A systems perspective of terrestrial, aquatic, and human health impacts of non-polystyrene-based nanoplastics

IF 6.7 Q1 ENVIRONMENTAL SCIENCES Current Opinion in Environmental Science and Health Pub Date : 2024-06-01 DOI:10.1016/j.coesh.2024.100557

Gabriella McConnel, Zachery A. Kasuske, Carlos Mazariegos-Ortíz, Sonia R. Muñoz, Jaclyn E. Cañas-Carrell

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Abstract

Currently, nanoplastic (1–1000 nm) environmental prevalence is poorly understood, and only recently has their potential impact become apparent. Over the last fifteen years, research has identified, quantified, and analyzed the toxicity and interactions of these emerging contaminants, especially for polystyrene. This review focused on non-polystyrene nanoplastics behavior within wastewater plants, interactions within terrestrial and aquatic environments, in vitro and in vivo toxicity, and the future of human exposure. From the literature, polystyrene studies from 2012 to 2020 made up 97% of studies, while only accounting for 6.2% of global plastic production. Significant literature gaps identified included looking at the fate, transport, and effects of non-polystyrene plastics in terrestrial and microbial systems. Within the last five years more studies with relevant and environmentally prominent plastics of concern and their impacts have been conducted; this innovative research was discussed within this review and used to identify significant gaps in the literature.

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从系统角度看非聚苯乙烯基纳米塑料对陆地、水生和人类健康的影响

目前，人们对纳米塑料（1-1000 纳米）在环境中的普遍存在还知之甚少，直到最近，它们的潜在影响才逐渐显现出来。在过去的 15 年中，研究人员已经确定、量化并分析了这些新兴污染物（尤其是聚苯乙烯）的毒性和相互作用。本综述侧重于非聚苯乙烯纳米塑料在废水处理厂中的行为、在陆地和水生环境中的相互作用、体外和体内毒性以及人类接触的前景。从文献来看，2012 年至 2020 年的聚苯乙烯研究占研究总数的 97%，而聚苯乙烯仅占全球塑料产量的 6.2%。已发现的重大文献缺口包括非聚苯乙烯塑料在陆地和微生物系统中的归宿、迁移和影响。在过去五年中，对相关的、环境问题突出的塑料及其影响进行了更多的研究；本综述对这些创新研究进行了讨论，并利用这些研究确定了文献中的重大空白。

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