Ecological risk assessment and sources identification of heavy metals in surface sediments of a river–reservoir system

Ecological risk assessment and sources identification of heavy metals in surface sediments of a river–reservoir system

Heavy metal contamination of river water and sediments is a global issue affecting ecological health. To reveal heavy metals' ecological risks and biological toxicity in the middle and lower Han River (MLHR), sediment samples collected in this area were analyzed based on a modified ecological r...

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Veröffentlicht in:The Science of the total environment 2022-10, Vol.842, p.156683-156683, Article 156683
Hauptverfasser: Li, Xincheng, Bing, Jianping, Zhang, Junhong, Guo, Liquan, Deng, Zhimin, Wang, Dangwei, Liu, Linshuang
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Biological toxicity
Ecological risks
Heavy metals
PMF
The middle and lower Han River
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container_title The Science of the total environment
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creator Li, Xincheng
Bing, Jianping
Zhang, Junhong
Guo, Liquan
Deng, Zhimin
Wang, Dangwei
Liu, Linshuang
description Heavy metal contamination of river water and sediments is a global issue affecting ecological health. To reveal heavy metals' ecological risks and biological toxicity in the middle and lower Han River (MLHR), sediment samples collected in this area were analyzed based on a modified ecological risk assessment method (NIRI) and a biological toxicity assessment method. Also, Spearman correlation analysis and Positive Matrix Factorization (PMF) methods were applied to identify the potential sources of heavy metals. The results indicated that the heavy metal content significantly exceeded the background concentrations in Hubei Province. The average potential risk of heavy metals at sampling sites was: Cd > Hg > As > Pb > Cu > Zn. Consequently, high biological toxicity occurred along the MLHR due to the heavy metal enrichment. River damming and water diversion significantly enhanced the hydrologic regime variations and ecological risk in the MLHR. Moreover, two possible pollution sources of the MLHR were identified: one is a combined source of traffic pollution, agricultural pollution, and partial industrial pollution consisting of five heavy metals, Pb, Hg, Zn, Cu, and As, the other is an industrial pollution source dominated by Cd and As. This study provides insights into sediment heavy metal pollution management and ecological risk control in the MLHR and similar rivers worldwide. [Display omitted] •The heavy metal concentrations significantly exceed the background values in the MLHR.•An extreme risk was found by a modified risk assessment index (NIRI).•The main pollution sources were identified by the PMF source analysis method.•The high biotoxicity was revealed in the surface sediment.•River damming and water diversion enhance the potential ecological risk.
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To reveal heavy metals' ecological risks and biological toxicity in the middle and lower Han River (MLHR), sediment samples collected in this area were analyzed based on a modified ecological risk assessment method (NIRI) and a biological toxicity assessment method. Also, Spearman correlation analysis and Positive Matrix Factorization (PMF) methods were applied to identify the potential sources of heavy metals. The results indicated that the heavy metal content significantly exceeded the background concentrations in Hubei Province. The average potential risk of heavy metals at sampling sites was: Cd &gt; Hg &gt; As &gt; Pb &gt; Cu &gt; Zn. Consequently, high biological toxicity occurred along the MLHR due to the heavy metal enrichment. River damming and water diversion significantly enhanced the hydrologic regime variations and ecological risk in the MLHR. Moreover, two possible pollution sources of the MLHR were identified: one is a combined source of traffic pollution, agricultural pollution, and partial industrial pollution consisting of five heavy metals, Pb, Hg, Zn, Cu, and As, the other is an industrial pollution source dominated by Cd and As. This study provides insights into sediment heavy metal pollution management and ecological risk control in the MLHR and similar rivers worldwide. [Display omitted] •The heavy metal concentrations significantly exceed the background values in the MLHR.•An extreme risk was found by a modified risk assessment index (NIRI).•The main pollution sources were identified by the PMF source analysis method.•The high biotoxicity was revealed in the surface sediment.•River damming and water diversion enhance the potential ecological risk.</description><identifier>ISSN: 0048-9697</identifier><identifier>EISSN: 1879-1026</identifier><identifier>DOI: 10.1016/j.scitotenv.2022.156683</identifier><identifier>PMID: 35700786</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>Biological toxicity ; Ecological risks ; Heavy metals ; PMF ; The middle and lower Han River</subject><ispartof>The Science of the total environment, 2022-10, Vol.842, p.156683-156683, Article 156683</ispartof><rights>2022 Elsevier B.V.</rights><rights>Copyright © 2022. 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To reveal heavy metals' ecological risks and biological toxicity in the middle and lower Han River (MLHR), sediment samples collected in this area were analyzed based on a modified ecological risk assessment method (NIRI) and a biological toxicity assessment method. Also, Spearman correlation analysis and Positive Matrix Factorization (PMF) methods were applied to identify the potential sources of heavy metals. The results indicated that the heavy metal content significantly exceeded the background concentrations in Hubei Province. The average potential risk of heavy metals at sampling sites was: Cd &gt; Hg &gt; As &gt; Pb &gt; Cu &gt; Zn. Consequently, high biological toxicity occurred along the MLHR due to the heavy metal enrichment. River damming and water diversion significantly enhanced the hydrologic regime variations and ecological risk in the MLHR. 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To reveal heavy metals' ecological risks and biological toxicity in the middle and lower Han River (MLHR), sediment samples collected in this area were analyzed based on a modified ecological risk assessment method (NIRI) and a biological toxicity assessment method. Also, Spearman correlation analysis and Positive Matrix Factorization (PMF) methods were applied to identify the potential sources of heavy metals. The results indicated that the heavy metal content significantly exceeded the background concentrations in Hubei Province. The average potential risk of heavy metals at sampling sites was: Cd &gt; Hg &gt; As &gt; Pb &gt; Cu &gt; Zn. Consequently, high biological toxicity occurred along the MLHR due to the heavy metal enrichment. River damming and water diversion significantly enhanced the hydrologic regime variations and ecological risk in the MLHR. 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subjects Biological toxicity
Ecological risks
Heavy metals
PMF
The middle and lower Han River
title Ecological risk assessment and sources identification of heavy metals in surface sediments of a river–reservoir system
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