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Quantification and Characterization of Fine Plastic Particles as Considerable Components in Atmospheric Fine Particles.

Yunqian ChenSiyuan JingYanting WangZhe SongLifang XieXiaona ShangHongbo FuXiaodong YangHuimin WangMinghuo WuYinjuan ChenQingli ZhangYan ZhangWei WangLiwu ZhangRong WangMingliang FangYuzhong ZhangWeijun LiDefeng ZhaoChunlin LiYinon RudichLin WangRenhe ZhangWeiping LiuThomas C WangerShaocai YuJianmin Chen
Published in: Environmental science & technology (2024)
The negative effects of air pollution, especially fine particulate matter (PM 2.5 , particles with an aerodynamic diameter of ≤2.5 μm), on human health, climate, and ecosystems are causing significant concern. Nevertheless, little is known about the contributions of emerging pollutants such as plastic particles to PM 2.5 due to the lack of continuous measurements and characterization methods for atmospheric plastic particles. Here, we investigated the levels of fine plastic particles (FPPs) in PM 2.5 collected in urban Shanghai at a 2 h resolution by using a novel versatile aerosol concentration enrichment system that concentrates ambient aerosols up to 10-fold. The FPPs were analyzed offline using the combination of spectroscopic and microscopic techniques that distinguished FPPs from other carbon-containing particles. The average FPP concentrations of 5.6 μg/m 3 were observed, and the ratio of FPPs to PM 2.5 was 13.2% in this study. The FPP sources were closely related to anthropogenic activities, which pose a potential threat to ecosystems and human health. Given the dramatic increase in plastic production over the past 70 years, this study calls for better quantification and control of FPP pollution in the atmosphere.
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