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20 resultsShowing papers similar to Microplastics ride the atmosphere
ClearImportance of atmospheric transport for microplastics deposited in remote areas
This study highlights atmospheric transport as a significant and underappreciated pathway for depositing micro- and nanoplastics in remote areas including mountain regions and polar zones far from plastic sources. Airborne plastic particles can travel thousands of kilometers before being deposited, explaining the presence of microplastics in seemingly pristine remote environments.
Distribution and transport of atmospheric microplastics and the environmental impacts: A review
This review examines the distribution, transport, and environmental impacts of atmospheric microplastics, synthesizing evidence that airborne plastics are found globally from urban centers to remote polar regions. The authors identify deposition via precipitation as a major pathway by which atmospheric microplastics contaminate soil and water surfaces.
Atmospheric Microplastic Transport
This review examines atmospheric transport of microplastics, covering emission sources including roads and oceans, the meteorological and particle-characteristic factors influencing transport and deposition, and the cycles by which microplastics are redistributed to remote environments including high-altitude and polar regions.
Airborne microplastics in Antarctica and New Zealand.
Researchers detected airborne microplastics at two remote sites in Antarctica and New Zealand, including in previously pristine regions far from human habitation. The presence of microplastics in Antarctic air demonstrates that atmospheric transport can carry plastic particles to even the most remote corners of the planet.
Microplastics in glaciers of the Tibetan Plateau: Evidence for the long-range transport of microplastics
Researchers discovered microplastics in glaciers on the Tibetan Plateau, one of the most remote regions on Earth. The presence of plastic particles at such high altitudes and far from population centers provides strong evidence that microplastics can travel long distances through the atmosphere, making this a truly global pollution problem.
Atmospheric Microplastics: Inputs and Outputs
Researchers examined how microplastics enter and move through the atmosphere, finding that up to 8.6 megatons per year may be suspended in air above the oceans alone. The particles are launched into the air from ocean spray and land-based sources, then distributed by wind before returning to Earth through rain and dry deposition. The study highlights that atmospheric transport is a major pathway for spreading microplastic contamination to even the most remote regions of the planet.
Evidence of free tropospheric and long-range transport of microplastic at Pic du Midi Observatory
Researchers found microplastic particles in the free troposphere at nearly 2,900 meters elevation at Pic du Midi Observatory, with air trajectory modeling showing intercontinental and trans-oceanic transport, demonstrating that microplastics can travel vast distances through the upper atmosphere.
Atmospheric transport is a major pathway of microplastics to remote regions
Using global atmospheric transport simulations, researchers modeled the dispersal of tire wear particles and brake dust from roads, finding that atmospheric transport is a major — and previously underestimated — pathway delivering microplastics to remote regions far from traffic sources.
Atmospheric Transport, a Major Pathway of Microplastics to Remote Regions
This first global simulation of atmospheric microplastic transport showed that tire and brake wear particles can travel thousands of kilometers from roads to remote regions including polar areas. The model confirms that road traffic is a major global source of microplastic atmospheric deposition in areas far from any direct human activity.
A review of microplastics pollution and its remediation methods: Current scenario and future aspects
Researchers measured microplastic concentrations in atmospheric deposition at remote mountain sites in the Pyrenees, detecting an average of 365 particles per square meter per day. The findings confirm long-range atmospheric transport of microplastics far from pollution sources.
Long-range atmospheric transport of microplastics across the southern hemisphere
Researchers conducted the first hemispheric-scale analysis of airborne microplastics, collecting samples along a cruise route from the Northern Hemisphere to Antarctica. They found microplastics present in the atmosphere over the Southern Ocean and near Antarctica, demonstrating that these particles can travel vast distances through the air. The study reveals that long-range atmospheric transport is a significant pathway for spreading microplastic pollution to even the most remote regions on Earth.
Polar Particles: Atmospheric Microplastic Pollution in the Arctic Region – an examination of deposited and suspended microplastics in Ny-Ålesund, Svalbard
Researchers collected both deposited and suspended atmospheric microplastics in Ny-Ålesund, Svalbard, in the first study of its kind in the high Arctic planetary boundary layer. Despite the remote location, measurable concentrations were found, implicating long-range atmospheric transport as a key pathway for microplastic deposition in polar regions.
The Peril of Plastics: Atmospheric Microplastics in Outdoor, Indoor, and Remote Environments
This review surveys the current state of knowledge about microplastics suspended in the atmosphere, covering outdoor, indoor, and remote environments. Researchers found that airborne microplastics are far more widespread than previously recognized, with fibers from textiles and vehicle tire wear being major sources. The study highlights that atmospheric transport can carry microplastics to even the most remote locations on Earth, and that inhaling these particles poses potential health concerns.
Microplastics in the atmosphere: transportation and impact on humans
This chapter reviews the origins, atmospheric transport, distribution, and characterization of airborne microplastics. The authors note that microplastics have been detected in urban, suburban, and remote regions, raising the possibility of long-distance atmospheric transport. The study highlights significant knowledge gaps about the global distribution and health risks of airborne microplastics due to limitations in detection technologies and sampling methods.
A Review of Atmospheric Micro/Nanoplastics: Insights into Source and Fate for Modelling Studies
This review synthesizes current knowledge about how micro- and nanoplastics move through the atmosphere, covering their sources, transport mechanisms, and eventual deposition. Researchers found that atmospheric transport can carry these particles over long distances quickly, making it a major pathway for global plastic pollution spread. The study identifies key knowledge gaps needed for developing accurate models of airborne microplastic behavior.
Atmospheric microplastics in the Arctic Region: An examination of deposited and suspended atmospheric microplastics in Ny-Ålesund, Svalbard
Researchers measured atmospheric microplastic deposition and suspension in Ny-Alesund, Svalbard, finding microplastics in both deposited and airborne samples from this remote High Arctic location and characterizing dominant polymer types and potential source regions.
Atmospheric emissions of microplastics entrained with dust from potential source regions
A year-long study on the remote Tibetan Plateau found microplastics in the atmosphere year-round, with over 92% of particles smaller than 50 micrometers. The research showed that microplastics get swept up along with dust from distant source regions and can travel long distances through the air, meaning even people in remote areas far from cities are exposed to airborne microplastics.
Atmospheric microplastics in the Northwestern Pacific Ocean: Distribution, source, and deposition
Researchers documented atmospheric microplastic distribution in the Northwestern Pacific Ocean, finding abundances ranging from 0.0046 to higher levels and identifying sources and deposition patterns that contribute to marine microplastic pollution from airborne transport.
Snow as an indicator of atmospheric transport of anthropogenic particles (microplastics and microfibers) from urban to Arctic regions
Researchers collected snow samples from urban Toronto, remote regions of the Yukon and Northwest Territories, and the unpopulated high Arctic to track atmospheric transport of microplastics. They found anthropogenic particles, including microplastics and microfibers, present in snow across all locations, with concentrations decreasing from urban to Arctic areas. The study provides evidence that microplastics are transported long distances through the atmosphere and deposited even in the most remote regions of the planet.
High debit sampling of airborne micro and nanoplastics in remote sea
Researchers developed a high-volume air sampler to detect micro- and nanoplastics in remote marine environments far from populated coastlines. The study confirms that plastic particles are transported through the atmosphere to even isolated ocean regions, demonstrating that no environment is free from airborne plastic pollution.