1. Microplastic pollution in soils and groundwater: Characteristics, analytical methods and impacts.
- Author
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Huang, Jinsheng, Chen, Hao, Zheng, Yulin, Yang, Yicheng, Zhang, Yue, and Gao, Bin
- Subjects
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SOIL pollution , *GROUNDWATER pollution , *DRUG resistance in bacteria , *QUALITY control , *GROUNDWATER - Abstract
[Display omitted] • More studies of MPs in soils and groundwater are needed in South America, Africa, and Oceania. • Soil migration and wastewater effluents may be the potential sources and pathways of MP contamination in groundwater. • Most MPs negatively affect soil properties, animals, and plants. • Humans may expose to antibiotic resistance genes through exposure to MP-polluted soils and groundwater. Microplastic (MP) pollution has raised public concerns in recent decades globally due to its wide global spreading and potential toxicity. Most of existing studies have focused on MP pollution in marine, freshwater, and sediment systems. However, much less research attention has been paid to soil, which is a major sink of MPs. Furthermore, research interest in MPs in groundwater is even lower than that in soils. There is a critical need to digest and summarize the existing knowledge and the latest advancements to promote research on MP pollution in soils and groundwater. As the first of its kind, this work provides a systematical review of the newest knowledge on occurrences, sources, analytical methods, and impacts of MPs in both soils and groundwater. It first outlines the characteristics (global occurrences, sources, and pathways) of MP pollution in soils and groundwater. Commonly used analytical methods including sample collection (sites, tools, depth, points, and quantity), sample preparation (drying and sieving), extraction (separation, digestion, etc.), identification (visual sorting, chromatography, and vibration spectroscopy), and quality assurance/quality control are then systematically reviewed. Furthermore, the risks and impacts of MPs on soil properties, plants, animals, and antibiotic resistance genes (ARGs) between microorganisms and humans are discussed. At the end, this review also identifies the knowledge gaps and points out potential directions for future research. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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