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Hauptverfasser: Gong, Ning, Wang, Zhiyuan, Wang, Xiaofan, Shao, Kuishuang
Format: Artículo científico
Sprache:en
Veröffentlicht: Aquatic toxicology (Amsterdam, Netherlands) 2024
Schlagworte:
Online-Zugang:https://pubmed.ncbi.nlm.nih.gov/39549359/
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author Gong, Ning
Wang, Zhiyuan
Wang, Xiaofan
Shao, Kuishuang
author_facet Gong, Ning
Wang, Zhiyuan
Wang, Xiaofan
Shao, Kuishuang
Gong, Ning
Wang, Zhiyuan
Wang, Xiaofan
Shao, Kuishuang
collection PubMed - marine biology
contents Uptake, removal and trophic transfer of fluorescent polyethylene microplastics by freshwater model organisms: the impact of particle size and food availability. Gong, Ning Wang, Zhiyuan Wang, Xiaofan Shao, Kuishuang Animals Zebrafish Microplastics Water Pollutants, Chemical Daphnia Food Chain Polyethylene Fresh Water Particle Size Feeding Behavior As an emerging contaminant, microplastics (MPs) are widely distributed in freshwater ecosystems and pose potential threats to aquatic organisms, attracting significant attention from both the scientific community and the general public. However, there is still uncertainty regarding the mechanisms of MPs transfer within aquatic biota and how particle size and food availability influence their transport patterns. In this study, zebrafish (Danio rerio) were selected as a model organism to investigate the uptake and elimination of fluorescent polyethylene (PE) MPs under different exposure scenarios (waterborne or trophic transfer, with or without food) and varying particle sizes (ranging from 10-300 μm at concentrations of 0.1, 2, and 300 mg/L). Additionally, water fleas (Daphnia magna) were provided as prey for the fish. The dynamic accumulation of PE-MPs sized between 10-20 μm at a concentration of 25 mg/L by daphnia was also determined along with its impact on animal feeding behavior. The results demonstrated that both organisms were capable of ingesting PE-MPs during exposures lasting up to 24 hours for daphnia and up to 72 hours for zebrafish. Furthermore, rapid elimination rates were observed within just 30 minutes for daphnia and between 6-12 hours for zebrafish. The presence of food reduced MPs uptake and removal by daphnia but significantly increased MP elimination by fish. Zebrafish showed a preference for ingesting larger-sized MPs that they could easily recognize; however, trophic transfer from daphnia to fish was found to be the primary route of ingestion specifically for PE-MPs sized between 10-20 μm. The findings suggest that while fish directly ingest fewer invisible MPs from the water column, they still accumulate these particles through predation on contaminated prey organisms. Therefore, it is imperative to prioritize the ecological risks associated with the transfer of MPs from zooplankton to fish.
format Artículo científico
id pubmed_39549359
institution PubMed
language en
publishDate 2024
publisher Aquatic toxicology (Amsterdam, Netherlands)
record_format pubmed
spellingShingle Uptake, removal and trophic transfer of fluorescent polyethylene microplastics by freshwater model organisms: the impact of particle size and food availability.
Gong, Ning
Wang, Zhiyuan
Wang, Xiaofan
Shao, Kuishuang
Animals
Zebrafish
Microplastics
Water Pollutants, Chemical
Daphnia
Food Chain
Polyethylene
Fresh Water
Particle Size
Feeding Behavior
Uptake, removal and trophic transfer of fluorescent polyethylene microplastics by freshwater model organisms: the impact of particle size and food availability. Gong, Ning Wang, Zhiyuan Wang, Xiaofan Shao, Kuishuang Animals Zebrafish Microplastics Water Pollutants, Chemical Daphnia Food Chain Polyethylene Fresh Water Particle Size Feeding Behavior As an emerging contaminant, microplastics (MPs) are widely distributed in freshwater ecosystems and pose potential threats to aquatic organisms, attracting significant attention from both the scientific community and the general public. However, there is still uncertainty regarding the mechanisms of MPs transfer within aquatic biota and how particle size and food availability influence their transport patterns. In this study, zebrafish (Danio rerio) were selected as a model organism to investigate the uptake and elimination of fluorescent polyethylene (PE) MPs under different exposure scenarios (waterborne or trophic transfer, with or without food) and varying particle sizes (ranging from 10-300 μm at concentrations of 0.1, 2, and 300 mg/L). Additionally, water fleas (Daphnia magna) were provided as prey for the fish. The dynamic accumulation of PE-MPs sized between 10-20 μm at a concentration of 25 mg/L by daphnia was also determined along with its impact on animal feeding behavior. The results demonstrated that both organisms were capable of ingesting PE-MPs during exposures lasting up to 24 hours for daphnia and up to 72 hours for zebrafish. Furthermore, rapid elimination rates were observed within just 30 minutes for daphnia and between 6-12 hours for zebrafish. The presence of food reduced MPs uptake and removal by daphnia but significantly increased MP elimination by fish. Zebrafish showed a preference for ingesting larger-sized MPs that they could easily recognize; however, trophic transfer from daphnia to fish was found to be the primary route of ingestion specifically for PE-MPs sized between 10-20 μm. The findings suggest that while fish directly ingest fewer invisible MPs from the water column, they still accumulate these particles through predation on contaminated prey organisms. Therefore, it is imperative to prioritize the ecological risks associated with the transfer of MPs from zooplankton to fish.
title Uptake, removal and trophic transfer of fluorescent polyethylene microplastics by freshwater model organisms: the impact of particle size and food availability.
topic Animals
Zebrafish
Microplastics
Water Pollutants, Chemical
Daphnia
Food Chain
Polyethylene
Fresh Water
Particle Size
Feeding Behavior
url https://pubmed.ncbi.nlm.nih.gov/39549359/