Effects of time-dependent large-scale forcing, solar zenith angle, and sea surface temperature on time-mean tropical rainfall processes

Abstract

Effects of time-dependent large-scale forcing (LSF), solar zenith angle (SZA), and sea surface temperature (SST) on time-mean rainfall processes during Tropical Ocean Global Atmosphere Coupled Ocean-Atmosphere Response Experiment (TOGA COARE) are examined by conducting a control experiment and a series of sensitivity experiments with a two-dimensional cloud-resolving model. The model is forced by time-dependent LSF, SZA, and SST in the control experiment. The sensitivity experiments are forced only by either time-dependent LSF, or SZA, or SST while others are replaced with their time averages. When the model is imposed by time-dependent LSF, time dependence of SZA and SST has no discernable effect on surface rainfall, but it affects rainfall processes. The rainfall is reduced by 15% when the time-dependent LSF is replaced by its time mean. The reduction of rainfall is associated with the suppression of water vapor convergence as a result of low correlation between upward motion and water vapor variation.