The use of global circulation models in the study of the Indian monsoon

## Abstract A coarse‐mesh (8° latitude × 10° longitude), global domain climate model is shown to produce useful simulations of the sea‐level pressure and the precipitation distribution over south Asia during spring and early summer. Although the computations produce excessively fast development of

## Abstract A previous paper (Part I) discussed the performance of a coarse‐mesh general circulation model in studies of the Indian summer monsoon. Part II herein describes impacts on the simulated monsoon climate due to prescribed changes in the lower boundary conditions: lowering and flattening o

A general circulation model (GCM) is an alternative way for predicting Indian summer monsoon rainfall (ISMR) over the existing empirical/statistical models in recent time. However, the inherent biases present in the GCM affect its performance. Therefore, there is a high requirement for bias correcti

The association between the mid±latitude circulation and rainfall over the Indian region on an intraseasonal time±scale is investigated by considering 11 years (1974±1984) of Northern Hemisphere 500 hPa geopotential heights and rainfall data for the Indian summer monsoon months June through to Septe

## Abstract The sensitivities of the Asian summer monsoon to sea‐surface temperature (SST) anomalies in the equatorial Indian Ocean and the western Pacific are compared in three different general circulation models (ARPÈGE, ECHAM, UGAMP). The impacts to idealized anomalies of 1 K show common featur