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Orbital Forcing Strongly Influences the Poleward Shift of the Spring Himalayan Jet During the Past Millennium

Uday Kunwar Thapa, Samantha Stevenson, M. Midhun

2022Geophysical Research Letters10 citationsDOIOpen Access PDF

Abstract

Abstract The latitudinal position of the subtropical jet over the Himalayas (Himalayan jet latitude or HJL) controls the region's climate during winter and spring by guiding moisture‐delivering storms. Here we use the Community Earth System Model‐Last Millennium Ensemble to diagnose forced trends in HJL during the past millennium. During 850–1849, there is a weak equatorward trend in winter HJL. In contrast, the spring HJL has a relatively larger poleward trend, and increases in both variance and frequency of poleward/equatorward excursions. We demonstrate changes in orbital precession reduced the thermal gradient between tropical and subtropical Asia, shifting the spring HJL poleward. During 1850–2005, the spring HJL exhibits no trend due to compensating influences from orbital and anthropogenic greenhouse gas forcings. These findings suggest it is essential climate models properly simulate the effects of and potential interactions between orbital forcing and anthropogenic factors to accurately project Himalayan jet variability and associated storm tracks.

Topics & Concepts

ClimatologyForcing (mathematics)SubtropicsAtmospheric sciencesEnvironmental scienceClimate modelSpring (device)LatitudeStormJet (fluid)Tropical cycloneClimate changeGeologyPhysicsOceanographyBiologyThermodynamicsGeodesyFisheryClimate variability and modelsGeology and Paleoclimatology ResearchTree-ring climate responses
Orbital Forcing Strongly Influences the Poleward Shift of the Spring Himalayan Jet During the Past Millennium | Litcius