Forcing, instability and equivalent potential vorticity in a Midwest USA convective snowstorm

Christopher E Halcomb; Patrick S Market

doi:10.1017/S1350482703003074

Abstract

This paper investigates a case of convective snow that was observed with an occluded-type cyclone. Cross-section and plan-view analyses show that convection resulted from the release of elevated, potential instability by isentropic uplift associated with an easterly trowal airstream (a western extension of the warm conveyor belt) located between 700 and 850 hPa. Forcing for ascent was supplied by low-level frontogenesis, as well as an intensifying 500hPa tropopause fold and its associated potential vorticity anomaly. The latter not only provided a source of very cold, dense air, but also was responsible for lower tropospheric cyclogenesis and subsequent trowal generation.

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Forcing, instability and equivalent potential vorticity in a Midwest USA convective snowstorm

Abstract

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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Forcing, instability and equivalent potential vorticity in a Midwest USA convective snowstorm

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