We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Microplastics in a freshwater mussel (Anodonta anatina) in Northern Europe
Summary
Researchers confirmed microplastic occurrence in the freshwater duck mussel Anodonta anatina in a Swedish river, finding microplastics in all mussels examined with higher concentrations downstream of urban wastewater treatment plants compared to a rural upstream location.
Alarming amounts of microplastics have recently been shown to accumulate in the environment. Recent focus has been on synthetic material contaminating the marine environment, while effects on freshwater habitats and organisms have received less attention. We here confirm and analyse occurrence of microplastics in the duck mussel, Anodonta anatina, in a Swedish river. All analysed mussels contained microplastics, and the number of microplastic debris found in the mussels increased with mussel size. In addition, we demonstrate higher concentrations of microplastics downstream urban areas with wastewater treatment plants compared to a rural upstream location. Both fibres and particles were found in the mussels, indicating that the emissions of these pollutants may have varying origin. Our study indicates that microplastics can be suspended in the water column in streams and that concentrations are higher downstream anthropogenic activity. We discuss our results in light of potential pathways in rural versus surrounding arable land, and highlight a number of required research directions in the aquatic system.
Sign in to start a discussion.
More Papers Like This
Mikroplastens intåg i den limnologiska miljön - Allmän dammussla (Anodonta anatina) innehåller mikroplast
This Swedish study exposed freshwater mussels (Anodonta anatina) to microplastics and examined uptake and potential health effects, finding that mussels ingest microplastics and that higher exposures affected their physiology. The study contributes to understanding microplastic impacts on freshwater bivalves that are important for ecosystem function and serve as indicators of water quality.
Microplastics, Additives, and Plasticizers in Freshwater Bivalves: Preliminary Research of Biomonitoring
Freshwater mussels (Anodonta cygnea) deployed in three Italian rivers accumulated microplastics primarily in their gills and digestive tracts, with polyamide (nylon) fibers being the most common type found. The study also detected plasticizers and additives within the bivalves, demonstrating that these organisms can serve as effective sentinels for monitoring the full chemical footprint of plastic pollution in river systems.
Spatial patterns of microplastics in freshwater bivalves (Bivalvia: Unionidae and Sphaeriidae) relative to municipal wastewater effluent discharges
Microplastics were found in freshwater bivalves (fingernail clams and mussels) collected along 155 km of Ontario's Grand River, with significantly higher concentrations downstream of municipal wastewater treatment plant discharges, confirming WWTPs as key sources of microplastic contamination in filter-feeding freshwater organisms.
Effect of Wastewater Treatment Plants on Microplastics in Mussels and Their Surrounding Environment
Mussels and surrounding water near two wastewater treatment plant outfalls in Europe were monitored for microplastic contamination, finding that WWTP discharges elevated both environmental concentrations and mussel body burdens.
Tracking the microplastic pollution in the freshwater environments of southeastern Türkiye: Usage of Unio delicatus, Unio Terminalis and Dreissena polymorpha as bioindicators of microplastics
This study examined microplastic contamination in three freshwater mussel species collected from rivers and a dam lake in southeastern Turkey, finding relatively low average concentrations (under 1 microplastic per individual) but confirming that these mussels do accumulate plastic particles from their surroundings. Because mussels are filter feeders with a fixed lifestyle, they reflect local pollution levels well, making them useful sentinels for tracking microplastic contamination in freshwater ecosystems. The research adds to growing evidence that microplastics are now present even in inland freshwater species far from the ocean.