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20 resultsShowing papers similar to Occurrence and risk associated with urban road-deposited microplastics
ClearIs road pavement wear a source of microplastics in stormwater runoff?
This study investigated whether road pavement wear is a measurable source of microplastics in stormwater runoff, distinct from the better-characterized tire wear contribution. Pavement-derived particles were identified in stormwater samples, confirming that road surface material itself contributes to microplastic loading in urban runoff alongside tire wear and other sources.
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 ecological risks of microplastics in urban road runoff
Researchers characterized microplastics in urban road runoff collected during 11 rainfall events in Hong Kong and found that initial runoff contained particularly high concentrations, with median levels 4.6 times higher than rainwater alone. The dominant types were polyethylene, polypropylene, and polystyrene fragments smaller than 300 micrometers. Risk assessments indicated moderate to high ecological risks, highlighting urban roads as a major source of microplastic pollution entering waterways.
Identification, classification and quantification of microplastics in road dust and stormwater
Researchers identified and quantified microplastics in road dust and stormwater, finding significantly higher concentrations in industrial areas compared to residential zones, with tire wear particles and polyethylene fragments being the most common types.
Microplastics from tyre and road wear A literature review
This literature review examines microplastics generated from tire and road wear, identifying road traffic as a significant but often overlooked source of plastic pollution in urban runoff and waterways. The authors assess what is known about tire particle composition, environmental fate, and potential ecological effects.
Relevance of tyre wear particles to the total content of microplastics transported by runoff in a high-imperviousness and intense vehicle traffic urban area.
Researchers characterized microplastics and tire wear particles (TWPs) transported by urban stormwater runoff in a highly impervious catchment, finding that TWPs made up a substantial fraction of the total microplastic load in sediments of a stormwater detention reservoir. The study underscores the contribution of road traffic to microplastic pollution entering waterways.
Microplastic and tyre wear particles at a highway: a case study from Norway
Researchers monitored microplastics and tire wear particles (tiny rubber fragments shed by vehicles) in air, road runoff, and road dust along a busy Norwegian highway, finding the highest concentrations in road dust and the lowest in air. The study demonstrates that traffic is a major source of microplastic pollution across multiple environmental pathways.
Characterization of Airborne Microplastics Particles on Urban Roads: Types, Sizes, and Total Particles
Researchers collected airborne microplastic samples from urban road environments and characterized particle types, sizes, color distributions, and polymer compositions, finding tire-wear rubber and paint fragments alongside fiber and film fragments from packaging and textiles.
Deposition of Roadside Atmospheric Non-Tire Wear Microplastics: Characteristics and Influencing Factors
A year-long roadside study measured the atmospheric deposition of microplastics in two size fractions, finding deposition rates of 3–9 million particles per hectare per month for larger particles and identifying polymers including PP, PE, PS, PVC, PET, and nylon. Traffic was the dominant source of larger particles near the road, while wind patterns dispersed smaller particles more broadly from industrial sources. Roads are a major but underappreciated source of airborne microplastic deposition into surrounding soils and waterways, and this study quantifies that contribution with new precision.
Multi-contaminants in road runoff of a compact city: Characteristics, interactions, and ecological risks
Researchers characterised multi-contaminant pollution in road runoff from a compact city, examining the sources, transport mechanisms, interactions, and ecological risks of co-occurring contaminants including microplastics, heavy metals, and other pollutants. The study found that microplastics in road runoff interact with co-contaminants in ways that amplify ecological risk, with urban density and road surface type influencing contaminant profiles.
Tyre wear particles: an abundant yet widely unreported microplastic?
Researchers collected tire wear particles from roadside drains and natural environments near a major UK road, finding that these particles are abundant and widespread yet frequently undetected in environmental monitoring, suggesting tyre wear is a major but under-reported microplastic source.
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.
Is road pavement wear a source of microplastics in stormwater runoff?
Researchers investigated whether road pavement wear contributes microplastics to stormwater runoff, testing pavement materials and runoff samples from urban areas. The study found that pavement abrasion does release plastic-associated particles into stormwater, adding to the range of urban microplastic sources.
Concentrations of tire wear microplastics and other traffic-derived non-exhaust particles in the road environment
Researchers measured actual environmental concentrations of tire wear microplastics and other traffic-derived non-exhaust particles in a rural highway setting, providing field-based data to complement the theoretical estimates that dominate current literature.
Quantification of microplastic by particle size down to 1.1 μm in surface road dust in an urban city, Japan
Researchers quantified microplastics in urban road dust in Japan down to 1.1 micrometers, revealing that smaller size fractions contained disproportionately higher particle counts and that roads are a significant source of fine microplastic pollution.
Occurrence and characteristics of microplastics in surface road dust in Kusatsu (Japan), Da Nang (Vietnam), and Kathmandu (Nepal)
Microplastics were detected in road dust sampled from three Asian cities (Kusatsu in Japan, Da Nang in Vietnam, and Kathmandu in Nepal), with concentrations and polymer types varying by city and sampling location. The study demonstrates that road surfaces are a major reservoir of microplastics in urban environments across diverse Asian contexts.
Pavement wear generates microplastics in stormwater runoff
Researchers conducted a two-year field study showing that pavement wear is a distinct and previously underappreciated source of microplastics in urban stormwater, separate from tire wear. They found that asphalt pavement was most susceptible to degradation in the field, while recycled rubber pavers released the most microplastics in lab testing. The study emphasizes the need to consider microplastic generation during pavement material selection and urban infrastructure planning.
Occurrence of tire and bitumen wear microplastics on urban streets and in sweepsand and washwater
Tire tread wear and bitumen particles were the dominant anthropogenic microplastics found on urban roads and in sweeping waste and stormwater in a Norwegian study, with concentrations up to 2,561 particles per liter in road dust samples. Street sweeping removed significant quantities of these particles, and sodium iodide density separation proved effective for their analytical isolation.
Environmental risks of car tire microplastic particles and other road runoff pollutants
Researchers conducted the first comprehensive environmental risk assessment of tire wear microplastic particles and their associated chemical pollutants in European road runoff. They found that tire wear particles and several related chemicals pose measurable risks to organisms in surface water and sediment. The study suggests that tire wear is a significant but often overlooked source of microplastic pollution with real consequences for aquatic ecosystems.
Stormwater runoff microplastics: Polymer types, particle size, and factors controlling loading rates
Researchers characterized microplastics in stormwater runoff samples collected at urban outfall locations. The study identified 17 different polymer types across various storm events, with concentrations around 0.99 particles per liter for the 500-1000 micrometer size range, and found that rainfall intensity and land use were key factors controlling microplastic loading rates.