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Enhanced PM2.5 pollution in China due to aerosol-cloud interactions.

Bin ZhaoKuo-Nan LiouYu GuQinbin LiJonathan H JiangHui SuCenlin HeHsien-Liang R TsengShuxiao WangRun LiuLing QiWei-Liang LeeJiming Hao
Published in: Scientific reports (2017)
Aerosol-cloud interactions (aerosol indirect effects) play an important role in regional meteorological variations, which could further induce feedback on regional air quality. While the impact of aerosol-cloud interactions on meteorology and climate has been extensively studied, their feedback on air quality remains unclear. Using a fully coupled meteorology-chemistry model, we find that increased aerosol loading due to anthropogenic activities in China substantially increases column cloud droplet number concentration and liquid water path (LWP), which further leads to a reduction in the downward shortwave radiation at surface, surface air temperature and planetary boundary layer (PBL) height. The shallower PBL and accelerated cloud chemistry due to larger LWP in turn enhance the concentrations of particulate matter with diameter less than 2.5 μm (PM2.5) by up to 33.2 μg m-3 (25.1%) and 11.0 μg m-3 (12.5%) in January and July, respectively. Such a positive feedback amplifies the changes in PM2.5 concentrations, indicating an additional air quality benefit under effective pollution control policies but a penalty for a region with a deterioration in PM2.5 pollution. Additionally, we show that the cloud processing of aerosols, including wet scavenging and cloud chemistry, could also have substantial effects on PM2.5 concentrations.
Keyphrases
  • particulate matter
  • air pollution
  • water soluble
  • heavy metals
  • climate change
  • body mass index
  • radiation therapy
  • drug discovery
  • quantum dots