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The Interaction Between Climate Forcing and Feedbacks
  • +3
  • Andrew Gettelman,
  • Trude Eidhammer,
  • Margaret L Duffy,
  • Daniel Thompson McCoy,
  • Ci Song,
  • Duncan Watson-Paris
Andrew Gettelman
Pacific Northwest National Laboratory

Corresponding Author:[email protected]

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Trude Eidhammer
National Center for Atmospheric Research (UCAR)
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Margaret L Duffy
NCAR
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Daniel Thompson McCoy
University of Wyoming
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Ci Song
University of Wyoming
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Duncan Watson-Paris
University of California, San Diego
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Abstract

A Perturbed Parameter Ensemble (PPE) with the Community Atmosphere Model version 6 (CAM6) is used to better understand the sensitivity of simulated clouds to both aerosol forcing and cloud feedbacks and the interactions between them. Aerosol forcing through aerosol-cloud interactions is mostly negative (a cooling) due to shortwave radiation, while feedbacks are positive or negative in different regions due to contrasting longwave and shortwave effects. Both forcing and feedbacks are related to the mean climate state. Higher magnitude cloud radiative effects generally mean larger net forcing and larger net feedback.
Aerosol forcing is broadly related to the susceptibility of clouds to drop number. Feedbacks are less related to susceptibility, and in different regions. Aerosol forcing and cloud feedbacks are anti-correlated in the CAM6 PPE such that stronger negative forcing is associated with stronger positive feedbacks. Even the processes governing forcing and feedback sensitivity in the PPE are similar. These include the warm rain formation process, ice loss processes and deep convective intensity.
24 Jan 2024Submitted to ESS Open Archive
24 Jan 2024Published in ESS Open Archive