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Main Authors: Chai, Yanchao, Wang, Xin, Wang, Haiqing, Zhang, Yu, Dai, Zhongqi, Yang, Jiaxin
Format: Artículo científico
Language:en
Published: Journal of hazardous materials 2024
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/39541880/
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author Chai, Yanchao
Wang, Xin
Wang, Haiqing
Zhang, Yu
Dai, Zhongqi
Yang, Jiaxin
author_facet Chai, Yanchao
Wang, Xin
Wang, Haiqing
Zhang, Yu
Dai, Zhongqi
Yang, Jiaxin
Chai, Yanchao
Wang, Xin
Wang, Haiqing
Zhang, Yu
Dai, Zhongqi
Yang, Jiaxin
collection PubMed - marine biology
contents Tire wear particle leachate exhibits trophic and multi-generational amplification: Potential threat to population viability. Chai, Yanchao Wang, Xin Wang, Haiqing Zhang, Yu Dai, Zhongqi Yang, Jiaxin Animals Rotifera Carps Water Pollutants, Chemical Chlorella Reproduction Food Chain Zooplankton Larva Microalgae The toxic additives leached from tire wear particles (TWPs) in road runoff can directly poison aquatic organism through high-dose exposure in sporadic hotspots. Given the ubiquity of road runoff carrying TWPs, it is necessary to assess whether there are lagging effects from low-dose exposure, as the toxicity of TWPs leachate can be transferred and amplified across multi-generations and different trophic levels: microalgae, zooplankton and larval fish. In this study, Chlorella pyrenoidesa exposed to different concentrations of TWPs leachate were fed to rotifer Brachionus calyciflorus, which were subsequently used as the initial feeding for fry of Cyprinus carpio. Below 1000 mg/L, the growth of microalgae was not influenced by TWPs leachate. Rotifer fed with contaminated microalgae for a single generation exhibited hormesis in their reproduction. After multigenerational feeding, the microalgae from 500 mg/L treatment were sufficient to suppress reproduction of rotifer since the third generation. For the secondary consumer carp fry, survival, growth, and feeding rate were significantly inhibited at first generation when consuming the rotifers fed with microalgae exposed to 250 mg/L TWPs leachate. So, evidence was presented for the generational and trophic amplification of toxicity in TWPs leachate within the food chain. A seemingly innocuous low dose can exhibit evident ecotoxicity after trophic and generational transfer, which could decline population viability of the aquatic organisms in the future.
format Artículo científico
id pubmed_39541880
institution PubMed
language en
publishDate 2024
publisher Journal of hazardous materials
record_format pubmed
spellingShingle Tire wear particle leachate exhibits trophic and multi-generational amplification: Potential threat to population viability.
Chai, Yanchao
Wang, Xin
Wang, Haiqing
Zhang, Yu
Dai, Zhongqi
Yang, Jiaxin
Animals
Rotifera
Carps
Water Pollutants, Chemical
Chlorella
Reproduction
Food Chain
Zooplankton
Larva
Microalgae
Tire wear particle leachate exhibits trophic and multi-generational amplification: Potential threat to population viability. Chai, Yanchao Wang, Xin Wang, Haiqing Zhang, Yu Dai, Zhongqi Yang, Jiaxin Animals Rotifera Carps Water Pollutants, Chemical Chlorella Reproduction Food Chain Zooplankton Larva Microalgae The toxic additives leached from tire wear particles (TWPs) in road runoff can directly poison aquatic organism through high-dose exposure in sporadic hotspots. Given the ubiquity of road runoff carrying TWPs, it is necessary to assess whether there are lagging effects from low-dose exposure, as the toxicity of TWPs leachate can be transferred and amplified across multi-generations and different trophic levels: microalgae, zooplankton and larval fish. In this study, Chlorella pyrenoidesa exposed to different concentrations of TWPs leachate were fed to rotifer Brachionus calyciflorus, which were subsequently used as the initial feeding for fry of Cyprinus carpio. Below 1000 mg/L, the growth of microalgae was not influenced by TWPs leachate. Rotifer fed with contaminated microalgae for a single generation exhibited hormesis in their reproduction. After multigenerational feeding, the microalgae from 500 mg/L treatment were sufficient to suppress reproduction of rotifer since the third generation. For the secondary consumer carp fry, survival, growth, and feeding rate were significantly inhibited at first generation when consuming the rotifers fed with microalgae exposed to 250 mg/L TWPs leachate. So, evidence was presented for the generational and trophic amplification of toxicity in TWPs leachate within the food chain. A seemingly innocuous low dose can exhibit evident ecotoxicity after trophic and generational transfer, which could decline population viability of the aquatic organisms in the future.
title Tire wear particle leachate exhibits trophic and multi-generational amplification: Potential threat to population viability.
topic Animals
Rotifera
Carps
Water Pollutants, Chemical
Chlorella
Reproduction
Food Chain
Zooplankton
Larva
Microalgae
url https://pubmed.ncbi.nlm.nih.gov/39541880/