【注意事項】
* 生態影響に係る有害性情報更新日が2019年9月以前はRead-acrossデータに○を記載しておらず、被験物質が標記の物質ではない可能性がある。
**各情報源における信頼性評価スコアの定義は下記のとおりである。
| 生物種 | 学名 | 影響内容 | エンドポイント | 暴露期間(値) | 暴露期間(単位) | 毒性値 | 毒性値(単位) | 毒性値(単位)種別 | 試験中の 被験物質 濃度測定 あり:○ なし:× |
情報源 | 情報源による 信頼性評価** |
著者 | タイトル | 記載誌 | 発行年 | 情報更新日 | |||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| subject type | scientific name | effect | endpoint | exposure duration value |
exposure duration unit |
toxicity value | toxicity unit | toxicity unit type | Read-across* | QSAR | GLP | measurement of the test material |
original work type | original work reliability rank |
author | title | referenced journal | publication year | Information update date |
| 藻類 | Chlorella vulgaris | Growth | IC20 | 72 | hours | 10 | μmol/L | 12 ECHA Information on Registered Substances | Zhou H, Wang X, Zhou Y, Yao H, Ahmad F | Evaluation of the toxicity of ZnO nanoparticles to Chlorella vulgaris by use of the chiral perturbation approach | Anal Bioanal Chem (2014) 406 | 2021/03/02 | |||||||
| 藻類 | Chlorella vulgaris | Growth | IC20 | 72 | hours | 10 | μmol/L | 12 ECHA Information on Registered Substances | Zhou H, Wang X, Zhou Y, Yao H, Ahmad F | Evaluation of the toxicity of ZnO nanoparticles to Chlorella vulgaris by use of the chiral perturbation approach | Anal Bioanal Chem (2014) 406 | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | Population/Abundance | EC30 | 6 | days | 20 | mg/L | × | 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 sp. | Population/Abundance | EC30 | 6 | days | 100 | mg/L | × | 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 | Growth/Growth rate | EC20 | 72 | hours | 0.025 | mg/L | × | 16 ECOTOX | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4) | 2020/11/12 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth/Growth rate | EC20 | 72 | hours | 0.023 | mg/L | × | 16 ECOTOX | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4) | 2020/11/12 | ||||||
| 藻類 | Thalassiosira pseudonana | Population/Abundance | EC100 | 24~72 | hours | 2.59 | mg/L | × | 16 ECOTOX | Peng,X., S. Palma, N.S. Fisher, and S.S. Wong | Effect of Morphology of ZnO Nanostructures on Their Toxicity to Marine Algae | Aquat. Toxicol.102(3/4) | 2020/11/12 | ||||||
| 藻類 | Chlorella sp. | Population | LOEC | 6 | days | 1000000 | 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 | Chlorella sp. | Population | NOEC | 6 | days | 5000 | 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 | Chlorella sp. | Population | LOEC | 4 | days | 100000 | 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 | Chlorella sp. | Population | LOEC | 6 | days | 100000 | 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 | Chlorella sp. | Population | NOEC | 6 | days | 50000 | 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 | Chlorella sp. | Population | LOEC | 4 | days | 1000000 | 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 | IC50 | 3 | days | 44 | 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 sp. | Population | LOEC | 6 | days | 10000 | 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 | Chlorella sp. | Population | LOEC | 2 | days | 1000000 | 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 | Growth | NOEC | 3 | days | 48 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4): 1461-1468 | 2009 | 2016/03/25 | ||||||
| 藻類 | Chlorella sp. | Population | LOEC | 2 | days | 1000000 | 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 | Growth | EC20 | 3 | days | 23 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4): 1461-1468 | 2009 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC20 | 3 | days | 25 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4): 1461-1468 | 2009 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | EC50 | 3 | days | 42 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4): 1461-1468 | 2009 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population | IC50 | 3 | days | 46 | 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 | Growth | NOEC | 3 | days | 37 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4): 1461-1468 | 2009 | 2016/03/25 | ||||||
| 藻類 | Chlorella sp. | Population | LOEC | 4 | days | 1000000 | 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 | Growth | NOEC | 3 | days | 48 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4): 1461-1468 | 2009 | 2016/03/25 | ||||||
| 藻類 | Chlorella sp. | Population | LOEC | 2 | days | 100000 | 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 | IC50 | 3 | days | 63 | 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 | 49 | 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 | Growth | NOEC | 3 | days | 20 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4): 1461-1468 | 2009 | 2016/03/25 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth | NOEC | 3 | days | 17 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4): 1461-1468 | 2009 | 2016/03/25 | ||||||
| 藻類 | Chlorella sp. | Population | LOEC | 6 | days | 1000000 | 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 | Chlorella sp. | Population | LOEC | 6 | days | 100000 | 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 | Chlorella sp. | Population | LOEC | 2 | days | 100000 | 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 | Chlorella sp. | Population | LOEC | 6 | days | 100000 | 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 | Chlorella sp. | Population | EC30 | 6 | days | 20000 | 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 | Chlorella sp. | Population | EC30 | 6 | days | 100000 | 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 | Chlorella sp. | Population | LOEC | 4 | days | 100000 | 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 | Selenastrum capricornutum | 生長阻害 | EC50 | 72 | hours | 0.17 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Van Ginneken, I. | The effect of zinc oxide on the growth of the unicellular alga selenastrum capricornutum. | Report Nr AASc/0022, Janssen Pharmaceutica NV, Beerse, Belgium.(IPCS, 2001から引用) | 1994 | 2016/03/14 | ||||||
| 藻類 | Selenastrum capricornutum | 生長阻害 バイオマス | EC100 | 7 | hours | 0.12 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Bartlett, L., Rabe F. W. and Funk W. H. | Effect of copper, zinc and cadmium on Selenastum capricornutum. | Water Res., 8. | 1974 | 2016/03/14 | ||||||
| 藻類 | Selenastrum capricornutum | 生長阻害 バイオマス、EC95 | EC95 | 14 | days | 0.0404 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Greene et al. | 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. | 1975 | 2016/03/14 | ||||||
| 藻類 | Scenedesmus sp. Scenedesmus acuminatus | 生長阻害 バイオマス | EC50 | 8 | days | 0.09 | mg/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) | 1981 | 2016/03/14 | ||||||
| 藻類 | Chlorella vulgaris | 生長阻害 バイオマス | EC50 | 96 | hours | 2.4 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Rachlin, J.W. and Farran, M. | Growth response of the green algae Chlorella vulgaris to selective concentration of zinc. | Water Res., Farran 8. | 1974 | 2016/03/14 | ||||||
| 藻類 | Selenastrum capricornutum | 生長阻害 | EC50 | 72 | hours | 0.15 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Van Woensel, M. | The effect of zinc powder on the growth of the unicellular alga selenastrum capricornutum. | Report Nr AASc/janssen Pharmaceutica NV, Beerse, Belgium.(IPCS, 2001から引用) | 1994 | 2016/03/14 | ||||||
| 藻類 | Anabaena sp. | growth rate | EC50 | 96 | hours | 0.3 | mg/L | 12 ECHA Information on Registered Substances | Tang Y., Li S., Lu Y., Li Q., Yu S. | The Influence of Humic Acid on the Toxicity of Nano-ZnO and Zn21 to the Anabaena sp. | Environmental Toxicology 30 | 2021/03/02 | |||||||
| 藻類 | Skeletonema costatum | growth rate | IC50 | 96 | hours | 1.23 | mg/L | 12 ECHA Information on Registered Substances | Wong, S.W.Y., Leung, P.T.Y., Djurisic, A.B., Leung, K.M.Y. | Toxicities of nano zinc oxide to five marine organisms: influences of aggregate size and ion solubility | Anal Bioanal Chem 396(2) | 2021/03/02 | |||||||
| 藻類 | Anabaena sp. | growth rate | EC50 | 96 | hours | 0.74 | mg/L | 12 ECHA Information on Registered Substances | Tang Y., Li S., Lu Y., Li Q., Yu S. | The Influence of Humic Acid on the Toxicity of Nano-ZnO and Zn21 to the Anabaena sp. | Environmental Toxicology 30 | 2021/03/02 | |||||||
| 藻類 | Dunaliella tertiolecta | growth rate | EC50 | 4 | days | 1.94 | mg/L | 12 ECHA Information on Registered Substances | Manzo, S., Miglietta, M.L., Rametta, G., Buono, S., Di Francia G. | Toxic effects of ZnO nanoparticles towards marine algae Dunaliella tertiolecta | Science of the Total Environment 445-446 | 2021/03/02 | |||||||
| 藻類 | Phaeodactylum tricornutum | growth | EC50 | 24 | hours | 2.57 | mg/L | 12 ECHA Information on Registered Substances | Li J, Schiavo S, Rametta G, Miglietta ML, La Ferrara V, Wu C, Manzo S | Comparative toxicity of nano ZnO and bulk ZnO towards marine algae Tetraselmis suecica and Phaeodactylum tricornutum | Environ Sci Pollut Res 24 | 2021/03/02 | |||||||
| 藻類 | Skeletonema costatum | growth rate | IC50 | 96 | hours | 1.85 | mg/L | 12 ECHA Information on Registered Substances | Wong, S.W.Y., Leung, P.T.Y., Djurisic, A.B., Leung, K.M.Y. | Toxicities of nano zinc oxide to five marine organisms: influences of aggregate size and ion solubility | Anal Bioanal Chem 396(2) | 2021/03/02 | |||||||
| 藻類 | Phaeodactylum tricornutum | growth | EC50 | 24 | hours | 3.6 | mg/L | 12 ECHA Information on Registered Substances | Li J, Schiavo S, Rametta G, Miglietta ML, La Ferrara V, Wu C, Manzo S | Comparative toxicity of nano ZnO and bulk ZnO towards marine algae Tetraselmis suecica and Phaeodactylum tricornutum | Environ Sci Pollut Res 24 | 2021/03/02 | |||||||
| 藻類 | Skeletonema costatum | growth rate | IC50 | 96 | hours | 2.36 | mg/L | 12 ECHA Information on Registered Substances | Wong, S.W.Y., Leung, P.T.Y., Djurisic, A.B., Leung, K.M.Y. | Toxicities of nano zinc oxide to five marine organisms: influences of aggregate size and ion solubility | Anal Bioanal Chem 396(2) | 2021/03/02 | |||||||
| 藻類 | Dunaliella tertiolecta | growth rate | EC50 | 4 | days | 0.65 | mg/L | 12 ECHA Information on Registered Substances | Manzo, S., Miglietta, M.L., Rametta, G., Buono, S., Di Francia G. | Toxic effects of ZnO nanoparticles towards marine algae Dunaliella tertiolecta | Science of the Total Environment 445-446 | 2021/03/02 | |||||||
| 藻類 | Selenastrum capricornutum | Culture growth | EC50 | 72 | hours | 0.17 | mg/L | measurements expressed as dissolved zinc | ○ | 10 EHC (Environmental Health Criteria) | Van Ginneken I | The effect of zinc oxide on the growth of the unicellular alga Selenastrum capricornutum. | Report Nr AASc/0022, Janssen Pharmaceutica NV, Beerse,Belgium | 2021/03/10 | |||||
| 藻類 | Selenastrum capricornutum | Growth rate | NOErC | 72 | hours | 0.008 | mg Zn/L | nomina, dissolved | ○ | 7 EU Risk Assessment Report (EUリスク評価書) | LISEC | Alga, Growth Inhibition Test – Effect of Red Seal Zinc Oxide on the Growth of Selenastrum capricornutum. | Study no. WE-06-142 (year of test: 1997), LISEC, Genk, Belgium (Sponsor: Zinc Oxide Producers Association S.G. (ZOPA), Brussels, Belgium) | 2021/03/24 | |||||
| 藻類 | Selenastrum capricornutum | Biomass | EbC50 | 72 | hours | 0.034 | mg Zn/L | nominal, dissolved | ○ | 7 EU Risk Assessment Report (EUリスク評価書) | LISEC | Alga, Growth Inhibition Test – Effect of Red Seal Zinc Oxide on the Growth of Selenastrum capricornutum. | Study no. WE-06-142 (year of test: 1997), LISEC, Genk, Belgium (Sponsor: Zinc Oxide Producers Association S.G. (ZOPA), Brussels, Belgium) | 2021/03/24 | |||||
| 藻類 | Selenastrum capricornutum | Growth rate | NOErC | 72 | hours | 0.024 | mg Zn/L | meas., dissolved | ○ | ○ | 7 EU Risk Assessment Report (EUリスク評価書) | Van Ginneken, I. | The Effect of Zinc Oxide on the Growth of the Unicellular Green Alga Selenastrum capricornutum. | Report No. AASc/0022 (year of test: 1993/1994). Janssen Pharmaceutica N.V., Beerse, Belgium (Sponsor: International Lead and Zinc Research Association Inc. (ILZRO), North Carolina, U.S.A.) | 2021/03/24 | ||||
| 藻類 | Selenastrum capricornutum | Biomass | NOEbC | 72 | hours | <0.004 | mg Zn/L | nominal, dissolved | ○ | 7 EU Risk Assessment Report (EUリスク評価書) | LISEC | Alga, Growth Inhibition Test – Effect of Red Seal Zinc Oxide on the Growth of Selenastrum capricornutum. | Study no. WE-06-142 (year of test: 1997), LISEC, Genk, Belgium (Sponsor: Zinc Oxide Producers Association S.G. (ZOPA), Brussels, Belgium) | 2021/03/24 | |||||
| 藻類 | Selenastrum capricornutum | Growth rate | ErC50 | 72 | hours | 0.136 | mg Zn/L | meas., dissolved | ○ | ○ | 7 EU Risk Assessment Report (EUリスク評価書) | Van Ginneken, I. | The Effect of Zinc Oxide on the Growth of the Unicellular Green Alga Selenastrum capricornutum. | Report No. AASc/0022 (year of test: 1993/1994). Janssen Pharmaceutica N.V., Beerse, Belgium (Sponsor: International Lead and Zinc Research Association Inc. (ILZRO), North Carolina, U.S.A.) | 2021/03/24 | ||||
| 藻類 | Pseudokirchneriella subcapitata | Population/Population 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 | Skeletonema costatum | Population/Population growth rate | IC50 | 96 | hours | 2.97 | mg/L | × | 16 ECOTOX | Wong,S.W.Y., P.T.Y. Leung, A.B. Djurisic, and K.M.Y. Leung | Toxicities of Nano Zinc Oxide to Five Marine Organisms: Influences of Aggregate Size and Ion Solubility | Anal. Bioanal. Chem.396(2) | 2020/11/12 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population/Population 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 | Selenastrum capricornutum | Growth rate | ErC50 | 72 | hours | 0.135 | mg Zn/L | nominal, dissolved | ○ | 7 EU Risk Assessment Report (EUリスク評価書) | LISEC | Alga, Growth Inhibition Test – Effect of Red Seal Zinc Oxide on the Growth of Selenastrum capricornutum. | Study no. WE-06-142 (year of test: 1997), LISEC, Genk, Belgium (Sponsor: Zinc Oxide Producers Association S.G. (ZOPA), Brussels, Belgium) | 2021/03/24 | |||||
| 藻類 | Thalassiosira pseudonana | Population/Population growth rate | IC50 | 96 | hours | 3.28 | mg/L | × | 16 ECOTOX | Wong,S.W.Y., P.T.Y. Leung, A.B. Djurisic, and K.M.Y. Leung | Toxicities of Nano Zinc Oxide to Five Marine Organisms: Influences of Aggregate Size and Ion Solubility | Anal. Bioanal. Chem.396(2) | 2020/11/12 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population/Population growth rate | IC50 | 72 | hours | 44 | 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 | Thalassiosira pseudonana | Population/Population growth rate | IC50 | 96 | hours | 4.56 | mg/L | × | 16 ECOTOX | Wong,S.W.Y., P.T.Y. Leung, A.B. Djurisic, and K.M.Y. Leung | Toxicities of Nano Zinc Oxide to Five Marine Organisms: Influences of Aggregate Size and Ion Solubility | Anal. Bioanal. Chem.396(2) | 2020/11/12 | ||||||
| 藻類 | Skeletonema costatum | Population/Population growth rate | IC50 | 96 | hours | 2.36 | mg/L | × | 16 ECOTOX | Wong,S.W.Y., P.T.Y. Leung, A.B. Djurisic, and K.M.Y. Leung | Toxicities of Nano Zinc Oxide to Five Marine Organisms: Influences of Aggregate Size and Ion Solubility | Anal. Bioanal. Chem.396(2) | 2020/11/12 | ||||||
| 藻類 | Thalassiosira pseudonana | Population/Population growth rate | IC50 | 96 | hours | 6.65 | mg/L | × | 16 ECOTOX | Wong,S.W.Y., P.T.Y. Leung, A.B. Djurisic, and K.M.Y. Leung | Toxicities of Nano Zinc Oxide to Five Marine Organisms: Influences of Aggregate Size and Ion Solubility | Anal. Bioanal. Chem.396(2) | 2020/11/12 | ||||||
| 藻類 | Skeletonema costatum | growth rate | IC50 | 96 | hours | 2.97 | mg/L | 12 ECHA Information on Registered Substances | Wong, S.W.Y., Leung, P.T.Y., Djurisic, A.B., Leung, K.M.Y. | Toxicities of nano zinc oxide to five marine organisms: influences of aggregate size and ion solubility | Anal Bioanal Chem 396(2) | 2021/03/02 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth/Growth rate | EC50 | 72 | hours | 0.042 | mg/L | × | 16 ECOTOX | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4) | 2020/11/12 | ||||||
| 藻類 | Skeletonema costatum | Population/Population growth rate | IC50 | 96 | hours | 1.85 | mg/L | × | 16 ECOTOX | Wong,S.W.Y., P.T.Y. Leung, A.B. Djurisic, and K.M.Y. Leung | Toxicities of Nano Zinc Oxide to Five Marine Organisms: Influences of Aggregate Size and Ion Solubility | Anal. Bioanal. Chem.396(2) | 2020/11/12 | ||||||
| 藻類 | Thalassiosira pseudonana | Population/Abundance | EC50 | 24~72 | hours | 0.82 | mg/L | × | 16 ECOTOX | Peng,X., S. Palma, N.S. Fisher, and S.S. Wong | Effect of Morphology of ZnO Nanostructures on Their Toxicity to Marine Algae | Aquat. Toxicol.102(3/4) | 2020/11/12 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Population/Population growth rate | IC50 | 72 | hours | 63 | 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 | Population/Population growth rate | IC50 | 72 | hours | 49 | 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 | EC50 | 24 | hours | 1.12 | mg/L | 12 ECHA Information on Registered Substances | Li J, Schiavo S, Rametta G, Miglietta ML, La Ferrara V, Wu C, Manzo S | Comparative toxicity of nano ZnO and bulk ZnO towards marine algae Tetraselmis suecica and Phaeodactylum tricornutum | Environ Sci Pollut Res 24 | 2021/03/02 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Population/Population growth rate | IC50 | 72 | hours | 46 | 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 | Selenastrum capricornutum | 生長阻害 | NOEC | 72 | hours | 0.03 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Van Ginneken, I. | The effect of zinc oxide on the growth of the unicellular alga selenastrum capricornutum. | Report Nr AASc/0022, Janssen Pharmaceutica NV, Beerse, Belgium.(IPCS, 2001から引用) | 1994 | 2016/03/14 | ||||||
| 藻類 | Selenastrum capricornutum | 生長阻害 バイオマス | NOEC | 7 | hours | 0.03 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Bartlett, L., Rabe F. W. and Funk W. H. | Effect of copper, zinc and cadmium on Selenastum capricornutum. | Water Res., 8. | 1974 | 2016/03/14 | ||||||
| 藻類 | Selenastrum capricornutum | 生長阻害 | NOEC | 72 | hours | 0.05 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Van Woensel, M. | The effect of zinc powder on the growth of the unicellular alga selenastrum capricornutum. | Report Nr AASc/janssen Pharmaceutica NV, Beerse, Belgium.(IPCS, 2001から引用) | 1994 | 2016/03/14 | ||||||
| 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 | Chlorella sp. | survival of algae | NOEC | 6 | days | 50 | mg/L | 12 ECHA Information on Registered Substances | Ji, J., Long, Z., Lin, D. | Toxicity of oxide nanoparticles to the green algae Chlorella sp | Chemical Engineering Journal 170 | 2021/03/02 | |||||||
| 藻類 | Dunaliella tertiolecta | growth rate | LOEC | 4 | days | 0.4 | mg/L | 12 ECHA Information on Registered Substances | Manzo, S., Miglietta, M.L., Rametta, G., Buono, S., Di Francia G. | Toxic effects of ZnO nanoparticles towards marine algae Dunaliella tertiolecta | Science of the Total Environment 445-446 | 2021/03/02 | |||||||
| 藻類 | Phaeodactylum tricornutum | growth | EC10 | 72 | hours | 0.23 | mg/L | 12 ECHA Information on Registered Substances | Li J, Schiavo S, Rametta G, Miglietta ML, La Ferrara V, Wu C, Manzo S | Comparative toxicity of nano ZnO and bulk ZnO towards marine algae Tetraselmis suecica and Phaeodactylum tricornutum | Environ Sci Pollut Res 24 | 2021/03/02 | |||||||
| 藻類 | Chlorella vulgaris | Growth | IC10 | 72 | hours | 5 | μmol/L | 12 ECHA Information on Registered Substances | Zhou H, Wang X, Zhou Y, Yao H, Ahmad F | Evaluation of the toxicity of ZnO nanoparticles to Chlorella vulgaris by use of the chiral perturbation approach | Anal Bioanal Chem (2014) 406 | 2021/03/02 | |||||||
| 藻類 | Phaeodactylum tricornutum | growth | EC10 | 72 | hours | 0.64 | mg/L | 12 ECHA Information on Registered Substances | Li J, Schiavo S, Rametta G, Miglietta ML, La Ferrara V, Wu C, Manzo S | Comparative toxicity of nano ZnO and bulk ZnO towards marine algae Tetraselmis suecica and Phaeodactylum tricornutum | Environ Sci Pollut Res 24 | 2021/03/02 | |||||||
| 藻類 | Dunaliella tertiolecta | growth rate | NOEC | 4 | days | 0.01 | mg/L | 12 ECHA Information on Registered Substances | Manzo, S., Miglietta, M.L., Rametta, G., Buono, S., Di Francia G. | Toxic effects of ZnO nanoparticles towards marine algae Dunaliella tertiolecta | Science of the Total Environment 445-446 | 2021/03/02 | |||||||
| 藻類 | Chlorella vulgaris | Growth | IC10 | 72 | hours | 5 | μmol/L | 12 ECHA Information on Registered Substances | Zhou H, Wang X, Zhou Y, Yao H, Ahmad F | Evaluation of the toxicity of ZnO nanoparticles to Chlorella vulgaris by use of the chiral perturbation approach | Anal Bioanal Chem (2014) 406 | 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 | Dunaliella tertiolecta | growth rate | NOEC | 4 | days | 0.08 | mg/L | 12 ECHA Information on Registered Substances | Manzo, S., Miglietta, M.L., Rametta, G., Buono, S., Di Francia G. | Toxic effects of ZnO nanoparticles towards marine algae Dunaliella tertiolecta | Science of the Total Environment 445-446 | 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 | 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 | 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 | 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 | 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 | 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 | Dunaliella tertiolecta | growth rate | LOEC | 4 | days | 0.05 | mg/L | 12 ECHA Information on Registered Substances | Manzo, S., Miglietta, M.L., Rametta, G., Buono, S., Di Francia G. | Toxic effects of ZnO nanoparticles towards marine algae Dunaliella tertiolecta | Science of the Total Environment 445-446 | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | survival of algae | NOEC | 6 | days | 1 | mg/L | 12 ECHA Information on Registered Substances | Ji, J., Long, Z., Lin, D. | Toxicity of oxide nanoparticles to the green algae Chlorella sp | Chemical Engineering Journal 170 | 2021/03/02 | |||||||
| 藻類 | Dunaliella tertiolecta | growth rate | NOEC | 4 | days | 0.8 | mg/L | 12 ECHA Information on Registered Substances | Manzo, S., Miglietta, M.L., Rametta, G., Buono, S., Di Francia G. | Toxic effects of ZnO nanoparticles towards marine algae Dunaliella tertiolecta | Science of the Total Environment 445-446 | 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 | 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 | Dunaliella tertiolecta | growth rate | LOEC | 4 | days | 2.41 | mg/L | 12 ECHA Information on Registered Substances | Manzo, S., Miglietta, M.L., Rametta, G., Buono, S., Di Francia G. | Toxic effects of ZnO nanoparticles towards marine algae Dunaliella tertiolecta | Science of the Total Environment 445-446 | 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 | 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 | 12 | days | 4800 | μg/L | ○ | 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. | survival of algae | NOEC | 6 | days | 5 | mg/L | 12 ECHA Information on Registered Substances | Ji, J., Long, Z., Lin, D. | Toxicity of oxide nanoparticles to the green algae Chlorella sp | Chemical Engineering Journal 170 | 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 | 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. | Population/Abundance | LOEC | 4 | days | 100 | mg/L | × | 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 sp. | Population/Abundance | LOEC | 2 | days | 1000 | mg/L | × | 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 sp. | Population/Abundance | LOEC | 6 | days | 100 | mg/L | × | 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 sp. | Population/Abundance | LOEC | 2 | days | 1000 | mg/L | × | 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 sp. | Population/Abundance | LOEC | 6 | days | 1000 | mg/L | × | 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 sp. | Population/Abundance | LOEC | 6 | days | 100 | mg/L | × | 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 sp. | Population/Abundance | LOEC | 4 | days | 1000 | mg/L | × | 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 | Selenastrum capricornutum | Biomass | LOEC | 72 | hours | 0.018 | mg Zn/L | nominal, dissolved | ○ | 7 EU Risk Assessment Report (EUリスク評価書) | LISEC | Alga, Growth Inhibition Test – Effect of Red Seal Zinc Oxide on the Growth of Selenastrum capricornutum. | Study no. WE-06-142 (year of test: 1997), LISEC, Genk, Belgium (Sponsor: Zinc Oxide Producers Association S.G. (ZOPA), Brussels, Belgium) | 2021/05/07 | |||||
| 藻類 | Chlorella sp. | Population/Abundance | LOEC | 4 | days | 1000 | mg/L | × | 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 sp. | Population/Abundance | LOEC | 6 | days | 1000 | mg/L | × | 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 sp. | Population/Abundance | NOEC | 6 | days | 50 | mg/L | × | 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 sp. | Population/Abundance | LOEC | 6 | days | 10 | mg/L | × | 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 | Growth | NOEC | 3 | days | 8 | μg/L Zn | nominal | ○ | × | 7 EU Risk Assessment Report (EUリスク評価書) | LISEC | Effect of Red Seal Zinc Oxide on the Growth of Selenastrum capricornutum | Study No. WE-06-142 (year of test: 1997), LISEC, Genk, Belgium (Sponsor: Zinc Oxide Producers Association S.G. (ZOPA), Brussels, Belgium) | 2021/04/02 | ||||
| 藻類 | Selenastrum capricornutum | Growth rate | LOEC | 72 | hours | 0.04 | mg Zn/L | nominal, dissolved | ○ | 7 EU Risk Assessment Report (EUリスク評価書) | LISEC | Alga, Growth Inhibition Test – Effect of Red Seal Zinc Oxide on the Growth of Selenastrum capricornutum. | Study no. WE-06-142 (year of test: 1997), LISEC, Genk, Belgium (Sponsor: Zinc Oxide Producers Association S.G. (ZOPA), Brussels, Belgium) | 2021/05/07 | |||||
| 藻類 | Chlorella sp. | Population/Abundance | LOEC | 2 | days | 100 | mg/L | × | 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 | Growth/Growth rate | NOEC | 72 | hours | 0.048 | mg/L | × | 16 ECOTOX | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4) | 2020/11/12 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth/Growth rate | NOEC | 72 | hours | 0.037 | mg/L | × | 16 ECOTOX | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4) | 2020/11/12 | ||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth/Growth rate | NOEC | 72 | hours | 0.017 | mg/L | × | 16 ECOTOX | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4) | 2020/11/12 | ||||||
| 藻類 | Chlorella sp. | Population/Abundance | LOEC | 2 | days | 100 | mg/L | × | 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 | Selenastrum capricornutum | Culture growth | NOEC | 72 | hours | 0.03 | mg/L | measurements expressed as dissolved zinc | ○ | 10 EHC (Environmental Health Criteria) | Van Ginneken I | The effect of zinc oxide on the growth of the unicellular alga Selenastrum capricornutum. | Report Nr AASc/0022, Janssen Pharmaceutica NV, Beerse,Belgium | 2021/03/30 | |||||
| 藻類 | Chlorella sp. | Population/Abundance | LOEC | 6 | days | 100 | mg/L | × | 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 | Phaeodactylum tricornutum | growth | EC10 | 72 | hours | 0.54 | mg/L | 12 ECHA Information on Registered Substances | Li J, Schiavo S, Rametta G, Miglietta ML, La Ferrara V, Wu C, Manzo S | Comparative toxicity of nano ZnO and bulk ZnO towards marine algae Tetraselmis suecica and Phaeodactylum tricornutum | Environ Sci Pollut Res 24 | 2021/03/02 | |||||||
| 藻類 | Pseudokirchneriella subcapitata | Growth/Growth rate | NOEC | 72 | hours | 0.048 | mg/L | × | 16 ECOTOX | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4) | 2020/11/12 | ||||||
| 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 | Chlorella sp. | algal viability | NOEC | 24 | hours | 0.81 | mg/L | 12 ECHA Information on Registered Substances | Chen, P., Powell, B.A., Mortimer, M., Ke, P.C. | Adaptive interactions between zinc oxide nanoparticles and Chlorella sp | Environmental Science and Technology 46 | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | Population/Abundance | LOEC | 4 | days | 100 | mg/L | × | 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 sp. | Population/Abundance | NOEC | 6 | days | 5 | mg/L | × | 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 | Growth/Growth rate | NOEC | 72 | hours | 0.02 | mg/L | × | 16 ECOTOX | Aruoja,V., H.C. Dubourguier, K. Kasemets, and A. Kahru | Toxicity of Nanoparticles of CuO, ZnO and TiO2 to Microalgae Pseudokirchneriella subcapitata | Sci. Total Environ.407(4) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | NR-LETH | 8 | days | 0.5 | ppm | × | 16 ECOTOX | Adams,L.K., D.Y. Lyon, A. McIntosh, and P.J.J. Alvarez | Comparative Toxicity of Nano-Scale TiO2, SiO2 and ZnO Water Suspensions | Water Sci. Technol.54(11/12) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Physiology | LC20 | 2 | days | 4400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru | Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere71(7): 1308-1316 | 2008 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 3400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC10 | 2 | days | 600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wiench,K., W. Wohlleben, V. Hisgen, K. Radke, E. Salinas, S. Zok, and R. Landsiedel | Acute and Chronic Effects of Nano- and Non-Nano-Scale TiO(2) and ZnO Particles on Mobility and Reproduction of the Freshwater Invertebrate Daphnia magna | Chemosphere76(10): 1356-1365 | 2009 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | LC50 | 2 | days | 7100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru | Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere71(7): 1308-1316 | 2008 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Accumulation | 2 | days | 10~5000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhu,X., L. Zhu, Y. Chen, and S. Tian | Acute Toxicities of Six Manufactured Nanomaterial Suspensions to Daphnia magna | J. Nanopart. Res.11:67-75 | 2009 | 2016/03/25 | ||||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 16200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 3300 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Accumulation | 2 | days | 10~5000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhu,X., L. Zhu, Y. Chen, and S. Tian | Acute Toxicities of Six Manufactured Nanomaterial Suspensions to Daphnia magna | J. Nanopart. Res.11:67-75 | 2009 | 2016/03/25 | ||||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | >1000000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Pesticide Ecotoxicity Database (Formerly: Environmental Effects Database (EEDB)) | Environmental Fate and Effects Division, U.S.EPA, Washington, D.C.: | 1992 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | NOEC | 1 | days | 1100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Naddafi,K., M.R. Zare, and S. Nazmara | Investigating Potential Toxicity of Phenanthrene Adsorbed to Nano-ZnO Using Daphnia magna | Toxicol. Environ. Chem.93(4): 729-737 | 2011 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 9000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | 8 | days | 500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Adams,L.K., D.Y. Lyon, A. McIntosh, and P.J.J. Alvarez | Comparative Toxicity of Nano-Scale TiO2, SiO2 and ZnO Water Suspensions | Water Sci. Technol.54(11/12): 327-334 | 2006 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Mortality | 2 | days | 500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Naddafi,K., M.R. Zare, and S. Nazmara | Investigating Potential Toxicity of Phenanthrene Adsorbed to Nano-ZnO Using Daphnia magna | Toxicol. Environ. Chem.93(4): 729-737 | 2011 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | >5000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 2800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 3500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 6900 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | LC20 | 2 | days | 2000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru | Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere71(7): 1308-1316 | 2008 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 98 | 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 | NOEC | 2 | days | 860 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Naddafi,K., M.R. Zare, and S. Nazmara | Investigating Potential Toxicity of Phenanthrene Adsorbed to Nano-ZnO Using Daphnia magna | Toxicol. Environ. Chem.93(4): 729-737 | 2011 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 1000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Wiench,K., W. Wohlleben, V. Hisgen, K. Radke, E. Salinas, S. Zok, and R. Landsiedel | Acute and Chronic Effects of Nano- and Non-Nano-Scale TiO(2) and ZnO Particles on Mobility and Reproduction of the Freshwater Invertebrate Daphnia magna | Chemosphere76(10): 1356-1365 | 2009 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 481 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhu,X., L. Zhu, Y. Chen, and S. Tian | Acute Toxicities of Six Manufactured Nanomaterial Suspensions to Daphnia magna | J. Nanopart. Res.11:67-75 | 2009 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | EC50 | 2 | days | 622 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhu,X., L. Zhu, Y. Chen, and S. Tian | Acute Toxicities of Six Manufactured Nanomaterial Suspensions to Daphnia magna | J. Nanopart. Res.11:67-75 | 2009 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 9500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 12000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | LC50 | 2 | days | 2600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru | Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere71(7): 1308-1316 | 2008 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 1250 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhu,X., L. Zhu, Y. Chen, and S. Tian | Acute Toxicities of Six Manufactured Nanomaterial Suspensions to Daphnia magna | J. Nanopart. Res.11:67-75 | 2009 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 1 | days | 2580 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Naddafi,K., M.R. Zare, and S. Nazmara | Investigating Potential Toxicity of Phenanthrene Adsorbed to Nano-ZnO Using Daphnia magna | Toxicol. Environ. Chem.93(4): 729-737 | 2011 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 1511 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Zhu,X., L. Zhu, Y. Chen, and S. Tian | Acute Toxicities of Six Manufactured Nanomaterial Suspensions to Daphnia magna | J. Nanopart. Res.11:67-75 | 2009 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 2140 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Naddafi,K., M.R. Zare, and S. Nazmara | Investigating Potential Toxicity of Phenanthrene Adsorbed to Nano-ZnO Using Daphnia magna | Toxicol. Environ. Chem.93(4): 729-737 | 2011 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | NOEC | 2 | days | 400 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru | Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere71(7): 1308-1316 | 2008 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Physiology | NOEC | 2 | days | 1200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru | Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere71(7): 1308-1316 | 2008 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 10800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | EC50 | 2 | days | 1700 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1): 41-47 | 2010 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 24600 | 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 | EC50 | 48 | hours | >1000 | mg/L | 3 USEPA Pesticide Ecotoxicity Database | C. Laird | 1986 | 2016/02/02 | |||||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 0.334 | mg/L | 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.(Author Communication used) | 1980 | 2016/03/14 | |||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 0.1 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Biesinger, K.E. and Christensen, G.M. | Effect of various metals on survival growth, reproduction and metabolism of daphnia magna. | J.Fish. Res. Board Can., 29. | 1972 | 2016/03/14 | |||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 0.7989 | mg/L | 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. | 1982 | 2016/03/14 | |||||||
| 甲殻類 | Ceriodaphnia dubia | LC50 | 48 | hours | 0.095 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Schubauer-Beriga, M.K., Dierkes, J.R., Monson, P.D., and Ankley, G.T. | pH-Depent toxicity of Cd, Cu, Ni, Pb, and Zn to Ceriodaphnia dubia, Pimephales promelas, Hyalella azteca and Lumbriculus bariegatus. | Environ.Toxicol. Chem., 12. | 1993 | 2016/03/15 | |||||||
| 甲殻類 | Ceriodaphnia dubia | LC50 | 48 | hours | 0.032 | mg/L | 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 efflunet toxicity, zinc toxicity, and biological survey relationships. | National Technical Information Service, Springfield, VA. EPA-600/3-85-005. | 1985 | 2016/03/14 | |||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 0.098 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Gale, N.L., Wixson, B.G. and Erten, M. | An evaluation of the toxicity of lead, zinc, and cadmium in missouri ozark groundwater. | Trace Subst. Environ. Health, 25. | 1992 | 2016/03/14 | |||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 0.121 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Brata, C., Baird D. J. and Markich S.J. | Influence of genetic and environmental factors on the tolerance of Daphnia magana straus to essential and non-essential metals. | Aqauat. Toxicol., 42. | 1998 | 2016/03/15 | |||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 1.1 | mg/L | 12 ECHA Information on Registered Substances | Wiench K, Wohlleben W, Hisgen V, Radke K, Salinas E, Zok S, Landsiedel R | Acute and chronic effects of nano- and non-nanocscale TiO2 and ZnO particles on mobility and reproduction of the freshwater invertebrate Daphnia magna | Chemosphere, 76(10) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mobility | EC10 | 48 | hours | 9.3 | mg/L | 12 ECHA Information on Registered Substances | Wiench K, Wohlleben W, Hisgen V, Radke K, Salinas E, Zok S, Landsiedel R | Acute and chronic effects of nano- and non-nanocscale TiO2 and ZnO particles on mobility and reproduction of the freshwater invertebrate Daphnia magna | Chemosphere, 76(10) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 1 | mg/L | 12 ECHA Information on Registered Substances | Wiench K, Wohlleben W, Hisgen V, Radke K, Salinas E, Zok S, Landsiedel R | Acute and chronic effects of nano- and non-nanocscale TiO2 and ZnO particles on mobility and reproduction of the freshwater invertebrate Daphnia magna | Chemosphere, 76(10) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 1 | mg/L | 12 ECHA Information on Registered Substances | Wiench K, Wohlleben W, Hisgen V, Radke K, Salinas E, Zok S, Landsiedel R | Acute and chronic effects of nano- and non-nanocscale TiO2 and ZnO particles on mobility and reproduction of the freshwater invertebrate Daphnia magna | Chemosphere, 76(10) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 13.4 | mg/L | 12 ECHA Information on Registered Substances | Wiench K, Wohlleben W, Hisgen V, Radke K, Salinas E, Zok S, Landsiedel R | Acute and chronic effects of nano- and non-nanocscale TiO2 and ZnO particles on mobility and reproduction of the freshwater invertebrate Daphnia magna | Chemosphere, 76(10) | 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 | 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 | EC50 | 48 | hours | >1.7~<9 | mg/L | nominal dissolved | 12 ECHA Information on Registered Substances | Blinova I, Ivaska A, Heinlaan M, Mortimer M, Kahru A | Ecotoxicity of nanoparticles of CuO and ZnO in natural water | Environmental Pollution 158 | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mortality | NOEC | 48 | hours | 0.4 | mg/L | 12 ECHA Information on Registered Substances | Heinlaan, M. et al. | Toxicity of nanosized and bulk ZnO, CuO and TiO2 to bacteria Vibrio fischeri and crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere 71 | 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 | Daphnia magna | mobility | EC50 | 48 | hours | 0.622 | mg/L | 12 ECHA Information on Registered Substances | Zhu X., Zhu, L., Chen, Y., Ian, S. | Acute toxicity of six manufactured nanomaterial suspensions to Daphnia magna | J. nanopart Res 11 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 2.5 | mg/L | 12 ECHA Information on Registered Substances | Santo N., Fascio U., Torres F., Guazzoni N., Tremolada P., Bettinetti R., Mantecca P., Bacchetta R. | Toxic effects and ultrastructural damages to Daphnia magna of two differently sized ZnO nanoparticles: Does size matter? | water research 53 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 1.511 | mg/L | 12 ECHA Information on Registered Substances | Zhu X., Zhu, L., Chen, Y., Ian, S. | Acute toxicity of six manufactured nanomaterial suspensions to Daphnia magna | J. nanopart Res 11 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | NOEC | 48 | hours | 0.45 | mg/L | 12 ECHA Information on Registered Substances | Heinlaan, M. et al. | Toxicity of nanosized and bulk ZnO, CuO and TiO2 to bacteria Vibrio fischeri and crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere 71 | 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 | 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 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 | 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 | 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 | 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 | 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 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 | 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 | 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 | 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 | 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 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 | Daphnia magna | behaviour | EC50 | 4 | hours | 1.92 | mg/L | 12 ECHA Information on Registered Substances | LOPES S, RIBEIRO F, WOJNAROWICZ J, ŁOJKOWSKI W, JURKSCHAT K, CROSSLEY A, SOARES AMVM, LOUREIROS | Zinc Oxide Nanoparticles Toxicity to Daphnia magna: Size-Dependent Effects and Dissolution | Environmental Toxicology and Chemistry, Vol. 33, No. 1 | 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 | 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 | 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 | Daphnia magna | mobility | EC10 | 48 | hours | 0.2 | mg/L | 12 ECHA Information on Registered Substances | Wiench K, Wohlleben W, Hisgen V, Radke K, Salinas E, Zok S, Landsiedel R | Acute and chronic effects of nano- and non-nanocscale TiO2 and ZnO particles on mobility and reproduction of the freshwater invertebrate Daphnia magna | Chemosphere, 76(10) | 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 magna | mobility | EC50 | 48 | hours | 0.481 | mg/L | 12 ECHA Information on Registered Substances | Zhu X., Zhu, L., Chen, Y., Ian, S. | Acute toxicity of six manufactured nanomaterial suspensions to Daphnia magna | J. nanopart Res 11 | 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 metakls on acute and chronic toxicity of ceriodaphnia dubia (cladocera) | Journal of crustacean biology 10(2) | 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 | 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 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 | 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 | 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 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 | mortality | LC50 | 48 | hours | 1220 | μg/L | ○ | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 1.02 | mg/L | 12 ECHA Information on Registered Substances | LOPES S, RIBEIRO F, WOJNAROWICZ J, ŁOJKOWSKI W, JURKSCHAT K, CROSSLEY A, SOARES AMVM, LOUREIROS | Zinc Oxide Nanoparticles Toxicity to Daphnia magna: Size-Dependent Effects and Dissolution | Environmental Toxicology and Chemistry, Vol. 33, No. 1 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 1.4 | mg/L | 12 ECHA Information on Registered Substances | Heinlaan, M. et al. | Toxicity of nanosized and bulk ZnO, CuO and TiO2 to bacteria Vibrio fischeri and crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere 71 | 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 | 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 | Daphnia magna | mobility | EC50 | 48 | hours | >5~<16.2 | mg/L | 12 ECHA Information on Registered Substances | Blinova I, Ivaska A, Heinlaan M, Mortimer M, 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 metakls on acute and chronic toxicity of ceriodaphnia dubia (cladocera) | Journal of crustacean biology 10(2) | 2021/03/02 | ||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | >100 | mg/L | 12 ECHA Information on Registered Substances | Wiench K, Wohlleben W, Hisgen V, Radke K, Salinas E, Zok S, Landsiedel R | Acute and chronic effects of nano- and non-nanocscale TiO2 and ZnO particles on mobility and reproduction of the freshwater invertebrate Daphnia magna | Chemosphere, 76(10) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 1.9 | mg/L | 12 ECHA Information on Registered Substances | Santo N., Fascio U., Torres F., Guazzoni N., Tremolada P., Bettinetti R., Mantecca P., Bacchetta R. | Toxic effects and ultrastructural damages to Daphnia magna of two differently sized ZnO nanoparticles: Does size matter? | water research 53 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mobility | EC10 | 48 | hours | 5.2 | mg/L | 12 ECHA Information on Registered Substances | Wiench K, Wohlleben W, Hisgen V, Radke K, Salinas E, Zok S, Landsiedel R | Acute and chronic effects of nano- and non-nanocscale TiO2 and ZnO particles on mobility and reproduction of the freshwater invertebrate Daphnia magna | Chemosphere, 76(10) | 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 | mortality | NOEC | 48 | hours | 1.2 | mg/L | 12 ECHA Information on Registered Substances | Heinlaan, M. et al. | Toxicity of nanosized and bulk ZnO, CuO and TiO2 to bacteria Vibrio fischeri and crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere 71 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | EC10 | 48 | hours | 0.6 | mg/L | 12 ECHA Information on Registered Substances | Wiench K, Wohlleben W, Hisgen V, Radke K, Salinas E, Zok S, Landsiedel R | Acute and chronic effects of nano- and non-nanocscale TiO2 and ZnO particles on mobility and reproduction of the freshwater invertebrate Daphnia magna | Chemosphere, 76(10) | 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 | 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 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 | 1.55 | mg/L | 12 ECHA Information on Registered Substances | study report | 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 | mortality | LC50 | 48 | hours | 2.6 | mg/L | 12 ECHA Information on Registered Substances | Heinlaan, M. et al. | Toxicity of nanosized and bulk ZnO, CuO and TiO2 to bacteria Vibrio fischeri and crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere 71 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 3.3 | mg/L | 12 ECHA Information on Registered Substances | study report | 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 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 | mortality | LC50 | 48 | hours | 1.25 | mg/L | 12 ECHA Information on Registered Substances | Zhu X., Zhu, L., Chen, Y., Ian, S. | Acute toxicity of six manufactured nanomaterial suspensions to Daphnia magna | J. nanopart Res 11 | 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 magna | mobility | LC50 | 48 | hours | 330 | 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 | 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 | 530 | 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 metakls on acute and chronic toxicity of ceriodaphnia dubia (cladocera) | Journal of crustacean biology 10(2) | 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 | Daphnia magna | mobility | EC50 | 48 | hours | >1.4~<2.5 | mg/L | 12 ECHA Information on Registered Substances | Blinova I, Ivaska A, Heinlaan M, Mortimer M, 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 | 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 | 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 magna | mobility | EC10 | 48 | hours | 2.7 | mg/L | 12 ECHA Information on Registered Substances | Wiench K, Wohlleben W, Hisgen V, Radke K, Salinas E, Zok S, Landsiedel R | Acute and chronic effects of nano- and non-nanocscale TiO2 and ZnO particles on mobility and reproduction of the freshwater invertebrate Daphnia magna | Chemosphere, 76(10) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mobility | EC10 | 48 | hours | 0.7 | mg/L | 12 ECHA Information on Registered Substances | Wiench K, Wohlleben W, Hisgen V, Radke K, Salinas E, Zok S, Landsiedel R | Acute and chronic effects of nano- and non-nanocscale TiO2 and ZnO particles on mobility and reproduction of the freshwater invertebrate Daphnia magna | Chemosphere, 76(10) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 0.76 | mg/L | 12 ECHA Information on Registered Substances | LOPES S, RIBEIRO F, WOJNAROWICZ J, ŁOJKOWSKI W, JURKSCHAT K, CROSSLEY A, SOARES AMVM, LOUREIROS | Zinc Oxide Nanoparticles Toxicity to Daphnia magna: Size-Dependent Effects and Dissolution | Environmental Toxicology and Chemistry, Vol. 33, No. 1 | 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 | behaviour | EC50 | 4 | hours | 1.27 | mg/L | 12 ECHA Information on Registered Substances | LOPES S, RIBEIRO F, WOJNAROWICZ J, ŁOJKOWSKI W, JURKSCHAT K, CROSSLEY A, SOARES AMVM, LOUREIROS | Zinc Oxide Nanoparticles Toxicity to Daphnia magna: Size-Dependent Effects and Dissolution | Environmental Toxicology and Chemistry, Vol. 33, No. 1 | 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 | 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 | 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 | 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 magna | mortality | LC50 | 48 | hours | 7.1 | mg/L | 12 ECHA Information on Registered Substances | Heinlaan, M. et al. | Toxicity of nanosized and bulk ZnO, CuO and TiO2 to bacteria Vibrio fischeri and crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere 71 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 48 | hours | 7.5 | mg/L | 12 ECHA Information on Registered Substances | Wiench K, Wohlleben W, Hisgen V, Radke K, Salinas E, Zok S, Landsiedel R | Acute and chronic effects of nano- and non-nanocscale TiO2 and ZnO particles on mobility and reproduction of the freshwater invertebrate Daphnia magna | Chemosphere, 76(10) | 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 | 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 magna | Intoxication/Immobile | LC50 | 48 | hours | 7.1 | mg/L | × | 16 ECOTOX | Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru | Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere71(7) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Intoxication/Immobile | EC50 | 48 | hours | 1 | mg/L | × | 16 ECOTOX | Wiench,K., W. Wohlleben, V. Hisgen, K. Radke, E. Salinas, S. Zok, and R. Landsiedel | Acute and Chronic Effects of Nano- and Non-Nano-Scale TiO(2) and ZnO Particles on Mobility and Reproduction of the Freshwater Invertebrate Daphnia magna | Chemosphere76(10) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | EC50 | 48 | hours | 3.4 | mg/L | × | 16 ECOTOX | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Intoxication/Immobile | EC50 | 48 | hours | 0.622 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Y. Chen, and S. Tian | Acute Toxicities of Six Manufactured Nanomaterial Suspensions to Daphnia magna | J. Nanopart. Res.11 | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | LC50 | 48 | hours | 98 | 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 | Daphnia magna | Mortality/Mortality | LC50 | 24 | hours | 2.58 | mg/L | × | 16 ECOTOX | Naddafi,K., M.R. Zare, and S. Nazmara | Investigating Potential Toxicity of Phenanthrene Adsorbed to Nano-ZnO Using Daphnia magna | Toxicol. Environ. Chem.93(4) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | LC50 | 48 | hours | 2.14 | mg/L | × | 16 ECOTOX | Naddafi,K., M.R. Zare, and S. Nazmara | Investigating Potential Toxicity of Phenanthrene Adsorbed to Nano-ZnO Using Daphnia magna | Toxicol. Environ. Chem.93(4) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Immobilization | EC50i | 48 | hours | 1.76 | mg Zn/L | meas.,dissolved | ○ | ○ | 7 EU Risk Assessment Report (EUリスク評価書) | Van Ginneken, I. | The Acute Toxicity of Zinc Oxide in the Waterflea Daphnia magna. | Report No. ADK6/0034 (year of test: 1994). Janssen Pharmaceutica N.V., Beerse, Belgium (Sponsor: International Lead and Zinc Research Association Inc. (ILZRO), North Carolina, U.S.A.) | 2021/03/24 | ||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | EC50 | 48 | hours | 12 | mg/L | × | 16 ECOTOX | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Intoxication/Immobile | LC20 | 48 | hours | 2 | mg/L | × | 16 ECOTOX | Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru | Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere71(7) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | EC50 | 48 | hours | 3.3 | mg/L | × | 16 ECOTOX | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Intoxication/Immobile | LC20 | 48 | hours | 4.4 | mg/L | × | 16 ECOTOX | Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru | Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere71(7) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Immobilization | NOECi | 48 | hours | 0.28 | mg Zn/L | meas., dissolved | ○ | ○ | 7 EU Risk Assessment Report (EUリスク評価書) | Van Ginneken, I. | The Acute Toxicity of Zinc Oxide in the Waterflea Daphnia magna. | Report No. ADK6/0034 (year of test: 1994). Janssen Pharmaceutica N.V., Beerse, Belgium (Sponsor: International Lead and Zinc Research Association Inc. (ILZRO), North Carolina, U.S.A.) | 2021/03/24 | ||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | EC50 | 48 | hours | 2.8 | mg/L | × | 16 ECOTOX | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | NOEC | 48 | hours | 0.86 | mg/L | × | 16 ECOTOX | Naddafi,K., M.R. Zare, and S. Nazmara | Investigating Potential Toxicity of Phenanthrene Adsorbed to Nano-ZnO Using Daphnia magna | Toxicol. Environ. Chem.93(4) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | LC50 | 48 | hours | 1.25 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Y. Chen, and S. Tian | Acute Toxicities of Six Manufactured Nanomaterial Suspensions to Daphnia magna | J. Nanopart. Res.11 | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Intoxication/Immobile | LC50 | 48 | hours | 2.6 | mg/L | × | 16 ECOTOX | Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru | Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere71(7) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | EC50 | 48 | hours | 9.5 | mg/L | × | 16 ECOTOX | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | EC50 | 48 | hours | 3.5 | mg/L | × | 16 ECOTOX | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | EC50 | 48 | hours | 16.2 | mg/L | × | 16 ECOTOX | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | EC50 | 48 | hours | 6.9 | mg/L | × | 16 ECOTOX | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Intoxication/Immobile | EC10 | 48 | hours | 0.6 | mg/L | × | 16 ECOTOX | Wiench,K., W. Wohlleben, V. Hisgen, K. Radke, E. Salinas, S. Zok, and R. Landsiedel | Acute and Chronic Effects of Nano- and Non-Nano-Scale TiO(2) and ZnO Particles on Mobility and Reproduction of the Freshwater Invertebrate Daphnia magna | Chemosphere76(10) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | LC50 | 48 | hours | 1.511 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Y. Chen, and S. Tian | Acute Toxicities of Six Manufactured Nanomaterial Suspensions to Daphnia magna | J. Nanopart. Res.11 | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | EC50 | 48 | hours | 5 | mg/L | × | 16 ECOTOX | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | EC50 | 48 | hours | 1.7 | mg/L | × | 16 ECOTOX | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | EC50 | 48 | hours | 9 | mg/L | × | 16 ECOTOX | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | EC50 | 48 | hours | 10.8 | mg/L | × | 16 ECOTOX | Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru | Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water | Environ. Pollut.158(1) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | NOEC | 24 | hours | 1.1 | mg/L | × | 16 ECOTOX | Naddafi,K., M.R. Zare, and S. Nazmara | Investigating Potential Toxicity of Phenanthrene Adsorbed to Nano-ZnO Using Daphnia magna | Toxicol. Environ. Chem.93(4) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Intoxication/Immobile | NOEC | 48 | hours | 0.4 | mg/L | × | 16 ECOTOX | Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru | Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere71(7) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Intoxication/Immobile | NOEC | 48 | hours | 1.2 | mg/L | × | 16 ECOTOX | Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru | Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus | Chemosphere71(7) | 2020/11/12 | ||||||
| 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 | Mortality/Mortality | NR-ZERO | 48 | hours | 0.5 | mg/L | × | 16 ECOTOX | Naddafi,K., M.R. Zare, and S. Nazmara | Investigating Potential Toxicity of Phenanthrene Adsorbed to Nano-ZnO Using Daphnia magna | Toxicol. Environ. Chem.93(4) | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Intoxication/Immobile | EC50 | 48 | hours | 0.481 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Y. Chen, and S. Tian | Acute Toxicities of Six Manufactured Nanomaterial Suspensions to Daphnia magna | J. Nanopart. Res.11 | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | LC50 | 48 | hours | 24600 | 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 | 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 | Ceriodaphnia dubia | LC50 | 7 | days | 0.145 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Carlson, A.R., Nelson, H. and Hammermeister, D. | Evaluation of site-specific criteria for copper and zinc: an intgration of metal addition toxicity, effluent and receiving water toxicity, and ecological survey data. | EPA-600/3-86-026, U.S.EPA, Duluth, MN:68p (U.S.NTIS PB86-183928) (publ in part as 12161). | 1986 | 2016/03/14 | |||||||
| 甲殻類 | Daphnia magna | 繫殖 | EC50 | 21 | days | 0.102 | mg/L | 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. | 1972 | 2016/03/15 | ||||||
| 甲殻類 | Daphnia magna | 繫殖 | LC50 | 21 | days | 0.158 | mg/L | 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. | 1972 | 2016/03/15 | ||||||
| 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 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 | 54 | 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 | mortality | days of survival | 54 | days | 0.1 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 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 | LOEC | 21 | days | 0.125 | mg/L | 12 ECHA Information on Registered Substances | LOPES S, RIBEIRO F, WOJNAROWICZ J, ŁOJKOWSKI W, JURKSCHAT K, CROSSLEY A, SOARES AMVM, LOUREIROS | Zinc Oxide Nanoparticles Toxicity to Daphnia magna: Size-Dependent Effects and Dissolution | Environmental Toxicology and Chemistry, Vol. 33, No. 1 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | no. neonates per female | 64 | days | 0.1 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | no. of neonates per female | 32 | days | 0.3 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | no. of neonates per female | 35 | days | 0.3 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | no. of neonates per female | 43 | days | 0.1 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 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 | no. neonates per female | 65 | days | 0.3 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 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 | 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 | Daphnia magna | reproduction | no. of neonates per female | 33 | days | 0.1 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 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 | no. of neonates per female | 21 | days | 0.1 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | days of survival | 53 | days | 0.3 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 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 | no. of neonates per female | 21 | days | 0.1 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 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 | ||||||||
| 甲殻類 | Daphnia magna | reproduction | no. of neonates per female | 21 | days | 0.3 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 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 | reproduction | LOEC | 21 | days | 0.126 | mg/L | 12 ECHA Information on Registered Substances | Adam, N., Schmitt, C., Galceran, J., Companys, E., Vakurov, AL, Wallace, R., Knapen, D., Blust, R. | The chronic toxicity of ZnO nanoparticles and ZnCl2 to Daphnia magna and the use of different methods to assess nanoparticle agregation and dissolution | Nanotoxicology, November 2014; 8(7) | 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 | 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 | 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 | Daphnia magna | reproduction | LOEC | 21 | days | 0.15 | mg/L | 12 ECHA Information on Registered Substances | LOPES S, RIBEIRO F, WOJNAROWICZ J, ŁOJKOWSKI W, JURKSCHAT K, CROSSLEY A, SOARES AMVM, LOUREIROS | Zinc Oxide Nanoparticles Toxicity to Daphnia magna: Size-Dependent Effects and Dissolution | Environmental Toxicology and Chemistry, Vol. 33, No. 1 | 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 | 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 | 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 | 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 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 | 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 | 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 | 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 | 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 | Daphnia magna | reproduction | NOEC | 21 | days | 0.058 | mg/L | 12 ECHA Information on Registered Substances | Adam, N., Schmitt, C., Galceran, J., Companys, E., Vakurov, AL, Wallace, R., Knapen, D., Blust, R. | The chronic toxicity of ZnO nanoparticles and ZnCl2 to Daphnia magna and the use of different methods to assess nanoparticle agregation and dissolution | Nanotoxicology, November 2014; 8(7) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | no. neonates per female | 54 | days | 0.1 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 21 | days | 0.082 | mg/L | 12 ECHA Information on Registered Substances | Adam, N., Schmitt, C., Galceran, J., Companys, E., Vakurov, AL, Wallace, R., Knapen, D., Blust, R. | The chronic toxicity of ZnO nanoparticles and ZnCl2 to Daphnia magna and the use of different methods to assess nanoparticle agregation and dissolution | Nanotoxicology, November 2014; 8(7) | 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 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 | 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 | 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 | 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 | Daphnia magna | reproduction | LOEC | 21 | days | 0.131 | mg/L | 12 ECHA Information on Registered Substances | Adam, N., Schmitt, C., Galceran, J., Companys, E., Vakurov, AL, Wallace, R., Knapen, D., Blust, R. | The chronic toxicity of ZnO nanoparticles and ZnCl2 to Daphnia magna and the use of different methods to assess nanoparticle agregation and dissolution | Nanotoxicology, November 2014; 8(7) | 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 | 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 | NOEC | 21 | days | 0.04 | mg/L | 12 ECHA Information on Registered Substances | Adam, N., Schmitt, C., Galceran, J., Companys, E., Vakurov, AL, Wallace, R., Knapen, D., Blust, R. | The chronic toxicity of ZnO nanoparticles and ZnCl2 to Daphnia magna and the use of different methods to assess nanoparticle agregation and dissolution | Nanotoxicology, November 2014; 8(7) | 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 | no. of neonates per female | 21 | days | 0.3 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 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 and survival | NOEC | 3 | weeks | 156 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | mortality | days of survival | 56 | days | 0.3 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 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 | 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 | EC50 | 21 | days | 0.112 | mg/L | 12 ECHA Information on Registered Substances | Adam, N., Schmitt, C., Galceran, J., Companys, E., Vakurov, AL, Wallace, R., Knapen, D., Blust, R. | The chronic toxicity of ZnO nanoparticles and ZnCl2 to Daphnia magna and the use of different methods to assess nanoparticle agregation and dissolution | Nanotoxicology, November 2014; 8(7) | 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 | mortality | days of survival | 64 | days | 0.1 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 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 | 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 | D. magna length after 10 days | D. magna length | 10 | days | 0.096 | mg/L | 12 ECHA Information on Registered Substances | Adam N, Leroux F, Knapen D, Bals S, Blust R. | The uptake and elimination of ZnO and CuO nanoparticles in Daphnia magna under chronic exposure scenarios. | Water Res. 2015 Jan 1;68 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | no. neonates per female | 53 | days | 0.3 | mg/L | 12 ECHA Information on Registered Substances | Bacchetta R, Santo N, Marelli M, Nosengo G, Tremolada P | Chronic toxicity effects of ZnSO4 and ZnO nanoparticles in Daphnia magna | Environmental Research 152 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | D. magna length after 10 days | D. magna length | 10 | days | 0.137 | mg/L | 12 ECHA Information on Registered Substances | Adam N, Leroux F, Knapen D, Bals S, Blust R. | The uptake and elimination of ZnO and CuO nanoparticles in Daphnia magna under chronic exposure scenarios. | Water Res. 2015 Jan 1;68 | 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 | 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 | 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 | 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 | 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 | 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 and survival | NOEC | 3 | weeks | 143 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 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 | 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 | 21 | days | 97 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | reproduction | EC10 | 21 | days | 0.014 | mg/L | 12 ECHA Information on Registered Substances | Adam, N., Schmitt, C., Galceran, J., Companys, E., Vakurov, AL, Wallace, R., Knapen, D., Blust, R. | The chronic toxicity of ZnO nanoparticles and ZnCl2 to Daphnia magna and the use of different methods to assess nanoparticle agregation and dissolution | Nanotoxicology, November 2014; 8(7) | 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 | 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 | 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 | reproduction | EC10 | 21 | days | 0.03 | mg/L | 12 ECHA Information on Registered Substances | Adam, N., Schmitt, C., Galceran, J., Companys, E., Vakurov, AL, Wallace, R., Knapen, D., Blust, R. | The chronic toxicity of ZnO nanoparticles and ZnCl2 to Daphnia magna and the use of different methods to assess nanoparticle agregation and dissolution | Nanotoxicology, November 2014; 8(7) | 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 | 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 | Corophium volutator | Growth/Length | NOEC | 100 | days | 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 | Mortality/Survival | NOEC | 63 | days | 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 | LOEC | 23 | days | 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/Length | LOEC | 63 | days | 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 | × | 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/Length | NOEC | 100 | days | 0.5 | 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 | 23 | days | 0.5 | 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/Length | LOEC | 23 | days | 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 | LOEC | 100 | days | 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/Length | LOEC | 100 | days | 0.5 | 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 | × | 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/Length | NOEC | 63 | days | 0.5 | 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 | LOEC | 23 | days | 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 | × | 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 | × | 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/Length | NOEC | 23 | days | 0.5 | 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 | Mortality/Survival | NOEC | 63 | days | 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 | Mortality/Survival | NOEC | 23 | days | 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 | 23 | days | 0.5 | 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 | × | 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 | 0.5 | 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 | Mortality/Survival | NOEC | 23 | days | 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 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Growth/Length | NOEC | 14 | days | 22.58 | mg/L | ○ | 16 ECOTOX | Du,J., S. Wang, H. You, and Z. Liu | Effects of ZnO Nanoparticles on Perfluorooctane Sulfonate Induced Thyroid-Disrupting on Zebrafish Larvae | J. Environ. Sci.47 | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Survival | NOEL | 96 | hours post fertilization | 0.5 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang | Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Hatch | LOEL | 84 | hours post fertilization | 1 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang | Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Hatch | NOEL | 84 | hours post fertilization | 0.5 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang | Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Development/Deformation | LOEC | 14 | days | 22.58 | mg/L | ○ | 16 ECOTOX | Du,J., S. Wang, H. You, and Z. Liu | Effects of ZnO Nanoparticles on Perfluorooctane Sulfonate Induced Thyroid-Disrupting on Zebrafish Larvae | J. Environ. Sci.47 | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Mortality | LC50 | 96 | hours post fertilization | 60 | mg/L | × | 16 ECOTOX | Du,J., J. Cai, S. Wang, and H. You | Oxidative Stress and Apotosis to Zebrafish (Danio rerio) Embryos Exposed to Perfluorooctane Sulfonate (PFOS) and ZnO Nanoparticles | Int. J. Occup. Med. Environ. Health30(2) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Survival | NOEC | 72 | hours | 10 | μg/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 | Oncorhynchus mykiss (Rainbow trout) | Growth/Specific growth rate | NOEC | 2 | weeks | 771.9 | μg/g diet | ○ | 16 ECOTOX | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Mortality | NR-LETH | 96 | hours post fertilization | 50 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang | Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Hatch | EC50 | 84 | hours post fertilization | 2.065 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang | Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Hatch | LOEC | 72 | hours | 10 | μg/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/Survival | LOEL | 96 | hours post fertilization | 1 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang | Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Hatch | NOEL | 84 | hours post fertilization | 0.5 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang | Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Growth/Weight | NOEC | 14 | days | 22.58 | mg/L | ○ | 16 ECOTOX | Du,J., S. Wang, H. You, and Z. Liu | Effects of ZnO Nanoparticles on Perfluorooctane Sulfonate Induced Thyroid-Disrupting on Zebrafish Larvae | J. Environ. Sci.47 | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Mortality | LC50 | 96 | hours post fertilization | 1.793 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang | Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Survival | LOEL | 96 | hours post fertilization | 1 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang | Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Survival | LOEC | 14 | days | 22.58 | mg/L | ○ | 16 ECOTOX | Du,J., S. Wang, H. You, and Z. Liu | Effects of ZnO Nanoparticles on Perfluorooctane Sulfonate Induced Thyroid-Disrupting on Zebrafish Larvae | J. Environ. Sci.47 | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Survival | NOEL | 96 | hours post fertilization | 0.5 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang | Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Hatch | LOEL | 84 | hours post fertilization | 1 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang | Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Hatch | EC50 | 84 | hours post fertilization | 2.066 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang | Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Mortality | NR-LETH | 96 | hours post fertilization | 50 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang | Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Mortality | LC50 | 96 | hours post fertilization | 1.55 | mg/L | × | 16 ECOTOX | Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang | Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage | J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Cellular Effects | 2 | days | 125000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLeish,J.A., T.J.A. Chico, H.B. Taylor, C. Tucker, K. Donaldson, and S.B. Brown | Skin Exposure to Micro- and Nano-Particles can Cause Haemostasis in Zebrafish Larvae | Thromb. Haemostasis103(4): 797-807 | 2010 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 1100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Pesticide Ecotoxicity Database (Formerly: Environmental Effects Database (EEDB)) | Environmental Fate and Effects Division, U.S.EPA, Washington, D.C.: | 1992 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 7 | days | 5000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnston,B.D., T.M. Scown, J. Moger, S.A. Cumberland, M. Baalousha, K. Linge, R. Van Aerle, K. Jarvis, J.R. Lead, and C. | Bioavailability of Nanoscale Metal Oxides TiO2, CeO2, and ZnO to Fish | Environ. Sci. Technol.44(3): 1144-1151 | 2010 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 12 | days | 771.9 | ppm | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 3 | days | 771.9 | ppm | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | 2.17 | days | 228~262 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Loeb,H.A., and W.H. Kelly | Acute Oral Toxicity of 1,496 Chemicals Force-Fed to Carp | U.S.Fish.Wildl.Serv., Sp.Sci.Rep.-Fish.No.471, Washington, D.C.:124 p. | 1963 | 2016/03/25 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Cellular Effects | 2 | days | 50000 | 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) | Accumulation | 1 | days | >0~<10000 | 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) | Accumulation | 2000~50000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yu,L.P., T. Fang, D.W. Xiong, W.T. Zhu, and X.F. Sima | Comparative Toxicity of Nano-ZnO and Bulk ZnO Suspensions to Zebrafish and the Effects of Sedimentation, OH Production and Particle Dissolution in Distilled Water | J. Environ. Monit.13(7): 1975-1982 | 2011 | 2016/03/25 | ||||||||||
| 魚類 | Danio rerio (Zebrafish) | Physiology | 2 | days | 125000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLeish,J.A., T.J.A. Chico, H.B. Taylor, C. Tucker, K. Donaldson, and S.B. Brown | Skin Exposure to Micro- and Nano-Particles can Cause Haemostasis in Zebrafish Larvae | Thromb. Haemostasis103(4): 797-807 | 2010 | 2016/03/25 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 2525 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yu,L.P., T. Fang, D.W. Xiong, W.T. Zhu, and X.F. Sima | Comparative Toxicity of Nano-ZnO and Bulk ZnO Suspensions to Zebrafish and the Effects of Sedimentation, OH Production and Particle Dissolution in Distilled Water | J. Environ. Monit.13(7): 1975-1982 | 2011 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 7 | days | 5000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnston,B.D., T.M. Scown, J. Moger, S.A. Cumberland, M. Baalousha, K. Linge, R. Van Aerle, K. Jarvis, J.R. Lead, and C. | Bioavailability of Nanoscale Metal Oxides TiO2, CeO2, and ZnO to Fish | Environ. Sci. Technol.44(3): 1144-1151 | 2010 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | LOEC | 3 | days | 771.9 | ppm | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | NOEC | 7 | days | 5000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnston,B.D., T.M. Scown, J. Moger, S.A. Cumberland, M. Baalousha, K. Linge, R. Van Aerle, K. Jarvis, J.R. Lead, and C. | Bioavailability of Nanoscale Metal Oxides TiO2, CeO2, and ZnO to Fish | Environ. Sci. Technol.44(3): 1144-1151 | 2010 | 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 | Danio rerio (Zebrafish) | Physiology | 2 | days | 125000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | McLeish,J.A., T.J.A. Chico, H.B. Taylor, C. Tucker, K. Donaldson, and S.B. Brown | Skin Exposure to Micro- and Nano-Particles can Cause Haemostasis in Zebrafish Larvae | Thromb. Haemostasis103(4): 797-807 | 2010 | 2016/03/25 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LC50 | 4 | days | 3969 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yu,L.P., T. Fang, D.W. Xiong, W.T. Zhu, and X.F. Sima | Comparative Toxicity of Nano-ZnO and Bulk ZnO Suspensions to Zebrafish and the Effects of Sedimentation, OH Production and Particle Dissolution in Distilled Water | J. Environ. Monit.13(7): 1975-1982 | 2011 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Accumulation | 2000~50000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yu,L.P., T. Fang, D.W. Xiong, W.T. Zhu, and X.F. Sima | Comparative Toxicity of Nano-ZnO and Bulk ZnO Suspensions to Zebrafish and the Effects of Sedimentation, OH Production and Particle Dissolution in Distilled Water | J. Environ. Monit.13(7): 1975-1982 | 2011 | 2016/03/25 | ||||||||||
| 魚類 | Danio rerio (Zebrafish) | Growth | 2 | days | 50000 | 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) | Accumulation | NOEC | 7 | days | 5000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Johnston,B.D., T.M. Scown, J. Moger, S.A. Cumberland, M. Baalousha, K. Linge, R. Van Aerle, K. Jarvis, J.R. Lead, and C. | Bioavailability of Nanoscale Metal Oxides TiO2, CeO2, and ZnO to Fish | Environ. Sci. Technol.44(3): 1144-1151 | 2010 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | LOEC | 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 | Lepomis macrochirus (Bluegill) | Mortality | LC50 | 4 | days | >320000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Pesticide Ecotoxicity Database (Formerly: Environmental Effects Database (EEDB)) | Environmental Fate and Effects Division, U.S.EPA, Washington, D.C.: | 1992 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | LC50 | 4 | days | 2246000 | 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 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | 42 | days | 50~2220 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Takeda,H., and Y. Shimma | Effects of Toxic Amounts of Dietary Zinc on the Growth and Body Components of Rainbow Trout at Two Levels of Calcium | Bull. Freshw. Fish. Res. Lab. (Tokyo)27(2): 103-110 | 1977 | 2016/03/25 | ||||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 1 | days | 50000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yu,L.P., T. Fang, D.W. Xiong, W.T. Zhu, and X.F. Sima | Comparative Toxicity of Nano-ZnO and Bulk ZnO Suspensions to Zebrafish and the Effects of Sedimentation, OH Production and Particle Dissolution in Distilled Water | J. Environ. Monit.13(7): 1975-1982 | 2011 | 2016/03/25 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | 771.9 | ppm | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2016/03/25 | |||||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 5 | days | >10000~<15000 | 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 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 6 | days | 771.9 | ppm | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | NOEC | 14 | days | 771.9 | ppm | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Growth | 42 | days | 50~2000 | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Takeda,H., and Y. Shimma | Effects of Toxic Amounts of Dietary Zinc on the Growth and Body Components of Rainbow Trout at Two Levels of Calcium | Bull. Freshw. Fish. Res. Lab. (Tokyo)27(2): 103-110 | 1977 | 2016/03/25 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Accumulation | NOEC | 6 | days | 771.9 | ppm | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kjoss,V.A., C.M. Wood, and D.G. McDonald | Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss) | Can. J. Fish. Aquat. Sci.63(2): 412-422 | 2006 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | NOEL | 4 | days | 250 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | U.S. Environmental Protection Agency | Pesticide Ecotoxicity Database (Formerly: Environmental Effects Database (EEDB)) | Environmental Fate and Effects Division, U.S.EPA, Washington, D.C.: | 1992 | 2016/03/25 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 1 | days | 50000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yu,L.P., T. Fang, D.W. Xiong, W.T. Zhu, and X.F. Sima | Comparative Toxicity of Nano-ZnO and Bulk ZnO Suspensions to Zebrafish and the Effects of Sedimentation, OH Production and Particle Dissolution in Distilled Water | J. Environ. Monit.13(7): 1975-1982 | 2011 | 2016/03/25 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality | 4 | days | 30000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Yu,L.P., T. Fang, D.W. Xiong, W.T. Zhu, and X.F. Sima | Comparative Toxicity of Nano-ZnO and Bulk ZnO Suspensions to Zebrafish and the Effects of Sedimentation, OH Production and Particle Dissolution in Distilled Water | J. Environ. Monit.13(7): 1975-1982 | 2011 | 2016/03/25 | |||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | >320 | mg/L | 3 USEPA Pesticide Ecotoxicity Database | C. Laird | 1986 | 2016/02/02 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 96 | hours | 1.1 | mg/L | 3 USEPA Pesticide Ecotoxicity Database | C. Laird | 1986 | 2016/02/02 | |||||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | 2.86~3.78 | 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), 299:12. | 1957 | 2016/03/15 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 96 | hours | 0.093 | mg/L | 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. | 1978 | 2016/03/15 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | LC50 | 96 | hours | 0.6 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Benoit, D.A. and Holcombe, G.W. | Toxic effects of zinc on fathead minnows (Pimephales promelas) in soft water. | J. Fish Biol., 13. | 1978 | 2016/03/15 | |||||||
| 魚類 | Cyprinus carpio (Carp) | LC50 | 96 | hours | 0.37 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Holcombe, G.W. and Andrew, R.W. | The acute toxicity of zinc to rainbow and brook trout:Comparisons in hard and soft water.EPA, Duluth, MN. | 1978 | 2016/03/15 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 96 | hours | 0.136 | mg/L | 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. | 1978 | 2016/03/15 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | LC50 | 96 | hours | 0.393 | mg/L | 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. | 1985 | 2016/03/15 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 96 | hours | 0.37 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Holcombe, G.W. and Andrew, R.W. | The acute toxicity of zinc to rainbow and brook trout:Comparisons in hard and soft water.EPA, Duluth, MN. | 1978 | 2016/03/15 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 168 | hours | 0.066 | mg/L | 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. | 1986 | 2016/03/15 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 96 | hours | 0.066 | mg/L | 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. | 1986 | 2016/03/15 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 8 | days | 0.55 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Hale, J.G. | Toxicity of metal mining wastes. | Bull. Environ. Contam. Toxicol., 17. | 1977 | 2016/03/15 | |||||||
| 魚類 | Cyprinus carpio (Carp) | LC50 | 96 | hours | 0.45 | mg/L | 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 concetrations of zinc, coper, nickel, lead, iron, and mercury on fish. | Biol. Trace Elem. Res., 34. | 1992 | 2016/03/15 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | LC50 | 96 | hours | 0.87 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Pickering, Q.H. and Vigor, W.N. | The acute toxicity of zinc to eggs and fry of the fathead minnow. | Prog. Fish-Cult., 27. | 1965 | 2016/03/15 | |||||||
| 魚類 | Cyprinus carpio (Carp) | LC50 | 96 | hours | 0.15 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Rao, T.S., Rao M.S. and Prasad, S.B.S. | Median Tolerance limits of some chemicals to the fresh water fish "Cyprinus carpio''. | Indian J. Environ. Health, 17. | 1975 | 2016/03/15 | |||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC0 | 96 | hours | 1.3 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Cairns, J. Jr., Bahns, T. K., Burton, D. T., Dickson, K. L., Sprks R. E. and Waller, W. T. | The effects of pH, solubility and temperature upon the acute toxicity of zinc to the bluegill sunfish (Lepomis macrochirus Raf). | Trans. Kans. Acad. Sci., 74. | 1972 | 2016/03/15 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | LC50 | 96 | hours | 3.25 | mg/L | 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 fo body size. | Toxicol. Appl. Pharmacol., 33. | 1975 | 2016/03/15 | |||||||
| 魚類 | Lepomis macrochirus (Bluegill) | LC50 | 96 | hours | 9.9 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Cairns, J. Jr., Bahns, T.K., Burton, D. T., Dickson, K.L., Sparks R. E. and Waller, W. T. | The effects of pH,, solubility and temperature upon the acute toxicity of zinc to the bluegill sunfish(Lepomis macrochirus Raf). | Trans. Kans. Acad. Sci., 74. | 1972 | 2016/03/15 | |||||||
| 魚類 | Cyprinus carpio (Carp) | LC50 | 96 | hours | 7.8 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Rehwoldt., Bida, G. and Nerrie, B. | Acute toxicity of copper, nickel and zinc ions to some Hudoson River fish species. | Bull Environ. Contam. Toxicol, 6. | 1971 | 2016/03/15 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 96 | hours | 0.815 | mg/L | 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. | 1978 | 2016/03/15 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | LC50 | 8 | days | 0.14 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Popken, G.J. | Effects of Calcium on the Toxicity of Zinc to Embryos and Larvae of the Fathead Minnow(Pimephales promelas). | M.S. Thesis, Eastern Kentucky University, Richmond, K.Y:64.(U.S.EPA, 2004から引用) | 1990 | 2016/03/15 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | LC50 | 96 | hours | 0.551 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Carlson, A.R. and Roush, T.H. | Evaluation of site-specific criteria for copper and zinc: an integration fo metal addition toxicity, effluent and receiving water toxicity, and ecological survey data. | EPA-600/3-86-026, U.S.EPA, Duluth, MN:68p (U.S.NTIS PB86-183928) (publ in part as 12161). | 1986 | 2016/03/15 | |||||||
| 魚類 | Carassius auratus (Goldfish) | LC50 | 7 | days | 2.54 | mg/L | 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. (1978) In: Thorp, J.H., and Givvons, J.W.(eds) , dep. Energy symp. Ser., Energy and environmental stress in aquatic systems, augusta, GA, 48. | 1978 | 2016/03/15 | ||||||||
| 魚類 | Pimephales promelas (Fathead minnow) | LC50 | 96 | hours | 0.5 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Schubauer-Berigan, 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 Lumbriculus variegatus. | Environ. Toxicol. Chem., 12. | 1993 | 2016/03/15 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | LC50 | 96 | hours | 1.74 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Pierson, K.B. | Effects of chronic zinc exposure on the growth, sexual maturity, reproduction, and bioaccumulation of the guppy, Poecilia reticulata. | Can. J. Fish. Aquat. Sci., 38. | 1981 | 2016/03/15 | |||||||
| 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 | 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 | 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 | 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 | 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 | Brachydanio rerio (Zebrafish) | NOLC | 96 | hours | >4.7 | mg Zn/L | meas., dissolved | ○ | ○ | 7 EU Risk Assessment Report (EUリスク評価書) | Van Woensel, M. | The Acute Toxicity of Zinc Oxide in th Zebrafish (Brachidanio rerio). | Report No. AFBr/0025 (year of test: 1993). Janssen Pharmaceutica N.V., Beerse, Belgium (Sponsor: International Lead and Zinc Research Association Inc. (ILZRO), North Carolina, U.S.A.) | 2021/03/24 | |||||
| 魚類 | Danio rerio (Zebrafish) | Morphology/Abnormal | NOEC | 4 | days | 6.75 | mg/L | × | 16 ECOTOX | Du,J., J. Tang, S. Xu, J. Ge, Y. Dong, H. Li, and M. Jin | Parental Transfer of Perfluorooctane Sulfonate and ZnO Nanoparticles Chronic Co-Exposure and Inhibition of Growth in F1 Offspring | Regul. Toxicol. Pharmacol.98 | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Mortality | NR-LETH | 96 | hours | 30 | mg/L | × | 16 ECOTOX | Yu,L.P., T. Fang, D.W. Xiong, W.T. Zhu, and X.F. Sima | Comparative Toxicity of Nano-ZnO and Bulk ZnO Suspensions to Zebrafish and the Effects of Sedimentation, OH Production and Particle Dissolution in Distilled Water | J. Environ. Monit.13(7) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Mortality | LC50 | 96 | hours | 3.969 | mg/L | × | 16 ECOTOX | Yu,L.P., T. Fang, D.W. Xiong, W.T. Zhu, and X.F. Sima | Comparative Toxicity of Nano-ZnO and Bulk ZnO Suspensions to Zebrafish and the Effects of Sedimentation, OH Production and Particle Dissolution in Distilled Water | J. Environ. Monit.13(7) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Mortality | LC50 | 96 | hours | 60 | mg/L | × | 16 ECOTOX | Du,J., S. Wang, H. You, R. Jiang, C. Zhuang, and X. Zhang | Developmental Toxicity and DNA Damage to Zebrafish Induced by Perfluorooctane Sulfonate in the Presence of ZnO Nanoparticles | Environ. Toxicol.31(3) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Growth/Length | NOEC | 4 | days | 6.75 | mg/L | × | 16 ECOTOX | Du,J., J. Tang, S. Xu, J. Ge, Y. Dong, H. Li, and M. Jin | Parental Transfer of Perfluorooctane Sulfonate and ZnO Nanoparticles Chronic Co-Exposure and Inhibition of Growth in F1 Offspring | Regul. Toxicol. Pharmacol.98 | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | Mortality/Mortality | LC50 | 96 | hours | 2246000 | 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 | Danio rerio (Zebrafish) | Mortality/Mortality | NR-LETH | 24 | hours | 50 | mg/L | × | 16 ECOTOX | Yu,L.P., T. Fang, D.W. Xiong, W.T. Zhu, and X.F. Sima | Comparative Toxicity of Nano-ZnO and Bulk ZnO Suspensions to Zebrafish and the Effects of Sedimentation, OH Production and Particle Dissolution in Distilled Water | J. Environ. Monit.13(7) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Mortality | NR-LETH | 24 | hours | 50 | mg/L | × | 16 ECOTOX | Yu,L.P., T. Fang, D.W. Xiong, W.T. Zhu, and X.F. Sima | Comparative Toxicity of Nano-ZnO and Bulk ZnO Suspensions to Zebrafish and the Effects of Sedimentation, OH Production and Particle Dissolution in Distilled Water | J. Environ. Monit.13(7) | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Reproduction/Hatch | NOEC | 4 | days | 6.75 | mg/L | × | 16 ECOTOX | Du,J., J. Tang, S. Xu, J. Ge, Y. Dong, H. Li, and M. Jin | Parental Transfer of Perfluorooctane Sulfonate and ZnO Nanoparticles Chronic Co-Exposure and Inhibition of Growth in F1 Offspring | Regul. Toxicol. Pharmacol.98 | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Mortality | NOEC | 4 | days | 6.75 | mg/L | × | 16 ECOTOX | Du,J., J. Tang, S. Xu, J. Ge, Y. Dong, H. Li, and M. Jin | Parental Transfer of Perfluorooctane Sulfonate and ZnO Nanoparticles Chronic Co-Exposure and Inhibition of Growth in F1 Offspring | Regul. Toxicol. Pharmacol.98 | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Mortality | LC50 | 96 | hours | 2.525 | mg/L | × | 16 ECOTOX | Yu,L.P., T. Fang, D.W. Xiong, W.T. Zhu, and X.F. Sima | Comparative Toxicity of Nano-ZnO and Bulk ZnO Suspensions to Zebrafish and the Effects of Sedimentation, OH Production and Particle Dissolution in Distilled Water | J. Environ. Monit.13(7) | 2020/11/12 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | NOEL | 96 | hours | 0.25 | mg/L | 3 USEPA Pesticide Ecotoxicity Database | C. Laird | 1986 | 2016/02/02 | |||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | 致死 | NOEC | 72 | days | 0.444 | mg/L | 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. | 1982 | 2016/03/15 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | 致死 | NOEC | 0.14 | mg Zn/L | 8 NITE 化学物質の初期リスク評価書 | Sinley, J.R., Goett, J.P., Jr. and Davies, P.H. | The effects of zinc on rainbow trout (Salmo gairdneri) in hard and soft water. | Bull.Environ. Contam. Toxicol.,12. | 1974 | 2016/03/15 | ||||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | LC50 | 28 | days | 1.06 | mg/L | 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. | In: Thorp, J.H., and Gibbons, J.W. (eds) ,dep. Energy symp. Ser., Energy and environmetal stress in aquatic systems, augusta, GA, 48. | 1978 | 2016/03/15 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | 成長 | NOEC | 8 | weeks | 0.106 | mg/L | 8 NITE 化学物質の初期リスク評価書 | Benoit, D.A. and Holcombe, G.W. | Toxic effects of zinc fathead minnows (Pimephales promelas) in soft water. | J.Fish Biol., 13. | 1978 | 2016/03/15 | ||||||
| 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 | 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 | 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 | 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 | 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 | Cyprinus carpio (Carp) | position holding | NOEC | 14 | days | 4.86 | mg/L | 12 ECHA Information on Registered Substances | Hao, L., Chen, L. | Oxidative stress responses in different organs of carp (Cyprinus carpio) with exposure to ZnO particles | Ecotoxicology and Environmental Safety 80 | 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 | 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 | 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 | 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 | ||||||
| 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 | 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 | 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 | 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 | Cyprinus carpio (Carp) | mortality | NOEC | 14 | days | >47.9 | mg/L | 12 ECHA Information on Registered Substances | Hao, L., Chen, L. | Oxidative stress responses in different organs of carp (Cyprinus carpio) with exposure to ZnO particles | Ecotoxicology and Environmental Safety 80 | 2021/03/02 | |||||||
| 魚類 | Danio rerio (Zebrafish) | Reproduction/Progeny counts/numbers | NOEC | 120 | days | 6.75 | mg/L | × | 16 ECOTOX | Du,J., J. Tang, S. Xu, J. Ge, Y. Dong, H. Li, and M. Jin | Parental Transfer of Perfluorooctane Sulfonate and ZnO Nanoparticles Chronic Co-Exposure and Inhibition of Growth in F1 Offspring | Regul. Toxicol. Pharmacol.98 | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Mortality | LOEC | 120 | days | 6.75 | mg/L | × | 16 ECOTOX | Du,J., J. Tang, S. Xu, J. Ge, Y. Dong, H. Li, and M. Jin | Parental Transfer of Perfluorooctane Sulfonate and ZnO Nanoparticles Chronic Co-Exposure and Inhibition of Growth in F1 Offspring | Regul. Toxicol. Pharmacol.98 | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Mortality/Mortality | NOEC | 120 | days | 3.4 | mg/L | × | 16 ECOTOX | Du,J., J. Tang, S. Xu, J. Ge, Y. Dong, H. Li, and M. Jin | Parental Transfer of Perfluorooctane Sulfonate and ZnO Nanoparticles Chronic Co-Exposure and Inhibition of Growth in F1 Offspring | Regul. Toxicol. Pharmacol.98 | 2020/11/12 | ||||||
| 魚類 | Danio rerio (Zebrafish) | Reproduction/Fertility | NOEC | 120 | days | 6.75 | mg/L | × | 16 ECOTOX | Du,J., J. Tang, S. Xu, J. Ge, Y. Dong, H. Li, and M. Jin | Parental Transfer of Perfluorooctane Sulfonate and ZnO Nanoparticles Chronic Co-Exposure and Inhibition of Growth in F1 Offspring | Regul. Toxicol. Pharmacol.98 | 2020/11/12 |