Non targeted and targeted LC-MS/MS insights into the composition and concentration of atmospheric microplastics and additives: Impacts and regional changes of sandstorms in Shanghai and Hohhot, China

Increasing dust storms impact ecosystems and human health by resuspending dust and microplastics. Plastic pollution is a major global concern. This study examines the molecular composition and concentration of atmospheric microplastics and additives in Hohhot and Shanghai, China during dust and non-...

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Published in:The Science of the total environment 2024-11, Vol.953, p.176254, Article 176254
Main Authors: Jia, Boyue, Zhu, Ke, Bai, Zhe, Abudula, Ayizuohere, Liu, Bailiang, Yan, Jiaqian, Wu, Zelong, Tan, Haihong, Liu, Qing, Morawska, Lidia, Wang, Lina, Chen, Jianmin
Format: Article
Language:English
Subjects:
Atmospheric microplastic monomer
Chemical composition and concentration
Dust and non-dust
Non-target and target LC-MS/MS analysis
Qualification and quantification
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Summary:Increasing dust storms impact ecosystems and human health by resuspending dust and microplastics. Plastic pollution is a major global concern. This study examines the molecular composition and concentration of atmospheric microplastics and additives in Hohhot and Shanghai, China during dust and non-dust days using non-target and target LC-MS/MS analysis with Multiple Reaction Monitoring (MRM) methodology and a self-established plastic monomers database. In Hohhot, 98 microplastics and additives types were identified on dust days (41 unique) and 70 on non-dust days (10 unique), mainly PEG, HTPE, PET, PPG, and Nylon. The types fluctuate ranging from 35 to 65 due to dusty conditions. In Shanghai, 50 types were identified (no unique), with 25 to 30 types consistently present. Hohhot's microplastics concentration during dust days peaked at 3531.59 ng/m3, about three times higher than non-dust days (1669.17 ng/m3) and significantly higher than Shanghai's maximum of 589.85 ng/m3. Overall, microplastic monomers in both cities were mostly compounds with low unsaturation, indicating potential for long-term atmospheric persistence. Highly reactive monomers like HTPE, PEG, thrive on dust days in Hohhot due to insufficient light and strong winds. These conditions reduce photochemical reactivity, accelerate microplastic aging through collisions, and resuspend more microplastics from the soil, resulting in a wider variety of microplastics with different m/z and carbon contents during sandstorms. On non-dust days, microplastics have more concentrated m/z values, indicating that substances with similar chemical properties disperse more under normal conditions. These findings highlight the significant impact of dust storms on microplastics characteristics. This study indicates that dust storms and regional differences can have significant impacts on the diversity and abundance of atmospheric microplastics. [Display omitted] •Dust storms increase the release of hazardous monomers, oligomers and plastic additives from airborne microplastics (MPs).•This study employed LC-MS/MS analysis to examine atmospheric MP monomers and oligomers during dust and non-dust days.•In Hohhot, 98 monomer types were detected on dust days (41 unique) and 70 on non-dust days (10 unique).•Climate conditions during dust days reduce photochemical reactivity, accelerate aging, and resuspend MPs from soil.
ISSN:0048-9697
1879-1026
1879-1026
DOI:10.1016/j.scitotenv.2024.176254