4.5 Article

Variations of Haze Pollution in China Modulated by Thermal Forcing of the Western Pacific Warm Pool

期刊

ATMOSPHERE
卷 9, 期 8, 页码 -

出版社

MDPI
DOI: 10.3390/atmos9080314

关键词

haze pollution; interannual variation; sea surface temperature; Western Pacific Warm Pool

资金

  1. National Key R & D Program of China [2016YFC0203304]
  2. National Natural Science Foundation of China [91744209, 91644223, 91544109]
  3. Program for Postgraduates Research and Innovation in Universities of Jiangsu Province [KYLX16_0937]

向作者/读者索取更多资源

In addition to the impact of pollutant emissions, haze pollution is connected with meteorology and climate change. Based on the interannual change analyses of meteorological and environmental observation data from 1981 to 2010, we studied the relationship between the winter haze frequency in central-eastern China (CEC) and the interannual variations of sea surface temperature (SST) over Western Pacific Warm Pool (WPWP) and its underlying mechanism to explore the thermal effect of WPWP on haze pollution variation in China. The results show a significant positive correlation coefficient reaching up to 0.61 between the interannual variations of SST in WPWP and haze pollution frequency in the CEC region over 1981-2010, reflecting the WPWP's thermal forcing exerting an important impact on haze variation in China. The anomalies of thermal forcing of WPWP could induce to the changes of East Asian winter monsoonal winds and the vertical thermal structures in the troposphere over the CEC region. In the winter with anomalously warm SST over the WPWP, the near-surface winds were declined, and vertical thermal structure in the lower troposphere tended to be stable over the CEC-region, which could be conducive to air pollutant accumulation leading to the more frequent haze occurrences especially the heavy haze regions of Yangtze River Delta (YRD) and Pearl River Delta (PRD); In the winter with the anomalously cold WPWP, it is only the reverse of warm WPWP with the stronger East Asian winter monsoonal winds and the unstable thermal structure in the lower troposphere, which could attribute to the less frequent haze pollution over the CEC region. Our study revealed that the thermal forcing of the WPWP could have a modulation on air environment change in China.

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