L / 117 ug/L / 214 ug/L / 365 ug/L / 665 ug | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4) | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NR-LETH | 69 | days | 1005 | μg/L | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut. | 2020/11/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NR-LETH | 69 | days | 1005 | μg/L | <10 ug/L / 117 ug/L / 214 ug/L / 365 ug/L / 665 ug | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4) | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | EC20 | 69 | days | 147 | μg/L | <10 ug/L / 117 ug/L / 214 ug/L / 365 ug/L / 665 ug | 16 ECOTOX | Mebane,C.A., D.P. Hennessy, and F.S. Dillon | Developing Acute-to-Chronic Toxicity Ratios for Lead, Cadmium, and Zinc Using Rainbow Trout, a Mayfly, and a Midge | Water Air Soil Pollut.188(1-4) | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 39 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 72 | days | 440 | μg/L Zn [background zinc concentration in test medium <5 µg/l.] | 7 EU Risk Assessment Report (EUリスク評価書) | Cairns, M.A. and R.R. Garton | Use of Fish Ventilation Frequency of Estimate Chronically Safe Toxicant Concentrations | Trans. Am. Fish. Soc. 111 | 2021/04/02 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 324 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 95 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 771 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 45 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 696 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 151 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 159 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 256 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 157 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 370 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 28 | days | 1.06 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Birge, W.J. | Aquatic toxicology of trace elements of coal and fly ash. | Thorp, J.H., and Gibbons, J.w. (eds) ,dep. Energy symp. Ser., Energy and environmental stress in aquatic systems, augusta, GA, 48 | 2021/03/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 974 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEC | 72 | days | 0.444 | mg Zn/L [measured] | 8 NITE 化学物質の初期リスク評価書 | Cairns, M.A., Garton, R.R. and Tubb, R.A. | Use of fish ventilation frequency to estimate chronically safe toxicant concentrations. | Trans. Am. Fsh. Soc., 111 | 2021/03/12 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 165 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 90 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Survival | NOEC | 30 | days | 401 | μg/L Zn | 7 EU Risk Assessment Report (EUリスク評価書) | De Schamphelaere, K.A.C., D.G. Heijerick and C.R. Janssen | Development and Validation of Biotic Ligand Models for Predicting Chronic Zinc Toxicity to Fish, Daphnids and Algae | Final report of ILZRO project ZEH-WA-1, Laboratory of Environmental Toxicology and Aquatic Ecology, Ghent University, Belgium (Sponsor: International Lead and Zinc Research Organization, ILZRO, United States) | 2021/03/24 | |||||||
| 魚類 | Pimephales promelas | mortality | NOEC | 8 | months | 295 | μg/L | ○ | 12 ECHA Information on Registered Substances | Benoit G.A. and Holcombe G.W. | Toxic effects of zinc on fathead minnows (Pimephales promelas) in soft water | J. Fish. Biol. 13 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | growth rate | NOEC | 8 | months | >575 | μg/L | ○ | 12 ECHA Information on Registered Substances | Benoit G.A. and Holcombe G.W. | Toxic effects of zinc on fathead minnows (Pimephales promelas) in soft water | J. Fish. Biol. 13 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | mortality | NOEC | 5 | days | 117 | μg/L | ○ | 12 ECHA Information on Registered Substances | Norberg-King T. | an evaluation of the fathead minnow seven-day subchronic test for estimating chronic toxicity | Environm. Tox. & Chem. vol 8 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | survival, hatchability of offspring, develo | NOEC | 8 | months | 145 | μg/L | ○ | 12 ECHA Information on Registered Substances | Benoit G.A. and Holcombe G.W. | Toxic effects of zinc on fathead minnows (Pimephales promelas) in soft water | J. Fish. Biol. 13 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | reproduction | NOEC | 8 | months | 78 | μg/L | ○ | 12 ECHA Information on Registered Substances | Benoit G.A. and Holcombe G.W. | Toxic effects of zinc on fathead minnows (Pimephales promelas) in soft water | J. Fish. Biol. 13 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | length | NOEC | 5 | days | 128 | μg/L | ○ | 12 ECHA Information on Registered Substances | Norberg-King T. | an evaluation of the fathead minnow seven-day subchronic test for estimating chronic toxicity | Environm. Tox. & Chem. vol 8 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | morphology | LOEC | 6 | days | 240 | μg/L | 12 ECHA Information on Registered Substances | Dawson, D.A., Stebler, E.F., Burks S.L. and Bantle J.A. | Evaluation of the developmental toxicity of metal contaminated sediment using short-term fathead minnow and frog embryo-larval assays. | Environm. Tox. & Chem. Vol 7 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | survival and growth | NOEC | 7 | days | 117 | μg/L | ○ | 12 ECHA Information on Registered Substances | Norberg-King T. | an evaluation of the fathead minnow seven-day subchronic test for estimating chronic toxicity | Environm. Tox. & Chem. vol 8 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | survival and growth | NOEC | 7 | days | 291 | μg/L | ○ | 12 ECHA Information on Registered Substances | Norberg-King T. | an evaluation of the fathead minnow seven-day subchronic test for estimating chronic toxicity | Environm. Tox. & Chem. vol 8 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | length | NOEC | 7 | days | 184 | μg/L | ○ | 12 ECHA Information on Registered Substances | Norberg, T. J. and Mount, D.I. | A new fathead minnow (Pimephales promelas) subchronic toxicity test | Environm. Tox & Chem. Vol 4 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | mortality | NOEC | 7 | days | 85 | μg/L | ○ | 12 ECHA Information on Registered Substances | Norberg, T. J. and Mount, D.I. | A new fathead minnow (Pimephales promelas) subchronic toxicity test | Environm. Tox & Chem. Vol 4 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | survival and growth | NOEC | 7 | days | 277 | μg/L | ○ | 12 ECHA Information on Registered Substances | Norberg-King T. | an evaluation of the fathead minnow seven-day subchronic test for estimating chronic toxicity | Environm. Tox. & Chem. vol 8 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | length | NOEC | 7 | days | 129 | μg/L | ○ | 12 ECHA Information on Registered Substances | Norberg-King T. | an evaluation of the fathead minnow seven-day subchronic test for estimating chronic toxicity | Environm. Tox. & Chem. vol 8 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | length | NOEC | 7 | days | 128 | μg/L | ○ | 12 ECHA Information on Registered Substances | Norberg-King T. | an evaluation of the fathead minnow seven-day subchronic test for estimating chronic toxicity | Environm. Tox. & Chem. vol 8 | 2021/03/02 | ||||||
| 魚類 | Pimephales promelas | mortality | NOEC | 32 | days | 129 | μg/L | ○ | 12 ECHA Information on Registered Substances | Norberg-King T. | an evaluation of the fathead minnow seven-day subchronic test for estimating chronic toxicity | Environm. Tox. & Chem. vol 8 | 2021/03/02 |