PNNL

Abstract

Precipitation and storm track activity in the Southern Hemisphere feature a remarkable 25-day periodicity known as Baroclinic Annular Mode, which is more robust in austral summer. However, it is unclear how this mode of variability will change in a warming climate. Using climate model projections following the representative concentration pathway 8.5 scenario, this work finds a robust increase of intra-seasonal variability of the precipitation and density weighted eddy kinetic energy preferentially at the 25-day frequency range by 25% and 20% respectively in austral summer toward the end of the century, despite small changes in seasonal mean quantities at corresponding latitudes. These results suggest that a warming climate could feature a stronger dynamical organization of the 25-day periodicity by the moist baroclinic waves in summer, and for the austral winter, the weak 25-day periodicity in the current climate will become a prominent mode of periodic variability toward the end of the century.