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首页> 外文期刊>Environmental toxicology and chemistry >THE EFFECTS OF PHARMACEUTICALS ON A UNIONID MUSSEL (LAMPSILIS SILIQUOIDEA): AN EXAMINATION OF ACUTE AND CHRONIC ENDPOINTS OF TOXICITY ACROSS LIFE STAGES
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THE EFFECTS OF PHARMACEUTICALS ON A UNIONID MUSSEL (LAMPSILIS SILIQUOIDEA): AN EXAMINATION OF ACUTE AND CHRONIC ENDPOINTS OF TOXICITY ACROSS LIFE STAGES

机译:药物对单性肌肉(Lampsilis SILIQUOIDEA)的影响:对整个生命阶段毒性的慢性和慢性终点的检查

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摘要

The toxicity and bioconcentration of 3 pharmaceuticals (amitriptyline, iopamidol, and sertraline) were examined using multiple life stages (larval, juvenile, and adult) of the unionid mussel Lampsilis siliquoidea. The endpoints examined varied with life stage but included survival, behavior (algal clearance rate, filtering frequency), and oxidative stress. Iopamidol was not toxic at concentrations up to 101 mg/L. Sertraline was the most toxic chemical (50% lethal concentrations [LC50] and effect concentrations [EC50] = 0.02-0.04 mg/L), but exposure did not induce oxidative stress. Glochidia and juveniles were more sensitive than adult mussels. Algal clearance rate in juvenile mussels was the most sensitive endpoint assessed, similar to or lower than the LC50 values for glochidia. However, the compounds examined were not toxic at concentrations detected in the environment. The relative bioconcentration factors were sertraline > amitriptyline > iopamidol. These results suggest that glochidia toxicity could be a screening tool for rapidly assessing the toxicity of chemicals of concern to freshwater mussels. (C) 2016 SETAC
机译:三种药物(阿米替林,碘帕醇和舍曲林)的毒性和生物浓缩度使用了双生贻贝贻贝兰甲的多个生命阶段(幼虫,少年和成年)进行了检查。检验的终点随生命阶段的不同而变化,但包括存活率,行为(藻类清除率,过滤频率)和氧化应激。浓度高达101 mg / L的碘帕醇无毒。舍曲林是最具毒性的化学物质(50%致死浓度[LC50]和有效浓度[EC50] = 0.02-0.04 mg / L),但暴露不会引起氧化应激。 Glochidia和少年比成年贻贝更敏感。少年贻贝中的藻清除率是评估的最敏感的终点,类似于或低于白头翁的LC50值。但是,所检测的化合物在环境中检测到的浓度下没有毒性。相对生物富集因子为舍曲林>阿米替林>碘帕醇。这些结果表明,glochidia的毒性可能是一种用于快速评估有关化学品对淡水贻贝的毒性的筛选工具。 (C)2016年SETAC

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  • 来源
    《Environmental toxicology and chemistry》 |2017年第6期|1572-1583|共12页
  • 作者

    Gilroy Eve A. M.; Gillis Patricia L.; King Laura E.; Bendo Nicholas A.; Salerno Joseph; Giacomin Marina; de Sollaz Shane R.;

  • 作者单位

    Green House Sci, Burlington, ON, Canada|Environm & Climate Change Canada, Ecotoxicol & Wildlife Hlth Div, Burlington, ON, Canada;

    Environm & Climate Change Canada, Aquat Contaminants Res Div, Burlington, ON, Canada;

    Environm & Climate Change Canada, Ecotoxicol & Wildlife Hlth Div, Burlington, ON, Canada;

    Environm & Climate Change Canada, Ecotoxicol & Wildlife Hlth Div, Burlington, ON, Canada;

    Environm & Climate Change Canada, Ecotoxicol & Wildlife Hlth Div, Burlington, ON, Canada;

    Univ British Columbia, Dept Zool, Vancouver, BC, Canada;

    Environm & Climate Change Canada, Ecotoxicol & Wildlife Hlth Div, Burlington, ON, Canada;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Amitriptyline; Bioconcentration; Iopamidol; Sertraline; Pharmaceuticals; Freshwater mussel;

    机译:阿米替林;生物浓缩;碘帕醇;舍曲林;药物;淡水贻贝;
  • 入库时间 2022-08-17 13:28:10

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