Journal
SCIENCE OF THE TOTAL ENVIRONMENT
Volume 814, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.scitotenv.2021.152774
Keywords
Health risk; Respirable particles; Plasmid scission assay; Size-segregated particulate matter; The Comprehensive Action Plan; Water-soluble heavy metals
Categories
Funding
- National Natural Science Foundation of China [42075107]
- Fundamental Research Funds for the Central Universities
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The Comprehensive Action Plan (CAP) in Beijing has been successful in reducing the toxicity of ambient particles.
Air pollution is a major environmental health challenge in megacities, and as such a Comprehensive Action Plan (CAP) was issued in 2017 for Beijing, the capital city of China. Here we investigated the size-segregated airborne particles collected after the implementation of the CAP, intending to understand the change of oxidative potential and water-soluble heavy metal (WSHM) levels in 'haze' and 'non-haze' days. The DNA damage and the levels of WSHM were analyzed by Plasmid Scission Assay (PSA) and High-Resolution Inductively Coupled Plasma Mass Spectrometry (HR-ICPMS) techniques. The PM mass concentration was higher in the fine particle size (0.43-2.1 mu m) during haze days, except for the samples affected by mineral dust. The particle-induced DNA damage caused by fine sized particles (0.43-2.1 mu m) exceeded that caused by the coarse sized particles (4.7-10 mu m). The DNA damage from haze day particles significantly exceeded those collected on non-haze days. Prior to the instigation of the CAP, the highest value of DNA damage decreased, and DNA damage was seen in the finer size (0.43-1.1 mu m). The Pearson correlation coefficient between the concentrations of water-soluble Pb, Cr, Cd and Zn were positively correlated with DNA damage, suggesting that these WSHM had significant oxidative potential. The mass concentrations of water-soluble trace elements (WSTE) and individual heavy metals were enriched in the finer particles between 0.43 mu m to 1.1 mu m, implying that smaller sized particles posed higher health risks. In contrast, the significant reduction in the mass concentration of water-soluble Cd and Zn, and the decrease of the maximum- and average values of DNA damage after the CAP, demonstrated its effectiveness in restricting coal-burning emissions. These results have demonstrated that the Beijing CAP policy has been successful in reducing the toxicity of 'respirable' ambient particles.
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