A global climatology of monsoon low‐pressure systems

The first global climatology of monsoon low‐pressure systems is presented here, based on the ERA‐Interim reanalysis. Low‐pressure systems are classified into three intensity categories and particular focus is given to systems in the category corresponding to a traditional definition of monsoon depressions. Vortex tracks are identified using an automated algorithm applied to the distributions of 850 hPa relative vorticity, sea‐level pressure and surface wind speed for 1979–2012. Roughly two to three times as many monsoon low‐pressure systems form in the Northern Hemisphere as in the Southern Hemisphere during local summer. The frequency of genesis typically peaks in local summer, but low‐pressure systems form throughout the year in every monsoon region. Interannual variability is weak, with standard deviations of summer counts typically being below 10% of the long‐term summer mean. Regional composites reveal that monsoon depressions in India, the western Pacific and northern Australia share a common structure, consisting of a warm‐over‐cold core and a top‐heavy column of potential vorticity that extends from the surface to the upper troposphere. A separate class of monsoon low‐pressure systems develops over dry regions of West Africa and western Australia, with a shallow composite structure having a warm core in the lower troposphere and cyclonic potential vorticity confined to a thin near‐surface layer. Low‐pressure systems in nearly all monsoon regions are estimated to account for a large fraction, from about 40% to more than 80%, of summer precipitation on the poleward edge of the climatological mean precipitation maxima.