Environmental Research Letters (Jan 2021)

Significant climate benefits from near-term climate forcer mitigation in spite of aerosol reductions

  • Robert J Allen,
  • Larry W Horowitz,
  • Vaishali Naik,
  • Naga Oshima,
  • Fiona M O’Connor,
  • Steven Turnock,
  • Sungbo Shim,
  • Philippe Le Sager,
  • Twan van Noije,
  • Kostas Tsigaridis,
  • Susanne E Bauer,
  • Lori T Sentman,
  • Jasmin G John,
  • Conor Broderick,
  • Makoto Deushi,
  • Gerd A Folberth,
  • Shinichiro Fujimori,
  • William J Collins

DOI
https://doi.org/10.1088/1748-9326/abe06b
Journal volume & issue
Vol. 16, no. 3
p. 034010

Abstract

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Near-term climate forcers (NTCFs), including aerosols and chemically reactive gases such as tropospheric ozone and methane, offer a potential way to mitigate climate change and improve air quality—so called ‘win-win’ mitigation policies. Prior studies support improved air quality under NTCF mitigation, but with conflicting climate impacts that range from a significant reduction in the rate of global warming to only a modest impact. Here, we use state-of-the-art chemistry-climate model simulations conducted as part of the Aerosol and Chemistry Model Intercomparison Project (AerChemMIP) to quantify the 21st-century impact of NTCF reductions, using a realistic future emission scenario with a consistent air quality policy. Non-methane NTCF (NMNTCF; aerosols and ozone precursors) mitigation improves air quality, but leads to significant increases in global mean precipitation of 1.3% by mid-century and 1.4% by end-of-the-century, and corresponding surface warming of 0.23 and 0.21 K. NTCF (all-NTCF; including methane) mitigation further improves air quality, with larger reductions of up to 45% for ozone pollution, while offsetting half of the wetting by mid-century (0.7% increase) and all the wetting by end-of-the-century (non-significant 0.1% increase) and leading to surface cooling of −0.15 K by mid-century and −0.50 K by end-of-the-century. This suggests that methane mitigation offsets warming induced from reductions in NMNTCFs, while also leading to net improvements in air quality.

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