微塑料废物的生态毒性及其可持续管理:综述

IF 9 Q1 ENVIRONMENTAL SCIENCES
Akankshya Das, Smiti Kana Ray, Madhusmita Mohanty, Jyotirmayee Mohanty, Sudeshna Dey, Alok Prasad Das
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引用次数: 0

摘要

由于各种来源释放的微塑料(MPs)的空前泛滥而造成的环境污染是当今世界大多数环境与amp;材料科学家关注的主要问题。每年产生的数百万吨微塑料令人担忧地进入环境中,据认为每年进入海洋的塑料垃圾多达 1400 万吨。其岌岌可危的结果表明,许多生物的自然生态系统严重失衡。这种对我们周围环境的破坏性有毒影响需要一个持久的解决方案来保护其居民。此外,研究表明,多种生物都会摄入 MPs。正是由于摄取和化学作用的结合,人们才认为 MPs 有可能影响天然存在和外部引入的共污染物的可用性和有害性。主要通过细菌和真菌种群进行微生物修复已成为改善环境中微塑料污染的新兴趋势。本综述深入探讨了微塑料污染物对环境的生态毒理学影响,以及微生物用于降解的各种微生物修复技术。事实证明,与传统方法相比,微生物降解技术作为一种环境友好型的 MPs 分解方法,具有重要的进步意义。这些微生物的塑料降解和生物修复潜力引起了许多人对消除周围环境中不可降解塑料的兴趣。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ecotoxicity of microplastic wastes and their sustainable management: A review

Environmental Pollution due to the unprecedented inundation of microplastics (MPs) released from various sources is a major concern for most of the environmental & material scientists in today's world. Millions of tons of microplastics are produced each year and alarmingly enter the environment and up to 14 million tons of plastic waste are thought to enter into the ocean annually. The precarious results of it show a paramount imbalance in the natural ecosystem of many living beings. Such a devastating and toxic effect on our surroundings requires a long-lasting solution to safeguard its inhabitants. Additionally, studies have shown that MPs are consumed by a variety of organisms. It is precisely the combination of ingestion and chemical interaction that lends support to the idea that MPs could potentially influence the availability and harmfulness of both naturally occurring and externally introduced co-contaminants. Microbial remediation principally by bacterial and fungal populations has been an emerging trend for improving the microplastic pollution from the environment. This review paper delves into the ecotoxicological effects of microplastic pollutants on the environment and various microbial remediation technologies used by microorganisms for the degradation. It has been proven to be a key advancement as an environmentally friendly way of decomposing MPs than that of the traditional one. Plastic degradation and bioremediation potential of these microorganisms has aroused the interest of many, in eliminating the non-biodegradable plastics from the surroundings.

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CiteScore
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