生态毒性
微塑料
环境修复
背景(考古学)
环境科学
食物链
水生生态系统
环境规划
生态学
生物
化学
污染
古生物学
有机化学
毒性
作者
Shilpa Susan Scaria,Balamuralikrishnan Balasubramanian,Vijayalaxmi S. Dandin,Arun Meyyazhagan,Manikantan Pappuswamy,Govindharajan Sattanathan,Wen‐Chao Liu,Kadanthottu Sebastian Joseph,Sungkwon Park
标识
DOI:10.1016/j.aquatox.2023.106759
摘要
The rapid proliferation of microplastics (MPs) and nanoplastics (NPs) in our environment presents a formidable hazard to both biotic and abiotic components. These pollutants originate from various sources, including commercial production and the breakdown of larger plastic particles. Widespread contamination of the human body, agroecosystems, and animals occurs through ingestion, entry into the food chain, and inhalation. Consequently, the imperative to devise innovative methods for MPs and NPs remediation has become increasingly apparent. This review explores the current landscape of strategies proposed to mitigate the escalating threats associated with plastic waste. Among the array of methods in use, microbial remediation emerges as a promising avenue for the decomposition and reclamation of MPs and NPs. In response to the growing concern, numerous nations have already implemented or are in the process of adopting regulations to curtail MPs and NPs in aquatic habitats. This paper aims to address this gap by delving into the environmental fate, behaviour, transport, ecotoxicity, and management of MPs and NPs particles within the context of nanoscience, microbial ecology, and remediation technologies. Key findings of this review encompass the intricate interdependencies between MPs and NPs and their ecosystems. The ecological impact, from fate to ecotoxicity, is scrutinized in light of the burgeoning environmental imperative. As a result, this review not only provides an encompassing understanding of the ecological ramifications of MPs and NPs but also highlights the pressing need for further research, innovation, and informed interventions.
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