Prognostic Significance of Dynamic Factors of Precipitation Generation

N. P. Shakina, E. N. Skriptunova, and A. R. Ivanova

On the basis of objective analysis of meteorological fields and 12-h precipitation amounts observed at the stations in the former European USSR, statistical relationships are studied between the diagnostic characteristics of dynamic forcing of vertical motion and occurrence frequency of precipitation of different intensity ranges over the whole area and each of six separate regions. The following diagnostics are considered: frontal parameter as a measure of baroclinicity and of pressure field curvature; neutral buoyancy level as a measure of grid-scale convective instability; scalar frontogenetic function at the 850-hPa level and dynamic tropopause height as measures of intensity of vertical transverse circulations in unstable baroclinic zones. Informativity estimates are presented of each diagnostic and their pair combinations as precipitation predictors. The frontal parameter (in all seasons) and the neutral buoyancy level (in all seasons but winter) are significant as single predictors of precipitation. Among the pair combinations of the diagnostics, those which include the frontal parameter are more informative, and the combination of the latter and the neutral buoyancy level is the most informative one. A comparable informativity, under certain conditions, is demonstrated by the combinations of the frontal parameter with the frontogenetic function and with the tropopause height (in particular, in winter and fall for heavy and very heavy precipitation). In all the cases, the values of the informativity criterion (Pierce’s index) are higher for more intense precipitation as a predictand.