探索土壤-农业生态系统中微塑料的普遍存在:起源、发生和污染物协同作用

IF 3.5 3区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES
Kanika Dogra , Manish Kumar , Kanchan Deoli Bahukhandi , Jian Zang
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引用次数: 0

摘要

塑料在现代生活中无处不在,已成为一个重要的环境问题和人类世时代的标志。塑料降解后会形成 5 毫米或更小的微塑料(MPs)。微塑料与污泥、水处理厂污水、地表水和地下水中的其他污染物共存,共同塑造了环境景观。尽管进行了广泛的调查,但土壤中 MPs 的长期影响仍不确定,这凸显了深入研究 MPs 的迁移及其与土壤生物群和其他污染物相互作用的重要性。本文全面概述了土壤中的 MPs 污染情况,包括其来源、普遍性、特征以及与土壤动植物群、重金属和有机化合物之间的相互作用。土壤农业生态系统中 MPs 的来源包括覆盖物、堆肥、乱扔垃圾、污水污泥、灌溉水和施肥。据报道,塑料地膜、垃圾和污水污泥中 MPs 的浓度分别为 503 ± 2760 微克/千克-1、4483 ± 2315 微克/千克和 11,100 ± 570 微克/千克。多溴联苯醚在土壤农业生态系统中的迁移是由于其水平和垂直迁移,包括生物和非生物迁移。文章还重点介绍了土壤农业生态系统中 MPs 的分析过程,包括取样计划、采集、净化、提取和鉴定技术。MPs 与有机污染物的相互作用机制包括表面吸附或粘附、阳离子桥接、氢键、电荷转移、配体交换、范德华相互作用和离子交换。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Traversing the prevalence of microplastics in soil-agro ecosystems: Origin, occurrence, and pollutants synergies

Traversing the prevalence of microplastics in soil-agro ecosystems: Origin, occurrence, and pollutants synergies

The ubiquity of plastics in modern life has made them a significant environmental concern and a marker of the Anthropocene era. The degradation of plastics results in the formation of microplastics (MPs), which measure 5 mm or less. The coexistence of MPs with other pollutants found in sludge, water treatment plant effluents, surface water, and groundwater, shapes the environmental landscape together. Despite extensive investigation, the long-term implications of MPs in soils remain uncertain, underscoring the importance of delving into their transportation and interactions with soil biota and other contaminants. The present article provides a comprehensive overview of MPs contamination in soil, encompassing its sources, prevalence, features, and interactions with soil flora and fauna, heavy metals, and organic compounds. The sources of MPs in soil agroecosystems are mulching, composting, littering, sewage sludge, irrigation water, and fertilizer application. The concentration of MPs reported in plastic mulch, littering, and sewage sludge is 503 ± 2760 items per kg−1, 4483 ± 2315 MPs/kg, and 11,100 ± 570 per/kg. The transport of MPs in soil agroecosystems is due to their horizontal and vertical migration including biotic and abiotic mobility. The article also highlighted the analytical process, which includes sampling planning, collection, purification, extraction, and identification techniques of MPs in soil agroecosystems. The mechanism in the interaction of MPs and organic pollutants includes surface adsorption or adhesion cation bridging, hydrogen bonding, charge transfer, ligand exchange, van der Waals interactions, and ion exchange.

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来源期刊
Journal of contaminant hydrology
Journal of contaminant hydrology 环境科学-地球科学综合
CiteScore
6.80
自引率
2.80%
发文量
129
审稿时长
68 days
期刊介绍: The Journal of Contaminant Hydrology is an international journal publishing scientific articles pertaining to the contamination of subsurface water resources. Emphasis is placed on investigations of the physical, chemical, and biological processes influencing the behavior and fate of organic and inorganic contaminants in the unsaturated (vadose) and saturated (groundwater) zones, as well as at groundwater-surface water interfaces. The ecological impacts of contaminants transported both from and to aquifers are of interest. Articles on contamination of surface water only, without a link to groundwater, are out of the scope. Broad latitude is allowed in identifying contaminants of interest, and include legacy and emerging pollutants, nutrients, nanoparticles, pathogenic microorganisms (e.g., bacteria, viruses, protozoa), microplastics, and various constituents associated with energy production (e.g., methane, carbon dioxide, hydrogen sulfide). The journal''s scope embraces a wide range of topics including: experimental investigations of contaminant sorption, diffusion, transformation, volatilization and transport in the surface and subsurface; characterization of soil and aquifer properties only as they influence contaminant behavior; development and testing of mathematical models of contaminant behaviour; innovative techniques for restoration of contaminated sites; development of new tools or techniques for monitoring the extent of soil and groundwater contamination; transformation of contaminants in the hyporheic zone; effects of contaminants traversing the hyporheic zone on surface water and groundwater ecosystems; subsurface carbon sequestration and/or turnover; and migration of fluids associated with energy production into groundwater.
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