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61,005 resultsShowing papers similar to Effects of Agricultural and Urban Land on Microplastic Concentrations in Rivers
ClearLand Use and Rainfall as Drivers of Microplastic Transport in Canal Systems: A Case Study from Upstate New York
A study in a tropical watershed found that land use type and rainfall intensity were the dominant drivers of microplastic transport from land into water bodies. The results emphasize that agricultural and urban land uses are key sources of microplastics flushed into rivers during rain events.
Microplastic distribution and their abundance along rivers are determined by land uses and sediment granulometry
Researchers studied two river watersheds and found that microplastics were widespread in both water and sediment, with concentrations in water rising alongside increased urban land use. Interestingly, microplastics trapped in sediment were more influenced by the grain size of the riverbed than by human activity. The findings suggest that both human factors and natural river characteristics work together to shape where microplastics end up in freshwater systems.
Microplastic pollution differences in freshwater river according to stream order: Insights from spatial distribution, annual load, and ecological assessment
Researchers compared microplastic pollution levels in a freshwater river across different land-use zones, finding higher concentrations near urban and agricultural areas than in forested regions. Fiber-type microplastics were predominant across all sampling locations.
Influence of drainage infrastructure and land use on microplastic contamination in urban watersheds
This field study compared how different types of urban stormwater infrastructure — surface drains versus piped outfalls — contribute to microplastic contamination in streams across two watersheds with contrasting land uses (agricultural/forested versus residential/commercial). Microplastic concentrations and types differed between drainage types and land uses, with developed areas contributing more plastic particles overall. The findings point to stormwater infrastructure design as a lever for reducing the flow of microplastics from cities into freshwater ecosystems.
Are we underestimating stormwater? Stormwater as a significant source of microplastics in surface waters
This review highlights stormwater runoff as a major but underestimated source of microplastic pollution in rivers and lakes. Tire and road wear particles, litter, and road dust are the primary sources, with concentrations varying widely depending on rainfall and land use. The findings matter because stormwater often receives less treatment than sewage, meaning large amounts of microplastics flow directly into the waterways that communities use for drinking water and recreation.
Assessment of Micro-Plastic Contamination in Urban River Systems: A Case Study Using UK Catchment Data
This systematic review examines microplastic contamination in urban rivers across the UK, finding that wastewater treatment plants, stormwater runoff, and industrial discharge are the main sources. The research matters for human health because urban rivers supply drinking water and recreational areas, and microplastic pollution in these waterways increases the risk of human exposure.
Abundance, Distribution and Drivers of Microplastic Contaminant in Urban River Environments
Researchers surveyed microplastic distribution in urban river environments and identified key drivers of accumulation hotspots, finding that land use, hydrology, and infrastructure factors concentrated microplastics at predictable locations that could inform targeted management interventions.
A Review of Microplastic Pollution Characteristics in Global Urban Freshwater Catchments
This review synthesizes evidence on microplastic pollution characteristics in urban freshwater catchments worldwide, examining sources, concentrations, and transport pathways from terrestrial to marine environments. Researchers found that human activities are the fundamental driver of microplastic pollution and that freshwater catchments serve as critical conduits for microplastic transfer to oceans.
From pollution to solutions: Insights into the sources, transport and management of plastic debris in pristine and urban rivers
This review examines how river systems receive and transport plastic debris -- including both macroplastics and microplastics -- from land sources to the ocean, synthesizing evidence on pollution sources, fate, and management strategies across pristine and urban rivers.
Microplastics and Tire Wear Particles in Urban Stormwater: Abundance, Characteristics, and Potential Mitigation Strategies
Researchers measured microplastic concentrations in urban stormwater and found levels ranging from about 4 to 59 particles per liter, with tire wear particles making up roughly 95% of all particles detected. Microlitter capture devices reduced microplastic loads by 35 to 88%, and constructed wetlands provided additional removal. The study suggests that targeted stormwater treatment infrastructure could meaningfully reduce the flow of microplastics into rivers and coastal waters.
Terrestrial microplastics as emerging aquatic pollutants: A systematic review
This systematic review traces how microplastics from everyday land-based sources — laundry, tire wear, landfills, and farming — make their way into rivers and coastal waters. It highlights that what we do on land is the primary driver of microplastic pollution in the water we drink and the seafood we eat.
Spatio and temporal dynamics of microplastic fluxes within the watercourses of a peri-urban watershed
Researchers tracked the spatiotemporal dynamics of microplastic fluxes within a river catchment over time, linking plastic transport patterns to land use activities. The study found that land use type is a key driver of when and how much microplastic enters and moves through watercourses.
Spatial and temporal variations of microplastic concentrations in Portland's freshwater ecosystems
Microplastic concentrations were monitored across Portland's urban freshwater ecosystems, revealing that land use, stormwater inputs, and seasonal variation all influenced plastic levels in rivers and streams. The study found that urban catchments with higher impervious surfaces consistently showed elevated microplastic concentrations.
A Comprehensive Review of MP Pollution in Global Rivers: Distribution Patterns and Fluvial Transport Dynamics
A global review of microplastic pollution in river sediments found the highest concentrations in Africa and Asia, with wastewater treatment plants, industrial discharges, and urban runoff as the primary sources, and rivers transporting an estimated 70–80% of land-based plastic waste to the oceans. This synthesis underscores that rivers are critical intervention points for reducing the flow of microplastics into marine ecosystems.
Microplastic pollution in sophisticated urban river systems: Combined influence of land-use types and physicochemical characteristics
This study assessed microplastic pollution across an urban river network in China, finding that land-use type and water physicochemical properties jointly influence microplastic distribution, with industrial and residential areas contributing highest loads.
Microplastics and tyre wear particles in urban runoff from different urban surfaces
Researchers measured microplastics and tire wear particles in stormwater runoff from roads, parking lots, and rooftops in Sweden. They found that road runoff carried the highest concentrations by far, with large variations between rainfall events. The findings highlight urban roads as a major source of microplastic pollution entering nearby waterways through stormwater.
Characterization and comparison of microplastic occurrence in point and non-point pollution sources
Wastewater, stormwater runoff, and surface water samples from multiple catchment types were compared for microplastic content, with PET dominating in urban and non-point sources while rubber from tire wear dominated highway runoff, and particles smaller than 0.5 mm passing through both wastewater and stormwater treatment systems.
Estimating microplastic flows across rural-urban gradients in a French catchment
Researchers estimated microplastic flows across rural-urban gradients in a French catchment, examining how land use and urbanization influence the transport and distribution of microplastic particles through the watershed system.
Estimating microplastic flows across rural-urban gradients in a French catchment
Researchers estimated microplastic flows along rural-to-urban gradients within a French catchment, quantifying how land use transitions influence MP loading and transport dynamics in surface waters. The study provides spatially resolved flux estimates that reveal how urbanization amplifies microplastic contributions to downstream receiving environments.
The effects of land use types on microplastics in river water: A case study on the mainstream of the Wei River, China
Researchers studied how different land use types along China's Wei River, a major tributary of the Yellow River, influence microplastic concentrations in the water. The study found that urban and agricultural areas contributed more microplastics than other land use types, with seasonal variations also playing a role, highlighting how human activities directly shape plastic pollution patterns in river systems.
Contributing to the assessment of the impact of urban activities on microplastic transport through air and runoff infiltration
Researchers investigated the contribution of urban activities to microplastic transport through both airborne pathways and stormwater runoff infiltration, quantifying plastic particle fluxes in an urban watershed. The study found that road surfaces, construction materials, and tire wear were significant urban sources, with rainfall events mobilizing microplastics into both air and subsurface water.
Microplastics in rivers along an urban-rural gradient in an urban agglomeration: Correlation with land use, potential sources and pathways
Researchers studied microplastic pollution in tributaries of the Wu River in Taiwan along an urban-rural gradient and found that microplastic abundance strongly correlated with population density. A sharp increase in microplastics was observed at the transition from rural to urban areas, coinciding with the presence of storm sewers as a key transport pathway. The study suggests that industrial zones, residential areas, and traffic corridors are major sources of riverine microplastic pollution.
Abundance, Distribution, and Drivers of Microplastic Contamination in Urban River Environments
Researchers surveyed microplastic contamination in sediments from the River Tame and its tributaries flowing through Birmingham, UK, finding microplastics in every sample at an average of 165 particles per 100 grams. The study identified urban density, wastewater treatment plant proximity, and river hydrodynamics as key drivers of microplastic accumulation hotspots in urban rivers.
Impact of land cover on microplastics accumulation in freshwater sediments
Researchers tracked microplastic accumulation in freshwater sediments across sites with different land cover types, examining temporal trends to understand how land use affects plastic discharge into waterways. Land cover type was a significant predictor of sediment microplastic concentration, with urbanized and agricultural catchments showing higher accumulation.