Geophysical Research Letters (Jun 2023)

Extreme Smog Challenge of India Intensified by Increasing Lower Tropospheric Stability

  • Ritesh Gautam,
  • Piyushkumar N. Patel,
  • Manoj K. Singh,
  • Tianjia Liu,
  • Loretta J. Mickley,
  • Hiren Jethva,
  • Ruth S. DeFries

DOI
https://doi.org/10.1029/2023GL103105
Journal volume & issue
Vol. 50, no. 11
pp. n/a – n/a

Abstract

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Abstract Extreme smog in India widely impacts air quality in late autumn and winter months. While the links between emissions, air quality and health impacts are well‐recognized, the association of smog and its intensification with climatic trends in the lower troposphere, where aerosol pollution and its radiative effects manifest, are not understood well. Here we use long‐term satellite data to show a significant increase in aerosol exceedances over northern India, resulting in sustained atmospheric warming and surface cooling trends over the last two decades. We find several lines of evidence suggesting these aerosol radiative effects have induced a multidecadal (1980–2019) strengthening of lower tropospheric stability and increase in relative humidity, leading to over fivefold increase in poor visibility days. Given this crucial aerosol‐radiation‐meteorological feedback driving the smog intensification, results from this study would help inform mitigation strategies supporting stronger region‐wide measures, which are critical for solving the smog challenge in India.

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