Authors: Zhongfeng Xu Yongfu Qian Congbin Fu
Publish Date: 2010/02/16
Volume: 27, Issue: 2, Pages: 403-420
Abstract
A number of AGCM simulations were performed by including various landsea distributions LSDs such as meridional LSDs zonal LSDs tropical largescale LSDs and subcontinentalscale LSDs to identify their effects on the Asian monsoon In seven meridional LSD experiments with the continent/ocean located to the north/south of a certain latitude the LSDs remain identical except the southern coastline is varied from 40° to 4°N in intervals of 56° In the experiments with the coastline located to the north of 21°N no monsoon can be found in the subtropical zone In contrast a summer monsoon is simulated when the continent extends to the south of 21°N Meanwhile the earlier onset and stronger intensity of the tropical summer monsoon are simulated with the southward extension of the tropical continent The effects of zonal LSDs were investigated by including the Pacific and Atlantic Ocean into the model based on the meridional LSD run with the coastline located at 21°N The results indicate that the presence of a midlatitude zonal LSD induces a strong zonal pressure gradient between the continent and ocean which in turn results in the formation of an East Asian subtropical monsoon The comparison of simulations with and without the Indian Peninsula and IndoChina Peninsula reveals that the presence of two peninsulas remarkably strengthens the southwesterly winds over South Asia due to the tropical asymmetric heating between the tropical land and sea The tropical zonal LSD plays a crucial role in the formation of cumulus convection
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