Tropical cyclone genesis potential index in climate models
Tellus: Series A, Dynamic Meteorology and Oceanography
The potential for tropical cyclogenesis in a given ocean basin during its active season has been represented by a genesis potential index (GPI) that contains several large-scale environmental variables demonstrated to relate to tropical cyclone (TC) genesis. Here we examine the ability of some of today's atmospheric climate models, forced with historical observed SST over a multidecadal hindcast period, to reproduce observed values and patterns of the GPI, as well as the expected implications
... cted implications for their TC number. The evaluation is done toward the goal of being able to rely on climate models to predict anomalies in TC behavior, including activity level and preferred location, on time-scales from interannual through multidecadal and longer. The effect of the horizontal resolution of a climate model on its GPI is explored. The five analyzed models are found capable of reproducing the observed seasonal phasing of GPI in a given region, but most of them them have a higher GPI than observed. Additionally, each model has its own unique relationship between mean GPI and mean TC number. The interannual correlation of GPI and number of TCs in a given basin differs significantly among models. Experiments using different horizontal resolutions of the ECHAM5 model indicate that as resolution is increased, model GPI also increases for many of the ocean basins during their peak TC seasons. Most of this increase is realized between resolution T42 and T63, with much smaller increases for further resolution increases up to T159. Increases in model GPI with increasing resolution implies a more favorable large-scale environment for model TC genesis.