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Main Authors: Pantó, G, Vanreusel, A, Vercauteren, M, Asselman, J, Van Colen, C
Format: Artículo científico
Language:en
Published: Environmental pollution (Barking, Essex : 1987) 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/39608744/
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author Pantó, G
Vanreusel, A
Vercauteren, M
Asselman, J
Van Colen, C
author_facet Pantó, G
Vanreusel, A
Vercauteren, M
Asselman, J
Van Colen, C
Pantó, G
Vanreusel, A
Vercauteren, M
Asselman, J
Van Colen, C
collection PubMed - marine biology
contents Seabed microplastics in the European continental shelf: Unravelling physical and biological transport pathways and reciprocal fauna-Polymer relationships. Pantó, G Vanreusel, A Vercauteren, M Asselman, J Van Colen, C Microplastics Water Pollutants, Chemical Environmental Monitoring Geologic Sediments Seawater Animals Europe Biological Transport Polymers Ecosystem Plastics Aquatic Organisms Marine sediments are recognized as major sinks for microplastics, including remote areas which were previously considered "plastic-free". The understanding of microplastic dynamics in marine sediments is however limited due to the numerous pelagic and benthic pathways involved, and how these are influenced by physico-chemical interactions with the particles. European continental shelves border densely populated areas and face a high risk of microplastic contamination. In this study we quantified microplastics in soft-sediments of European coastal seas and characterized their polymer composition separating surface sediments from deeper layers. We then analyzed the influence of water column and sediment properties on spatial variability of seabed microplastics and investigated the relationship with macrofauna communities. A higher proportion of negatively buoyant polymers in surface sediments (0-1 cm) across stations was explained by seawater salinity and sediment microalgal detritus, highlighting the role of riverine input and possibly the formation of hetero-aggregates in defining polymer deposition. Additionally, we found that seawater temperature influenced polymer composition in deeper sediment layers (0-3 cm), likely together with biological activities performed by macrobenthos such as ingestion and burial. Finally, we demonstrate that seabed microplastics contribute to the spatial variability in macrobenthos, highlighting that marine ecosystem functioning effects of microplastic pollution are likely mediated via the benthos.
format Artículo científico
id pubmed_39608744
institution PubMed
language en
publishDate 2025
publisher Environmental pollution (Barking, Essex : 1987)
record_format pubmed
spellingShingle Seabed microplastics in the European continental shelf: Unravelling physical and biological transport pathways and reciprocal fauna-Polymer relationships.
Pantó, G
Vanreusel, A
Vercauteren, M
Asselman, J
Van Colen, C
Microplastics
Water Pollutants, Chemical
Environmental Monitoring
Geologic Sediments
Seawater
Animals
Europe
Biological Transport
Polymers
Ecosystem
Plastics
Aquatic Organisms
Seabed microplastics in the European continental shelf: Unravelling physical and biological transport pathways and reciprocal fauna-Polymer relationships. Pantó, G Vanreusel, A Vercauteren, M Asselman, J Van Colen, C Microplastics Water Pollutants, Chemical Environmental Monitoring Geologic Sediments Seawater Animals Europe Biological Transport Polymers Ecosystem Plastics Aquatic Organisms Marine sediments are recognized as major sinks for microplastics, including remote areas which were previously considered "plastic-free". The understanding of microplastic dynamics in marine sediments is however limited due to the numerous pelagic and benthic pathways involved, and how these are influenced by physico-chemical interactions with the particles. European continental shelves border densely populated areas and face a high risk of microplastic contamination. In this study we quantified microplastics in soft-sediments of European coastal seas and characterized their polymer composition separating surface sediments from deeper layers. We then analyzed the influence of water column and sediment properties on spatial variability of seabed microplastics and investigated the relationship with macrofauna communities. A higher proportion of negatively buoyant polymers in surface sediments (0-1 cm) across stations was explained by seawater salinity and sediment microalgal detritus, highlighting the role of riverine input and possibly the formation of hetero-aggregates in defining polymer deposition. Additionally, we found that seawater temperature influenced polymer composition in deeper sediment layers (0-3 cm), likely together with biological activities performed by macrobenthos such as ingestion and burial. Finally, we demonstrate that seabed microplastics contribute to the spatial variability in macrobenthos, highlighting that marine ecosystem functioning effects of microplastic pollution are likely mediated via the benthos.
title Seabed microplastics in the European continental shelf: Unravelling physical and biological transport pathways and reciprocal fauna-Polymer relationships.
topic Microplastics
Water Pollutants, Chemical
Environmental Monitoring
Geologic Sediments
Seawater
Animals
Europe
Biological Transport
Polymers
Ecosystem
Plastics
Aquatic Organisms
url https://pubmed.ncbi.nlm.nih.gov/39608744/