Characteristics and Meteorological Factors of Severe Haze Pollution in China,Advances in Meteorology

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Characteristics and Meteorological Factors of Severe Haze Pollution in China
Advances in Meteorology ( IF 2.1 ) Pub Date : 2021-06-22 , DOI: 10.1155/2021/6680564
Chao He ₁ , Song Hong ₁ , Hang Mu ₁ , Peiyue Tu ₂ , Lu Yang ₁ , Biqin Ke ₁ , Jiayi Huang ₃

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A severe haze pollution incident caused by unfavorable weather conditions and a northern air mass occurred in eastern, northern, northwestern, and southwestern China from January 15 to January 22, 2018. To comparatively analyze variations in PM_2.5 pollution, hourly monitoring data and 24 h meteorological data were collected. Air quality observations revealed large spatiotemporal variation in PM_2.5 concentrations in Handan, Zhengzhou, Xi’an, Yuncheng, Chengdu, Xiangyang, and Jinan. The daily mean PM_2.5 concentrations ranged from 111.35 to 227.23 μg·m⁻³, with concentration being highest in Zhengzhou. Hourly mean PM_2.5 concentration presented multiple U-shaped curves, with higher values at night and lower values during the day. The ratios of PM_2.5 to PM₁₀ were large in target cities and the results of multiscale geographic weighted regression model (MGWR) and Pearson correlation coefficients showed that PM_2.5 had a significant positive or negative correlation with PM₁₀, CO, NO₂, and SO₂. The concentration of PM_2.5 was closely related to the combustion of fossil fuels and other organic compounds, indicating the large contribution of secondary aerosols to PM_2.5 concentrations. The analysis of meteorological conditions showed that low temperature, low wind speed, and high relative humidity could aggravate the accumulation of regional pollutants in winter. Northwestern trajectory clusters were predominant contributions except in Jinan, and the highest PM_2.5 concentrations in target cities were associated with short trajectory clusters in winter. The potential sources calculated by Weight Potential Source Contribution Function (WPSCF) and Weight Concentration-Weighted Trajectory (WCWT) models were similar and the highest values of the WPSCF (>0.5) and the WCWT (>100 μg·m⁻³) were mainly distributed in densely populated, industrial, arid, and semiarid regions.

更新日期：2021-06-22

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