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Papers
20 resultsShowing papers similar to Microplastics in river water: occurrence, weathering, and adsorption behaviour
ClearMicroplastics meet micropollutants in a central european river stream: Adsorption of pollutants to microplastics under environmentally relevant conditions
Researchers investigated how microplastics adsorb organic micropollutants in a Central European river under real-world conditions. They found that aged microplastics showed higher adsorption capacity for contaminants compared to pristine ones, and that the type of plastic material influenced which pollutants were absorbed. The findings suggest that microplastics in rivers can act as carriers for harmful chemicals, potentially spreading contamination through aquatic ecosystems.
First evidence of microplastics in a freshwater river and their relationship to water quality
Researchers measured microplastic concentrations in a freshwater river used for recreational purposes and found a significant relationship between microplastic abundance and water physicochemical quality parameters, along with the presence of three organic compounds, providing evidence that microplastic pollution and water quality are closely linked.
Influence of microplastics on nutrients and metal concentrations in river sediments
Researchers investigated how microplastics influence nutrient and metal concentrations in river sediments, finding that microplastics alter the distribution of pollutants through their capacity to adsorb contaminants and support biofilm formation on their hydrophobic surfaces.
Evaluating the role of microplastics as a vector in metal cycling within the River Thames
Researchers characterized how microplastics in River Thames water adsorb toxic heavy metals, comparing adsorption capacity across different plastic types and water chemistry conditions. Microplastics consistently adsorbed metals including lead, cadmium, and copper, providing the first data on metal-binding capacity for Thames microplastics and supporting their role as carriers of inorganic pollutants in urban rivers.
Assessment of metals associated with virgin pre-production and freshwater microplastics collected by an Italian river
Researchers assessed the metals associated with virgin pre-production microplastics and freshwater microplastics collected from an Italian river, comparing metal content and sorption behavior between pristine pellets and environmentally weathered particles. The study found that environmental exposure altered the metal-binding capacity of microplastics, underscoring their role as vectors for metal contaminants in freshwater systems.
Transport processes of microplastic particles in the fluvial environment : erosion, transport and deposition
This thesis examines how microplastics are eroded, transported, and deposited in river systems, tracing their movement from land sources to the ocean. The research fills an important gap in understanding how rivers act as conduits for microplastic pollution and what processes determine where plastic particles accumulate in freshwater environments.
Microplastic pollution in aquatic environments with special emphasis on riverine systems: Current understanding and way forward
This review examines microplastic pollution in freshwater riverine systems, which serve as a critical link between terrestrial and marine environments. Researchers found that rivers are significantly contaminated with microplastics of varying sizes and morphologies, and that these particles can exhibit variable toxicity to aquatic organisms, highlighting the need for more research on freshwater microplastic impacts.
Controls on microplastic breakdown due to abrasion in gravel bed rivers
Researchers investigated the physical controls on microplastic fragmentation due to mechanical abrasion in gravel-bed rivers, examining how particle size, morphology, polymer type, and weathering state influence breakdown rates and the resulting changes in surface properties that alter risk profiles during fluvial transport.
Interactions of microplastics with contaminants in freshwater systems: a review of characteristics, bioaccessibility, and environmental factors affecting sorption
This review examined how microplastics act as vectors for environmental contaminants in freshwater systems, analyzing the characteristics, bioaccessibility, and environmental factors that influence pollutant sorption onto plastic particles and their potential transfer to organisms including humans.
Assessment, characterization, and quantification of microplastics from river sediments
Researchers assessed microplastic contamination in sediments from 14 sites along the Kaveri River in South India, characterizing particle types, sizes, and polymer compositions to quantify the extent of microplastic pollution in this freshwater system.
Fate of Microplastics in River Environment: Chemical Composition of Molecular Releasing After Photolysis and Hydrolysis
Researchers investigated the fate of microplastics in river environments, analysing the molecular chemical composition released from microplastics following photolysis and hydrolysis to understand degradation pathways and transformation products in freshwater systems.
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.
Storm Response of Fluvial Sedimentary Microplastics
Researchers investigated how storm events affect microplastic concentrations in river sediments, finding that flood conditions remobilize stored particles and significantly increase microplastic loads in fluvial systems. The study identified key physical controls on microplastic storage and transport in river channels.
Degradation and adsorption behavior of biodegradable plastic PLA under conventional weathering conditions
Researchers characterized microplastic pollution in the surface water of the Mekong River across multiple countries, finding the highest concentrations near urban centers in Vietnam and Cambodia. Fibers and fragments were most common, with polyester and polypropylene dominating.
Source- and polymer-specific size distributions of fine microplastics in surface water in an urban river
Researchers investigated size distributions of fine microplastics from different sources in an urban river, finding that weathering and fragmentation produce a range of particle sizes and that source-specific size signatures can help trace microplastic origins.
The role of biofilm and hydrodynamics on the fate of microplastic particles in rivers: an experimental study
Researchers conducted experimental flume studies to investigate how biofilm formation and hydrodynamic conditions jointly govern microplastic particle fate in rivers, examining why some urbanized and industrialized river reaches show no significant upstream-to-downstream increase in microplastic concentration despite theoretical inputs.
Microplastics in freshwater ecosystems - influence of river runoff on microplastic concentrations
Researchers investigated the presence and characteristics of microplastic pollution in the subsurface waters of the Tollense River in Mecklenburg-Western Pomerania, Germany, examining how river runoff volumes and hydrodynamic conditions influence microplastic concentrations and transport. The study found that runoff events were a key driver of temporal variability in microplastic loads, highlighting the importance of hydrological dynamics in understanding microplastic export from freshwater catchments to the marine environment.
Adsorption of Pollutants on Microplastics in Freshwater
This book chapter examines adsorption of co-contaminants—including heavy metals, pesticides, and pharmaceuticals—onto microplastic surfaces in freshwater environments, reviewing how plastic particle characteristics determine their capacity to concentrate and transport associated pollutants.
Effect of microplastics pollution in riverine ecosystem: A review
This review covers microplastic contamination in riverine ecosystems, discussing the diverse forms of microplastics -- including threads, fragments, films, and pellets -- their ingestion by aquatic organisms, long-distance transport, and accumulation in sediments.
Metal adsorption by naturally aged polymers in the river ganga: An environmental assessment
Researchers measured the adsorption of metals onto naturally aged microplastic polymers collected from the Ganga River, examining how plastics weathered under real environmental conditions accumulate heavy metals. Aged microplastics from the river showed significant metal adsorption capacity, suggesting they act as vectors transferring metals to aquatic organisms through the food chain.