Quantifying Climate Feedbacks Using Radiative Kernels
University of Miami · National Oceanic and Atmospheric Administration · +3 more institutions
Abstract
Abstract The extent to which the climate will change due to an external forcing depends largely on radiative feedbacks, which act to amplify or damp the surface temperature response. There are a variety of issues that complicate the analysis of radiative feedbacks in global climate models, resulting in some confusion regarding their strengths and distributions. In this paper, the authors present a method for quantifying climate feedbacks based on “radiative kernels” that describe the differential response of the top-of-atmosphere radiative fluxes to incremental changes in the feedback variables. The use of radiative kernels enables one to decompose the feedback into one factor that depends on the radiative…
Citation impact
- FWCI
- 19.00
- Percentile
- 100%
- References
- 21
Authors
6- BJBrian J. SodenCorresponding
University of Miami
- IMIsaac M. Held
National Oceanic and Atmospheric Administration, NOAA Geophysical Fluid Dynamics Laboratory
- RCRobert Colman
Collaboration for Australian Weather and Climate Research
- KMKaren M. Shell
NSF National Center for Atmospheric Research
- JTJ. T. Kiehl
NSF National Center for Atmospheric Research
Topics & keywords
- Radiative transfer
- Radiative forcing
- Environmental science
- Cloud feedback
- Forcing (mathematics)
- Climate model
- Climate sensitivity
- Cloud forcing
- Climate action