Gespeichert in:
Bibliographische Detailangaben
Hauptverfasser: Chen, Yuxin, Wu, Dan, Zhang, Lai, Yang, Zichun, Zhou, Famin, Kortsch, Susanne, Pontarp, Mikael
Format: Artículo científico
Sprache:en
Veröffentlicht: Journal of hazardous materials 2024
Schlagworte:
Online-Zugang:https://pubmed.ncbi.nlm.nih.gov/39388863/
Tags: Tag hinzufügen
Keine Tags, Fügen Sie den ersten Tag hinzu!
_version_ 1868266292652277760
author Chen, Yuxin
Wu, Dan
Zhang, Lai
Yang, Zichun
Zhou, Famin
Kortsch, Susanne
Pontarp, Mikael
author_facet Chen, Yuxin
Wu, Dan
Zhang, Lai
Yang, Zichun
Zhou, Famin
Kortsch, Susanne
Pontarp, Mikael
Chen, Yuxin
Wu, Dan
Zhang, Lai
Yang, Zichun
Zhou, Famin
Kortsch, Susanne
Pontarp, Mikael
collection PubMed - marine biology
contents Impacts of microplastic ingestion on fish communities in Haizhou Bay, China. Chen, Yuxin Wu, Dan Zhang, Lai Yang, Zichun Zhou, Famin Kortsch, Susanne Pontarp, Mikael Animals Microplastics Water Pollutants, Chemical China Fishes Food Chain Bays Eating Environmental Monitoring Microplastics are pervasive throughout aquatic ecological communities. While their negative impacts on the life history traits of aquatic species are well studied, the effects on community dynamics remain elusive. Consequently, community-level assessments of microplastic effects on marine food webs are largely lacking, creating significant knowledge gaps regarding marine ecosystem structure and dynamics in the context of microplastic contamination. Here we expand a multispecies size-spectrum model by incorporating microplastic impacts on individual life-history traits, ultimately allowing us to study microplastic-mediated structural and functional changes in fish communities. As expected, microplastic ingestion may drive species extinction, but the microplastic-to-food ratio threshold for extinction is species-specific, and not necessarily correlated with species' asymptotic weights. Interestingly, species responses to microplastics also propagate through the community as ingestion triggers both bottom-up and top-down effects on community dynamics. Which specific type of cascading effect is dominating depends on which species is ingesting microplastics as well as its trophic role in the community. Generally, low-trophic-level species ingesting microplastics can exert large detrimental effects on community biomass. Thus, this study highlights the necessity for a comprehensive risk assessment of species-specific responses to microplastic contamination as well as an understanding of individual species' role in their communities.
format Artículo científico
id pubmed_39388863
institution PubMed
language en
publishDate 2024
publisher Journal of hazardous materials
record_format pubmed
spellingShingle Impacts of microplastic ingestion on fish communities in Haizhou Bay, China.
Chen, Yuxin
Wu, Dan
Zhang, Lai
Yang, Zichun
Zhou, Famin
Kortsch, Susanne
Pontarp, Mikael
Animals
Microplastics
Water Pollutants, Chemical
China
Fishes
Food Chain
Bays
Eating
Environmental Monitoring
Impacts of microplastic ingestion on fish communities in Haizhou Bay, China. Chen, Yuxin Wu, Dan Zhang, Lai Yang, Zichun Zhou, Famin Kortsch, Susanne Pontarp, Mikael Animals Microplastics Water Pollutants, Chemical China Fishes Food Chain Bays Eating Environmental Monitoring Microplastics are pervasive throughout aquatic ecological communities. While their negative impacts on the life history traits of aquatic species are well studied, the effects on community dynamics remain elusive. Consequently, community-level assessments of microplastic effects on marine food webs are largely lacking, creating significant knowledge gaps regarding marine ecosystem structure and dynamics in the context of microplastic contamination. Here we expand a multispecies size-spectrum model by incorporating microplastic impacts on individual life-history traits, ultimately allowing us to study microplastic-mediated structural and functional changes in fish communities. As expected, microplastic ingestion may drive species extinction, but the microplastic-to-food ratio threshold for extinction is species-specific, and not necessarily correlated with species' asymptotic weights. Interestingly, species responses to microplastics also propagate through the community as ingestion triggers both bottom-up and top-down effects on community dynamics. Which specific type of cascading effect is dominating depends on which species is ingesting microplastics as well as its trophic role in the community. Generally, low-trophic-level species ingesting microplastics can exert large detrimental effects on community biomass. Thus, this study highlights the necessity for a comprehensive risk assessment of species-specific responses to microplastic contamination as well as an understanding of individual species' role in their communities.
title Impacts of microplastic ingestion on fish communities in Haizhou Bay, China.
topic Animals
Microplastics
Water Pollutants, Chemical
China
Fishes
Food Chain
Bays
Eating
Environmental Monitoring
url https://pubmed.ncbi.nlm.nih.gov/39388863/