Sensitivity of surface temperature to oceanic forcing via q-flux Green's function experiments: Feedback decomposition and polar amplification

A large set of Green's function-type experiments is performed with q-flux forcings mimicking the effects of the ocean heat uptake (OHU) to examine the global surface air temperature (SAT) sensitivities to the location of the forcing. The result of the experiments confirms the earlier notion derived from experiments with different model complexities that the global mean SAT is far more sensitive to the oceanic forcing from high latitudes than the tropics. Remarkably, no matter which latitude the q-flux forcings are placed, the SAT response is always characterized by a feature of polar amplification, implicating that it is intrinsic to our climate system. Considerable zonal asymmetry is also present in the efficacy of the tropical OHU, with the tropical eastern Pacific being much more efficient than Indian Ocean and tropical Atlantic in driving global SAT warming, by exciting the leading neutral mode of the SAT that projects strongly onto global mean warming. Using a radiative kernel, feedback analysis is also conducted to unravel the underlying processes responsible for the spatial heterogeneity in the global OHU efficacy, the polar amplification structures, and the tropical altruism of sharing the warmth with remote latitudes. Warming 'altruism' for a q-flux at a given latitude is also investigated in terms of the ratio of the induced remote latitudes versus the directly-forced local warming. It is found that the tropics is much more altruistic than higher latitudes due to the high energy transport efficiency of the Hadley circulation.