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Effects of Whole SST Anomaly in the Tropical Indian Ocean on Summer rainfall Over Central Asia

Lixia Meng, Yong Zhao, Mingang Li

2021Frontiers in Earth Science21 citationsDOIOpen Access PDF

Abstract

The effects of sea surface temperature (SST) anomaly in the tropical Indian Ocean (IO) on summer rainfall over central Asia (CA) are investigated using NCEP/NCAR reanalysis circulation data, Hadley Centre SST data, and GPCC gridded precipitation data for 1971–2016. Results show that the SST anomalies over the whole tropical IO play important roles in modulating summer rainfall over southeast CA via the subtropical westerly jet. When the SSTs in the tropical IO are in positive phases, the south Asian monsoon is weakened, which reduces summer rainfall in the Indian monsoon regions corresponding to less release of latent heat. There is an anomalous anticyclone over the Indian Peninsula and an anomalous cyclone in the upper troposphere over CA, corresponding to a shift of the subtropical westerly jet farther south over CA. The southward shift of westerly jet would be responded to anomalous cyclone at 500 hPa over CA and water vapor transported into CA through two steps from the Arabian Sea, above both contribute to more summer rainfall over CA.

Topics & Concepts

ClimatologyAnticycloneAnomaly (physics)Sea surface temperatureTroposphereSubtropicsTropical cycloneTropical cyclone rainfall forecastingPrecipitationMonsoonHadley cellWesterliesEnvironmental scienceGeologyIndian oceanAtmospheric sciencesCyclone (programming language)African easterly jetOceanographyClimate changeGeneral Circulation ModelTropical waveGeographyMeteorologyField-programmable gate arrayComputer hardwareCondensed matter physicsBiologyFisheryComputer sciencePhysicsClimate variability and modelsTropical and Extratropical Cyclones ResearchMeteorological Phenomena and Simulations
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