Effects of micro-nano plastics on the environmental biogeochemical cycle of nitrogen: A comprehensive review

Micro-nano plastics (MNPs; size

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Published in:Chemosphere (Oxford) 2024-06, Vol.357, p.142079-142079, Article 142079
Main Authors: Zhang, Tingting, Luo, Xiao-San, Kumar, Amit, Liu, Xin, Tong, Xin, Yao, Xuewen, Fan, Jiayi, Chen, Zhihuai, Chaturvedi, Sadashiv
Format: Article
Language:English
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Ecological and climatic risks
Environmental biogeochemistry
Micro-nano plastics
Microbes
Nitrogen cycle
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container_title Chemosphere (Oxford)
container_volume 357
creator Zhang, Tingting
Luo, Xiao-San
Kumar, Amit
Liu, Xin
Tong, Xin
Yao, Xuewen
Fan, Jiayi
Chen, Zhihuai
Chaturvedi, Sadashiv
description Micro-nano plastics (MNPs; size
doi_str_mv 10.1016/j.chemosphere.2024.142079
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Increasing scientific evidences reveal that MNPs can affect nitrogen (N) cycle processes by affecting biotopes and organisms in the environmental matrix and MNPs biofilms, thus plays a crucial role in nitrous oxide (N2O) and ammonia (NH3) emission. Yet, the mechanism and key processes behind this have not been systematically reviewed in natural environments. In this review, we systematically summarize the effects of MNPs on N transformation in terrestrial, aquatic, and atmospheric ecosystems. The effects of MNPs properties on N content, composition, and function of the microbial community, enzyme activity, gene abundance and plant N uptake in different environmental conditions has been briefly discussed. The review highlights the significant potential of MNPs to alter the properties of the environmental matrix, microbes and plant or animal physiology, resulting in changes in N uptake and metabolic efficiency in plants, thereby inhibiting organic nitrogen (ON) formation and reducing N bioavailability, or altering NH3 emissions from animal sources. The faster the decomposition of plastics, the more intense the perturbation of MNPs to organisms in the natural ecosystem. Findings of this provide a more comprehensive analysis and research directions to the environmentalists, policy makers, water resources planners &amp; managers, biologists, and biotechnologists to do integrate approaches to reach the practical engineering solutions which will further diminish the long-term ecological and climatic risks. [Display omitted] •Micro-nano plastics (MNPs) impact N cycle in ecosystems.•Properties of MNPs are the key factors of environmental roles.•Microorganisms in environmental matrix and MNPs biofilms differ significantly.•MNPs influence microbial structure, activities and evolution in environment.•Effects of MNPs on plants, animals, and microorganisms are interrelated.</description><identifier>ISSN: 0045-6535</identifier><identifier>EISSN: 1879-1298</identifier><identifier>DOI: 10.1016/j.chemosphere.2024.142079</identifier><identifier>PMID: 38642771</identifier><language>eng</language><publisher>England: Elsevier Ltd</publisher><subject>Ecological and climatic risks ; Environmental biogeochemistry ; Micro-nano plastics ; Microbes ; Nitrogen cycle</subject><ispartof>Chemosphere (Oxford), 2024-06, Vol.357, p.142079-142079, Article 142079</ispartof><rights>2024 Elsevier Ltd</rights><rights>Copyright © 2024. 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Increasing scientific evidences reveal that MNPs can affect nitrogen (N) cycle processes by affecting biotopes and organisms in the environmental matrix and MNPs biofilms, thus plays a crucial role in nitrous oxide (N2O) and ammonia (NH3) emission. Yet, the mechanism and key processes behind this have not been systematically reviewed in natural environments. In this review, we systematically summarize the effects of MNPs on N transformation in terrestrial, aquatic, and atmospheric ecosystems. The effects of MNPs properties on N content, composition, and function of the microbial community, enzyme activity, gene abundance and plant N uptake in different environmental conditions has been briefly discussed. The review highlights the significant potential of MNPs to alter the properties of the environmental matrix, microbes and plant or animal physiology, resulting in changes in N uptake and metabolic efficiency in plants, thereby inhibiting organic nitrogen (ON) formation and reducing N bioavailability, or altering NH3 emissions from animal sources. The faster the decomposition of plastics, the more intense the perturbation of MNPs to organisms in the natural ecosystem. Findings of this provide a more comprehensive analysis and research directions to the environmentalists, policy makers, water resources planners &amp; managers, biologists, and biotechnologists to do integrate approaches to reach the practical engineering solutions which will further diminish the long-term ecological and climatic risks. 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The review highlights the significant potential of MNPs to alter the properties of the environmental matrix, microbes and plant or animal physiology, resulting in changes in N uptake and metabolic efficiency in plants, thereby inhibiting organic nitrogen (ON) formation and reducing N bioavailability, or altering NH3 emissions from animal sources. The faster the decomposition of plastics, the more intense the perturbation of MNPs to organisms in the natural ecosystem. Findings of this provide a more comprehensive analysis and research directions to the environmentalists, policy makers, water resources planners &amp; managers, biologists, and biotechnologists to do integrate approaches to reach the practical engineering solutions which will further diminish the long-term ecological and climatic risks. 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subjects Ecological and climatic risks
Environmental biogeochemistry
Micro-nano plastics
Microbes
Nitrogen cycle
title Effects of micro-nano plastics on the environmental biogeochemical cycle of nitrogen: A comprehensive review
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