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61,005 resultsShowing papers similar to Distribution of microplastics in soil and freshwater environments: Global analysis and framework for transport modeling
ClearGlobal concentrations of microplastic in soils, a review
This global review synthesized data from studies on microplastic concentrations in soils worldwide, finding contamination across diverse terrestrial environments with higher levels near urban areas and agricultural land. Terrestrial soils are estimated to contain far more microplastic than the world's oceans, making them a critical but understudied reservoir of plastic pollution.
Quantitative assessment on the distribution patterns of microplastics in global inland waters
Researchers compiled data from over 5,000 observations across 301 published studies to map microplastic levels in freshwater bodies worldwide, finding concentrations ranging from near zero to 4.3 million particles per cubic meter. Human development, farming activity, and water runoff were the strongest predictors of contamination, with China and parts of Asia showing particularly high levels.
Microplastics in urban stormwater sediments and runoff: An essential component in the microplastic cycle
This review systematically analyzed microplastic contamination in urban stormwater runoff and sediments, finding concentrations that varied enormously across global studies. Researchers found that stormwater is a major but underappreciated pathway for delivering microplastics to rivers, lakes, and oceans. The study highlights that better stormwater management practices are needed to reduce this significant source of aquatic microplastic pollution.
Microplastics in ecosystems: Critical review of occurrence, distribution, toxicity, fate, transport, and advances in experimental and computational studies in surface and subsurface water
This review provides a broad overview of microplastic contamination across freshwater, marine, and land environments, finding concentrations ranging from negligible to hundreds of thousands of particles per kilogram of sediment. The most common types are polypropylene, polystyrene, polyethylene, and PET, spread by wastewater discharge, stormwater runoff, and poor waste management. The wide variability in contamination levels makes it difficult to assess overall risk to ecosystems and human health.
Factors Controlling Microplastic Concentrations and Polymer Profiles in Wastewater, Storm Water, and Surface Water
A critical review of 143 studies found that microplastic concentrations in wastewater span eight orders of magnitude, with the highest levels in the smallest particle size fractions, while polyethylene and polypropylene are the most commonly detected polymers across freshwater systems. The wide variation is largely an artifact of inconsistent sampling, extraction, and analytical methods, making direct comparisons between studies unreliable and complicating decisions about water treatment and regulation.
Population density and agricultural land cover influence microplastic concentrations in river sediments
Researchers measured microplastic concentrations in river sediments across nine Mid-Atlantic US watersheds and compared findings from 18 countries, finding no consistent longitudinal trend from headwaters to downstream reaches, but identifying population density and agricultural land cover as significant positive predictors of MP accumulation at a global scale.
Global soil microplastic assessment in different land-use systems is largely determined by the method of analysis
Researchers synthesised data from 305 sites across 51 global studies to assess microplastic pollution in managed soils, finding that analytical method — particularly use of high-density separation and organic matter removal — was the primary determinant of reported microplastic loads, with a global mean of 2,081 items per kilogram of soil.
Effects of environmental and anthropogenic factors on the distribution and abundance of microplastics in freshwater ecosystems
Researchers reviewed nearly 6,500 articles to identify the environmental and human factors driving microplastic distribution in freshwater ecosystems worldwide. They found that both natural factors like water flow and temperature, and human activities like urbanization and agriculture, significantly influence where microplastics accumulate in rivers and lakes. The study provides a framework for predicting microplastic pollution hotspots and prioritizing monitoring efforts in freshwater systems.
Microplastics in urban runoff: Global occurrence and fate
This review examines global microplastic occurrence in urban runoff, finding concentrations up to 8,580 particles per liter, and highlights critical gaps in understanding microplastic mobilization, transport, and flux from urban environments to waterways.
Characterizing microplastics in urban runoff: A multi-land use assessment with a focus on 1–125 μm size particles
Researchers collected stormwater runoff from three different urban land use types and found microplastics present across all sites, with significant variation in polymer types depending on the area. By using multiple detection techniques, they were able to identify particles as small as 1 micrometer, revealing that the smallest size fractions dominated the total count. The study emphasizes that urban runoff is a major pathway for microplastic pollution reaching waterways.
Microplastics in soil: A comprehensive review of occurrence, sources, fate, analytical techniques and potential impacts
This review analyzed microplastic contamination data from 62 sites across 17 countries and found that soil microplastic levels varied enormously depending on land use, with agricultural and urban soils most contaminated. The plastics affected soil organisms, plants, and microorganisms in complex ways, but inconsistent sampling methods across studies make it difficult to compare results and determine safe exposure thresholds.
Quantitative Analysis of Urban Microplastic Dissemination and Accumulation in Marine Ecosystems: Pathways, Processes, and Impacts
Researchers used water and sediment sampling across urban, riverine, and marine environments to quantify microplastic pathways from cities into marine ecosystems, finding the highest concentrations in urban areas linked to industrial activity and poor waste management. Polyethylene, polypropylene, and PET were the most common polymer types, with seasonal peaks in concentration tracking periods of high rainfall and urban runoff.
Global soil microplastic assessment in different land-use systems is largely determined by the method of analysis: A meta-analysis
This meta-analysis pooled data from 89 studies to measure microplastic levels in soils across different land uses worldwide. A key finding is that reported microplastic concentrations vary wildly depending on the testing method used, making it hard to compare studies. This highlights that before we can truly understand how much microplastic is in the soil that grows our food, scientists need to agree on standardized measurement methods.
Microplastics in water: occurrence, detection, and impacts – a comprehensive review of multiple studies
This comprehensive review synthesized current knowledge on microplastic occurrence, detection methods, and impacts across marine, freshwater, and remote aquatic ecosystems. Researchers highlighted that microplastic concentrations are particularly high in urban rivers, transported through runoff, atmospheric deposition, and river input. The review identifies critical research gaps including the need for standardized detection methods and more studies on chronic human exposure through contaminated seafood and drinking water.
Global plastic export by rivers: large differences in trends between microplastics and macroplastics
A global analysis modeled river export of both micro- and macroplastics to the sea, finding large divergences in trends between the two size classes and highlighting that models focused solely on macroplastics significantly underestimate total riverine plastic inputs to the ocean.
Understanding the underestimated: Occurrence, distribution, and interactions of microplastics in the sediment and soil of China, India, and Japan
Researchers reviewed the occurrence and distribution of microplastics in sediments and agricultural soils across China, India, and Japan, finding significant contamination levels in all three countries. The study discusses how microplastics interact with other environmental pollutants and impact various life forms. The findings highlight that current technologies are insufficient to fully eliminate microplastics from the environment, underscoring the need for improved remediation strategies.
Microplastics in freshwater and terrestrial environments: Evaluating the current understanding to identify the knowledge gaps and future research priorities
This review evaluates the current understanding of microplastic pollution in freshwater and terrestrial environments, which have received far less research attention than marine systems despite being major sources and accumulation zones. Researchers highlight that agricultural areas, urban centers, and wastewater treatment processes are key pathways for microplastic contamination on land. The paper identifies critical knowledge gaps and calls for more research into how microplastics behave and persist in soils and freshwater systems.
Microplastics in soil and freshwater: Understanding sources, distribution, potential impacts, and regulations for management
This review synthesizes knowledge on microplastics in soil and freshwater systems, covering their sources, transport mechanisms, ecological and health impacts, and current regulatory frameworks for managing plastic pollution in terrestrial and aquatic environments.
Microplastics pollution in freshwater sediments: The pollution status assessment and sustainable management measures
This study assessed microplastic pollution levels in freshwater sediments across 84 study areas worldwide. Researchers found widespread contamination with significant variation in microplastic types, concentrations, and sources depending on the region and local land use. The review proposes sustainable management measures to address this growing threat to freshwater ecosystems and drinking water supplies.
Critical reassessment of microplastic abundances in the marine environment
Researchers critically reassessed microplastic detection methods used in marine field studies and recalculated global abundance estimates. They found that microplastic levels in ocean waters and sediments are up to 15 and 11 times higher, respectively, than previously reported, with Southeast Asia and East America being primary hotspots. The study demonstrates that earlier estimates have significantly underestimated the true scale of marine microplastic pollution due to limitations in detection techniques.
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.
Microplastics in waters and soils: Occurrence, analytical methods and ecotoxicological effects
Researchers conducted a comprehensive review of microplastic occurrence, analytical methods, and ecotoxicological effects in freshwater and soil environments. The study summarized microplastic abundance across several Chinese freshwater systems and highlighted that while marine microplastic pollution receives the most attention, freshwater and soil contamination deserve greater research focus.
Global mapping for the occurrence of all-sized microplastics in seafloor sediments
Researchers compiled global seafloor microplastic data from 155 marine sediment samples including detailed sampling metadata and abundance measurements for 20 microplastic categories, providing foundational data for understanding the distribution and uncertainty of microplastic contamination on the seafloor.
The urban microplastic footprint: investigating the distribution and transport
Researchers investigated the distribution and transport of microplastics within an urban environment, mapping the 'urban microplastic footprint' to understand how city infrastructure and land use patterns drive the spatial distribution and downstream export of plastic particles to receiving water bodies.