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Assessing the physiological effects of microplastics on cultured mussels in the Mediterranean Sea

Environmental Pollution 2024 6 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 55 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Catherine Tsangaris Νικολέττα Δίγκα, Νικολέττα Δίγκα, Νικολέττα Δίγκα, Kostas Tsiaras, Kostas Tsiaras, Yannis Hatzonikolakis, Yannis Hatzonikolakis, Yannis Hatzonikolakis, Νικολέττα Δίγκα, Νικολέττα Δίγκα, Νικολέττα Δίγκα, Νικολέττα Δίγκα, Νικολέττα Δίγκα, G. Triantafyllou, G. Triantafyllou, G. Triantafyllou, G. Triantafyllou, Νικολέττα Δίγκα, Νικολέττα Δίγκα, Yannis Hatzonikolakis, Catherine Tsangaris Yannis Hatzonikolakis, Catherine Tsangaris Yannis Hatzonikolakis, Νικολέττα Δίγκα, Yannis Hatzonikolakis, Yannis Hatzonikolakis, Νικολέττα Δίγκα, Kostas Tsiaras, Catherine Tsangaris Catherine Tsangaris Kostas Tsiaras, Catherine Tsangaris Catherine Tsangaris Kostas Tsiaras, Catherine Tsangaris Νικολέττα Δίγκα, Yannis Hatzonikolakis, Yannis Hatzonikolakis, Yannis Hatzonikolakis, Catherine Tsangaris Kostas Tsiaras, ‪Dionysios E. Raitsos, Νικολέττα Δίγκα, Νικολέττα Δίγκα, Νικολέττα Δίγκα, Yannis Hatzonikolakis, Yannis Hatzonikolakis, Yannis Hatzonikolakis, Yannis Hatzonikolakis, Yannis Hatzonikolakis, Yannis Hatzonikolakis, Νικολέττα Δίγκα, Kostas Tsiaras, ‪Dionysios E. Raitsos, Νικολέττα Δίγκα, Sévrine Sailley, Yannis Hatzonikolakis, Kostas Tsiaras, Kostas Tsiaras, Catherine Tsangaris Kostas Tsiaras, Νικολέττα Δίγκα, ‪Dionysios E. Raitsos, ‪Dionysios E. Raitsos, Catherine Tsangaris ‪Dionysios E. Raitsos, Yannis Hatzonikolakis, Yannis Hatzonikolakis, Catherine Tsangaris Yannis Hatzonikolakis, Catherine Tsangaris Yannis Hatzonikolakis, Catherine Tsangaris Νικολέττα Δίγκα, Νικολέττα Δίγκα, Georgina Skia, Iason Theodorou, Georgina Skia, Georgina Skia, Georgina Skia, G. Triantafyllou, Georgina Skia, Νικολέττα Δίγκα, Georgina Skia, Catherine Tsangaris Νικολέττα Δίγκα, Νικολέττα Δίγκα, Catherine Tsangaris Catherine Tsangaris Νικολέττα Δίγκα, Yannis Hatzonikolakis, Catherine Tsangaris Catherine Tsangaris Kostas Tsiaras, Yannis Hatzonikolakis, Νικολέττα Δίγκα, Catherine Tsangaris Kostas Tsiaras, Kostas Tsiaras, G. Triantafyllou, ‪Dionysios E. Raitsos, G. Triantafyllou, G. Triantafyllou, G. Triantafyllou, Georgina Skia, G. Triantafyllou, Georgina Skia, Catherine Tsangaris Catherine Tsangaris Alexandros Ntzouvaras, Alexandros Ntzouvaras, Kostas Tsiaras, G. Triantafyllou, Νικολέττα Δίγκα, Νικολέττα Δίγκα, Yannis Hatzonikolakis, ‪Dionysios E. Raitsos, G. Triantafyllou, Yannis Hatzonikolakis, G. Triantafyllou, G. Triantafyllou, Kostas Tsiaras, Kostas Tsiaras, Catherine Tsangaris

Summary

Researchers combined laboratory experiments with computer modeling to assess how microplastics affect farmed Mediterranean mussels. They found that while microplastics reduced the mussels' ability to filter food, the overall impact on growth over a mussel's lifetime was relatively small under current pollution levels. However, the study suggests that in areas with higher microplastic concentrations, the effects on mussel farming could become more significant.

Body Systems

Reproductive

Models

Invertebrate other

Study Type Environmental

Microplastics (MPs) pollution has gained attention due to its ecological threats and potential economic impacts. Yet significant knowledge gaps remain in understanding MPs effects on marine organisms' physiology. This study quantifies the physiological impacts of MPs on farmed mussels (Mytilus galloprovincialis) across various locations in the Mediterranean Sea by combining a laboratory experiment with a Dynamic Energy Budget (DEB) model. Mussels' clearance rates (CR) were measured under different conditions of microplastics and suspended sediment. The DEB model, driven by satellite data and an MPs distribution model, was validated with literature growth and CR data, supporting further the data extracted from the conducted experiment. Results indicate that while the physiological impacts are minimal in most areas, important reductions in CR (8-25%) were estimated in regions like the Gulf of Napoli, leading to reduced growth (6-16%) and reduced reproductive output (7-19%). In addition to microplastic concentrations, seasonal and spatial variations of food availability and suspended inorganic matter importantly control the impacts, with mussels in oligotrophic environments (such as the Gulf of Napoli) showing higher vulnerability to MPs compared to those in more eutrophic locations. This study underscores the utility of bioenergetics models, such as DEB, in evaluating the ecological risks of microplastics and suggests their broader application in MPs research.

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