水生环境中的微塑料——发生、来源、生态影响、命运和修复挑战

N. Chaukura, K. Kefeni, I. Chikurunhe, I. Nyambiya, W. Gwenzi, Welldone Moyo, T. Nkambule, B. Mamba, F. Abulude
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引用次数: 19

摘要

微塑料通过人类活动排放到环境中,并在环境中持久存在。随着在预防COVID-19病毒传播中普遍使用塑料个人防护装备,预计环境中微塑料的浓度将会增加。潜在的生态和健康风险源于它们吸附和运输有毒化学品的潜力,以及它们容易被生物体的细胞吸收和干扰生理过程。本综述(1)讨论了微塑料进入环境的来源和途径,(2)评估了微塑料的命运和行为,(3)讨论了非洲水生系统中的微塑料,(4)确定了研究空白并建议了补救策略。重要的是,虽然水生环境中存在显著的微塑料污染,但陆地系统中的污染尚未得到广泛研究。此外,关于非洲水生系统中微塑料的信息缺乏。该报告建议,各国政府和非政府组织应为解决知识差距的研究提供资金,其中包括:(1)微塑料的环境命运;(2)在环境相关条件下开展毒理学研究;(3)调查对生物群的毒性机制,并制定缓解措施以保障人类健康;(4)调查微塑料输送的污染物。此外,监管措施以及循环经济战略可能有助于减少微塑料污染。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microplastics in the Aquatic Environment—The Occurrence, Sources, Ecological Impacts, Fate, and Remediation Challenges
Microplastics are discharged into the environment through human activities and are persistent in the environment. With the prevalent use of plastic-based personal protective equipment in the prevention of the spread of the COVID-19 virus, the concentration of microplastics in the environment is envisaged to increase. Potential ecological and health risks emanate from their potential to adsorb and transport toxic chemicals, and ease of absorption into the cells of living organisms and interfering with physiological processes. This review (1) discusses sources and pathways through which microplastics enter the environment, (2) evaluates the fate and behavior of microplastics, (3) discusses microplastics in African aquatic systems, and (4) identifies research gaps and recommends remediation strategies. Importantly, while there is significant microplastics pollution in the aquatic environment, pollution in terrestrial systems are not widely studied. Besides, there is a dearth of information on microplastics in African aquatic systems. The paper recommends that the governments and non-governmental organizations should fund research to address knowledge gaps, which include: (1) the environmental fate of microplastics, (2) conducting toxicological studies under environmentally relevant conditions, (3) investigating toxicity mechanisms to biota, and developing mitigation measures to safeguard human health, and (4) investigating pollutants transported by microplastics. Moreover, regulatory measures, along with the circular economy strategies, may help reduce microplastic pollution.
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