陈锦灿;方超;郑榕辉;张玉生;王克坚;薄军;

• 1:近海海洋环境科学国家重点实验室厦门大学海洋与地球学院
• 2:海洋生物与生态实验室自然资源部第三海洋研究所

摘要(Abstract)：

水环境中的微(纳米)塑料对水生生物具有潜在的危害。为了评估微(纳米)塑料对水生生物的毒性效应及生态风险,本研究在广泛查阅并分析微(纳米)塑料相关毒理学研究数据的基础上,利用物种敏感性分布(Species Sensitivity Distributions,SSD)方法对其中5门10科11种水生生物的急性毒理数据进行曲线拟合;计算对应的5%危害浓度(the hazardous concentration for 5%of the species, HC_5)和潜在影响比例(potential affected fractions, PAF);计算了相应的急性生态效应阀值(predicted no effect concentration, PNEC_(acute)),并比较了各类水生生物对微(纳米)塑料的敏感性及其所受生态风险。结果表明,目前已有数据中微(纳米)塑料对费氏弧菌(Vibrio fischeri)的生态风险最大,对朱氏四爿藻(Tetraselmis chuii)的生态风险最小;基于Reweibull模型对水生生物数据所推导的PNEC_(acute)为0.185μg·L~(-1),约为当前微(纳米)塑料在水体环境中浓度的30%。利用SSD来预测微(纳米)塑料不同暴露浓度下对水生生物的PAF,发现当微(纳米)塑料暴露浓度小于10μg·L~(-1)时,水生生物所受的影响在可接受范围内;当暴露浓度达到1 000μg·L~(-1)时,将有26%的物种受到微(纳米)塑料的危害。此外,利用Rurrlioz软件估算了世界典型淡水与海水水域表层水体中微塑料对水生生物的PAF值,发现其PAF预测值都为0;将各水域微塑料浓度与急性生态效应阀值PNEC_(acute)比较后发现,除太湖外,其他水体环境中微塑料浓度都低于PNEC_(acute),说明如果只考虑微塑料本身的影响,目前世界典型水域表层水中微塑料对水生生物的危害程度大部分都在可接受的范围之内。

关键词(KeyWords)： 微(纳米)塑料;水生生物;生态风险;物种敏感性分布

Abstract:

Keywords:

基金项目(Foundation): 国家重点研发计划项目(2019YFD0901101);; 国家海洋局极地考察办公室极地考察业务化与科研项目;; 海洋三所基本科研业务费(2018019);; 全球变化与海气相互作用专项(GASI-02-SCS-YDsum)

作者(Author): 陈锦灿;方超;郑榕辉;张玉生;王克坚;薄军;

Email:

DOI:

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