微塑料介导的多氯联苯迁移？以大型溞为模型的净化研究。

Microplastic-mediated transport of PCBs? A depuration study with Daphnia magna.

机构信息

Department of Environmental Science and Analytical Chemistry, Stockholm University, Stockholm, Sweden.

Aquabiota Water Research AB, Stockholm, Sweden.

出版信息

PLoS One. 2019 Feb 19;14(2):e0205378. doi: 10.1371/journal.pone.0205378. eCollection 2019.

DOI:10.1371/journal.pone.0205378

PMID:30779782

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6380591/

Abstract

The role of microplastic (MP) as a carrier of persistent organic pollutants (POPs) to aquatic organisms has been a topic of debate. However, the reverse POP transport can occur if relative contaminant concentrations are higher in the organism than in the microplastic. We evaluated the effect of microplastic on the PCB removal in planktonic animals by exposing the cladoceran Daphnia magna with a high body burden of polychlorinated biphenyls (PCB 18, 40, 128 and 209) to a mixture of microplastic and algae; daphnids exposed to only algae served as the control. As the endpoints, we used PCB body burden, growth, fecundity and elemental composition (%C and %N) of the daphnids. In the daphnids fed with microplastic, PCB 209 was removed more efficiently, while there was no difference for any other congeners and ΣPCBs between the microplastic-exposed and control animals. Also, higher size-specific egg production in the animals carrying PCB and receiving food mixed with microplastics was observed. However, the effects of the microplastic exposure on fecundity were of low biological significance, because the PCB body burden and the microplastic exposure concentrations were greatly exceeding environmentally relevant concentrations.

摘要

微塑料（MP）作为持久性有机污染物（POPs）向水生生物载体的作用一直是争论的话题。然而，如果生物体内的相对污染物浓度高于微塑料，那么反向 POP 运输就会发生。我们通过将高浓度多氯联苯（PCB 18、40、128 和 209）的身体负担的溞属动物大型溞暴露于微塑料和藻类混合物中，评估了微塑料对浮游动物 PCB 去除的影响；仅暴露于藻类的溞属动物作为对照。作为终点，我们使用 PCB 体内负荷、生长、繁殖和溞属动物的元素组成（%C 和%N）来评估。在摄入微塑料的溞属动物中，PCB 209 被更有效地去除，而其他同系物和ΣPCBs 在暴露于微塑料的动物和对照组之间没有差异。此外，在携带 PCB 并接受含有微塑料的食物的动物中，更高的特定大小的产卵量也有所观察。然而，微塑料暴露对繁殖力的影响具有较低的生物学意义，因为 PCB 体内负荷和微塑料暴露浓度大大超过了环境相关浓度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7a66/6380591/997796fa0f95/pone.0205378.g001.jpg

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微塑料介导的多氯联苯迁移？以大型溞为模型的净化研究。

Microplastic-mediated transport of PCBs? A depuration study with Daphnia magna.

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