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Sources of the Intermodel Spread in Projected Global Monsoon Hydrological Sensitivity

Jian Cao, Bo Wang, Bin Wang, Haikun Zhao, Chao Wang, Ying Han

2020Geophysical Research Letters35 citationsDOI

Abstract

Abstract The projected monsoon hydrological sensitivity, namely, the precipitation change rate per kelvin of global warming, shows substantial intermodel spread among 40 Coupled Model Intercomparison Project phase 5 models. The hydrological sensitivity of the Northern Hemisphere summer monsoon is negatively correlated with that of the Southern Hemisphere summer monsoon. The intermodel spread of the Northern Hemisphere summer monsoon hydrological sensitivity is mainly attributed to the projected interhemispheric temperature gradients and the associated low‐level cross‐equatorial flows. The intermodel spread of the Afro‐Asia summer monsoon sensitivity is rooted in the projected continent‐ocean thermal gradients, while the spread of the North American monsoon sensitivity is related to the projected sea surface temperature pattern in the tropical eastern Pacific and Atlantic. These findings suggest that further constraining monsoon hydrological sensitivity requires a better projection of the warming rate between the Northern and Southern Hemispheres and between the land and ocean, and the sea surface warming pattern in the tropical eastern Pacific and Atlantic.

Topics & Concepts

Northern HemisphereMonsoonClimatologyEnvironmental scienceSea surface temperatureSouthern HemispherePrecipitationCoupled model intercomparison projectAtmospheric sciencesClimate changeGeologyOceanographyClimate modelMeteorologyGeographyClimate variability and modelsMeteorological Phenomena and SimulationsOceanographic and Atmospheric Processes
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