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Historical and projected low-frequency variability in the Somali Jet and Indian Summer Monsoon

Authors :
John T. Fasullo
Saroj Mishra
Shipra Jain
Abhishek Anand
Popat Salunke
Source :
Climate Dynamics. 56:749-765
Publication Year :
2020
Publisher :
Springer Science and Business Media LLC, 2020.

Abstract

Using reanalysis data and observations, interannual variations and long-term trends in the Somali Jet (hereafter, the Jet) and Indian Summer Monsoon Rainfall (ISMR) are characterized for drought vs flood, El Nino vs La Nina, and positive vs negative Indian Ocean Dipole (IOD) summer monsoon seasons. In flood years, the Jet is stronger over the upstream sector (i.e., Arabian Sea) and weaker over the downstream (i.e., Bay of Bengal), resulting in additional convergence and enhanced moisture transport over India, whereas the reverse occurs during drought years. The Jet and ISMR characteristics for El Nino (La Nina) years are similar to drought (flood) years, despite only around half of dry (wet) years, being associated with El Nino (La Nina). In +IOD years, the Jet shifts northward and intensifies over central and northern India, bringing more moisture and rainfall to those regions, while the −IOD has an opposite but relatively weak impact on ISMR. Over the last century, the Jet has become weaker over peninsular India, with reductions in rainfall across east India. Future projections under the SSP585 scenario from the CMIP6 multi-model mean suggest that the Jet will progressively shift northward and strengthen over the Arabian Sea, with associated rainfall increases over entire Indian region. The long-term changes in the Jet over the twentieth century are of comparable magnitude to interannual variations; however, the absolute magnitude of projected future changes is smaller than interannual variations observed in the past.

Details

ISSN :
14320894 and 09307575
Volume :
56
Database :
OpenAIRE
Journal :
Climate Dynamics
Accession number :
edsair.doi...........4e20833fb089cdff703d39baadc68eeb