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61,005 resultsShowing papers similar to Reply on RC6
ClearReply 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.
Reply on RC3
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 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.
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.
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-2025-1821
This peer review comment on an atmospheric microplastics study characterizes source profiles and emission factors for eight polymer types and three plasticizer classes from plastic burning, fruit bag burning, road traffic, agricultural film, and livestock breeding sources.
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.
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.
Comment 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 preprint studying MP emission sources, contributing to the open peer review process for 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.
Characteristic of microplastics in the atmospheric fallout from Dongguan city, China: preliminary research and first evidence
Researchers characterized microplastics in atmospheric fallout collected in Dongguan City, China, finding that airborne microplastics are deposited daily and that urban areas generate significant atmospheric microplastic emissions.
An important source of terrestrial microplastics‐atmospheric deposition: A microplastics survey based on Shaanxi, China
A six-month atmospheric sampling campaign across ten cities in Shaanxi Province, China detected microplastics in all air deposition samples, including both wet (rain/snow) and dry deposition. The most abundant polymer types were PET, polyacrylonitrile, PE, and PP — consistent with textiles and packaging as key sources — and concentrations were highest in the provincial capital Xi'an, correlating with urban population density. The study confirms that atmospheric fallout is a significant and widespread route by which microplastics enter terrestrial environments far from any obvious plastic source.
Characterization and traceability analysis of dry deposition of atmospheric microplastics (MPs) in Wuliangsuhai Lake
Atmospheric microplastic dry deposition was characterized at six sites around Wuliangsuhai Lake in China from March to June 2021, and source traceability analysis identified local agricultural plastic use and urban areas as major contributors to atmospheric MP loading.
Atmospheric deposition of microplastics in a rural region of North China Plain
Researchers investigated atmospheric microplastic deposition in a rural area of the North China Plain, finding significant quantities of microplastics deposited through both dry and wet pathways, with fibers and polyethylene being the dominant types.
Microplastic atmospheric dustfall pollution in urban environment: Evidence from the types, distribution, and probable sources in Beijing, China
Researchers collected atmospheric dustfall samples across urban Beijing and analyzed the types, distribution, and likely sources of airborne microplastics. They found that synthetic fibers from textiles and fragments from various plastic products were the dominant forms, with concentrations varying by location and proximity to pollution sources. The study provides evidence that urban atmospheric microplastic pollution is widespread and likely linked to daily human activities and industrial processes.
Reply on RC1
This reply addresses a reviewer comment on a study examining the impacts of Chinese government air pollution control measures on atmospheric pollutant concentrations across multiple regions. The response clarifies aspects of the methodology and interpretation of how emission reductions have affected air quality over recent decades.
Sources and distribution of atmospheric microplastics in Northwest China river valleys via land use
This study quantified suspended atmospheric microplastics across eight land use types in Lanzhou, northwest China, finding a mean abundance of 4.5 particles/m³ with peaks in industrial and residential areas. Land use type was the strongest predictor of MP concentration, highlighting urban and agricultural activities as key emission drivers.
Microplastics in the atmospheric of the eastern coast of China: different function areas reflecting various sources and transport
Atmospheric sampling at two sites in a Chinese coastal city found microplastics suspended in the air at both downtown and industrial locations, but with different dominant sources — lifestyle and consumer products in the city center versus industrial activity in the industrial zone. The finding that microplastics are transported through the atmosphere confirms that people in urban areas are inhaling plastic particles regardless of proximity to industrial facilities.
Atmospheric Microplastics Emission Source Potentials and Deposition Patterns in Semi‐Arid Croplands of Northern China
Researchers measured atmospheric microplastic emissions from croplands in semi-arid northern China, where wind erosion events are common. They found that fiber-shaped particles dominated airborne microplastics and that concentrations increased significantly when air masses passed over cropland surfaces. The study reveals that agricultural land in dry regions may be an underrecognized source of airborne microplastic pollution.
[Distribution, Respiratory Exposure, and Traceability of Atmospheric Microplastics in Yichang City].
Researchers sampled airborne microplastics at 16 locations across Yichang City, China, and found them in every area, with the highest concentrations settling over urban residential neighborhoods. The particles were mostly polyester fibers and came predominantly from nearby sources rather than long-range transport. Daily inhalation estimates were calculated for both adults and children, highlighting indoor and outdoor respiratory exposure as a meaningful human health concern that warrants tighter monitoring.
Occurrences and distribution of microplastic pollution and the control measures in China
This review summarizes reported microplastic contamination levels in China's marine, freshwater, and atmospheric environments, finding that concentrations are highest in urbanized freshwater systems and identifying human population density and agricultural plastic use as key drivers.