Abstract
Variability and trends of the south Asian monsoon at different time scales makes the region susceptible to climate-related natural disasters such as droughts and floods. Because of its importance, different studies have examined the climatic factors responsible for the recent changes in monsoon strength. Here, using observations and climate model experiments we show that monsoon strength is driven by the variations of south Atlantic Ocean sea surface temperature (SASST). The mechanism by which SASST is modulating the monsoon could be explained through the classical Matsuno-Gill response, leading to changes in the characteristics of vertical wind shear in the Arabian Sea. The decline in the vertical wind shear to the warming of SASST is associated with anomalous lower (upper)-level easterlies (westerlies). This further leads to a strong increase in the frequency of the Arabian Sea cyclones; and also prohibits the transport of moisture to the Indian landmass, which eventually reduces the strength of monsoon. The conditions in the SASST which drove these responses are aggravated by greenhouse gas emission, revealing the prominent role played by anthropogenic warming. If, with proper mitigation, these emissions are not prevented, further increases in the SASST is expected to result in increased Arabian sea cyclones and reduced monsoon strength.
Highlights
The South Asian summer monsoon rainfall, which occurs during June to September (JJAS), has a significant impact on nearly one-half of the world’s population
Our study is an extension of previous studies (Pottapinjara et al 2014, 2016; Sabeerali et al 2019a), which discussed the relationship between Atlantic zonal mode/south Atlantic Ocean sea surface temperature (SASST) and frequency of monsoon depression in Bay of Bengal (BoB) and its consequences in reducing the strength of the monsoon
These studies overlooked the influence of SASST over Arabian Sea (AS) basin, whose moisture contribution to the Indian mainland during summer monsoon season is relatively more than the BoB (Roxy et al 2017)
Summary
The South Asian summer monsoon rainfall, which occurs during June to September (JJAS), has a significant impact on nearly one-half of the world’s population. The decreasing trend in the frequency of monsoon depressions in the BoB is related to anomalous moisture convergence over the western equatorial Indian Ocean caused by an increase in sea surface temperature (Vishnu et al 2016). Another reason for the reduction in monsoon depressions over the BoB may be linked with
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