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Environmental Sources
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Atmospheric transport and deposition of microplastics in a subtropical urban environment
Journal of Hazardous Materials2021
265 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 55
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Han Gong,
Muting Yan,
Han Gong,
Yumei Huang,
Muting Yan,
Yumei Huang,
Muting Yan,
Muting Yan,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Muting Yan,
Muting Yan,
Muting Yan,
Muting Yan,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Xian Qing,
Tao He,
Jun Wang
Jun Wang
Jun Wang
Han Gong,
Han Gong,
Xian Qing,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Wenjing Wang,
Wenjing Wang,
Wenjing Wang,
Yumei Huang,
Muting Yan,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Yumei Huang,
Han Gong,
Han Gong,
Lian Yang,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Muting Yan,
Han Gong,
Han Gong,
Han Gong,
Han Gong,
Han Gong,
Han Gong,
Han Gong,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Xian Qing,
Jun Wang
Yumei Huang,
Wenjing Wang,
Jun Wang
Muting Yan,
Jun Wang
Jun Wang
Han Gong,
Jun Wang
Muting Yan,
Han Gong,
Wenjing Wang,
Han Gong,
Xian Qing,
Han Gong,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Wenjing Wang,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Muting Yan,
Jun Wang
Jun Wang
Muting Yan,
Muting Yan,
Muting Yan,
Muting Yan,
Muting Yan,
Muting Yan,
Jun Wang
Xian Qing,
Xian Qing,
Jun Wang
Jun Wang
Han Gong,
Han Gong,
Han Gong,
Jun Wang
Han Gong,
Xian Qing,
Jun Wang
Han Gong,
Jun Wang
Han Gong,
Jun Wang
Han Gong,
Xian Qing,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Muting Yan,
Jun Wang
Muting Yan,
Jun Wang
Muting Yan,
Jun Wang
Muting Yan,
Muting Yan,
Jun Wang
Jun Wang
Jun Wang
Han Gong,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Muting Yan,
Jun Wang
Jun Wang
Yumei Huang,
Yumei Huang,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Muting Yan,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Muting Yan,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Han Gong,
Jun Wang
Summary
Researchers measured atmospheric wet and dry deposition of microplastics over one year in Guangzhou, China, a subtropical megacity. They found deposition fluxes ranging from 51 to 178 particles per square meter per day, with fibers, fragments, films, and microbeads all detected, indicating that atmospheric transport is a significant pathway for microplastic distribution in urban environments.
As an issue of great concern, microplastics pollution has emerged as a key environmental challenge of our time. The atmosphere is a significant compartment in the global cycle of microplastics, however, studies on the transport and deposition of airborne microplastics is limited. In the present work, atmospheric wet and dry deposition of microplastics were analyzed over one year in an urban environment of megacity Guangzhou, China. The atmospheric deposition fluxes of microplastics ranged from 51 to 178 particles/m/d (mean: 114 ± 40 particles/m/d). Fibers, fragments, films and microbeads were observed in the deposition samples, with fibers being the most abundant microplastics, accounting for 77.6 ± 19.1% of the total. The chemical composition of microplastics were identified using micro Fourier transform infrared spectrometer. 78.7% of the fibrous microplastics were derived from petrochemicals and most were polyethylene terephthalate (polyester), suggesting that textiles (e.g., clothes and curtains) were likely the main source. The results of back-trajectory analysis indicated that city rivers may act as secondary sources of airborne microplastics. Though no significant correlation was found between atmospheric microplastic deposition and meteorological factors such as rainfall and wind events, these factors were suggested to be positive drivers for the transport and deposition of airborne microplastic.