@article{186166, author = {Joseph Clark and Pu Lin and Spencer Hill}, title = {ITCZ Response to Disabling Parameterized Convection in Global Fixed-SST GFDL-AM4 Aquaplanet Simulations at 50 and 6 km Resolutions}, abstract = {
As the community increases climate model horizontal resolutions and experiments with removing moist convective parameterizations entirely, it is imperative to understand how these advances affect the InterTropical Convergence Zone (ITCZ). We investigate how the ITCZ responds to deactivating parameterized convection at two resolutions, 50 and 6\ km, in fixed sea surface temperature, aquaplanet simulations with the NOAA GFDL AM4 atmospheric model. Disabling parameterized convection at 50\ km resolution narrows the ITCZ and increases its precipitation minus evaporation (P{\textendash}E) maximum by \~{}78\%, whereas at 6\ km resolution doing so widens the ITCZ and decreases its P{\textendash}E maximum by \~{}50\%. Using the column-integrated moist static energy budget, we decompose these tropical P{\textendash}E responses into contributions from changes in atmospheric energy input (AEI), gross moist stability, and gross moisture stratification. At 6\ km, the ITCZ weakens due to increased gross moist stability. Disabling the convective parameterization at this finer resolution deepens the circulation, favoring more efficient poleward energy transport out of the deep tropics and reduced precipitation in the core of the ITCZ. Conversely, at 50\ km the ITCZ strengthening is primarily driven by AEI, which in turn stems primarily from increased low cloud amount and thus longwave cloud radiative cooling in the Hadley cell subsiding branch. The Hadley circulation overturning intensifies to produce poleward energy fluxes that compensate the longwave cooling, yielding a stronger ITCZ. We further show that the low level diabatic heating profiles over the descending region are instrumental in understanding such diverse responses.
}, year = {2024}, journal = {Journal of Advances in Modeling Earth Systems}, volume = {16}, pages = {e2023MS003968}, url = {https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2023MS003968}, }