生息海域の海水を用いたエゾアワビ幼生に対する銅の生態毒性試験

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Published in環境毒性学会誌 Vol. 27; no. 1; pp. 64 - 72
Main Authors 益永, 茂樹, 韓, 書平, 田井, 梨絵, 内藤, 航
Format Journal Article
LanguageJapanese
Published 日本環境毒性学会 08.10.2024
Subjects
copper
embryotoxicity
Ezo abalone
toxicity test
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ISSN1344-0667
1882-5958
DOI10.11403/jset.27.64

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Author 田井, 梨絵
韓, 書平
益永, 茂樹
内藤, 航
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  organization: (国研)産業技術総合研究所安全科学研究部門
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  fullname: 田井, 梨絵
  organization: (国研)産業技術総合研究所安全科学研究部門
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  fullname: 内藤, 航
  organization: (国研)産業技術総合研究所安全科学研究部門
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References 18) Hunt, J. W., Anderson, B. S., Coulon, A. R., Michael, M., Palmer, F. H., Janik, J. J. (1989) Experimental evaluation of effluent toxicity testing protocols with giant kelp, mysids, red abalone, and topsmelt. Marine Bioassay Project: Fourth Report. Sacramento: State Water Resources Control Board, California environmental Protection Agency.
29) 山崎誠,鴨志田正晃(2018)第1章(I)アワビ類漁業と資源管理・増殖の現状,水産増養殖関係研究開発推進会議 養殖産業部会アワビ研究会,アワビ類の生態に基づく資源管理・増殖.国立研究開発法人水産研究・教育機構増養殖研究所,pp. 1–39. http://nria.fra.affrc.go.jp/hakko/awabi/index.html
10) U.S. Environmental Protection Agency (2016) Fact Sheet: Draft Estuarine/Marine Copper, Aquatic Life Ambient Water Quality Criteria, EPA 822-F-16-004. U.S. Environmental Protection Agency.
7) Meyer, J. S., Santore, R. C., Bobbitt, J. P., Debrey, L. D., Boese, C. J., Paquin, P. R., Allen, H. E., Bergman, H. L., Ditoro, D. M. (1999) Binding of nickel and copper to fish bills predicts toxicity when water hardness varies, but free-ion activity does not. Environmental Science & Technology, 33(6), 913–916.
6) Hall, L. W. Jr., Anderson, R. D. (1999) A deterministic ecological risk assessment for copper in European saltwater environments. Marine Pollution Bulletin, 38(3), 207–218.
25) Gottschalk, F., Nowack, B. (2013) A probabilistic method for species sensitivity distributions taking into account the inherent uncertainty and variability of effects to estimate environmental risk. Integrated Environmental Assessment and Management, 9(1), 79–86.
8) Kiaune, L., Singhasemanon, N. (2011) Pesticidal copper (I) oxide: Environmental fate and aquatic toxicity. In D. M. Whitacre (Ed.), Reviews of Environmental Contamination and Toxicology Volume 213, pp. 1–26. Springer.
3) Claisse, D., Alzieu, C. (1993) Copper contamination as a result of antifouling paint regulations. Marine Pollution Bulletin, 26(7), 395–397.
23) Ritz, C., Baty, F., Streibig, J. C., Gerhard, D. (2015) Dose–response analysis using R. PLoS One, 10(12), e0146021.
12) 永井孝志,恒見清孝,川本朱美(2007)河川水中における重金属のスペシエーション:Diffusive Gradients in Thin-films法による分析と化学平衡モデルによる推定.陸水学雑誌,68(3), 391–401.
22) R Core Team (2021) R: A language and environment for statistical computing. In R Foundation for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria. https://www.R-project.org
15) 環境省(2014)化学物質の環境リスク初期評価.https://www.env.go.jp/chemi/risk/chemi_list/index.html
17) Gorski, J., Nugegoda, D. (2006a) Sublethal toxicity of trace metals to larvae of the blacklip abalone, Haliotis rubra. Environmental Toxicology and Chemistry, 25(5), 1360–1367.
20) Martin, M., Stephenson, M., Martin, J. (1977) Copper toxicity experiments in relation to abalone deaths observed in a power plant’s cooling waters. California Fish and Game, 63(2), 95–100.
5) Gissi, F., Stauber, J., Reichelt-Brushett, A., Harrison, P. L., Jolley, D. F. (2017) Inhibition in fertilisation of coral gametes following exposure to nickel and copper. Ecotoxicology and Environmental Safety, 145, 32–41.
2) Blake, A. C., Chadwick, D. B., Zirino, A., Rivera-Duarte, I. (2004) Spatial and temporal variations in copper speciation in San Diego Bay. Estuaries, 27(3), 437–447.
11) ECHA (2008) Voluntary risk assessment report: Environment—PNEC (summary 2), voluntary risk assessment of copper, copper II sulphate pentahydrate, copper(I) oxide, copper(II) oxide, dicopper chloride trihydroxide. European Chemical Agency. https://echa.europa.eu/copper-voluntary-risk-assessment-reports.
19) Hunt, J. W., Anderson, B. S., Tudor, S., Stephenson, M. D., Puckett, H. M., Palmer, F. H., Reeve, M. W. (1996) Marine Bioassay Project: Eighth report. Sacramento: State Water Resources Control Board, California environmental Protection Agency.
1) Hall, L. W. Jr., Scott, M. C., Killen, W. D. (1997) A screening level probabilistic ecological risk assessment of copper and cadmium in the Chesapeake Bay watershed. Report. U.S. Environmental Protection Agency, Chesapeake Bay Program office, Annapolis, MD.
14) 庄司良,谷口太郎(2016)塩分濃度が変化する汽水域中の銅のヤマトシジミに対する毒性のBiotic Ligand Modelによる予測.水環境学会誌,39(4), 109–113.
16) 眞道幸司(2012)海産生物を用いた毒性試験法および化学物質の有害性評価手法に関する近年の動向.海洋生物環境研究所研究報告=Report of Marine Ecology Research Institute (15), 41–62.
28) 中島孝幸,藤原好,若林明子,山崎邦彦(2007)東京湾海水中の金属濃度.水環境学会誌,30(1), 45–47.
24) Gorski, J., Nugegoda, D. (2006b) Toxicity of trace metals to juvenile abalone, Haliotis rubra following short-term exposure. Bulletin of Environmental Contamination and Toxicology, 77(5), 732–740.
4) Bao, V. W. W., Ho, K. K. Y., Lai, K. K. Y., Mak, Y. K. Y., Mak, E. P. Y., Zhou, G. J., Giesy, J. P., Leung, K. M. Y. (2018) Water-effect ratio of copper and its application on setting site-specific water quality criteria for protecting marine ecosystems of Hong Kong. Environmental Science and Pollution Research International, 25(4), 3170–3182.
27) 田井梨絵,内藤航,益永茂樹(2019)日本沿岸域を対象とした銅の水生生物に対する段階的な生態リスク評価:生物利用可能性の考慮は評価結果をどう変えるか.水環境学会誌,42(3), 105–115.
21) Stofberg, R. L., Simon, C. A., Snyman, R. G. (2011) Effects of heavy metals on the development and survival of abalone Haliotis midae larvae. African Journal of Marine Science, 33(2), 339–345.
13) 庄司良,沖田尚久,中西弘貴(2013)NICA(non-ideal competitive adsorption)-Donnan modelによる銅のミカヅキモ生長阻害性に対する多摩川底質フミン酸の影響の解析.水環境学会誌,36(1), 1–9.
9) DePalma, S. G. S., Ray Arnold, W., McGeer, J. C., George Dixon, D., Scott Smith, D. (2011) Effects of dissolved organic matter and reduced sulphur on copper bioavailability in coastal marine environments. Ecotoxicology and Environmental Safety, 74(3), 230–237.
26) Tai, R., Chiba, K., Nishimura, Y., Han, S., Masunaga, S., Naito, W. (2022) The toxicity of copper to Pacific oyster and sea squirt from Japan using regional seawater as a test medium. Journal of Water and Environment Technology, 20(5), 118–127.
References_xml – reference: 17) Gorski, J., Nugegoda, D. (2006a) Sublethal toxicity of trace metals to larvae of the blacklip abalone, Haliotis rubra. Environmental Toxicology and Chemistry, 25(5), 1360–1367.
– reference: 22) R Core Team (2021) R: A language and environment for statistical computing. In R Foundation for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria. https://www.R-project.org/
– reference: 7) Meyer, J. S., Santore, R. C., Bobbitt, J. P., Debrey, L. D., Boese, C. J., Paquin, P. R., Allen, H. E., Bergman, H. L., Ditoro, D. M. (1999) Binding of nickel and copper to fish bills predicts toxicity when water hardness varies, but free-ion activity does not. Environmental Science & Technology, 33(6), 913–916.
– reference: 4) Bao, V. W. W., Ho, K. K. Y., Lai, K. K. Y., Mak, Y. K. Y., Mak, E. P. Y., Zhou, G. J., Giesy, J. P., Leung, K. M. Y. (2018) Water-effect ratio of copper and its application on setting site-specific water quality criteria for protecting marine ecosystems of Hong Kong. Environmental Science and Pollution Research International, 25(4), 3170–3182.
– reference: 29) 山崎誠,鴨志田正晃(2018)第1章(I)アワビ類漁業と資源管理・増殖の現状,水産増養殖関係研究開発推進会議 養殖産業部会アワビ研究会,アワビ類の生態に基づく資源管理・増殖.国立研究開発法人水産研究・教育機構増養殖研究所,pp. 1–39. http://nria.fra.affrc.go.jp/hakko/awabi/index.html
– reference: 8) Kiaune, L., Singhasemanon, N. (2011) Pesticidal copper (I) oxide: Environmental fate and aquatic toxicity. In D. M. Whitacre (Ed.), Reviews of Environmental Contamination and Toxicology Volume 213, pp. 1–26. Springer.
– reference: 14) 庄司良,谷口太郎(2016)塩分濃度が変化する汽水域中の銅のヤマトシジミに対する毒性のBiotic Ligand Modelによる予測.水環境学会誌,39(4), 109–113.
– reference: 6) Hall, L. W. Jr., Anderson, R. D. (1999) A deterministic ecological risk assessment for copper in European saltwater environments. Marine Pollution Bulletin, 38(3), 207–218.
– reference: 13) 庄司良,沖田尚久,中西弘貴(2013)NICA(non-ideal competitive adsorption)-Donnan modelによる銅のミカヅキモ生長阻害性に対する多摩川底質フミン酸の影響の解析.水環境学会誌,36(1), 1–9.
– reference: 11) ECHA (2008) Voluntary risk assessment report: Environment—PNEC (summary 2), voluntary risk assessment of copper, copper II sulphate pentahydrate, copper(I) oxide, copper(II) oxide, dicopper chloride trihydroxide. European Chemical Agency. https://echa.europa.eu/copper-voluntary-risk-assessment-reports.
– reference: 2) Blake, A. C., Chadwick, D. B., Zirino, A., Rivera-Duarte, I. (2004) Spatial and temporal variations in copper speciation in San Diego Bay. Estuaries, 27(3), 437–447.
– reference: 12) 永井孝志,恒見清孝,川本朱美(2007)河川水中における重金属のスペシエーション:Diffusive Gradients in Thin-films法による分析と化学平衡モデルによる推定.陸水学雑誌,68(3), 391–401.
– reference: 19) Hunt, J. W., Anderson, B. S., Tudor, S., Stephenson, M. D., Puckett, H. M., Palmer, F. H., Reeve, M. W. (1996) Marine Bioassay Project: Eighth report. Sacramento: State Water Resources Control Board, California environmental Protection Agency.
– reference: 27) 田井梨絵,内藤航,益永茂樹(2019)日本沿岸域を対象とした銅の水生生物に対する段階的な生態リスク評価:生物利用可能性の考慮は評価結果をどう変えるか.水環境学会誌,42(3), 105–115.
– reference: 5) Gissi, F., Stauber, J., Reichelt-Brushett, A., Harrison, P. L., Jolley, D. F. (2017) Inhibition in fertilisation of coral gametes following exposure to nickel and copper. Ecotoxicology and Environmental Safety, 145, 32–41.
– reference: 10) U.S. Environmental Protection Agency (2016) Fact Sheet: Draft Estuarine/Marine Copper, Aquatic Life Ambient Water Quality Criteria, EPA 822-F-16-004. U.S. Environmental Protection Agency.
– reference: 18) Hunt, J. W., Anderson, B. S., Coulon, A. R., Michael, M., Palmer, F. H., Janik, J. J. (1989) Experimental evaluation of effluent toxicity testing protocols with giant kelp, mysids, red abalone, and topsmelt. Marine Bioassay Project: Fourth Report. Sacramento: State Water Resources Control Board, California environmental Protection Agency.
– reference: 20) Martin, M., Stephenson, M., Martin, J. (1977) Copper toxicity experiments in relation to abalone deaths observed in a power plant’s cooling waters. California Fish and Game, 63(2), 95–100.
– reference: 15) 環境省(2014)化学物質の環境リスク初期評価.https://www.env.go.jp/chemi/risk/chemi_list/index.html
– reference: 21) Stofberg, R. L., Simon, C. A., Snyman, R. G. (2011) Effects of heavy metals on the development and survival of abalone Haliotis midae larvae. African Journal of Marine Science, 33(2), 339–345.
– reference: 1) Hall, L. W. Jr., Scott, M. C., Killen, W. D. (1997) A screening level probabilistic ecological risk assessment of copper and cadmium in the Chesapeake Bay watershed. Report. U.S. Environmental Protection Agency, Chesapeake Bay Program office, Annapolis, MD.
– reference: 24) Gorski, J., Nugegoda, D. (2006b) Toxicity of trace metals to juvenile abalone, Haliotis rubra following short-term exposure. Bulletin of Environmental Contamination and Toxicology, 77(5), 732–740.
– reference: 25) Gottschalk, F., Nowack, B. (2013) A probabilistic method for species sensitivity distributions taking into account the inherent uncertainty and variability of effects to estimate environmental risk. Integrated Environmental Assessment and Management, 9(1), 79–86.
– reference: 3) Claisse, D., Alzieu, C. (1993) Copper contamination as a result of antifouling paint regulations. Marine Pollution Bulletin, 26(7), 395–397.
– reference: 23) Ritz, C., Baty, F., Streibig, J. C., Gerhard, D. (2015) Dose–response analysis using R. PLoS One, 10(12), e0146021.
– reference: 28) 中島孝幸,藤原好,若林明子,山崎邦彦(2007)東京湾海水中の金属濃度.水環境学会誌,30(1), 45–47.
– reference: 26) Tai, R., Chiba, K., Nishimura, Y., Han, S., Masunaga, S., Naito, W. (2022) The toxicity of copper to Pacific oyster and sea squirt from Japan using regional seawater as a test medium. Journal of Water and Environment Technology, 20(5), 118–127.
– reference: 16) 眞道幸司(2012)海産生物を用いた毒性試験法および化学物質の有害性評価手法に関する近年の動向.海洋生物環境研究所研究報告=Report of Marine Ecology Research Institute (15), 41–62.
– reference: 9) DePalma, S. G. S., Ray Arnold, W., McGeer, J. C., George Dixon, D., Scott Smith, D. (2011) Effects of dissolved organic matter and reduced sulphur on copper bioavailability in coastal marine environments. Ecotoxicology and Environmental Safety, 74(3), 230–237.
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SubjectTerms copper
embryotoxicity
Ezo abalone
toxicity test
Title 生息海域の海水を用いたエゾアワビ幼生に対する銅の生態毒性試験
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