Abstract
Abstract. The two components of the tropical overturning circulation, the meridional Hadley circulation (HC) and the zonal Walker circulation (WC), are key to the re-distribution of moisture, heat and mass in the atmosphere. The mid-Pliocene Warm Period (mPWP; ∼ 3.3–3 Ma) is considered a very rough analogue of near-term future climate change, yet changes to the tropical overturning circulations in the mPWP are poorly understood. Here, climate model simulations from the Pliocene Model Intercomparison Project (PlioMIP) are analyzed to show that the tropical overturning circulations in the mPWP were weaker than preindustrial circulations, just as they are projected to be in future climate change. The weakening HC response is consistent with future projections, and its strength is strongly related to the meridional gradient of sea surface warming between the tropical and subtropical oceans. The weakening of the WC is less robust in PlioMIP than in future projections, largely due to inter-model variations in simulated warming of the tropical Indian Ocean (TIO). When the TIO warms faster (slower) than the tropical mean, local upper tropospheric divergence increases (decreases) and the WC weakens less (more). These results provide strong evidence that changes to the tropical overturning circulation in the mPWP and future climate are primarily controlled by zonal (WC) and meridional (HC) gradients in tropical–subtropical sea surface temperatures.
Highlights
The tropical overturning circulation driven by tropical convection is an important driver of the hydrological cycle of the tropics and subtropics
Our study aims to examine the tropical circulation of the midPliocene Warm Period (mPWP) using multiple general circulation models (GCMs)
We note that the hemispheric asymmetry in surface warming found in CPLD, and the associated changes in the Hadley circulation (HC), are similar to those projected for future climate change from Coupled Model Intercomparison Project Phase 5 (CMIP5) (e.g., He and Soden, 2015)
Summary
The tropical overturning circulation driven by tropical convection is an important driver of the hydrological cycle of the tropics and subtropics. There are strong indications that the upwelling regions off the coast of western South America were much warmer than present, causing a weakening of the west–east SST gradient in the tropical Pacific and indicating a flattening of the thermocline (Dekens et al, 2007; Dowsett and Robinson, 2009) These changes in zonal and meridional SST gradients could have had important effects on the tropical overturning circulation of the mPWP, and studying these effects could provide insight into the usefulness of the mPWP as an analogue for future climate change since they differ significantly from present day.
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