A multifaceted assessment of the effects of polyethylene microplastics on juvenile gilthead seabreams (Sparus aurata)

•The effects of microplastic (MP) ingestion were examined in Sparus aurata.•Fish were fed for 35 days on natural prey pre-contaminated with 10–20 µm PE MP.•MP ingestion affected fish survival and brain primary metabolite profiles.•MP ingestion affected fish hepatocyte vacuolation and Zn assimilation...

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Veröffentlicht in:	Aquatic toxicology 2021-12, Vol.241, p.106004-106004, Article 106004
Hauptverfasser:	Jacob, Hugo, Besson, Marc, Oberhaensli, François, Taylor, Angus, Gillet, Benjamin, Hughes, Sandrine, Melvin, Steven D., Bustamante, Paco, Swarzenski, Peter W., Lecchini, David, Metian, Marc
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Sprache:	eng
Schlagworte:	Ecotoxicology Experimental exposure Fish Life Sciences Marine contaminant Microplastic ingestion Plastic pollution Toxicology
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container_title	Aquatic toxicology
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creator	Jacob, Hugo Besson, Marc Oberhaensli, François Taylor, Angus Gillet, Benjamin Hughes, Sandrine Melvin, Steven D. Bustamante, Paco Swarzenski, Peter W. Lecchini, David Metian, Marc
description	•The effects of microplastic (MP) ingestion were examined in Sparus aurata.•Fish were fed for 35 days on natural prey pre-contaminated with 10–20 µm PE MP.•MP ingestion affected fish survival and brain primary metabolite profiles.•MP ingestion affected fish hepatocyte vacuolation and Zn assimilation.•MP ingestion did not affect fish growth nor C and N isotopic profiles in muscles. Plastic pollution has become a major environmental and societal concern in the last decade. From larger debris to microplastics (MP), this pollution is ubiquitous and particularly affects aquatic ecosystems. MP can be directly or inadvertently ingested by organisms, transferred along the trophic chain, and sometimes translocated into tissues. However, the impacts of such MP exposure on organisms’ biological functions are yet to be fully understood. Here, we used a multi-diagnostic approach at multiple levels of biological organization (from atoms to organisms) to determine how MP affect the biology of a marine fish, the gilthead seabream, Sparus aurata. We exposed juvenile seabreams for 35 days to spherical 10–20 µm polyethylene primary MP through food (Artemia salina pre-exposed to MP) at a concentration of 5 ± 1 µg of MP per gram of fish per day. MP-exposed fish experienced higher mortality, increased abundance of several brain and liver primary metabolites, hepatic and intestinal histological defects, higher assimilation of an essential element (Zn), and lower assimilation of a non-essential element (Ag). In contrast, growth and muscle C/N isotopic profiles were similar between control and MP-exposed fish, while variable patterns were observed for the intestinal microbiome. This comprehensive analysis of biological responses to MP exposure reveals how MP ingestion can cause negligible to profound effects in a fish species and contributes towards a better understanding of the causal mechanisms of its toxicity.
doi_str_mv	10.1016/j.aquatox.2021.106004
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Plastic pollution has become a major environmental and societal concern in the last decade. From larger debris to microplastics (MP), this pollution is ubiquitous and particularly affects aquatic ecosystems. MP can be directly or inadvertently ingested by organisms, transferred along the trophic chain, and sometimes translocated into tissues. However, the impacts of such MP exposure on organisms’ biological functions are yet to be fully understood. Here, we used a multi-diagnostic approach at multiple levels of biological organization (from atoms to organisms) to determine how MP affect the biology of a marine fish, the gilthead seabream, Sparus aurata. We exposed juvenile seabreams for 35 days to spherical 10–20 µm polyethylene primary MP through food (Artemia salina pre-exposed to MP) at a concentration of 5 ± 1 µg of MP per gram of fish per day. MP-exposed fish experienced higher mortality, increased abundance of several brain and liver primary metabolites, hepatic and intestinal histological defects, higher assimilation of an essential element (Zn), and lower assimilation of a non-essential element (Ag). In contrast, growth and muscle C/N isotopic profiles were similar between control and MP-exposed fish, while variable patterns were observed for the intestinal microbiome. 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Plastic pollution has become a major environmental and societal concern in the last decade. From larger debris to microplastics (MP), this pollution is ubiquitous and particularly affects aquatic ecosystems. MP can be directly or inadvertently ingested by organisms, transferred along the trophic chain, and sometimes translocated into tissues. However, the impacts of such MP exposure on organisms’ biological functions are yet to be fully understood. Here, we used a multi-diagnostic approach at multiple levels of biological organization (from atoms to organisms) to determine how MP affect the biology of a marine fish, the gilthead seabream, Sparus aurata. We exposed juvenile seabreams for 35 days to spherical 10–20 µm polyethylene primary MP through food (Artemia salina pre-exposed to MP) at a concentration of 5 ± 1 µg of MP per gram of fish per day. MP-exposed fish experienced higher mortality, increased abundance of several brain and liver primary metabolites, hepatic and intestinal histological defects, higher assimilation of an essential element (Zn), and lower assimilation of a non-essential element (Ag). In contrast, growth and muscle C/N isotopic profiles were similar between control and MP-exposed fish, while variable patterns were observed for the intestinal microbiome. This comprehensive analysis of biological responses to MP exposure reveals how MP ingestion can cause negligible to profound effects in a fish species and contributes towards a better understanding of the causal mechanisms of its toxicity.</description><subject>Ecotoxicology</subject><subject>Experimental exposure</subject><subject>Fish</subject><subject>Life Sciences</subject><subject>Marine contaminant</subject><subject>Microplastic ingestion</subject><subject>Plastic pollution</subject><subject>Toxicology</subject><issn>0166-445X</issn><issn>1879-1514</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><recordid>eNqFkU9rGzEQxUVpoW6Sj1DQMTmsK-1KsnUqJrRNwdBDU8hNzGpHtYz2TyStib99ZTb0Gl2EZn7voZlHyGfO1pxx9eW4hucZ8viyrlnNS00xJt6RFd9udMUlF-_JqnCqEkI-fSSfUjqycmqhV2Te0X4O2TuwmLGjkBKm1OOQ6ehoPiBF59DmdHlOYzhjPpwDDkh7b-M4BUjZ29Id6HE-4eAD0r8-FCF0NCG0EaFP9Pb3BHFOFOYIGe6uyQcHIeHN631F_nz_9nj_UO1__fh5v9tXVtRNrlCVHyvdbazqVKPaLYLYtqKFbd22DECgE7WUri2zoFYdLy0twdmNFLJpbXNF7hbfAwQzRd9DPJsRvHnY7c2lxhqhmeLsxAt7u7BTHJ9nTNn0PlkMAQYc52RqqUWtlWaioHJBywZSiuj-e3NmLpGYo3mNxFwiMUskRfd10WGZ-eQxmmQ9DhY7H8uOTTf6Nxz-AcbUmXU</recordid><startdate>202112</startdate><enddate>202112</enddate><creator>Jacob, Hugo</creator><creator>Besson, Marc</creator><creator>Oberhaensli, François</creator><creator>Taylor, Angus</creator><creator>Gillet, Benjamin</creator><creator>Hughes, Sandrine</creator><creator>Melvin, Steven D.</creator><creator>Bustamante, Paco</creator><creator>Swarzenski, Peter W.</creator><creator>Lecchini, David</creator><creator>Metian, Marc</creator><general>Elsevier B.V</general><general>Elsevier</general><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>1XC</scope><scope>VOOES</scope><orcidid>https://orcid.org/0000-0003-3932-9180</orcidid><orcidid>https://orcid.org/0000-0003-3877-9390</orcidid><orcidid>https://orcid.org/0000-0003-1485-5029</orcidid><orcidid>https://orcid.org/0000-0002-6610-4537</orcidid><orcidid>https://orcid.org/0000-0003-3381-322X</orcidid><orcidid>https://orcid.org/0000-0002-6347-1112</orcidid></search><sort><creationdate>202112</creationdate><title>A multifaceted assessment of the effects of polyethylene microplastics on juvenile gilthead seabreams (Sparus aurata)</title><author>Jacob, Hugo ; 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subjects	Ecotoxicology Experimental exposure Fish Life Sciences Marine contaminant Microplastic ingestion Plastic pollution Toxicology
title	A multifaceted assessment of the effects of polyethylene microplastics on juvenile gilthead seabreams (Sparus aurata)
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