Point or non-point source: Toxicity evaluation using m-POCIS and zebrafish embryos in municipal sewage treatment plants and urban waterways

Point or non-point source: Toxicity evaluation using m-POCIS and zebrafish embryos in municipal sewage treatment plants and urban waterways

Municipal sewage treatment plants (STPs) have been regarded as an important source of organic contaminants in aquatic environment. To assess the impact of STPs on occurrence and toxicity of STP-associated contaminants in receiving waterways, a novel passive sampler modified from polar organic chemic...

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Veröffentlicht in:Environmental pollution (1987) 2022-01, Vol.292, p.118307-118307, Article 118307
Hauptverfasser: Xie, Peihong, Yan, Qiankun, Xiong, Jingjing, Li, Huizhen, Ma, Xue, You, Jing
Format: Artikel
Sprache:eng
Schlagworte:
aquatic environment
chemical oxygen demand
China
cosmetics
Danio rerio
embryotoxicity
infrastructure
neonicotinoid insecticides
Nonpoint source pollution
Organic contaminants
Polar organic chemical integrative sampler
rivers
sewage treatment
Sewage treatment plant (STP)
sludge
urban runoff
wet season
Zebrafish embryo toxicity tests
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container_end_page 118307
container_issue
container_start_page 118307
container_title Environmental pollution (1987)
container_volume 292
creator Xie, Peihong
Yan, Qiankun
Xiong, Jingjing
Li, Huizhen
Ma, Xue
You, Jing
description Municipal sewage treatment plants (STPs) have been regarded as an important source of organic contaminants in aquatic environment. To assess the impact of STPs on occurrence and toxicity of STP-associated contaminants in receiving waterways, a novel passive sampler modified from polar organic chemical integrative sampler (m-POCIS) was deployed at the inlet and outlet of a STP and several upstream and downstream sites along a river receiving STP effluent in Guangzhou, China. Eighty-seven contaminants were analyzed in m-POCIS extracts, along with toxicity evaluation using zebrafish embryos. Polycyclic musks were the predominant contaminants in both STP and urban waterways, and antibiotics and current-use pesticides (e.g., neonicotinoids, fiproles) were also ubiquitous. The m-POCIS extracts from downstream sites caused significant deformity in embryos, yet the toxicity could not be explained by the measured contaminants, implying the presence of nontarget stressors. Sewage treatment process substantially reduced embryo deformity, chemical oxygen demand, and contamination levels of some contaminants; however, concentrations of neonicotinoids and fiproles increased after STP treatment, possibly due to the release of chemicals from perturbed sludge. Source identification showed that most of the contaminants found in urban waterways were originated from nonpoint runoff, while cosmetics factories and hospitals were likely point sources for musks and antibiotics, respectively. Although the observed embryo toxicity could not be well explained by target contaminants, the present study showed a promising future of using passive samplers to evaluate chemical occurrence and aquatic toxicity concurrently. Zebrafish embryo toxicity significantly decreased after sewage treatment, but higher toxicity was observed for downstream samples, demonstrating that urban runoff may produce detrimental effects to aquatic life, particularly in rainy season. These results highlight the relevance of monitoring nonpoint source pollution along with boosting municipal sewage treatment infrastructure. [Display omitted] •POCIS extracts were used for chemical analysis and zebrafish embryo toxicity tests.•Emerging contaminants were ubiquitous in STP effluent and surface water.•Embryo toxicity decreased after sewage treatment along with reduction in COD.•Concentrations of neonicotinoids and fiproles increased in the outlet of STP.•STP was not a main source of contaminants and toxicity in receivi
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To assess the impact of STPs on occurrence and toxicity of STP-associated contaminants in receiving waterways, a novel passive sampler modified from polar organic chemical integrative sampler (m-POCIS) was deployed at the inlet and outlet of a STP and several upstream and downstream sites along a river receiving STP effluent in Guangzhou, China. Eighty-seven contaminants were analyzed in m-POCIS extracts, along with toxicity evaluation using zebrafish embryos. Polycyclic musks were the predominant contaminants in both STP and urban waterways, and antibiotics and current-use pesticides (e.g., neonicotinoids, fiproles) were also ubiquitous. The m-POCIS extracts from downstream sites caused significant deformity in embryos, yet the toxicity could not be explained by the measured contaminants, implying the presence of nontarget stressors. Sewage treatment process substantially reduced embryo deformity, chemical oxygen demand, and contamination levels of some contaminants; however, concentrations of neonicotinoids and fiproles increased after STP treatment, possibly due to the release of chemicals from perturbed sludge. Source identification showed that most of the contaminants found in urban waterways were originated from nonpoint runoff, while cosmetics factories and hospitals were likely point sources for musks and antibiotics, respectively. Although the observed embryo toxicity could not be well explained by target contaminants, the present study showed a promising future of using passive samplers to evaluate chemical occurrence and aquatic toxicity concurrently. Zebrafish embryo toxicity significantly decreased after sewage treatment, but higher toxicity was observed for downstream samples, demonstrating that urban runoff may produce detrimental effects to aquatic life, particularly in rainy season. 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Sewage treatment process substantially reduced embryo deformity, chemical oxygen demand, and contamination levels of some contaminants; however, concentrations of neonicotinoids and fiproles increased after STP treatment, possibly due to the release of chemicals from perturbed sludge. Source identification showed that most of the contaminants found in urban waterways were originated from nonpoint runoff, while cosmetics factories and hospitals were likely point sources for musks and antibiotics, respectively. Although the observed embryo toxicity could not be well explained by target contaminants, the present study showed a promising future of using passive samplers to evaluate chemical occurrence and aquatic toxicity concurrently. Zebrafish embryo toxicity significantly decreased after sewage treatment, but higher toxicity was observed for downstream samples, demonstrating that urban runoff may produce detrimental effects to aquatic life, particularly in rainy season. These results highlight the relevance of monitoring nonpoint source pollution along with boosting municipal sewage treatment infrastructure. [Display omitted] •POCIS extracts were used for chemical analysis and zebrafish embryo toxicity tests.•Emerging contaminants were ubiquitous in STP effluent and surface water.•Embryo toxicity decreased after sewage treatment along with reduction in COD.•Concentrations of neonicotinoids and fiproles increased in the outlet of STP.•STP was not a main source of contaminants and toxicity in receiving urban waters.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.envpol.2021.118307</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0002-4006-8339</orcidid></addata></record>
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ispartof Environmental pollution (1987), 2022-01, Vol.292, p.118307-118307, Article 118307
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source Elsevier ScienceDirect Journals
subjects aquatic environment
chemical oxygen demand
China
cosmetics
Danio rerio
embryotoxicity
infrastructure
neonicotinoid insecticides
Nonpoint source pollution
Organic contaminants
Polar organic chemical integrative sampler
rivers
sewage treatment
Sewage treatment plant (STP)
sludge
urban runoff
wet season
Zebrafish embryo toxicity tests
title Point or non-point source: Toxicity evaluation using m-POCIS and zebrafish embryos in municipal sewage treatment plants and urban waterways
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