Importance of instantaneous radiative forcing for rapid tropospheric adjustment

Authors: Ogura T., Webb M. J., Watanabe M., Lambert F. H., Tsushima Y., Sekiguchi M.
Journal: Clim. Dyn.
DOI: 10.1007/s00382-013-1995-x
Abstract: To better understand CFMIP/CMIP inter-model differences in rapid low cloud responses to CO₂ increases and their associated effective radiative forcings, we examined the tropospheric adjustment of the lower tropospheric stability (LTS) in three GCMs: HadGEM2-A, MIROC3.2 medres, and MIROC5. MIROC3.2 medres showed a reduction in LTS over the sub-tropical ocean, in contrast to the other two models. This reduction was consistent with a temperature decrease in the mid-troposphere. The temperature decrease was mainly driven by instantaneous radiative forcing caused by an increase in CO₂. Reductions in radiative and latent heating, due to clouds, and in adiabatic and advective heating, also contribute to the temperature decrease. The instantaneous radiative forcing in the mid-troposphere in MIROC3.2 medres is inconsistent with the results of line-by-line (LBL) calculations, and thus it is considered questionable. These results illustrate the importance of evaluating the vertical profile of instantaneous radiative forcing with LBL calculations; improved future model performance in this regard should help to increase our confidence in the tropospheric adjustment in GCMs.