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Impact of atmospheric circulation on the rainfall-temperature relationship in Australia

Bhavik Magan, Seokhyeon Kim, Conrad Wasko, Renaud Barbero, Vincent Moron, Rory Nathan, Ashish Sharma

2020Environmental Research Letters34 citationsDOIOpen Access PDF

Abstract

Anthropogenic climate change is leading to the intensification of extreme rainfall due to an increase in atmospheric water holding capacity at higher temperatures as governed by the Clausius-Clapeyron (C-C) relationship. However, the rainfall-temperature sensitivity (termed scaling) often deviates from the C-C relationship. This manuscript uses classifications prescribed by regional-scale atmospheric circulation patterns to investigate whether deviations from the C-C relationship in tropical Australia can be explained by differing weather types (WT). We show that the rainfall-temperature scaling differs depending on the WTs, with the difference increasing with rainfall magnitude. All monsoonal WTs have similar scaling, in excess of the C-C relationship, while trade winds (the driest WTs) result in the greatest scaling, up to twice that of the C-C relationship. Finally, we show the scaling for each WT also varies spatially, illustrating that both local factors and the WT will contribute to the behaviour of rainfall under warming.

Topics & Concepts

ScalingEnvironmental scienceClimatologyAtmospheric circulationAtmospheric sciencesMonsoonWalker circulationClimate changeGeologyMathematicsEl Niño Southern OscillationOceanographyGeometryClimate variability and modelsMeteorological Phenomena and SimulationsHydrology and Drought Analysis
Impact of atmospheric circulation on the rainfall-temperature relationship in Australia | Litcius