Microplastics in the European native oyster, Ostrea edulis, to monitoring pollution-related patterns in the Solent region (United Kingdom)
Microplastics in the European native oyster, Ostrea edulis, to monitoring pollution-related patterns in the Solent region (United Kingdom)
Microplastics (MPs) are the most abundant type of debris in the marine environment, creating a significant threat to aquatic ecosystems due to their persistence, ability to absorb organic pollutants and potential ingestion by marine fauna. Shellfish are particularly vulnerable to MPs accumulation as they filter large volumes of seawater, and they become an important route for human exposure to these particles. This study, the first to examine MPs in European flat oyster (Ostrea edulis) populations, aimed to quantify these particles in the gill and digestive tissues of oysters from the Solent region (southern England). Enzymatic digestion using Proteinase-K was used in this study and MPs were identified in every oyster sampled to determine whether differences in abundance, type and size of MPs exist between locations. Oysters near urban areas contained significantly more MPs than those near rural areas. Fibres were the most prevalent type of MPs, with sizes varying across locations. The study found no significant differences in MPs presence between gills and digestive tissues, and an inverse correlation between the size of MPs and oyster size. The presence of MPs in wild O. edulis could be an additional threat to the survival of an already threatened species and may pose health risks for predatory species and human consumers of seafood. The use of O. edulis as a biomonitoring species for marine MPs pollution could help determine the extent, distribution and sources of MPs, potentially informing management strategies to reduce pollution.
Bioaccumulation, Biomonitoring, Microplastics, Oysters, Pollution
Zapata Restrepo, Lina M.
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Bawden, Katherine
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Sidaoui-Haddad, Giovanna
eb19cb4c-3307-475a-b37c-c4f6e73c89d8
Spencer, Eleanor
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Williams, Ian
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Hudson, Malcolm
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12 April 2025
Zapata Restrepo, Lina M.
2276abeb-952d-4475-9620-bd0885291f64
Bawden, Katherine
d13319e7-3c97-4054-8104-b9824cd8a3a4
Sidaoui-Haddad, Giovanna
eb19cb4c-3307-475a-b37c-c4f6e73c89d8
Spencer, Eleanor
0577cccf-b888-4e84-b43c-e54b0066f7ee
Williams, Ian
c9d674ac-ee69-4937-ab43-17e716266e22
Hudson, Malcolm
1ae18506-6f2a-48af-8c72-83ab28679f55
Zapata Restrepo, Lina M., Bawden, Katherine, Sidaoui-Haddad, Giovanna, Spencer, Eleanor, Williams, Ian and Hudson, Malcolm
(2025)
Microplastics in the European native oyster, Ostrea edulis, to monitoring pollution-related patterns in the Solent region (United Kingdom).
Environmental Monitoring and Assessment, 197 (5), [544].
(doi:10.1007/s10661-025-13975-x).
Abstract
Microplastics (MPs) are the most abundant type of debris in the marine environment, creating a significant threat to aquatic ecosystems due to their persistence, ability to absorb organic pollutants and potential ingestion by marine fauna. Shellfish are particularly vulnerable to MPs accumulation as they filter large volumes of seawater, and they become an important route for human exposure to these particles. This study, the first to examine MPs in European flat oyster (Ostrea edulis) populations, aimed to quantify these particles in the gill and digestive tissues of oysters from the Solent region (southern England). Enzymatic digestion using Proteinase-K was used in this study and MPs were identified in every oyster sampled to determine whether differences in abundance, type and size of MPs exist between locations. Oysters near urban areas contained significantly more MPs than those near rural areas. Fibres were the most prevalent type of MPs, with sizes varying across locations. The study found no significant differences in MPs presence between gills and digestive tissues, and an inverse correlation between the size of MPs and oyster size. The presence of MPs in wild O. edulis could be an additional threat to the survival of an already threatened species and may pose health risks for predatory species and human consumers of seafood. The use of O. edulis as a biomonitoring species for marine MPs pollution could help determine the extent, distribution and sources of MPs, potentially informing management strategies to reduce pollution.
Text
s10661-025-13975-x
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Accepted/In Press date: 30 March 2025
Published date: 12 April 2025
Keywords:
Bioaccumulation, Biomonitoring, Microplastics, Oysters, Pollution
Identifiers
Local EPrints ID: 502341
URI: http://eprints.soton.ac.uk/id/eprint/502341
ISSN: 0167-6369
PURE UUID: 381c87c1-d403-4618-93f1-3b60f108975b
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Date deposited: 24 Jun 2025 16:31
Last modified: 22 Aug 2025 01:53
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Contributors
Author:
Lina M. Zapata Restrepo
Author:
Katherine Bawden
Author:
Giovanna Sidaoui-Haddad
Author:
Eleanor Spencer
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