Clarifying winter clean heating importance: Insight chemical compositions and cytotoxicity exposure to primary and aged pollution emissions in China rural areas
2022
Sun, Jian | Niu, Xinyi | Zhang, Bin | Zhang, Leiming | Yu, Jinjin | He, Kun | Zhang, Tian | Wang, Qiyuan | Xu, Hongmei | Cao, Junji | Shen, Zhenxing
Residential solid fuel combustion (RSFC) is an important source of PM₂.₅. Here we investigate the cytotoxicity of primarily emitted and photochemically aged PM₂.₅ to A549 cells. Owing to the formation of water-soluble ions and organics (e.g., oPAHs and nPAHs), emission factors of PM₂.₅ were increased by 44.4% on average after 7-day equivalent photochemical aging, which greatly altered chemical profiles of freshly emitted PM₂.₅. Consequently, the cytotoxicity varied with aging duration that 2-day and 7-day aged PM₂.₅ induced 22.5% and 35.1%, respectively, higher levels of reactive oxygen species than primary emissions. Similar increases were also observed for multi-cytotoxicity. Correlation analysis and western blot results collectively confirmed HO-1/Nrf-2 signaling pathway dominated the cytotoxicity of aged PM₂.₅ from RSFC, which was regulated by the enhanced o-PAHs and n-PAHs during photochemical aging. Thus, aged and secondary aerosol exposure needs to be paid more attention due to the enhanced cytotoxicity and the vast crowd involved.
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