【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 | Dunaliella tertiolecta | Average Area Under Growth Curve | IC20 | 72 | hours | 13800.9 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 藻類 | Dunaliella tertiolecta | Average Specific Growth Rate | IC20 | 72 | hours | 27481.8 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 藻類 | Navicula pelliculosa | growth rate | EC10/2 | 3 | days | 0.31 | μmol/L | 12 ECHA Information on Registered Substances | Nagai T, De Schamphelaere KA. | The effect of binary mixtures of zinc, copper, cadmium, and nickel on the growth of the freshwater diatom Navicula pelliculosa and comparison with mixture toxicity model predictions. | Environ Toxicol Chem. 2016 Nov;35(11) | 2021/03/02 | |||||||
| 藻類 | Chlorella vulgaris | growth rate | EC25 | 12 | days | 11.4 | mg/L | 12 ECHA Information on Registered Substances | Rugnini L, Costa G, Congestri R, Bruno L | Testing of two different strains of green microalgae for Cu and Ni removal from aqueous media | Science of the Total Environment 601–602 | 2021/03/02 | |||||||
| 藻類 | Scenedesmus quadricauda | not reported | "Toxic" | >=1.3 | mg/L | 12 ECHA Information on Registered Substances | other company data | 2021/03/02 | |||||||||||
| 藻類 | Navicula pelliculosa | growth rate | EC70 | 3 | days | 1.11 | μmol/L | 12 ECHA Information on Registered Substances | Nagai T, De Schamphelaere KA. | The effect of binary mixtures of zinc, copper, cadmium, and nickel on the growth of the freshwater diatom Navicula pelliculosa and comparison with mixture toxicity model predictions. | Environ Toxicol Chem. 2016 Nov;35(11) | 2021/03/02 | |||||||
| 藻類 | Navicula pelliculosa | growth rate | EC10/4 | 3 | days | 0.15 | μmol/L | 12 ECHA Information on Registered Substances | Nagai T, De Schamphelaere KA. | The effect of binary mixtures of zinc, copper, cadmium, and nickel on the growth of the freshwater diatom Navicula pelliculosa and comparison with mixture toxicity model predictions. | Environ Toxicol Chem. 2016 Nov;35(11) | 2021/03/02 | |||||||
| 藻類 | Dunaliella tertiolecta | Average Yield | IC20 | 72 | hours | 13397.9 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 藻類 | Chlorella vulgaris | growth rate | EC22 | 12 | days | 5.7 | mg/L | 12 ECHA Information on Registered Substances | Rugnini L, Costa G, Congestri R, Bruno L | Testing of two different strains of green microalgae for Cu and Ni removal from aqueous media | Science of the Total Environment 601–602 | 2021/03/02 | |||||||
| 藻類 | Scenedesmus quadricauda | toxic threshold | 7 | days | 1.3 | mg/L | 12 ECHA Information on Registered Substances | Bringmann G. and R. Kuhn | Comparison of the toxicity thresholds of water pollutants to bacteria, algae, and protozoa in the cell multiplication inhibition test | Water Res. 14 | 2021/03/02 | ||||||||
| 藻類 | Navicula pelliculosa | growth rate | EC30 | 3 | days | 0.8 | μmol/L | 12 ECHA Information on Registered Substances | Nagai T, De Schamphelaere KA. | The effect of binary mixtures of zinc, copper, cadmium, and nickel on the growth of the freshwater diatom Navicula pelliculosa and comparison with mixture toxicity model predictions. | Environ Toxicol Chem. 2016 Nov;35(11) | 2021/03/02 | |||||||
| 藻類 | Chlorella vulgaris | growth rate | EC15 | 12 | days | 1.9 | mg/L | 12 ECHA Information on Registered Substances | Rugnini L, Costa G, Congestri R, Bruno L | Testing of two different strains of green microalgae for Cu and Ni removal from aqueous media | Science of the Total Environment 601–602 | 2021/03/02 | |||||||
| 藻類 | Chlorella vulgaris | Population | LOEC | 121.76 | days | 17 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Jong,L.E.D. | Tolerance of Chlorella vulgaris for Metallic and Non-Metallic Ions | Antonie van Leeuwenhoek (Gedrukt)31:301-313 | 1965 | 2017/03/23 | ||||||
| 藻類 | Chlorella vulgaris | Population | NOEC | 121.76 | days | 6.9 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Jong,L.E.D. | Tolerance of Chlorella vulgaris for Metallic and Non-Metallic Ions | Antonie van Leeuwenhoek (Gedrukt)31:301-313 | 1965 | 2017/03/23 | ||||||
| 藻類 | Chlorella vulgaris | Population | NOEC | 6.9 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Jong,L.E.D. | Tolerance of Chlorella vulgaris for Metallic and Non-Metallic Ions | Antonie van Leeuwenhoek (Gedrukt)31:301-313 | 1965 | 2016/03/25 | ||||||||
| 藻類 | Chlorella vulgaris | Population | LOEC | 17 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | De Jong,L.E.D. | Tolerance of Chlorella vulgaris for Metallic and Non-Metallic Ions | Antonie van Leeuwenhoek (Gedrukt)31:301-313 | 1965 | 2016/03/25 | ||||||||
| 藻類 | Navicula pelliculosa | Population | 14 | days | 100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fezy,J.S., D.F. Spencer, and R.W. Greene | The Effect of Nickel on the Growth of the Freshwater Diatom Navicula pelliculosa | Environ. Pollut.20(2): 131-137 | 1979 | 2016/03/25 | |||||||
| 藻類 | Navicula pelliculosa | Population | 7 | days | 100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Fezy,J.S., D.F. Spencer, and R.W. Greene | The Effect of Nickel on the Growth of the Freshwater Diatom Navicula pelliculosa | Environ. Pollut.20(2): 131-137 | 1979 | 2016/03/25 | |||||||
| 藻類 | Anabaena flos-aquae | Population | 14 | days | 301 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Spencer,D.F., and R.W. Greene | Effects of Nickel on Seven Species of Freshwater Algae | Environ. Pollut. A.25(4): 241-247 | 1981 | 2016/03/25 | |||||||
| 藻類 | Anabaena flos-aquae | Population | 14 | days | 602 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Spencer,D.F., and R.W. Greene | Effects of Nickel on Seven Species of Freshwater Algae | Environ. Pollut. A.25(4): 241-247 | 1981 | 2016/03/25 | |||||||
| 藻類 | Scenedesmus acutus | growth rate | EC50 | 168 | hours | 8.34 | mg/L | 12 ECHA Information on Registered Substances | Azeez, P.A. and D.K. Banerjee. | Nickel uptake and toxicity in cyanobacteria. | Toxicological and environmental chemistry | 2021/03/02 | |||||||
| 藻類 | Scenedesmus acutus | growth rate | EC50 | 144 | hours | 9.07 | mg/L | 12 ECHA Information on Registered Substances | Azeez, P.A. and D.K. Banerjee. | Nickel uptake and toxicity in cyanobacteria. | Toxicological and environmental chemistry | 2021/03/02 | |||||||
| 藻類 | Scenedesmus acutus | growth rate | EC50 | 120 | hours | 16.5 | mg/L | 12 ECHA Information on Registered Substances | Azeez, P.A. and D.K. Banerjee. | Nickel uptake and toxicity in cyanobacteria. | Toxicological and environmental chemistry | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | EC50 | 72 | hours | 2413 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | EC50 | 72 | hours | 826 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 藻類 | Scenedesmus acutus | growth rate | EC50 | 96 | hours | 33.3 | mg/L | 12 ECHA Information on Registered Substances | Azeez, P.A. and D.K. Banerjee. | Nickel uptake and toxicity in cyanobacteria. | Toxicological and environmental chemistry | 2021/03/02 | |||||||
| 藻類 | Scenedesmus quadricauda | growth rate | EC50 | 12 | days | 0.58 | mg/L | 12 ECHA Information on Registered Substances | Fargasova, A., A. Bumbalova, and E. Havranek. | Ecotoxicological effect and uptake of metals (Cu+, Cu2+, Mn2+, Mo6+, Ni2+, V5+) in freshwater alga Scenedesmus quadricauda. | Chemosphere. 38(5) | 2021/03/02 | |||||||
| 藻類 | Navicula pelliculosa | growth rate | EC50 | 3 | days | 0.94 | μmol/L | 12 ECHA Information on Registered Substances | Nagai T, De Schamphelaere KA. | The effect of binary mixtures of zinc, copper, cadmium, and nickel on the growth of the freshwater diatom Navicula pelliculosa and comparison with mixture toxicity model predictions. | Environ Toxicol Chem. 2016 Nov;35(11) | 2021/03/02 | |||||||
| 藻類 | Scenedesmus quadricauda | Chlorophyll-b inhibition | EC50 | 12 | days | 0.39 | mg/L | 12 ECHA Information on Registered Substances | Fargasova, A., A. Bumbalova, and E. Havranek. | Ecotoxicological effect and uptake of metals (Cu+, Cu2+, Mn2+, Mo6+, Ni2+, V5+) in freshwater alga Scenedesmus quadricauda. | Chemosphere. 38(5) | 2021/03/02 | |||||||
| 藻類 | Chlorella pyrenoidosa | growth rate | EC50 | 24 | hours | 0.41 | mg/L | 12 ECHA Information on Registered Substances | Lin, K.C., Y.L. Lee, and C.Y. Chen | Metal toxicity to Chlorella pyrenoidosa assessed by a short-term continuous test | Journal of Hazardous Materials 142 | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | EC50 | 72 | hours | 282 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | EC50 | 72 | hours | 663 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 藻類 | Scenedesmus quadricauda | Chlorophyll-a inhibition | EC50 | 12 | days | 0.57 | mg/L | 12 ECHA Information on Registered Substances | Fargasova, A., A. Bumbalova, and E. Havranek. | Ecotoxicological effect and uptake of metals (Cu+, Cu2+, Mn2+, Mo6+, Ni2+, V5+) in freshwater alga Scenedesmus quadricauda. | Chemosphere. 38(5) | 2021/03/02 | |||||||
| 藻類 | Scenedesmus quadricauda | growth rate | EC50 | 12 | days | 0.6 | mg/L | 12 ECHA Information on Registered Substances | Fargasova, A. | Interactive effect of manganese, molybdenum, nickel, copper I and II, and vanadium on the freshwater alga Scenedesmus quadricauda. | Bull. Environ. Contam. Toxicol. 67 | 2021/03/02 | |||||||
| 藻類 | Scenedesmus quadricauda | Total Chlorophyll inhibition | EC50 | 12 | days | 0.44 | mg/L | 12 ECHA Information on Registered Substances | Fargasova, A., A. Bumbalova, and E. Havranek. | Ecotoxicological effect and uptake of metals (Cu+, Cu2+, Mn2+, Mo6+, Ni2+, V5+) in freshwater alga Scenedesmus quadricauda. | Chemosphere. 38(5) | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | EC50 | 72 | hours | 1430 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 藻類 | Chlorella sp. | growth rate | EC50 | 72 | hours | 434 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | EC50 | 72 | hours | 853 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 藻類 | Skeletonema costatum | Average Specific Growth Rate | EC10 | 72 | hours | 122.7 | μg/L | 12 ECHA Information on Registered Substances | DeForest DK, Schlekat CE. | Species sensitivity distribution evaluation for chronic nickel toxicity to marine organisms. | Integr Environ Assess Manag. 2013 Oct;9(4) | 2021/03/02 | |||||||
| 藻類 | Dunaliella tertiolecta | Average Specific Growth Rate | IC10 | 72 | hours | 17891.1 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 藻類 | Scenedesmus quadricauda | nitrate reductase activity, alkaline phosph | NOEC | 15 | days | <1.1 | μM | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | |||||||||
| 藻類 | Navicula pelliculosa | growth rate | EC10 | 3 | days | 0.61 | μmol/L | 12 ECHA Information on Registered Substances | Nagai T, De Schamphelaere KA. | The effect of binary mixtures of zinc, copper, cadmium, and nickel on the growth of the freshwater diatom Navicula pelliculosa and comparison with mixture toxicity model predictions. | Environ Toxicol Chem. 2016 Nov;35(11) | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | EC10 | 72 | hours | 278 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | EC10 | 72 | hours | 90.5 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 藻類 | Chlorella sp. | growth rate | LOEC | 72 | hours | 168 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 藻類 | Chlorella vulgaris | other: nitrate reductase activity | LOEC | 15 | days | 3.2 | μmol/L | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | |||||||||
| 藻類 | Chlorella sp. | growth rate | EC10 | 72 | hours | 896 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 藻類 | Anabaena cylindrica | growth rate | NOEC | 14 | days | 600 | μg/L | 12 ECHA Information on Registered Substances | Spencer, D.F. and R.W. Greene. | Effects of nickel on seven species of freshwater algae. | Environ. Pollut. (Series A). 25(4) | 2021/03/02 | |||||||
| 藻類 | Navicula pelliculosa | growth rate | LOEC | 14 | days | <100 | μg/L | 12 ECHA Information on Registered Substances | Fezy, J.S., D.F. Spencer, and R.W. Greene. | The effect of nickel on the growth of the freshwater diatom Navicula pelliculosa. | Environ. Pollut. 20(3) | 2021/03/02 | |||||||
| 藻類 | Anabaena cylindrica | growth rate | LOEC | 14 | days | >600 | μg/L | 12 ECHA Information on Registered Substances | Spencer, D.F. and R.W. Greene. | Effects of nickel on seven species of freshwater algae. | Environ. Pollut. (Series A). 25(4) | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | EC10 | 72 | hours | 59 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | EC10 | 72 | hours | 64.7 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 藻類 | Anabaena flos-aquae | growth rate | NOEC | 14 | days | 300 | μg/L | 12 ECHA Information on Registered Substances | Spencer, D.F. and R.W. Greene. | Effects of nickel on seven species of freshwater algae. | Environ. Pollut. (Series A). 25(4) | 2021/03/02 | |||||||
| 藻類 | Skeletonema costatum | Average Specific Growth Rate | EC10 | 72 | hours | 661.3 | μg/L | 12 ECHA Information on Registered Substances | DeForest DK, Schlekat CE. | Species sensitivity distribution evaluation for chronic nickel toxicity to marine organisms. | Integr Environ Assess Manag. 2013 Oct;9(4) | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | NOEC | 72 | hours | <97.7 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 藻類 | Chlorella vulgaris | other: nitrate reductase activity, alkaline | NOEC | 15 | days | <3.2 | μmol/L | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | |||||||||
| 藻類 | Scenedesmus quadricauda | growth rate | LOEC | 14 | days | <100 | μg/L | 12 ECHA Information on Registered Substances | Spencer, D.F. and R.W. Greene. | Effects of nickel on seven species of freshwater algae. | Environ. Pollut. (Series A). 25(4) | 2021/03/02 | |||||||
| 藻類 | Anabaena flos-aquae | growth rate | LOEC | 14 | days | 600 | μg/L | 12 ECHA Information on Registered Substances | Spencer, D.F. and R.W. Greene. | Effects of nickel on seven species of freshwater algae. | Environ. Pollut. (Series A). 25(4) | 2021/03/02 | |||||||
| 藻類 | Chlorella vulgaris | Population/Population changes, general | LOEC | 3~4 | months | 17 | μg/L | × | 16 ECOTOX | De Jong,L.E.D. | Tolerance of Chlorella vulgaris for Metallic and Non-Metallic Ions | Antonie van Leeuwenhoek (Gedrukt)31 | 2020/11/12 | ||||||
| 藻類 | Navicula pelliculosa | growth rate | LOEC | 14 | days | 100 | μg/L | 12 ECHA Information on Registered Substances | Fezy, J.S., D.F. Spencer, and R.W. Greene. | The effect of nickel on the growth of the freshwater diatom Navicula pelliculosa. | Environ. Pollut. 20(3) | 2021/03/02 | |||||||
| 藻類 | Skeletonema costatum | Average Specific Growth Rate | EC10 | 72 | hours | 773.4 | μg/L | 12 ECHA Information on Registered Substances | DeForest DK, Schlekat CE. | Species sensitivity distribution evaluation for chronic nickel toxicity to marine organisms. | Integr Environ Assess Manag. 2013 Oct;9(4) | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | NOEC | 72 | hours | 98.2 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 藻類 | Skeletonema costatum | Average Specific Growth Rate | EC10 | 72 | hours | 265.4 | μg/L | 12 ECHA Information on Registered Substances | DeForest DK, Schlekat CE. | Species sensitivity distribution evaluation for chronic nickel toxicity to marine organisms. | Integr Environ Assess Manag. 2013 Oct;9(4) | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | EC10 | 72 | hours | 122 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 藻類 | Dunaliella tertiolecta | Average Area Under Growth Curve | IC10 | 72 | hours | 8574.1 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 藻類 | Dunaliella tertiolecta | Average Yield, Average Area Under Growth Cu | NOEC | 72 | hours | 5476.8 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 藻類 | Dunaliella tertiolecta | Average Yield | IC10 | 72 | hours | 8585.6 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 藻類 | Scenedesmus quadricauda | nitrate reductase activity, alkaline phosph | LOEC | 15 | days | 1.1 | μM | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | |||||||||
| 藻類 | Scenedesmus quadricauda | growth rate | LOEC | 14 | days | 100 | μg/L | 12 ECHA Information on Registered Substances | Spencer, D.F. and R.W. Greene. | Effects of nickel on seven species of freshwater algae. | Environ. Pollut. (Series A). 25(4) | 2021/03/02 | |||||||
| 藻類 | Dunaliella tertiolecta | Average Yield, Average Area Under Growth Cu | LOEC | 72 | hours | 11551.3 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 藻類 | Chlorella vulgaris | Population/Population changes, general | NOEC | 3~4 | months | 6.9 | μg/L | × | 16 ECOTOX | De Jong,L.E.D. | Tolerance of Chlorella vulgaris for Metallic and Non-Metallic Ions | Antonie van Leeuwenhoek (Gedrukt)31 | 2020/11/12 | ||||||
| 藻類 | Skeletonema costatum | Average Specific Growth Rate | EC10 | 72 | hours | 190.6 | μg/L | 12 ECHA Information on Registered Substances | DeForest DK, Schlekat CE. | Species sensitivity distribution evaluation for chronic nickel toxicity to marine organisms. | Integr Environ Assess Manag. 2013 Oct;9(4) | 2021/03/02 | |||||||
| 藻類 | Chlorella sp. | growth rate | LOEC | 72 | hours | 97.7 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 藻類 | Chlorella sp. | growth rate | EC10 | 72 | hours | 148 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 甲殻類 | Chironomus riparius | Mortality/Mortality | NR-LETH | 15 | days | 13900 | μg/L | ○ | 16 ECOTOX | Powlesland,C., and J. George | Acute and Chronic Toxicity of Nickel to Larvae of Chironomus riparis (Meigen) | Environ. Pollut. A.42(1) | 2020/11/12 | ||||||
| 甲殻類 | Chironomus dilutus | Population/Abundance | NOEC | 21 | days | 91.33 | μg/L | ○ | 16 ECOTOX | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462) | 2020/11/12 | ||||||
| 甲殻類 | Chironomus riparius | Mortality/Mortality | LC50 | 48 | hours | 72400 | μg/L | ○ | 16 ECOTOX | Powlesland,C., and J. George | Acute and Chronic Toxicity of Nickel to Larvae of Chironomus riparis (Meigen) | Environ. Pollut. A.42(1) | 2020/11/12 | ||||||
| 甲殻類 | Chironomus riparius | Mortality/Mortality | LC50 | 48 | hours | 184000 | μg/L | ○ | 16 ECOTOX | Powlesland,C., and J. George | Acute and Chronic Toxicity of Nickel to Larvae of Chironomus riparis (Meigen) | Environ. Pollut. A.42(1) | 2020/11/12 | ||||||
| 甲殻類 | Chironomus riparius | Mortality/Mortality | LC50 | 48 | hours | 81300 | μg/L | ○ | 16 ECOTOX | Powlesland,C., and J. George | Acute and Chronic Toxicity of Nickel to Larvae of Chironomus riparis (Meigen) | Environ. Pollut. A.42(1) | 2020/11/12 | ||||||
| 甲殻類 | Chironomus riparius | Mortality/Mortality | LC50 | 48 | hours | 174000 | μg/L | ○ | 16 ECOTOX | Powlesland,C., and J. George | Acute and Chronic Toxicity of Nickel to Larvae of Chironomus riparis (Meigen) | Environ. Pollut. A.42(1) | 2020/11/12 | ||||||
| 甲殻類 | Chironomus riparius | Mortality/Mortality | LC50 | 48 | hours | 84900 | μg/L | ○ | 16 ECOTOX | Powlesland,C., and J. George | Acute and Chronic Toxicity of Nickel to Larvae of Chironomus riparis (Meigen) | Environ. Pollut. A.42(1) | 2020/11/12 | ||||||
| 甲殻類 | Chironomus riparius | Mortality/Mortality | LC50 | 48 | hours | 150000 | μg/L | ○ | 16 ECOTOX | Powlesland,C., and J. George | Acute and Chronic Toxicity of Nickel to Larvae of Chironomus riparis (Meigen) | Environ. Pollut. A.42(1) | 2020/11/12 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 7.5 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kszos,L.A., A.J. Stewart, and P.A. Taylor | An Evaluation of Nickel Toxicity to Ceriodaphnia dubia and Daphnia magna in a Contaminated Stream and in Laboratory Tests | Environ. Toxicol. Chem.11(7): 1001-1012 | 1992 | 2017/03/15 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 915 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Call,D.J., L.T. Brooke, N. Ahmad, and J.E. Richter | Toxicity and Metabolism Studies with EPA (Environmental Protection Agency) Priority Pollutants and Related Chemicals in Freshwater Organisms | EPA 600/3-83-095, U.S.EPA, Duluth, MN:120 p. | 1983 | 2017/03/15 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 3.8 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kszos,L.A., A.J. Stewart, and P.A. Taylor | An Evaluation of Nickel Toxicity to Ceriodaphnia dubia and Daphnia magna in a Contaminated Stream and in Laboratory Tests | Environ. Toxicol. Chem.11(7): 1001-1012 | 1992 | 2016/03/25 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality | 7 | days | 7.5 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kszos,L.A., A.J. Stewart, and P.A. Taylor | An Evaluation of Nickel Toxicity to Ceriodaphnia dubia and Daphnia magna in a Contaminated Stream and in Laboratory Tests | Environ. Toxicol. Chem.11(7): 1001-1012 | 1992 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LD50 | 1 | days | 6000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tomasik,P., C.H.D. Magadza, S. Mhizha, and A. Chirume | The Metal-Metal Interactions in Biological Systems. Part III. Daphnia magna | Water Air Soil Pollut.82:695-711 | 1995 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 2 | days | 915 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Call,D.J., L.T. Brooke, N. Ahmad, and J.E. Richter | Toxicity and Metabolism Studies with EPA (Environmental Protection Agency) Priority Pollutants and Related Chemicals in Freshwater Organisms | EPA 600/3-83-095, U.S.EPA, Duluth, MN:120 p. | 1983 | 2016/03/25 | ||||||
| 甲殻類 | Daphnia magna | Mortality | LD50 | 1 | days | 11000 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Tomasik,P., C.H.D. Magadza, S. Mhizha, and A. Chirume | The Metal-Metal Interactions in Biological Systems. Part III. Daphnia magna | Water Air Soil Pollut.82:695-711 | 1995 | 2016/03/25 | ||||||
| 甲殻類 | Ceriodaphnia dubia | Reproduction | 7 | days | 3.8 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Kszos,L.A., A.J. Stewart, and P.A. Taylor | An Evaluation of Nickel Toxicity to Ceriodaphnia dubia and Daphnia magna in a Contaminated Stream and in Laboratory Tests | Environ. Toxicol. Chem.11(7): 1001-1012 | 1992 | 2016/03/25 | |||||||
| 甲殻類 | Daphnia magna | immobilisation | EC50 | 48 | hours | 3.85 | mg/L | 12 ECHA Information on Registered Substances | Kim D, Chae Y, An Y-J | Mixture Toxicity of Nickel and Microplastics with Different Functional Groups on Daphnia magna | Environmental Science and Technology. 51 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 2325 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | LD50 | 24 | hours | 11 | mg/L | × | 16 ECOTOX | Tomasik,P., C.H.D. Magadza, S. Mhizha, and A. Chirume | The Metal-Metal Interactions in Biological Systems. Part III. Daphnia magna | Water Air Soil Pollut.82 | 2020/11/12 | ||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 96 | hours | 214.1 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 3316 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 96 | hours | 107.3 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | mortality | LC20 | 48 | hours | 1036.7 | μg/L | 12 ECHA Information on Registered Substances | Lari E, Gauthier P, Mohaddes E, Pyle GG | Interactive toxicity of Ni, Zn, Cu, and Cd on Daphnia magna at lethal and sub-lethal concentrations | Journal of Hazardous Materials 334 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 96 | hours | 133.1 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 2171 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | immobilization | EC50 | 48 | hours | >=0.86~<=6.3 | mg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia pulex | mortality | LC50 | 48 | hours | 7.5 | μmol/L | 12 ECHA Information on Registered Substances | Leonard EM, Wood CM | Acute toxicity, critical body residues, Michaelis-Menten analysis of bioaccumulation, and ionoregulatory disturbance in response to waterborne nickel in four invertebrates: Chironomus riparius, Lymnaea stagnalis, Lumbriculus variegatus and Daphnia pulex | Comparative Biochemistry and Physiology, Part C 158 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 96 | hours | 202.3 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 96 | hours | 74.4 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 266.3 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 96 | hours | 27.6 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 111.1 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 2182 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 202.3 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 96 | hours | 82.1 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 94.3 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 214.1 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 24 | hours | 10.9 | mg/L | 12 ECHA Information on Registered Substances | Khangarot, B.S. and P.K. Ray | Investigation of correlation between physicochemical properties of metals and their toxicity to the water flea Daphnia magna Straus | Ecotoxicology and Environmental Safety. 18 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 74.4 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 645 | mg/L | 12 ECHA Information on Registered Substances | government document | 2021/03/02 | ||||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 27.6 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 1800 | mg/L | 12 ECHA Information on Registered Substances | government document | 2021/03/02 | ||||||||||
| 甲殻類 | Daphnia magna | NOEC | 48 | hours | 1 | mg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 96 | hours | 266.3 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 1502.5 | μg/L | 12 ECHA Information on Registered Substances | Lari E, Gauthier P, Mohaddes E, Pyle GG | Interactive toxicity of Ni, Zn, Cu, and Cd on Daphnia magna at lethal and sub-lethal concentrations | Journal of Hazardous Materials 334 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | LC50 | 96 | hours | 3.2 | mg/L | 12 ECHA Information on Registered Substances | Ewell, W.S., J.W. Gorsuch, R.O. Kringle, K.A. Robillard, and R.C. Spiegel | Simultaneous evaluation of the acute effects of chemicals on seven aquatic species | Environmental Toxicology and Chemistry. 5 | 2021/03/02 | ||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 96 | hours | 87.5 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 1120 | μg/L | 12 ECHA Information on Registered Substances | Biesinger, K.E. and G.M. Christensen | Effects of various metals on survival, growth, reproduction, and metabolism of Daphnia magna | Journal of Fisheries Research Board of Canada. 29(12) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 3014 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 105.1 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 627 | mg/L | 12 ECHA Information on Registered Substances | government document | 2021/03/02 | ||||||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | LD50 | 24 | hours | 6 | mg/L | × | 16 ECOTOX | Tomasik,P., C.H.D. Magadza, S. Mhizha, and A. Chirume | The Metal-Metal Interactions in Biological Systems. Part III. Daphnia magna | Water Air Soil Pollut.82 | 2020/11/12 | ||||||
| 甲殻類 | Daphnia magna | mobility | EC50 | 24 | hours | 11.77 | mg/L | 12 ECHA Information on Registered Substances | Sivula L, Vehniainen E-R, Karjalainen AK, Kukkonen JVK | Toxicity of biomining effluents to Daphnia magna: Acute toxicity and transcriptomic biomarkers | Chemosphere, 210 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | EC50 | 48 | hours | 9.48 | mg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 96 | hours | 111.1 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | mortality | NOEC | 48 | hours | 25 | mg/L | 12 ECHA Information on Registered Substances | Bozich J, Hang M, Hamers R, Klaper R | Core chemistry influences the toxicity of multicomponent metal oxide nanomaterials, lithium nickel manganese cobalt oxide, and lithium cobalt oxide to Daphnia magna | Environ Toxicol Chem; 36(9) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 3757 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | Mortality/Mortality | LC50 | 48 | hours | 915 | μg/L | ○ | 16 ECOTOX | Call,D.J., L.T. Brooke, N. Ahmad, and J.E. Richter | Toxicity and Metabolism Studies with EPA (Environmental Protection Agency) Priority Pollutants and Related Chemicals in Freshwater Organisms | EPA 600/3-83-095, U.S.EPA, Duluth, MN | 2020/11/12 | ||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 96 | hours | 94.3 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 510 | μg/L | 12 ECHA Information on Registered Substances | Biesinger, K.E. and G.M. Christensen | Effects of various metals on survival, growth, reproduction, and metabolism of Daphnia magna | Journal of Fisheries Research Board of Canada. 29(12) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | EC50 | 48 | hours | 6.68 | mg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | feeding inhibition | EC50 | 24 | hours | 2.74 | mg/L | ○ | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | NOEC | 48 | hours | 1.8 | mg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | >200 | μg/L | 12 ECHA Information on Registered Substances | Schubauer-Berigan, M.K., J.R. Dierkes, P.D. Monson, and G.T. Ankley | pH-Dependent toxicity of Cd, Cu, Ni, Pb and Zn to Ceriodaphnia dubia, Pimephales Promelas, Hyalella azteca and Lumbriculus variegates | Environmental Toxicology and Chemistry. 12 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 1813 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 107.3 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 2360 | mg/L | 12 ECHA Information on Registered Substances | government document | 2021/03/02 | ||||||||||
| 甲殻類 | Daphnia magna | mortality | LC75 | 48 | hours | 2150 | μg/L | ○ | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 1940 | mg/L | 12 ECHA Information on Registered Substances | government document | 2021/03/02 | ||||||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 4970 | mg/L | 12 ECHA Information on Registered Substances | government document | 2021/03/02 | ||||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 593 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 598 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC10 | 48 | hours | 88.9 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 140 | μg/L | 12 ECHA Information on Registered Substances | Schubauer-Berigan, M.K., J.R. Dierkes, P.D. Monson, and G.T. Ankley | pH-Dependent toxicity of Cd, Cu, Ni, Pb and Zn to Ceriodaphnia dubia, Pimephales Promelas, Hyalella azteca and Lumbriculus variegates | Environmental Toxicology and Chemistry. 12 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 297 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC10 | 48 | hours | 86.8 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 1920 | mg/L | 12 ECHA Information on Registered Substances | government document | 2021/03/02 | ||||||||||
| 甲殻類 | Daphnia pulex | mortality | LC50 | 48 | hours | 912.332 | μg/L | 12 ECHA Information on Registered Substances | Jindal, R. and A. Verma | Heavy Metal Toxicity to Daphnia pulex | Indian J. Environ. Health. 32(3) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 3156 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC10 | 48 | hours | 122 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 133.1 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 296 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 121.6 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 2717 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 3607 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 4960 | mg/L | 12 ECHA Information on Registered Substances | government document | 2021/03/02 | ||||||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 697 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | EC50 | 48 | hours | 100 | mg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC10 | 48 | hours | 125 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 1836 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 1141 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Daphnia pulex | mortality | LC50 | 48 | hours | 26 | μmol/L | 12 ECHA Information on Registered Substances | Leonard EM, Wood CM | Acute toxicity, critical body residues, Michaelis-Menten analysis of bioaccumulation, and ionoregulatory disturbance in response to waterborne nickel in four invertebrates: Chironomus riparius, Lymnaea stagnalis, Lumbriculus variegatus and Daphnia pulex | Comparative Biochemistry and Physiology, Part C 158 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mobility | LC50 | 48 | hours | 7.36 | mg/L | ○ | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | LC50 | 24 | hours | 10.1 | mg/L | 12 ECHA Information on Registered Substances | Van Sprang, P.A. and C.R. Janssen. | Toxicity identification of metals: Development of toxicity identification fingerprints. | Environmental Toxicology and Chemistry. 20(11) | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 1068 | μg/L | 12 ECHA Information on Registered Substances | Pane, E.F., Smith, C., McGeer, J.C., and C.M. Wood. | Mechanisms of Acute and Chronic Waterborne Nickel Toxicity in the Freshwater Cladoceran, Daphnia magna | Environmental Science and Technology. 37 | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 2042 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 11 | mg/L | 12 ECHA Information on Registered Substances | other company data | 2021/03/02 | |||||||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 2340 | mg/L | 12 ECHA Information on Registered Substances | government document | 2021/03/02 | ||||||||||
| 甲殻類 | Daphnia magna | EC50 | 48 | hours | >100 | mg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 82.1 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 0.915 | mg/L | 12 ECHA Information on Registered Substances | Call, D.J., L.T. Brooke, N. Ahmad, and J.E. Richter. | Toxicity and metabolism studies with EPA priority pollutants and related chemicals in freshwater organisms. | PB83-263665/EPA-600/3-83-095. National Technical Information Service (NTIS). Springfield, VA. | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 13 | μg/L | 12 ECHA Information on Registered Substances | Schubauer-Berigan, M.K., J.R. Dierkes, P.D. Monson, and G.T. Ankley | pH-Dependent toxicity of Cd, Cu, Ni, Pb and Zn to Ceriodaphnia dubia, Pimephales Promelas, Hyalella azteca and Lumbriculus variegates | Environmental Toxicology and Chemistry. 12 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | Mortality | LC50 | 48 | hours | 0.915 | mgNi/L | measured | ○ | 8 NITE 化学物質の初期リスク評価書 | Call, D.J., Brooke, L.T. Ahmad, N. and Richter, J.E. | Toxicity and metabolism studies with EPA priority pollutants and related chemicals in freshwater organisms. | EPA 600/3-83-095, U.S.EPA, Duluth, MN | 2021/04/06 | |||||
| 甲殻類 | Daphnia magna | feeding inhibition | EC50 | 24 | hours | 2.41 | mg/L | ○ | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | LC50 | 48 | hours | 1810 | mg/L | 12 ECHA Information on Registered Substances | government document | 2021/03/02 | ||||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 87.5 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 1034 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Daphnia pulicaria | mortality | LC50 | 48 | hours | 3414 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | immobilization | EC50 | 48 | hours | 70.8 | μM | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC50 | 48 | hours | 276 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 48 | hours | 7.59 | mg/L | 12 ECHA Information on Registered Substances | Khangarot, B.S. and P.K. Ray | Investigation of correlation between physicochemical properties of metals and their toxicity to the water flea Daphnia magna Straus | Ecotoxicology and Environmental Safety. 18 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Survival | EC50 | 8 | days | 4.4 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC20 | 7 | days | <3.8 | μg/L | 12 ECHA Information on Registered Substances | Keithly, J., J.A. Brooker, D.K. DeForest, B.K. Wu, and K.V. Brix | Acute and chronic toxicity of nickel to a cladoceran (Ceriodaphnia dubia) and an amphipod (Hyallela azteca) | Environmental Toxicology and Chemistry, Vol. 23, No.3 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | growth | LOEC | 8 | weeks | 80 | μg/L | 12 ECHA Information on Registered Substances | Munzinger, A | The influence of Nickel on population dynamics and on some demographic parameters of Daphnia magna | Hydrobiologia. 277 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | growth | NOEC | 8 | weeks | 40 | μg/L | 12 ECHA Information on Registered Substances | Munzinger, A | The influence of Nickel on population dynamics and on some demographic parameters of Daphnia magna | Hydrobiologia. 277 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 21 | days | 165 | μg/L | 12 ECHA Information on Registered Substances | Nys C, Asselman J, Hochmuth JD, Janssen CR, Blust R, Smolders E, and De Schamphelaere KAC | Mixture toxicity of nickel and zinc to Daphnia magna is noninteractive at low effect sizes but becomes synergistic at high effect sizes | Environmental Toxicology and Chemistry; 34(5) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | for 205 mg/L hardness test | ChV | 21 | days | 357 | μg/L | 12 ECHA Information on Registered Substances | government document | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 21 | days | 140 | μg/L | 12 ECHA Information on Registered Substances | Perez E, Hoang TC | Responses of Daphnia magna to chronic exposure of cadium and nickel mixtures | Chemosphere. 208 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 12.9 | μg/L | 12 ECHA Information on Registered Substances | Pereira CMS, Everaert G, Blust R, De Schamphelaere KAC | Multigenerational effects of nickel on Daphnia magna depend on temperature and the magnitude of the effect in the first generation | Environmental Toxicology and Chemistry 37 | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | mortality | NOEC | 21 | days | 40 | μg/L | 12 ECHA Information on Registered Substances | Perez E, Hoang TC | Responses of Daphnia magna to chronic exposure of cadium and nickel mixtures | Chemosphere. 208 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality, growth and reproduction | LC50 | 21 | days | 0.36 | mg/L | 12 ECHA Information on Registered Substances | Enserink, E.L., J.L. Maas-Diepeveen, and C.J. Van Leeuwen | Combined effects of metals; an ecotoxicological evaluation | Wat. Res. 25(6) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC10 | 7 | days | 258 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, van Regenmortal T, Janssen CR, Blust R, Smolders E, De Schamphelaere KAC | Comparison of chronic mixture toxicity of Nickel-Zinc-Copper and Nickel-Zinc-Copper-Cadmium mixtures between Ceriodaphnia Dubia and Pseudokirchneriella subcapitata | Environmental Toxicology and Chemistry. 36 (4) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | growth | LOEC | 11 | days | 42 | μg/L | 12 ECHA Information on Registered Substances | Pane, E.F., McGeer, J.C., and C.M. Wood. | Effects of Chronic Waterborne Nickel Exposure on Two Successive Generations of Daphnia magna. | Environ. Toxicol. Chem. 23 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 21 | days | 134 | μg/L | 12 ECHA Information on Registered Substances | Nys C, Janssen CR, Van Sprang P, De Schamphelaere KA. | The effect of pH on chronic aquatic nickel toxicity is dependent on the pH itself: Extending the chronic nickel bioavailability models. | Environ Toxicol Chem. 2016 May;35(5) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC20 | 21 | days | 469 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, Janssen CR, Van Sprang P, De Schamphelaere KA. | The effect of pH on chronic aquatic nickel toxicity is dependent on the pH itself: Extending the chronic nickel bioavailability models. | Environ Toxicol Chem. 2016 May;35(5) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 21 | days | 3606 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, Janssen CR, Van Sprang P, De Schamphelaere KA. | The effect of pH on chronic aquatic nickel toxicity is dependent on the pH itself: Extending the chronic nickel bioavailability models. | Environ Toxicol Chem. 2016 May;35(5) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | EC50 | 7 | days | ca.43~ca.52 | μg/L | 12 ECHA Information on Registered Substances | Nys C, Janssen CR, Blust R, Smolders E, de Schamphelaere KAC | Reproductive toxicity of binary and ternary mixture combinations of nickel, zinc, and lead to Ceriodaphnia dubia is best predicted with the independent action model | Environmental Toxicology & Chemistry; 35(7) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | body length of primiparous individuals (in | NOEC | 42 | days | 40 | μg/L | 12 ECHA Information on Registered Substances | Munzinger, A | Effects of nickel on Daphnia magna during chronic exposure and alterations in the toxicity to generations pre-exposed to nickel | Wat. Res. 24(7) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | % reduction in reproduction | 21 | days | 0.4 | mg/L | 12 ECHA Information on Registered Substances | Bozich J, Hang M, Hamers R, Klaper R | Core chemistry influences the toxicity of multicomponent metal oxide nanomaterials, lithium nickel manganese cobalt oxide, and lithium cobalt oxide to Daphnia magna | Environ Toxicol Chem; 36(9) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | LOEC | 10 | days | 62.4 | μgNi/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC10 | 7 | days | 28 | μg/L | 12 ECHA Information on Registered Substances | Nys C, van Regenmortal T, Janssen CR, Blust R, Smolders E, De Schamphelaere KAC | Comparison of chronic mixture toxicity of Nickel-Zinc-Copper and Nickel-Zinc-Copper-Cadmium mixtures between Ceriodaphnia Dubia and Pseudokirchneriella subcapitata | Environmental Toxicology and Chemistry. 36 (4) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 42 | days | 40 | μg/L | 12 ECHA Information on Registered Substances | Munzinger, A | Effects of nickel on Daphnia magna during chronic exposure and alterations in the toxicity to generations pre-exposed to nickel | Wat. Res. 24(7) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Survival | EC10 | 8 | days | 2 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 21 | days | 95 | μg/L | 12 ECHA Information on Registered Substances | Biesinger, K.E. and G.M. Christensen | Effects of various metals on survival, growth, reproduction, and metabolism of Daphnia magna | Journal of Fisheries Research Board of Canada. 29(12) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | LC10 | 21 | days | 250 | μg/L | 12 ECHA Information on Registered Substances | Pavlaki MD, Pereira R, Loureiro S, Soares AMVM | Effects of binary mixtures on the life traits of Daphnia magna | Ecotoxicology and Environmental Safety. 74 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 10 | days | 21.5 | μgNi/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 21 | days | 412 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, Janssen CR, Van Sprang P, De Schamphelaere KA. | The effect of pH on chronic aquatic nickel toxicity is dependent on the pH itself: Extending the chronic nickel bioavailability models. | Environ Toxicol Chem. 2016 May;35(5) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | LOEC | 21 | days | >=6.13~<=93.8 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 21 | days | 6.13~<=48.5 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | reproduction | EC10 | 21 | days | >=8.78~<=76.7 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC20 | 7 | days | 10.4 | μg/L | 12 ECHA Information on Registered Substances | Keithly, J., J.A. Brooker, D.K. DeForest, B.K. Wu, and K.V. Brix | Acute and chronic toxicity of nickel to a cladoceran (Ceriodaphnia dubia) and an amphipod (Hyallela azteca) | Environmental Toxicology and Chemistry, Vol. 23, No.3 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 10 | days | 38.6 | μgNi/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | mortality | LC20 | 21 | days | 300 | μg/L | 12 ECHA Information on Registered Substances | Pavlaki MD, Pereira R, Loureiro S, Soares AMVM | Effects of binary mixtures on the life traits of Daphnia magna | Ecotoxicology and Environmental Safety. 74 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | growth | NOEC | 11 | days | 21 | μg/L | 12 ECHA Information on Registered Substances | Pane, E.F., McGeer, J.C., and C.M. Wood. | Effects of Chronic Waterborne Nickel Exposure on Two Successive Generations of Daphnia magna. | Environ. Toxicol. Chem. 23 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 7 | days | 5.3~15.3 | μg/L | 12 ECHA Information on Registered Substances | Keithly, J., J.A. Brooker, D.K. DeForest, B.K. Wu, and K.V. Brix | Acute and chronic toxicity of nickel to a cladoceran (Ceriodaphnia dubia) and an amphipod (Hyallela azteca) | Environmental Toxicology and Chemistry, Vol. 23, No.3 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | LOEC | 42 | days | 80 | μg/L | 12 ECHA Information on Registered Substances | Munzinger, A | Effects of nickel on Daphnia magna during chronic exposure and alterations in the toxicity to generations pre-exposed to nickel | Wat. Res. 24(7) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC10 | 21 | days | 800 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, Janssen CR, Van Sprang P, De Schamphelaere KA. | The effect of pH on chronic aquatic nickel toxicity is dependent on the pH itself: Extending the chronic nickel bioavailability models. | Environ Toxicol Chem. 2016 May;35(5) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC10 | 21 | days | 109 | μg/L | 12 ECHA Information on Registered Substances | Nys C, Janssen CR, Van Sprang P, De Schamphelaere KA. | The effect of pH on chronic aquatic nickel toxicity is dependent on the pH itself: Extending the chronic nickel bioavailability models. | Environ Toxicol Chem. 2016 May;35(5) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC20 | 7 | days | 33 | μg/L | 12 ECHA Information on Registered Substances | Nys C, van Regenmortal T, Janssen CR, Blust R, Smolders E, De Schamphelaere KAC | Comparison of chronic mixture toxicity of Nickel-Zinc-Copper and Nickel-Zinc-Copper-Cadmium mixtures between Ceriodaphnia Dubia and Pseudokirchneriella subcapitata | Environmental Toxicology and Chemistry. 36 (4) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC20 | 7 | days | 11.9 | μg/L | 12 ECHA Information on Registered Substances | Keithly, J., J.A. Brooker, D.K. DeForest, B.K. Wu, and K.V. Brix | Acute and chronic toxicity of nickel to a cladoceran (Ceriodaphnia dubia) and an amphipod (Hyallela azteca) | Environmental Toxicology and Chemistry, Vol. 23, No.3 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC20 | 21 | days | 107 | μg/L | 12 ECHA Information on Registered Substances | Nys C, Janssen CR, Van Sprang P, De Schamphelaere KA. | The effect of pH on chronic aquatic nickel toxicity is dependent on the pH itself: Extending the chronic nickel bioavailability models. | Environ Toxicol Chem. 2016 May;35(5) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC20 | 7 | days | 6.9 | μg/L | 12 ECHA Information on Registered Substances | Keithly, J., J.A. Brooker, D.K. DeForest, B.K. Wu, and K.V. Brix | Acute and chronic toxicity of nickel to a cladoceran (Ceriodaphnia dubia) and an amphipod (Hyallela azteca) | Environmental Toxicology and Chemistry, Vol. 23, No.3 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 21 | days | 118 | μg/L | 12 ECHA Information on Registered Substances | Nys C, Asselman J, Hochmuth JD, Janssen CR, Blust R, Smolders E, and De Schamphelaere KAC | Mixture toxicity of nickel and zinc to Daphnia magna is noninteractive at low effect sizes but becomes synergistic at high effect sizes | Environmental Toxicology and Chemistry; 34(5) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 21 | days | 1035 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, Asselman J, Hochmuth JD, Janssen CR, Blust R, Smolders E, and De Schamphelaere KAC | Mixture toxicity of nickel and zinc to Daphnia magna is noninteractive at low effect sizes but becomes synergistic at high effect sizes | Environmental Toxicology and Chemistry; 34(5) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | survival | LOEC | 7 | days | 7.5 | μg/L | 12 ECHA Information on Registered Substances | Kszos, L.A., A.J. Stewart, and P.A. Taylor | An evaluation of nickel toxicity to Ceriodaphnia dubia and Daphnia magna in a contaminated stream and in laboratory tests | Environmental Toxicology and Chemistry. 11 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | LOEC | 10 | days | 34.9 | μgNi/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | EC50 | 7 | days | ca.478~ca.546 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, Janssen CR, Blust R, Smolders E, de Schamphelaere KAC | Reproductive toxicity of binary and ternary mixture combinations of nickel, zinc, and lead to Ceriodaphnia dubia is best predicted with the independent action model | Environmental Toxicology & Chemistry; 35(7) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | % mortality | 21 | days | 0.4 | mg/L | 12 ECHA Information on Registered Substances | Bozich J, Hang M, Hamers R, Klaper R | Core chemistry influences the toxicity of multicomponent metal oxide nanomaterials, lithium nickel manganese cobalt oxide, and lithium cobalt oxide to Daphnia magna | Environ Toxicol Chem; 36(9) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Mortality/Mortality | NR-LETH | 7 | days | 7.5 | μg/L | × | 16 ECOTOX | Kszos,L.A., A.J. Stewart, and P.A. Taylor | An Evaluation of Nickel Toxicity to Ceriodaphnia dubia and Daphnia magna in a Contaminated Stream and in Laboratory Tests | Environ. Toxicol. Chem.11(7) | 2020/11/12 | ||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 10 | days | 20.2 | μgNi/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | LOEC | 10 | days | 33.4 | μgNi/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 21 | days | 492 | μg/L | 12 ECHA Information on Registered Substances | Nys C, Janssen CR, Van Sprang P, De Schamphelaere KA. | The effect of pH on chronic aquatic nickel toxicity is dependent on the pH itself: Extending the chronic nickel bioavailability models. | Environ Toxicol Chem. 2016 May;35(5) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC20 | 21 | days | >=12.7~<=84.3 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Chironomus riparius | Growth/Growth, general | MATC | 30 | days | 1100 | μg/L | ○ | 16 ECOTOX | Powlesland,C., and J. George | Acute and Chronic Toxicity of Nickel to Larvae of Chironomus riparis (Meigen) | Environ. Pollut. A.42(1) | 2020/11/12 | ||||||
| 甲殻類 | Ceriodaphnia dubia | survival and reproduction | NOEC | 7 | days | 7.5 | μg/L | 12 ECHA Information on Registered Substances | Kszos, L.A., A.J. Stewart, and P.A. Taylor | An evaluation of nickel toxicity to Ceriodaphnia dubia and Daphnia magna in a contaminated stream and in laboratory tests | Environmental Toxicology and Chemistry. 11 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC16 | 21 | days | 30 | μg/L | 12 ECHA Information on Registered Substances | Biesinger, K.E. and G.M. Christensen | Effects of various metals on survival, growth, reproduction, and metabolism of Daphnia magna | Journal of Fisheries Research Board of Canada. 29(12) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | body length of primiparous individuals (in | LOEC | 42 | days | 80 | μg/L | 12 ECHA Information on Registered Substances | Munzinger, A | Effects of nickel on Daphnia magna during chronic exposure and alterations in the toxicity to generations pre-exposed to nickel | Wat. Res. 24(7) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | NOEC | 21 | days | >=37~<=150 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | growth | LOEC | 21 | days | 80 | μg/L | 12 ECHA Information on Registered Substances | Perez E, Hoang TC | Responses of Daphnia magna to chronic exposure of cadium and nickel mixtures | Chemosphere. 208 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC20 | 32.6 | μg/L | 12 ECHA Information on Registered Substances | Pereira CMS, Everaert G, Blust R, De Schamphelaere KAC | Multigenerational effects of nickel on Daphnia magna depend on temperature and the magnitude of the effect in the first generation | Environmental Toxicology and Chemistry 37 | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | Survival | EC10 | 8 | days | 3.6 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 10 | days | <8.3 | μgNi/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | mortality | LOEC | 21 | days | >37.4~<=257 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC20 | 7 | days | <3.8 | μg/L | 12 ECHA Information on Registered Substances | Keithly, J., J.A. Brooker, D.K. DeForest, B.K. Wu, and K.V. Brix | Acute and chronic toxicity of nickel to a cladoceran (Ceriodaphnia dubia) and an amphipod (Hyallela azteca) | Environmental Toxicology and Chemistry, Vol. 23, No.3 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC50 | 7 | days | 43 | μg/L | 12 ECHA Information on Registered Substances | Nys C, van Regenmortal T, Janssen CR, Blust R, Smolders E, De Schamphelaere KAC | Comparison of chronic mixture toxicity of Nickel-Zinc-Copper and Nickel-Zinc-Copper-Cadmium mixtures between Ceriodaphnia Dubia and Pseudokirchneriella subcapitata | Environmental Toxicology and Chemistry. 36 (4) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC20 | 7 | days | 4.7 | μg/L | 12 ECHA Information on Registered Substances | Keithly, J., J.A. Brooker, D.K. DeForest, B.K. Wu, and K.V. Brix | Acute and chronic toxicity of nickel to a cladoceran (Ceriodaphnia dubia) and an amphipod (Hyallela azteca) | Environmental Toxicology and Chemistry, Vol. 23, No.3 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC20 | 7 | days | 303 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, van Regenmortal T, Janssen CR, Blust R, Smolders E, De Schamphelaere KAC | Comparison of chronic mixture toxicity of Nickel-Zinc-Copper and Nickel-Zinc-Copper-Cadmium mixtures between Ceriodaphnia Dubia and Pseudokirchneriella subcapitata | Environmental Toxicology and Chemistry. 36 (4) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Survival | EC10 | 7 | days | 4.9 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | LOEC | 21 | days | 80 | μg/L | 12 ECHA Information on Registered Substances | Perez E, Hoang TC | Responses of Daphnia magna to chronic exposure of cadium and nickel mixtures | Chemosphere. 208 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC50 | 7 | days | 400 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, van Regenmortal T, Janssen CR, Blust R, Smolders E, De Schamphelaere KAC | Comparison of chronic mixture toxicity of Nickel-Zinc-Copper and Nickel-Zinc-Copper-Cadmium mixtures between Ceriodaphnia Dubia and Pseudokirchneriella subcapitata | Environmental Toxicology and Chemistry. 36 (4) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 21 | days | 40 | μg/L | 12 ECHA Information on Registered Substances | Perez E, Hoang TC | Responses of Daphnia magna to chronic exposure of cadium and nickel mixtures | Chemosphere. 208 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC20 | 7 | days | 4 | μg/L | 12 ECHA Information on Registered Substances | Keithly, J., J.A. Brooker, D.K. DeForest, B.K. Wu, and K.V. Brix | Acute and chronic toxicity of nickel to a cladoceran (Ceriodaphnia dubia) and an amphipod (Hyallela azteca) | Environmental Toxicology and Chemistry, Vol. 23, No.3 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC20 | 7 | days | 14 | μg/L | 12 ECHA Information on Registered Substances | Nys C, van Regenmortal T, Janssen CR, Blust R, Smolders E, De Schamphelaere KAC | Comparison of chronic mixture toxicity of Nickel-Zinc-Copper and Nickel-Zinc-Copper-Cadmium mixtures between Ceriodaphnia Dubia and Pseudokirchneriella subcapitata | Environmental Toxicology and Chemistry. 36 (4) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC10 | 18.8 | μg/L | 12 ECHA Information on Registered Substances | Pereira CMS, Everaert G, Blust R, De Schamphelaere KAC | Multigenerational effects of nickel on Daphnia magna depend on temperature and the magnitude of the effect in the first generation | Environmental Toxicology and Chemistry 37 | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 75.1 | μg/L | 12 ECHA Information on Registered Substances | Pereira CMS, Everaert G, Blust R, De Schamphelaere KAC | Multigenerational effects of nickel on Daphnia magna depend on temperature and the magnitude of the effect in the first generation | Environmental Toxicology and Chemistry 37 | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | EC20 | 105.2 | μg/L | 12 ECHA Information on Registered Substances | Pereira CMS, Everaert G, Blust R, De Schamphelaere KAC | Multigenerational effects of nickel on Daphnia magna depend on temperature and the magnitude of the effect in the first generation | Environmental Toxicology and Chemistry 37 | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | Survival | EC50 | 7 | days | 11.8 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 21 | days | >37.4~<=144 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Ceriodaphnia dubia | Survival | EC50 | 8 | days | 20.1 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC50 | 7 | days | 27 | μg/L | 12 ECHA Information on Registered Substances | Nys C, van Regenmortal T, Janssen CR, Blust R, Smolders E, De Schamphelaere KAC | Comparison of chronic mixture toxicity of Nickel-Zinc-Copper and Nickel-Zinc-Copper-Cadmium mixtures between Ceriodaphnia Dubia and Pseudokirchneriella subcapitata | Environmental Toxicology and Chemistry. 36 (4) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 21 | days | 1652 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, Asselman J, Hochmuth JD, Janssen CR, Blust R, Smolders E, and De Schamphelaere KAC | Mixture toxicity of nickel and zinc to Daphnia magna is noninteractive at low effect sizes but becomes synergistic at high effect sizes | Environmental Toxicology and Chemistry; 34(5) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 10 | days | <12.2 | μgNi/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 82.1 | μg/L | 12 ECHA Information on Registered Substances | Pereira CMS, Everaert G, Blust R, De Schamphelaere KAC | Multigenerational effects of nickel on Daphnia magna depend on temperature and the magnitude of the effect in the first generation | Environmental Toxicology and Chemistry 37 | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | EC10 | 98.5 | μg/L | 12 ECHA Information on Registered Substances | Pereira CMS, Everaert G, Blust R, De Schamphelaere KAC | Multigenerational effects of nickel on Daphnia magna depend on temperature and the magnitude of the effect in the first generation | Environmental Toxicology and Chemistry 37 | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 129.1 | μg/L | 12 ECHA Information on Registered Substances | Pereira CMS, Everaert G, Blust R, De Schamphelaere KAC | Multigenerational effects of nickel on Daphnia magna depend on temperature and the magnitude of the effect in the first generation | Environmental Toxicology and Chemistry 37 | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 143.2 | μg/L | 12 ECHA Information on Registered Substances | Pereira CMS, Everaert G, Blust R, De Schamphelaere KAC | Multigenerational effects of nickel on Daphnia magna depend on temperature and the magnitude of the effect in the first generation | Environmental Toxicology and Chemistry 37 | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | mortality | LC20 | 7 | days | 4.8 | μg/L | 12 ECHA Information on Registered Substances | Keithly, J., J.A. Brooker, D.K. DeForest, B.K. Wu, and K.V. Brix | Acute and chronic toxicity of nickel to a cladoceran (Ceriodaphnia dubia) and an amphipod (Hyallela azteca) | Environmental Toxicology and Chemistry, Vol. 23, No.3 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality, growth and reproduction | NOEC | 21 | days | 0.2 | mg/L | 12 ECHA Information on Registered Substances | Enserink, E.L., J.L. Maas-Diepeveen, and C.J. Van Leeuwen | Combined effects of metals; an ecotoxicological evaluation | Wat. Res. 25(6) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC20 | 113.1 | μg/L | 12 ECHA Information on Registered Substances | Pereira CMS, Everaert G, Blust R, De Schamphelaere KAC | Multigenerational effects of nickel on Daphnia magna depend on temperature and the magnitude of the effect in the first generation | Environmental Toxicology and Chemistry 37 | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 21 | days | >=23.6~<=108 | μg/L | ○ | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | ||||||||
| 甲殻類 | Daphnia magna | reproduction | LOEC | 8 | weeks | 160 | μg/L | 12 ECHA Information on Registered Substances | Munzinger, A | The influence of Nickel on population dynamics and on some demographic parameters of Daphnia magna | Hydrobiologia. 277 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | survival and reproduction | NOEC | 7 | days | 3.8 | μg/L | 12 ECHA Information on Registered Substances | Kszos, L.A., A.J. Stewart, and P.A. Taylor | An evaluation of nickel toxicity to Ceriodaphnia dubia and Daphnia magna in a contaminated stream and in laboratory tests | Environmental Toxicology and Chemistry. 11 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC10 | 7 | days | >2.8~<53.6 | μg/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 21 | days | >=160 | μg/L | 12 ECHA Information on Registered Substances | Perez E, Hoang TC | Responses of Daphnia magna to chronic exposure of cadium and nickel mixtures | Chemosphere. 208 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | growth | NOEC | 21 | days | 40 | μg/L | 12 ECHA Information on Registered Substances | Perez E, Hoang TC | Responses of Daphnia magna to chronic exposure of cadium and nickel mixtures | Chemosphere. 208 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC50 | 7 | days | 240 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, van Regenmortal T, Janssen CR, Blust R, Smolders E, De Schamphelaere KAC | Comparison of chronic mixture toxicity of Nickel-Zinc-Copper and Nickel-Zinc-Copper-Cadmium mixtures between Ceriodaphnia Dubia and Pseudokirchneriella subcapitata | Environmental Toxicology and Chemistry. 36 (4) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | LC100 | 15 | days | 350 | μg/L | 12 ECHA Information on Registered Substances | Pavlaki MD, Pereira R, Loureiro S, Soares AMVM | Effects of binary mixtures on the life traits of Daphnia magna | Ecotoxicology and Environmental Safety. 74 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC10 | 93.3 | μg/L | 12 ECHA Information on Registered Substances | Pereira CMS, Everaert G, Blust R, De Schamphelaere KAC | Multigenerational effects of nickel on Daphnia magna depend on temperature and the magnitude of the effect in the first generation | Environmental Toxicology and Chemistry 37 | 2021/03/02 | |||||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC20 | 7 | days | 120 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, van Regenmortal T, Janssen CR, Blust R, Smolders E, De Schamphelaere KAC | Comparison of chronic mixture toxicity of Nickel-Zinc-Copper and Nickel-Zinc-Copper-Cadmium mixtures between Ceriodaphnia Dubia and Pseudokirchneriella subcapitata | Environmental Toxicology and Chemistry. 36 (4) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC10 | 21 | days | 94 | μg/L | 12 ECHA Information on Registered Substances | Nys C, Janssen CR, Van Sprang P, De Schamphelaere KA. | The effect of pH on chronic aquatic nickel toxicity is dependent on the pH itself: Extending the chronic nickel bioavailability models. | Environ Toxicol Chem. 2016 May;35(5) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | NOEC | 10 | days | <3.7 | μgNi/L | 12 ECHA Information on Registered Substances | study report | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | mortality, growth and reproduction | LOEC | 21 | days | 0.32 | mg/L | 12 ECHA Information on Registered Substances | Enserink, E.L., J.L. Maas-Diepeveen, and C.J. Van Leeuwen | Combined effects of metals; an ecotoxicological evaluation | Wat. Res. 25(6) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC20 | 40 | μg/L | 12 ECHA Information on Registered Substances | Pereira CMS, Everaert G, Blust R, De Schamphelaere KAC | Multigenerational effects of nickel on Daphnia magna depend on temperature and the magnitude of the effect in the first generation | Environmental Toxicology and Chemistry 37 | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | survival and reproduction | NOEC | 21 | days | 90 | μg/L | 12 ECHA Information on Registered Substances | Kuhn, R., M. Pattard, K-D. Pernak, and A. Winter | Results of the harmful effects of water pollutants to Daphnia magna in the 21 day reproduction test | Water Res. 23(4) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 21 | days | 289.29 | μg/L | 12 ECHA Information on Registered Substances | Pavlaki MD, Pereira R, Loureiro S, Soares AMVM | Effects of binary mixtures on the life traits of Daphnia magna | Ecotoxicology and Environmental Safety. 74 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Survival | EC10 | 8 | days | 6.2 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | Survival | EC50 | 8 | days | 6.7 | μg/L | 12 ECHA Information on Registered Substances | Peters A, Merrington G, Schlekat C, De Schamphelaere K, Stauber J, Batley G, Harford A, van Dam R, Pease C, Mooney T, Warne M, Hickey C, Glazebrook P, Chapman J, Smith R, Krassoi R | Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters | Environmental Toxicology and Chemistry. 37 (10) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC10 | 24.4 | μg/L | 12 ECHA Information on Registered Substances | Pereira CMS, Everaert G, Blust R, De Schamphelaere KAC | Multigenerational effects of nickel on Daphnia magna depend on temperature and the magnitude of the effect in the first generation | Environmental Toxicology and Chemistry 37 | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 17.3 | μg/L | 12 ECHA Information on Registered Substances | Pereira CMS, Everaert G, Blust R, De Schamphelaere KAC | Multigenerational effects of nickel on Daphnia magna depend on temperature and the magnitude of the effect in the first generation | Environmental Toxicology and Chemistry 37 | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | for 105 mg/L hardness test | ChV | 21 | days | 129 | μg/L | 12 ECHA Information on Registered Substances | government document | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | reproduction | LOEC | 21 | days | 80 | μg/L | 12 ECHA Information on Registered Substances | Perez E, Hoang TC | Responses of Daphnia magna to chronic exposure of cadium and nickel mixtures | Chemosphere. 208 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC10 | 7 | days | 81 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, van Regenmortal T, Janssen CR, Blust R, Smolders E, De Schamphelaere KAC | Comparison of chronic mixture toxicity of Nickel-Zinc-Copper and Nickel-Zinc-Copper-Cadmium mixtures between Ceriodaphnia Dubia and Pseudokirchneriella subcapitata | Environmental Toxicology and Chemistry. 36 (4) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | NOEC | 8 | weeks | 120 | μg/L | 12 ECHA Information on Registered Substances | Munzinger, A | The influence of Nickel on population dynamics and on some demographic parameters of Daphnia magna | Hydrobiologia. 277 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | reproduction | EC10 | 7 | days | 10 | μg/L | 12 ECHA Information on Registered Substances | Nys C, van Regenmortal T, Janssen CR, Blust R, Smolders E, De Schamphelaere KAC | Comparison of chronic mixture toxicity of Nickel-Zinc-Copper and Nickel-Zinc-Copper-Cadmium mixtures between Ceriodaphnia Dubia and Pseudokirchneriella subcapitata | Environmental Toxicology and Chemistry. 36 (4) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | 51 mg/L hardness test | EC50 | 21 | days | 14.8 | μg/L | 12 ECHA Information on Registered Substances | government document | 2021/03/02 | |||||||||
| 甲殻類 | Daphnia magna | Reproduction and growth of Fo generation | NOEC | 21 | days | 42 | μg/L | 12 ECHA Information on Registered Substances | Pane, E.F., McGeer, J.C., and C.M. Wood. | Effects of Chronic Waterborne Nickel Exposure on Two Successive Generations of Daphnia magna. | Environ. Toxicol. Chem. 23 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC50 | 21 | days | 584 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, Janssen CR, Van Sprang P, De Schamphelaere KA. | The effect of pH on chronic aquatic nickel toxicity is dependent on the pH itself: Extending the chronic nickel bioavailability models. | Environ Toxicol Chem. 2016 May;35(5) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 21 | days | 130 | μg/L | 12 ECHA Information on Registered Substances | Biesinger, K.E. and G.M. Christensen | Effects of various metals on survival, growth, reproduction, and metabolism of Daphnia magna | Journal of Fisheries Research Board of Canada. 29(12) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | mortality | LC50 | 21 | days | 71.9 | μg/L | 12 ECHA Information on Registered Substances | Pane, E.F., McGeer, J.C., and C.M. Wood. | Effects of Chronic Waterborne Nickel Exposure on Two Successive Generations of Daphnia magna. | Environ. Toxicol. Chem. 23 | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC20 | 21 | days | 1398 | nmol/L | 12 ECHA Information on Registered Substances | Nys C, Janssen CR, Van Sprang P, De Schamphelaere KA. | The effect of pH on chronic aquatic nickel toxicity is dependent on the pH itself: Extending the chronic nickel bioavailability models. | Environ Toxicol Chem. 2016 May;35(5) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | reproduction | EC20 | 21 | days | 191 | μg/L | 12 ECHA Information on Registered Substances | Nys C, Janssen CR, Van Sprang P, De Schamphelaere KA. | The effect of pH on chronic aquatic nickel toxicity is dependent on the pH itself: Extending the chronic nickel bioavailability models. | Environ Toxicol Chem. 2016 May;35(5) | 2021/03/02 | |||||||
| 甲殻類 | Daphnia magna | Reproduction and growth of Fo generation | LOEC | 21 | days | 85 | μg/L | 12 ECHA Information on Registered Substances | Pane, E.F., McGeer, J.C., and C.M. Wood. | Effects of Chronic Waterborne Nickel Exposure on Two Successive Generations of Daphnia magna. | Environ. Toxicol. Chem. 23 | 2021/03/02 | |||||||
| 甲殻類 | Ceriodaphnia dubia | survival | LOEC | 7 | days | 15 | μg/L | 12 ECHA Information on Registered Substances | Kszos, L.A., A.J. Stewart, and P.A. Taylor | An evaluation of nickel toxicity to Ceriodaphnia dubia and Daphnia magna in a contaminated stream and in laboratory tests | Environmental Toxicology and Chemistry. 11 | 2021/03/02 | |||||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality/Mortality | NR-LETH | 10 | days | 800 | μg/L | × | 16 ECOTOX | Jones,J.R.E. | The Relation Between the Electrolytic Solution Pressures of the Metals and Their Toxicity to the Stickleback (Gasterosteus aculeatus L.) | J. Exp. Biol.16(4) | 2020/11/12 | ||||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | 10 | days | 800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jones,J.R.E. | The Relation Between the Electrolytic Solution Pressures of the Metals and Their Toxicity to the Stickleback (Gasterosteus aculeatus L.) | J. Exp. Biol.16(4): 425-437 | 1939 | 2017/03/15 | |||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Reproduction | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 35500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hale,J.G. | Toxicity of Metal Mining Wastes | Bull. Environ. Contam. Toxicol.17(1): 66-73 | 1977 | 2017/03/15 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 10600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rehwoldt,R., G. Bida, and B. Nerrie | Acute Toxicity of Copper, Nickel, and Zinc Ions to Some Hudson River Fish Species | Bull. Environ. Contam. Toxicol.6(5): 445-448 | 1971 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 1 | days | 38200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rehwoldt,R., G. Bida, and B. Nerrie | Acute Toxicity of Copper, Nickel, and Zinc Ions to Some Hudson River Fish Species | Bull. Environ. Contam. Toxicol.6(5): 445-448 | 1971 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 2 | days | 29100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rehwoldt,R., G. Bida, and B. Nerrie | Acute Toxicity of Copper, Nickel, and Zinc Ions to Some Hudson River Fish Species | Bull. Environ. Contam. Toxicol.6(5): 445-448 | 1971 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Reproduction | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Reproduction | LOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2017/03/15 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Reproduction | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Reproduction | LOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Mortality | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality | LC50 | 4 | days | 35500 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Hale,J.G. | Toxicity of Metal Mining Wastes | Bull. Environ. Contam. Toxicol.17(1): 66-73 | 1977 | 2016/03/25 | ||||||
| 魚類 | Gasterosteus aculeatus (Three-spined stickleback) | Mortality | 10 | days | 800 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Jones,J.R.E. | The Relation Between the Electrolytic Solution Pressures of the Metals and Their Toxicity to the Stickleback (Gasterosteus aculeatus L.) | J. Exp. Biol.16(4): 425-437 | 1939 | 2016/03/25 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 2 | days | 29100 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rehwoldt,R., G. Bida, and B. Nerrie | Acute Toxicity of Copper, Nickel, and Zinc Ions to Some Hudson River Fish Species | Bull. Environ. Contam. Toxicol.6(5): 445-448 | 1971 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 4 | days | 10600 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rehwoldt,R., G. Bida, and B. Nerrie | Acute Toxicity of Copper, Nickel, and Zinc Ions to Some Hudson River Fish Species | Bull. Environ. Contam. Toxicol.6(5): 445-448 | 1971 | 2016/03/25 | ||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 1 | days | 38200 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Rehwoldt,R., G. Bida, and B. Nerrie | Acute Toxicity of Copper, Nickel, and Zinc Ions to Some Hudson River Fish Species | Bull. Environ. Contam. Toxicol.6(5): 445-448 | 1971 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Reproduction | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Biochemical | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Growth | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Pimephales promelas (Fathead minnow) | Accumulation | NOEC | 21 | days | 91.33 | μg/L | 16 US EPA AQUIRE (AQUatic toxicity Information REtrieval) | Ouellette,J.D., M.G. Dube, and S. Niyogi | A Single Metal, Metal Mixture, and Whole-Effluent Approach to Investigate Causes of Metal Mine Effluent Effects on Fathead Minnows (Pimephales promelas) | Water Air Soil Pollut.224(1462): 44 p. | 2013 | 2016/03/25 | ||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 48 | hours | 82.1 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 96 | hours | 1.54 | mg/L | 12 ECHA Information on Registered Substances | Alam, M.K. and O.E. Maughan | The effect of malathion, diazinon, and various concentrations of zinc, copper, nickel, lead, iron, and mercury on fish | Biological Trace Element Research. 34 | 2021/03/02 | |||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 24 | hours | 41.7 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | number of eggs/spawning and hatchability | LOEC | 7 | days | 0.73 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. | Chronic toxicity of nickel to the fathead minnow | J. Water Pollut. Control Fed. 46(4) | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 24 | hours | 38.76 | mg/L | 12 ECHA Information on Registered Substances | Ghosh A, Kaviraj A, Saha S | Deposition, acute toxicity, and bioaccumulation of nickel in some freshwater organisms with best-fit functions modeling | Environ Sci Pollut Res 25 | 2021/03/02 | |||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 48 | hours | 15.9 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 120 | hours | 0.6 | mg/L | 12 ECHA Information on Registered Substances | Krzykwa JC, Saeid A, Jeffries MKS | Identifying sublethal endpoints for evaluating neurotoxic compounds utilizing the fish embryo toxicity test | Ecotoxicology and Environmental Safety 170 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 1.68 | mg/L | 12 ECHA Information on Registered Substances | Hoang, T.C., J.R. Tomasso, and S.J. Klaine | Influence of water quality and age on nickel toxicity to fathead minnows (Pimephales promelas) | Environ. Toxicol. Chem. Vol. 23, No. 1 | 2021/03/02 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | NOEC | 168 | hours | 50 | mg/L | 12 ECHA Information on Registered Substances | Eisler, R. and R.J. Hennekey | Acute toxicities of Cd+2, Cr+6, Hg2+, Ni2+ and Zn2+ to estuarine macrofauna | Arch. Environ. Contam. Toxicol. 6 | 2021/03/02 | ||||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | mortality | LC50 | 96 | hours | 2.7 | mg/L | 12 ECHA Information on Registered Substances | Bielmyer GK, DeCarlo C, Morris C, and Carrigan T. | The influence of salinity on acute nickel toxicity to the two euryhaline fish species, Fundulus heteroclitus and Kryptolebias marmoratus. | Environmental Toxicology and Chemistry; 32(6) | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 0.4 | mg/L | 12 ECHA Information on Registered Substances | Hoang, T.C., J.R. Tomasso, and S.J. Klaine | Influence of water quality and age on nickel toxicity to fathead minnows (Pimephales promelas) | Environ. Toxicol. Chem. Vol. 23, No. 1 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | enzyme activities | NOEC | 7 | days | >=1.8 | μmol nickel/g tissue | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | |||||||||
| 魚類 | Pimephales promelas | mortality | LOEC | 30 | days | 433.5 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | mortality | LC50 | 96 | hours | 45.2 | mg/L | 12 ECHA Information on Registered Substances | Bielmyer GK, DeCarlo C, Morris C, and Carrigan T. | The influence of salinity on acute nickel toxicity to the two euryhaline fish species, Fundulus heteroclitus and Kryptolebias marmoratus. | Environmental Toxicology and Chemistry; 32(6) | 2021/03/02 | |||||||
| 魚類 | Carassius auratus (Goldfish) | mortality | LC50 | 48 | hours | 20.5 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | LC100 | 168 | hours | 250 | mg/L | 12 ECHA Information on Registered Substances | Eisler, R. and R.J. Hennekey | Acute toxicities of Cd+2, Cr+6, Hg2+, Ni2+ and Zn2+ to estuarine macrofauna | Arch. Environ. Contam. Toxicol. 6 | 2021/03/02 | ||||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | LC50 | 168 | hours | 150 | mg/L | 12 ECHA Information on Registered Substances | Eisler, R. and R.J. Hennekey | Acute toxicities of Cd+2, Cr+6, Hg2+, Ni2+ and Zn2+ to estuarine macrofauna | Arch. Environ. Contam. Toxicol. 6 | 2021/03/02 | ||||||||
| 魚類 | Carassius auratus (Goldfish) | mortality | LC50 | 96 | hours | 9.82 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 96 | hours | 6.16 | mg/L | 12 ECHA Information on Registered Substances | Blaylock, B.G. and M.L. Frank. | A comparison of the toxicity of nickel to the developing eggs and larvae of carp (Cyprinus carpio). | Bull. Environ. Contam. Toxicol. 21(4/5) | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 72 | hours | 8.46 | mg/L | 12 ECHA Information on Registered Substances | Blaylock, B.G. and M.L. Frank. | A comparison of the toxicity of nickel to the developing eggs and larvae of carp (Cyprinus carpio). | Bull. Environ. Contam. Toxicol. 21(4/5) | 2021/03/02 | |||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 24 | hours | 11.3 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | mortality | LC50 | 96 | hours | 6.98 | mg/L | 12 ECHA Information on Registered Substances | Bielmyer GK, DeCarlo C, Morris C, and Carrigan T. | The influence of salinity on acute nickel toxicity to the two euryhaline fish species, Fundulus heteroclitus and Kryptolebias marmoratus. | Environmental Toxicology and Chemistry; 32(6) | 2021/03/02 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | mortality | LC50 | 240 | hours | 31.15 | mg/L | 12 ECHA Information on Registered Substances | Khangarot, B.S. and P.K. Ray | Acute toxicity and toxic interaction of chromium and nickel to common guppy Poecilla reticulata (Peters). | Bull. Environ. Contam. Toxicol. 44 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 0.5 | mg/L | 12 ECHA Information on Registered Substances | Pyle, G.G., S.M. Swanson, and D.M. Lehmkuhl | The influence of water hardness, pH, and suspended solids on nickel toxicity to larval fathead minnows (Pimephales promelas) | Water, Air, and Soil Pollution. 133 | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality/Mortality | LC50 | 48 | hours | 29100 | μg/L | × | 16 ECOTOX | Rehwoldt,R., G. Bida, and B. Nerrie | Acute Toxicity of Copper, Nickel, and Zinc Ions to Some Hudson River Fish Species | Bull. Environ. Contam. Toxicol.6(5) | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | LC50 | 96 | hours | 40 | mg/L | 12 ECHA Information on Registered Substances | Ewell, W.S., J.W. Gorsuch, R.O. Kringle, K.A. Robillard, and R.C. Spiegel | Simultaneous evaluation of the acute effects of chemicals on seven aquatic species | Environmental Toxicology and Chemistry. 5 | 2021/03/02 | ||||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 2916~17678 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | mortality | LC50 | 24 | hours | 336 | mg/L | 12 ECHA Information on Registered Substances | Khunyakari, R.P., V. Tare, and R.N. Sharma. | Effects of some trace heavy metals on Poecilia reticulata (Peters). | Journal of Environmental Biology. 22(2) | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 42.4 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 96 | hours | 21.2 | mg/L | 12 ECHA Information on Registered Substances | Cairns, J., K.W. Thompson, and A.C. Hendricks | Effects of Fluctuating, Sublethal Applications of Heavy Metal Solutions Upon the Gill Ventilation Response of Bluegills (Lepomis macrochirus) | PB81-150997 or EPA-600/3-81-003 | 2021/03/02 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | mortality | LC50 | 48 | hours | 204.2 | mg/L | 12 ECHA Information on Registered Substances | Khunyakari, R.P., V. Tare, and R.N. Sharma. | Effects of some trace heavy metals on Poecilia reticulata (Peters). | Journal of Environmental Biology. 22(2) | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 96 | hours | 14.7 | mg/L | 12 ECHA Information on Registered Substances | Ghosh A, Kaviraj A, Saha S | Deposition, acute toxicity, and bioaccumulation of nickel in some freshwater organisms with best-fit functions modeling | Environ Sci Pollut Res 25 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 0.45 | mg/L | 12 ECHA Information on Registered Substances | Pyle, G.G., S.M. Swanson, and D.M. Lehmkuhl | The influence of water hardness, pH, and suspended solids on nickel toxicity to larval fathead minnows (Pimephales promelas) | Water, Air, and Soil Pollution. 133 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 2.27 | mg/L | 12 ECHA Information on Registered Substances | Pyle, G.G., S.M. Swanson, and D.M. Lehmkuhl | The influence of water hardness, pH, and suspended solids on nickel toxicity to larval fathead minnows (Pimephales promelas) | Water, Air, and Soil Pollution. 133 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 32 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. | Chronic toxicity of nickel to the fathead minnow | J. Water Pollut. Control Fed. 46(4) | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality/Mortality | LC50 | 24 | hours | 38200 | μg/L | × | 16 ECOTOX | Rehwoldt,R., G. Bida, and B. Nerrie | Acute Toxicity of Copper, Nickel, and Zinc Ions to Some Hudson River Fish Species | Bull. Environ. Contam. Toxicol.6(5) | 2020/11/12 | ||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | TLm | 96 | hours | 10.4~10.6 | mg/L | 12 ECHA Information on Registered Substances | Rehwoldt, R., G. Bida, and B. Nerrie. | Acute toxicity of copper, nickel and zinc ions to some Hudson River fish species. | Bull. Environ. Contam. Toxicol. 6(5) | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 28 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. | Chronic toxicity of nickel to the fathead minnow | J. Water Pollut. Control Fed. 46(4) | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 1.12 | mg/L | 12 ECHA Information on Registered Substances | Pyle, G.G., S.M. Swanson, and D.M. Lehmkuhl | The influence of water hardness, pH, and suspended solids on nickel toxicity to larval fathead minnows (Pimephales promelas) | Water, Air, and Soil Pollution. 133 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 4.58 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | mortality | LC50 | 72 | hours | 50.12 | mg/L | 12 ECHA Information on Registered Substances | Khangarot, B.S. and P.K. Ray | Acute toxicity and toxic interaction of chromium and nickel to common guppy Poecilla reticulata (Peters). | Bull. Environ. Contam. Toxicol. 44 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | >4000 | μg/L | 12 ECHA Information on Registered Substances | Schubauer-Berigan, M.K., J.R. Dierkes, P.D. Monson, and G.T. Ankley | pH-Dependent toxicity of Cd, Cu, Ni, Pb and Zn to Ceriodaphnia dubia, Pimephales Promelas, Hyalella azteca and Lumbriculus variegates | Environmental Toxicology and Chemistry. 12 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 3100 | μg/L | 12 ECHA Information on Registered Substances | Schubauer-Berigan, M.K., J.R. Dierkes, P.D. Monson, and G.T. Ankley | pH-Dependent toxicity of Cd, Cu, Ni, Pb and Zn to Ceriodaphnia dubia, Pimephales Promelas, Hyalella azteca and Lumbriculus variegates | Environmental Toxicology and Chemistry. 12 | 2021/03/02 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | mortality | LC50 | 96 | hours | 36 | mg/L | 12 ECHA Information on Registered Substances | Khangarot, B.S. and P.K. Ray | Acute toxicity and toxic interaction of chromium and nickel to common guppy Poecilla reticulata (Peters). | Bull. Environ. Contam. Toxicol. 44 | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality/Mortality | LC50 | 96 | hours | 10600 | μg/L | × | 16 ECOTOX | Rehwoldt,R., G. Bida, and B. Nerrie | Acute Toxicity of Copper, Nickel, and Zinc Ions to Some Hudson River Fish Species | Bull. Environ. Contam. Toxicol.6(5) | 2020/11/12 | ||||||
| 魚類 | Poecilia reticulata (Guppy) | mortality | LC50 | 168 | hours | 33.11 | mg/L | 12 ECHA Information on Registered Substances | Khangarot, B.S. and P.K. Ray | Acute toxicity and toxic interaction of chromium and nickel to common guppy Poecilla reticulata (Peters). | Bull. Environ. Contam. Toxicol. 44 | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 72 | hours | 8.46 | mgNi/L | 12 ECHA Information on Registered Substances | Blaylock, B.G. and M.L. Frank. | A comparison of the toxicity of nickel to the developing eggs and larvae of carp (Cyprinus carpio). | Bull. Environ. Contam. Toxicol. 21(4/5) | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 3400 | μg/L | 12 ECHA Information on Registered Substances | Schubauer-Berigan, M.K., J.R. Dierkes, P.D. Monson, and G.T. Ankley | pH-Dependent toxicity of Cd, Cu, Ni, Pb and Zn to Ceriodaphnia dubia, Pimephales Promelas, Hyalella azteca and Lumbriculus variegates | Environmental Toxicology and Chemistry. 12 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 5.18 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 25 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. | Chronic toxicity of nickel to the fathead minnow | J. Water Pollut. Control Fed. 46(4) | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 0.35 | mg/L | 12 ECHA Information on Registered Substances | Pyle, G.G., S.M. Swanson, and D.M. Lehmkuhl | The influence of water hardness, pH, and suspended solids on nickel toxicity to larval fathead minnows (Pimephales promelas) | Water, Air, and Soil Pollution. 133 | 2021/03/02 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | mortality | LC50 | 24 | hours | 95 | mg/L | 12 ECHA Information on Registered Substances | Khangarot, B.S. and P.K. Ray | Acute toxicity and toxic interaction of chromium and nickel to common guppy Poecilla reticulata (Peters). | Bull. Environ. Contam. Toxicol. 44 | 2021/03/02 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | mortality | LC50 | 48 | hours | 63 | mg/L | 12 ECHA Information on Registered Substances | Khangarot, B.S. and P.K. Ray | Acute toxicity and toxic interaction of chromium and nickel to common guppy Poecilla reticulata (Peters). | Bull. Environ. Contam. Toxicol. 44 | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 233 | hours | 1.3 | mgNi/L | 12 ECHA Information on Registered Substances | Blaylock, B.G. and M.L. Frank. | A comparison of the toxicity of nickel to the developing eggs and larvae of carp (Cyprinus carpio). | Bull. Environ. Contam. Toxicol. 21(4/5) | 2021/03/02 | |||||||
| 魚類 | Oncorhynchus mykiss (Rainbow trout) | Mortality/Mortality | LC50 | 96 | hours | 35.5 | mg/L | ○ | 16 ECOTOX | Hale,J.G. | Toxicity of Metal Mining Wastes | Bull. Environ. Contam. Toxicol.17(1) | 2020/11/12 | ||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 44.5 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 184 | hours | 3.18 | mgNi/L | 12 ECHA Information on Registered Substances | Blaylock, B.G. and M.L. Frank. | A comparison of the toxicity of nickel to the developing eggs and larvae of carp (Cyprinus carpio). | Bull. Environ. Contam. Toxicol. 21(4/5) | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 212 | hours | 2.14 | mgNi/L | 12 ECHA Information on Registered Substances | Blaylock, B.G. and M.L. Frank. | A comparison of the toxicity of nickel to the developing eggs and larvae of carp (Cyprinus carpio). | Bull. Environ. Contam. Toxicol. 21(4/5) | 2021/03/02 | |||||||
| 魚類 | Carassius auratus (Goldfish) | LC10 | 414.4 | μg/L | 12 ECHA Information on Registered Substances | Birge, W.J. and J.A. Black | Aquatic Toxicology of Nickel | In: Nickel in the Environment. J.O. Nriagu (ed.). Wiley. New York, NY. | 2021/03/02 | ||||||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | mortality | LC100 | 96 | hours | 400 | mg/L | 12 ECHA Information on Registered Substances | Eisler, R. and R.J. Hennekey | Acute toxicities of Cd+2, Cr+6, Hg2+, Ni2+ and Zn2+ to estuarine macrofauna | Arch. Environ. Contam. Toxicol. 6 | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 96 | hours | 1.3 | mg/L | 12 ECHA Information on Registered Substances | Alam, M.K. and O.E. Maughan | The effect of malathion, diazinon, and various concentrations of zinc, copper, nickel, lead, iron, and mercury on fish | Biological Trace Element Research. 34 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LD50 (hard water) | 27 | mg/L | 12 ECHA Information on Registered Substances | other company data | 2021/03/02 | |||||||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | mortality | LC50 | 96 | hours | 350 | mg/L | 12 ECHA Information on Registered Substances | Eisler, R. and R.J. Hennekey | Acute toxicities of Cd+2, Cr+6, Hg2+, Ni2+ and Zn2+ to estuarine macrofauna | Arch. Environ. Contam. Toxicol. 6 | 2021/03/02 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | mortality | LC50 | 96 | hours | 13.1 | mg/L | 12 ECHA Information on Registered Substances | Bielmyer GK, DeCarlo C, Morris C, and Carrigan T. | The influence of salinity on acute nickel toxicity to the two euryhaline fish species, Fundulus heteroclitus and Kryptolebias marmoratus. | Environmental Toxicology and Chemistry; 32(6) | 2021/03/02 | |||||||
| 魚類 | Lepomis macrochirus | mortality | NOEC | 96 | hours | 42 | mg/L | 12 ECHA Information on Registered Substances | US EPA study | 2021/03/02 | |||||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | mortality | LC50 | 96 | hours | 12.3 | mg/L | 12 ECHA Information on Registered Substances | Bielmyer GK, DeCarlo C, Morris C, and Carrigan T. | The influence of salinity on acute nickel toxicity to the two euryhaline fish species, Fundulus heteroclitus and Kryptolebias marmoratus. | Environmental Toxicology and Chemistry; 32(6) | 2021/03/02 | |||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 24 | hours | 170 | mg/L | 12 ECHA Information on Registered Substances | US EPA study | 2021/03/02 | |||||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 96 | hours | 5.36 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | mortality | LC50 | 24 | hours | >400 | mg/L | 12 ECHA Information on Registered Substances | Eisler, R. and R.J. Hennekey | Acute toxicities of Cd+2, Cr+6, Hg2+, Ni2+ and Zn2+ to estuarine macrofauna | Arch. Environ. Contam. Toxicol. 6 | 2021/03/02 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | mortality | LC100 | 24 | hours | >400 | mg/L | 12 ECHA Information on Registered Substances | Eisler, R. and R.J. Hennekey | Acute toxicities of Cd+2, Cr+6, Hg2+, Ni2+ and Zn2+ to estuarine macrofauna | Arch. Environ. Contam. Toxicol. 6 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 27 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. | Chronic toxicity of nickel to the fathead minnow | J. Water Pollut. Control Fed. 46(4) | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 0.69 | mg/L | 12 ECHA Information on Registered Substances | Pyle, G.G., S.M. Swanson, and D.M. Lehmkuhl | The influence of water hardness, pH, and suspended solids on nickel toxicity to larval fathead minnows (Pimephales promelas) | Water, Air, and Soil Pollution. 133 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 0.54 | mg/L | 12 ECHA Information on Registered Substances | Pyle, G.G., S.M. Swanson, and D.M. Lehmkuhl | The influence of water hardness, pH, and suspended solids on nickel toxicity to larval fathead minnows (Pimephales promelas) | Water, Air, and Soil Pollution. 133 | 2021/03/02 | |||||||
| 魚類 | Leuciscus idus (Orfe) | mortality | LC50 | 570 | mg/L | 12 ECHA Information on Registered Substances | other company data | 2021/03/02 | |||||||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 24 | hours | 170 | mg/L | 12 ECHA Information on Registered Substances | US EPA study | 2021/03/02 | |||||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | mortality | NOEC | 96 | hours | 250 | mg/L | 12 ECHA Information on Registered Substances | Eisler, R. and R.J. Hennekey | Acute toxicities of Cd+2, Cr+6, Hg2+, Ni2+ and Zn2+ to estuarine macrofauna | Arch. Environ. Contam. Toxicol. 6 | 2021/03/02 | |||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 96 | hours | 5.18 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | LC50 | 96 | hours | 5~45 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | ||||||||
| 魚類 | Pimephales promelas | mortality and terata and length | NOEC | 32 | days | 0.057 | mg/L | 12 ECHA Information on Registered Substances | Birge, W.J., J.A. Black, J.F. Hobson, A.G. Westerman, and T.M. Short | Toxicological studies on aquatic contaminants originating from coal production and utilization: The induction of tolerance to silver in laboratory populations of fish and the chronic toxicity of nickel to fish early life stages. | Water Resources Research Institute. Kentucky University, Lexington, KY. Research Report No. 151. | 2021/03/02 | |||||||
| 魚類 | Carassius auratus (Goldfish) | LC50 | 2780 | μg/L | 12 ECHA Information on Registered Substances | Birge, W.J. and J.A. Black | Aquatic Toxicology of Nickel | In: Nickel in the Environment. J.O. Nriagu (ed.). Wiley. New York, NY. | 2021/03/02 | ||||||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 72 | hours | 24.08 | mg/L | 12 ECHA Information on Registered Substances | Ghosh A, Kaviraj A, Saha S | Deposition, acute toxicity, and bioaccumulation of nickel in some freshwater organisms with best-fit functions modeling | Environ Sci Pollut Res 25 | 2021/03/02 | |||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 96 | hours | 62.2 | mg/L | 12 ECHA Information on Registered Substances | US EPA study | 2021/03/02 | |||||||||
| 魚類 | Pimephales promelas | mortality | NOEC | 30 | days | 108.9 | μg/L | 12 ECHA Information on Registered Substances | Lind, D., K. Alto, and S. Chatterton. | Regional Copper-Nickel Study: Aquatic Toxicology Study. | Minnesota Environmental Quality Board | 2021/03/02 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | mortality | LC50 | 96 | hours | 15.62 | mg/L | 12 ECHA Information on Registered Substances | Shuhaimi-Othman M, Yakub N, Ramle N-A, and Abas A. | Comparative toxicity of eight metals on freshwater fish. | Toxicology and Industrial Health; DOI | 2021/03/02 | |||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 96 | hours | 39.6 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality and terata | LOEC | 32 | days | 0.12 | mg/L | 12 ECHA Information on Registered Substances | Birge, W.J., J.A. Black, J.F. Hobson, A.G. Westerman, and T.M. Short | Toxicological studies on aquatic contaminants originating from coal production and utilization: The induction of tolerance to silver in laboratory populations of fish and the chronic toxicity of nickel to fish early life stages. | Water Resources Research Institute. Kentucky University, Lexington, KY. Research Report No. 151. | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 96 | hours | 1.64 | mg/L | 12 ECHA Information on Registered Substances | Alam, M.K. and O.E. Maughan | The effect of malathion, diazinon, and various concentrations of zinc, copper, nickel, lead, iron, and mercury on fish | Biological Trace Element Research. 34 | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 48 | hours | 27.88 | mg/L | 12 ECHA Information on Registered Substances | Ghosh A, Kaviraj A, Saha S | Deposition, acute toxicity, and bioaccumulation of nickel in some freshwater organisms with best-fit functions modeling | Environ Sci Pollut Res 25 | 2021/03/02 | |||||||
| 魚類 | Lepomis macrochirus | mortality | NOEC | 96 | hours | 37 | mg/L | 12 ECHA Information on Registered Substances | US EPA study | 2021/03/02 | |||||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 48 | hours | 8.67 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | survival, growth, and reproduction | NOEC | 7 | days | <=0.38 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. | Chronic toxicity of nickel to the fathead minnow | J. Water Pollut. Control Fed. 46(4) | 2021/03/02 | |||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 96 | hours | 60.3 | mg/L | 12 ECHA Information on Registered Substances | US EPA study | 2021/03/02 | |||||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | mortality | NOEC | 24 | hours | 400 | mg/L | 12 ECHA Information on Registered Substances | Eisler, R. and R.J. Hennekey | Acute toxicities of Cd+2, Cr+6, Hg2+, Ni2+ and Zn2+ to estuarine macrofauna | Arch. Environ. Contam. Toxicol. 6 | 2021/03/02 | |||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 48 | hours | 115 | mg/L | 12 ECHA Information on Registered Substances | US EPA study | 2021/03/02 | |||||||||
| 魚類 | Poecilia reticulata (Guppy) | mortality | LC50 | 24 | hours | 54.43 | mg/L | 12 ECHA Information on Registered Substances | Shuhaimi-Othman M, Yakub N, Ramle N-A, and Abas A. | Comparative toxicity of eight metals on freshwater fish. | Toxicology and Industrial Health; DOI | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | enzyme activities | NOEC | 7 | days | >=0.38 | μmol nickel/g tissue | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | |||||||||
| 魚類 | Poecilia reticulata (Guppy) | mortality | LC50 | 72 | hours | 18.72 | mg/L | 12 ECHA Information on Registered Substances | Shuhaimi-Othman M, Yakub N, Ramle N-A, and Abas A. | Comparative toxicity of eight metals on freshwater fish. | Toxicology and Industrial Health; DOI | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 96 | hours | 2.3 | mg/L | 12 ECHA Information on Registered Substances | Alam, M.K. and O.E. Maughan | The effect of malathion, diazinon, and various concentrations of zinc, copper, nickel, lead, iron, and mercury on fish | Biological Trace Element Research. 34 | 2021/03/02 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | mortality | LC50 | 96 | hours | 24.8 | mg/L | 12 ECHA Information on Registered Substances | Bielmyer GK, DeCarlo C, Morris C, and Carrigan T. | The influence of salinity on acute nickel toxicity to the two euryhaline fish species, Fundulus heteroclitus and Kryptolebias marmoratus. | Environmental Toxicology and Chemistry; 32(6) | 2021/03/02 | |||||||
| 魚類 | Carassius auratus (Goldfish) | mortality | LC50 | 24 | hours | 34.1 | mg/L | 12 ECHA Information on Registered Substances | Pickering, Q.H. and C. Henderson | The acute toxicity of some heavy metals to different species of warmwater fishes | Air Wat. Pollut. Int. J. 10 | 2021/03/02 | |||||||
| 魚類 | Fundulus heteroclitus (Mummichog) | mortality | LC50 | 96 | hours | 55.3 | mg/L | 12 ECHA Information on Registered Substances | Bielmyer GK, DeCarlo C, Morris C, and Carrigan T. | The influence of salinity on acute nickel toxicity to the two euryhaline fish species, Fundulus heteroclitus and Kryptolebias marmoratus. | Environmental Toxicology and Chemistry; 32(6) | 2021/03/02 | |||||||
| 魚類 | Lepomis macrochirus | mortality | LC50 | 48 | hours | 110 | mg/L | 12 ECHA Information on Registered Substances | US EPA study | 2021/03/02 | |||||||||
| 魚類 | Cyprinus carpio (Carp) | Mortality | LC50 | 96 | hours | 10.6 | mgNi/L | nominal | 8 NITE 化学物質の初期リスク評価書 | Rehwoldt, R., Bida, G. and Nerrie, B. | Acute toxicity of copper, nickel, and zinc Ions to some Hudson River fish species. | Bull.Environ.Contam.Toxicol., 6 | 2021/04/06 | ||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 96 | hours | 2.21 | mg/L | 12 ECHA Information on Registered Substances | Pyle, G.G., S.M. Swanson, and D.M. Lehmkuhl | The influence of water hardness, pH, and suspended solids on nickel toxicity to larval fathead minnows (Pimephales promelas) | Water, Air, and Soil Pollution. 133 | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 96 | hours | 6.16 | mgNi/L | 12 ECHA Information on Registered Substances | Blaylock, B.G. and M.L. Frank. | A comparison of the toxicity of nickel to the developing eggs and larvae of carp (Cyprinus carpio). | Bull. Environ. Contam. Toxicol. 21(4/5) | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 257 | hours | 0.75 | mgNi/L | 12 ECHA Information on Registered Substances | Blaylock, B.G. and M.L. Frank. | A comparison of the toxicity of nickel to the developing eggs and larvae of carp (Cyprinus carpio). | Bull. Environ. Contam. Toxicol. 21(4/5) | 2021/03/02 | |||||||
| 魚類 | Poecilia reticulata (Guppy) | mortality | LC50 | 48 | hours | 29.66 | mg/L | 12 ECHA Information on Registered Substances | Shuhaimi-Othman M, Yakub N, Ramle N-A, and Abas A. | Comparative toxicity of eight metals on freshwater fish. | Toxicology and Industrial Health; DOI | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 72 | hours | 6.1 | mgNi/L | 12 ECHA Information on Registered Substances | Blaylock, B.G. and M.L. Frank. | A comparison of the toxicity of nickel to the developing eggs and larvae of carp (Cyprinus carpio). | Bull. Environ. Contam. Toxicol. 21(4/5) | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 212 | hours | 2.14 | mg/L | 12 ECHA Information on Registered Substances | Blaylock, B.G. and M.L. Frank. | A comparison of the toxicity of nickel to the developing eggs and larvae of carp (Cyprinus carpio). | Bull. Environ. Contam. Toxicol. 21(4/5) | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 184 | hours | 3.18 | mg/L | 12 ECHA Information on Registered Substances | Blaylock, B.G. and M.L. Frank. | A comparison of the toxicity of nickel to the developing eggs and larvae of carp (Cyprinus carpio). | Bull. Environ. Contam. Toxicol. 21(4/5) | 2021/03/02 | |||||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | survival or growth (dry weight) | NOEC | 28 | days | 21.7 | mgNi/L | 12 ECHA Information on Registered Substances | DeForest DK, Schlekat CE. | Species sensitivity distribution evaluation for chronic nickel toxicity to marine organisms. | Integr Environ Assess Manag. 2013 Oct;9(4) | 2021/03/02 | |||||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | survival and growth (dry weight) | LOEC | 28 | days | 40.6 | mgNi/L | 12 ECHA Information on Registered Substances | DeForest DK, Schlekat CE. | Species sensitivity distribution evaluation for chronic nickel toxicity to marine organisms. | Integr Environ Assess Manag. 2013 Oct;9(4) | 2021/03/02 | |||||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | mortality | LC50 | 28 | days | 27.8 | mgNi/L | 12 ECHA Information on Registered Substances | DeForest DK, Schlekat CE. | Species sensitivity distribution evaluation for chronic nickel toxicity to marine organisms. | Integr Environ Assess Manag. 2013 Oct;9(4) | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 233 | hours | 1.3 | mg/L | 12 ECHA Information on Registered Substances | Blaylock, B.G. and M.L. Frank. | A comparison of the toxicity of nickel to the developing eggs and larvae of carp (Cyprinus carpio). | Bull. Environ. Contam. Toxicol. 21(4/5) | 2021/03/02 | |||||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | growth (dry weight) | EC10 | 28 | days | 20.76 | mgNi/L | 12 ECHA Information on Registered Substances | DeForest DK, Schlekat CE. | Species sensitivity distribution evaluation for chronic nickel toxicity to marine organisms. | Integr Environ Assess Manag. 2013 Oct;9(4) | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | time to hatch | LOEC | 21 | days | <=24.8 | μg/L | ○ | 12 ECHA Information on Registered Substances | publication | 2021/03/02 | ||||||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | growth (dry weight) | IC50 | 28 | days | 29.9 | mgNi/L | 12 ECHA Information on Registered Substances | DeForest DK, Schlekat CE. | Species sensitivity distribution evaluation for chronic nickel toxicity to marine organisms. | Integr Environ Assess Manag. 2013 Oct;9(4) | 2021/03/02 | |||||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | mortality | LC20 | 28 | days | 23.9 | mgNi/L | 12 ECHA Information on Registered Substances | DeForest DK, Schlekat CE. | Species sensitivity distribution evaluation for chronic nickel toxicity to marine organisms. | Integr Environ Assess Manag. 2013 Oct;9(4) | 2021/03/02 | |||||||
| 魚類 | Cyprinodon variegatus (Sheepshead minnow) | growth (dry weight) | IC20 | 28 | days | 23.5 | mgNi/L | 12 ECHA Information on Registered Substances | DeForest DK, Schlekat CE. | Species sensitivity distribution evaluation for chronic nickel toxicity to marine organisms. | Integr Environ Assess Manag. 2013 Oct;9(4) | 2021/03/02 | |||||||
| 魚類 | Cyprinus carpio (Carp) | mortality | LC50 | 257 | hours | 0.75 | mg/L | 12 ECHA Information on Registered Substances | Blaylock, B.G. and M.L. Frank. | A comparison of the toxicity of nickel to the developing eggs and larvae of carp (Cyprinus carpio). | Bull. Environ. Contam. Toxicol. 21(4/5) | 2021/03/02 | |||||||
| 魚類 | Pimephales promelas | mortality | LC50 | 7 | days | 0.7 | mg/L | 12 ECHA Information on Registered Substances | Krzykwa JC, Saeid A, Jeffries MKS | Identifying sublethal endpoints for evaluating neurotoxic compounds utilizing the fish embryo toxicity test | Ecotoxicology and Environmental Safety 170 | 2021/03/02 |