资源环境科技发展态势分析平台

Effects of increase in horizontal resolution (from 2 degrees, to 1 degrees and 0.5 degrees) in simulating Indian summer monsoon (ISM) in Community Atmosphere Model version 5 (CAMS) are reported herein. Various parameters - temperature, rainfall, winds, surface evaporation, precipitable water, specific humidity, and clouds - of the model simulations are examined with respect to observations {India Meteorological Department (IMD) and Tropical Rainfall Measuring Mission (TRMM) data for precipitation and Modem-Era Retrospective analysis for Research and Applications (MERRA) products for rest of the variables}. With increase in horizontal resolution overall improvement in majority of surface driven parameters like surface air temperature, surface specific humidity, and low-level winds is observed that highlights the importance of better representation of orography. Over the Indian subcontinent and surrounding oceans, rainfall is overestimated due to the overestimation of the large-scale precipitation in the model, which significantly gets alleviated with increase in resolution. Overall, seasonal mean features of ISM show significant improvements, which are likely to further improve by representing finer spatial features with increase in resolution. However, some aspects of its temporal variations - seasonal, intraseasonal, and diurnal variations - of monsoon rainfall do not show much improvement with increase in resolution, suggesting that traditional physics parameterizations do not work well at high resolution and hence there is a need for improvement in model physics.