Co-occurrence of microplastics and heavy metals to urban river sediments: The vertical distribution characterization and comprehensive ecological risk assessment

Microplastics (MPs) and heavy metals (HMs) are deemed to pose ecological risks in river ecosystems. The vertical distribution of these pollutants is more conducive to reflecting pollution status and monitoring trends in the sediment. This work analyzed the horizontal and vertical distribution, carri...

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Published in:Journal of hazardous materials 2025-02, Vol.488, p.137500, Article 137500
Main Authors: He, Wenjuan, Huang, Jinhui, Liu, Si, Shi, Lixiu, Li, Enjie, Hu, Jinying, Zhang, Wei, Zhang, Chenyu, Pang, Haoliang, Liu, Zhexi
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Language:English
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Ecological risk evaluation
Heavy metals
Microplastics
Sediment
Vertical distribution
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container_title Journal of hazardous materials
container_volume 488
creator He, Wenjuan
Huang, Jinhui
Liu, Si
Shi, Lixiu
Li, Enjie
Hu, Jinying
Zhang, Wei
Zhang, Chenyu
Pang, Haoliang
Liu, Zhexi
description Microplastics (MPs) and heavy metals (HMs) are deemed to pose ecological risks in river ecosystems. The vertical distribution of these pollutants is more conducive to reflecting pollution status and monitoring trends in the sediment. This work analyzed the horizontal and vertical distribution, carried out a risk assessment of HMs and MPs in urban river sediment, and further optimized the two-dimensional comprehensive index (TPI) model for MPs-HMs combined pollution. The highest rates of contamination were for Zn, As, and Cd, and MP abundance in sediment ranged from 20.00 ± 8.82–1933.33 ± 141.42 items·kg−1, mainly characterized by PE and fragments. Moreover, the mean potential ecological risk index for MPs (PRI) at different depths of sediment were 197.21 ± 247.14, 176.79 ± 293.86, and 246.98 ± 538.38, respectively, indicating a moderate risk and the highest PRI value is at the bottom. The TPI exhibited that the average TPI at different depths is 324.10 ± 138.63, 368.30 ± 157.13, and 481.88 ± 296.05, indicating that the comprehensive pollution risk level belongs to considerable, the TPI increases with the depth of the sediment. The results further improved the objectivity and accuracy of the research on the ecotoxicity of compositive pollutants and provided an in-depth understanding of MPs and HMs in urban freshwater basins from a vertical perspective. [Display omitted] ●Horizontal and vertical distributions of MPs and HMs were detected in sediment.●Vertically, MP abundance decreased with increasing depth in sediments.●Ingredients with high hazard scores influenced the potential risks of MPs and HMs.●Renewing and improving integrated risk assessment for MPs and HMs.●The integrated risk index of MPs and HMs increased with the depth of the sediment.
doi_str_mv 10.1016/j.jhazmat.2025.137500
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The TPI exhibited that the average TPI at different depths is 324.10 ± 138.63, 368.30 ± 157.13, and 481.88 ± 296.05, indicating that the comprehensive pollution risk level belongs to considerable, the TPI increases with the depth of the sediment. The results further improved the objectivity and accuracy of the research on the ecotoxicity of compositive pollutants and provided an in-depth understanding of MPs and HMs in urban freshwater basins from a vertical perspective. 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subjects Ecological risk evaluation
Heavy metals
Microplastics
Sediment
Vertical distribution
title Co-occurrence of microplastics and heavy metals to urban river sediments: The vertical distribution characterization and comprehensive ecological risk assessment
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