Evidence is given of the distribution of pre-warm front rainfall at the meso-g scale, together with a discussion of the main mechanisms producting this variability. An inland region in the Mediterranean area is considered. The selected rainfall type is commonly considered the most regular inasmuch as it is usually unaffected by extended convective motions. Despite this, within a storm a large variability in space was observed. For 90% of measurements, the typical deviations from the area-average total depth ranged from -40 to 60% and the storm ensemble-average rainfall rate over an hilly zone was 60% greater than that in a contiguous low-land zone generally placed upwind. This variability is largely explained in terms of forced uplift of air mass over an envelope type orography. For a few storms smaller orographic effects were found in locations influenced by an orography with higher slopes and elevations. This feature is ascribed to the compact structure of these mountains which probably determines a deflection of air mass in the boundary layer. The importance of this type of analysis in the hydrological practice is also emphasized.

Spatial distribution of pre-warm front rainfall in the Mediterranean Area

CORRADINI, Corrado;
1988

Abstract

Evidence is given of the distribution of pre-warm front rainfall at the meso-g scale, together with a discussion of the main mechanisms producting this variability. An inland region in the Mediterranean area is considered. The selected rainfall type is commonly considered the most regular inasmuch as it is usually unaffected by extended convective motions. Despite this, within a storm a large variability in space was observed. For 90% of measurements, the typical deviations from the area-average total depth ranged from -40 to 60% and the storm ensemble-average rainfall rate over an hilly zone was 60% greater than that in a contiguous low-land zone generally placed upwind. This variability is largely explained in terms of forced uplift of air mass over an envelope type orography. For a few storms smaller orographic effects were found in locations influenced by an orography with higher slopes and elevations. This feature is ascribed to the compact structure of these mountains which probably determines a deflection of air mass in the boundary layer. The importance of this type of analysis in the hydrological practice is also emphasized.
1988
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11391/100311
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