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Modelling Microplastics in the River Thames: Sources, Sinks and Policy Implications

Water 2021 58 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 45 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Alice A. Horton Alice A. Horton P. G. Whitehead, Magnus Dahler Norling, Ana Teresa Castro, Alice A. Horton Alice A. Horton Alice A. Horton Alice A. Horton Gianbattista Bussi, Alice A. Horton Alice A. Horton Magnus Dahler Norling, Alice A. Horton Alice A. Horton Alice A. Horton Alice A. Horton Alice A. Horton Alice A. Horton Magnus Dahler Norling, Alice A. Horton Gianbattista Bussi, Gianbattista Bussi, P. G. Whitehead, Alice A. Horton Alice A. Horton Alice A. Horton Alice A. Horton Alice A. Horton Alice A. Horton Alice A. Horton Alice A. Horton Alice A. Horton Alice A. Horton P. G. Whitehead, Magnus Dahler Norling, Alice A. Horton Daniel S. Read, Jocelyne Hughes, Jocelyne Hughes, Alice A. Horton Alice A. Horton Alice A. Horton Alice A. Horton P. G. Whitehead, Alice A. Horton Daniel S. Read, Alice A. Horton P. G. Whitehead, Cordelia P. N. Rampley, Ana Teresa Castro, Alice A. Horton Cordelia P. N. Rampley, Alice A. Horton Magnus Dahler Norling, Jocelyne Hughes, Jocelyne Hughes, Daniel S. Read, Daniel S. Read, P. G. Whitehead, Alice A. Horton Alice A. Horton Elizabeth S. Jeffers, Elizabeth S. Jeffers, Daniel S. Read, Gianbattista Bussi, Cordelia P. N. Rampley, P. G. Whitehead, Cordelia P. N. Rampley, Daniel S. Read, Daniel S. Read, Alice A. Horton Alice A. Horton Daniel S. Read, Daniel S. Read, Alice A. Horton

Summary

A hydrological model of microplastic sources, sinks, and transport in the Thames River basin estimated annual microplastic loads and identified wastewater effluent and urban runoff as dominant sources, with implications for policy interventions targeting the largest inputs.

Study Type Environmental

With widespread, long-term historical use of plastics and the presence of microplastics in a range of new and existing products, there is rising concern about their potential impacts on freshwater ecosystems. Understanding how microplastics are transported and distributed along river systems is key to assessing impacts. Modelling the main flow dynamics, mixing, sedimentation and resuspension processes is essential for an understanding of the transport processes. We use the new, processed based, dynamic, integrated catchments (INCA) microplastics model and apply this to the whole of the freshwater catchment of the River Thames, UK, to evaluate inputs, loads and concentrations along the river system. Recent data from UK water industry studies on microplastics in effluent discharges and sewage sludge disposal has been utilised to drive the INCA microplastics model. Predicted concentrations and microplastic loads moving along the river system are shown to be significant, with a build-up of concentrations along the river, with increasing deposition on the riverbed. The potential impacts on aquatic ecosystems are evaluated and a review of policy implications is explored.

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