We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Papers
61,005 resultsShowing papers similar to Comment on egusphere-2025-1821
ClearComment on egusphere-2025-1821
This is a peer review comment on an atmospheric microplastics preprint characterizing source profiles and emission factors from plastic burning, road traffic, and agricultural sources, contributing to the open review process for improving the study.
Comment on egusphere-2025-1821
This is a peer review comment on an atmospheric microplastics study examining MP source profiles from plastic burning, road traffic, and agricultural sources, part of the open peer review process for the preprint.
Comment on egusphere-2025-1821
This comment discusses a study characterizing source profiles for atmospheric microplastics, including particles from plastic burning, fruit waste degradation, and other common sources, offering guidance for distinguishing emission sources in ambient air monitoring.
Comment on egusphere-2025-1821
This is a peer review comment on an atmospheric microplastics preprint examining source profiles and emission factors for plastic-derived particles from various pollution sources, contributing to the open review process for the manuscript.
Comment on egusphere-2025-1821
This is a peer review comment on an atmospheric microplastics preprint studying MP emission sources, contributing to the open peer review process for the study.
Insight into the size-resolved markers and eco-health significance of microplastics from typical sources in northwest China
Researchers characterized atmospheric microplastics emitted from five source types — plastic burning, fruit bag burning, road traffic, agricultural film, and livestock breeding — in northwest China's Guanzhong Plain, finding distinct polymer and plasticizer profiles for each source. Plastic burning produced the highest diversity of polymer types, providing source-specific fingerprints useful for pollution management.
Comment on egusphere-2023-1025
This comment discusses a study on atmospheric transport of microplastic particulate matter, noting that long-range atmospheric dispersal means microplastics reach virtually every environment on Earth, including remote areas far from human settlements. Understanding atmospheric transport mechanisms is key to modeling global microplastic deposition.
Insight into the size-resolved markers and eco-health significance of microplastics from typical sources in northwest China
Researchers characterized airborne microplastics and plasticizers emitted from five common sources in northwest China—plastic burning, fruit bag burning, road traffic, agricultural film, and livestock breeding—finding source-specific polymer and chemical profiles in PM2.5 and PM10 fractions.
Reply on RC5
Researchers characterized microplastic source profiles and plasticizer emissions (phthalates, benzothiazoles, bisphenol A) from five pollution sources (plastic burning, traffic, agricultural film, livestock) in PM2.5 and PM10 aerosols across the Guanzhong Plain in northern China, providing source-resolved atmospheric microplastic data.
Comment on egusphere-2023-1025
This comment discusses a study on atmospheric transport of microplastics, noting that the mechanisms that move microplastics through the air differ importantly from those for mineral dust. Better understanding these transport pathways is essential for accurately predicting where airborne microplastics deposit globally.
Comment on egusphere-2023-1025
This comment paper examines the atmospheric transport of microplastics as particulate matter, comparing it to the well-studied transport of mineral dust. Understanding how air currents carry microplastics to remote environments helps explain their ubiquitous presence even in pristine ecosystems far from human activity.
Comment on egusphere-2025-1575
Researchers developed a representation of airborne microplastics within the UK Earth System Model (UKESM1.1), adding both fragment and fibre types across multiple aerosol size modes that interact with existing deposition and ageing processes. Simulated microplastics showed higher concentrations over land but were transported to remote regions including Antarctica, highlighting their potential air quality and climate relevance.
Comment on egusphere-2025-605
Researchers examined the atmospheric transport of microplastics, focusing on how their settling behavior — determined by physical properties including size and shape — governs the dispersion of large microplastic particles through the atmosphere and their deposition across environments.
Constraining the atmospheric limb of the plastic cycle
Researchers modeled the atmospheric transport of microplastics across the western United States and found that most airborne particles originate from the breakdown of legacy plastic waste that has accumulated in the environment. Roads were identified as the dominant source, followed by marine, agricultural, and dust emissions near population centers. The study suggests that atmospheric microplastic transport represents a significant and underappreciated component of the global plastic pollution cycle.
Atmospheric microplastic emissions from land and ocean
Researchers compiled a comprehensive atmospheric microplastic dataset and derived top-down and bottom-up emission estimates for particles in the 5-100 micrometer size range from both land and ocean sources, providing gridded emissions data in multiple formats for use in atmospheric transport modelling.
Are we underestimating microplastic emissions from agricultural soils?
This review examines evidence that wind erosion from agricultural soils in drylands is a significant and underestimated source of atmospheric microplastic emissions. The authors argue that existing emission inventories focus too heavily on urban and aquatic sources, and that dryland agricultural soils—covering 40% of Earth's land surface—likely emit substantial quantities of plastic particles through wind erosion.
Microplastics in the Atmosphere: A Global Perspective
This global modeling study found that atmospheric microplastic sources are dominated by land-based transport rather than ocean emissions, challenging earlier assumptions and suggesting that road traffic and other terrestrial activities are the primary drivers of microplastic particle distribution in the atmosphere.
Comment on egusphere-2025-1575
This review examines a global climate model implementation of airborne microplastics as an atmospheric aerosol species, addressing their absence from current climate models despite recognized air quality and climate impacts. The comment evaluates the modeling approach for representing microplastic transport, deposition, and radiative effects in the atmosphere.
Reply on RC1
This is a response to reviewer comments on a study characterizing atmospheric microplastic source profiles and plasticizer emissions from five common pollution sources in PM2.5 and PM10 aerosols across China's Guanzhong Plain.
Atmospheric microplastic emissions from land and ocean
Researchers quantified atmospheric microplastic emissions from both land and ocean surfaces, finding that re-suspension of deposited plastics from land and sea spray from the ocean are significant sources of airborne particles. The results highlight that the ocean is not just a sink but also a source of airborne microplastics.
Various Perspectives on Occurrence, Sources, Measurement Techniques, Transport, and Insights Into Future Scope for Research of Atmospheric Microplastics
This review synthesized current knowledge on atmospheric microplastics, covering their sources, occurrence across global regions, measurement techniques, and transport mechanisms, while identifying key research gaps for future investigation.
Reply on RC2
This is a response to reviewer comments on a study characterizing atmospheric microplastic source profiles and plasticizer emissions from five common pollution sources in PM2.5 and PM10 aerosols across China's Guanzhong Plain.
Reply on RC4
This is a response to reviewer comments on a study characterizing atmospheric microplastic source profiles and plasticizer emissions from five common pollution sources in PM2.5 and PM10 aerosols across China's Guanzhong Plain.
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.