30th International Conference on Radar Meteorology

12A.12

Severe storm climatologies using Doppler radar algorithms

PAPER WITHDRAWN

Kimberly L. Elmore, NOAA/NSSL, Norman, OK; and G. J. Stumpf and E. D. Mitchell

The National Severe Storms Laboratory has embarked on a project to provide climatologies of all severe and tornadic eather across the U.S. WSR-88D Doppler radar network. Due to the extremely large size of the potential data set, the development of these climatologies is based on output from NSSL's experimental automated severe weather detection algorithms.

The initial scope of the project was to develop a climatology of radar-detected storm-scale vortex dignatures, as detected by NSSL's Mesocyclone Detection Algorithm (MDA), and Tornado Detection Algorithm (TDA), for one WSR-88D radar site (Pittsburgh, PA) for three years (1996-1998). The data set has since been expanded to include the St. Louis data for the same period as well.

The NSSL has also developed a system to transfer the MDA and TDA output files automatically from its 12 Warning Decision Support System operational test sites in real-time. The goal is to set the stage for future algorithm output acquistion for all the WSR-88Ds in a central repository to develop continuously-updating climatologies for all the radar sites. These climatologies will help to understand some of the seasonal variations, as well as small-scale spatial variations in severe weather for each radar site. This knowledge could serve to enhance understanding of local severe weather characteristics, and hence severe weather warnings. Socio-economic impacts could be broad, ranging from disaster mitigation in certain communities to information for the natural-hazard insurance industry.

Preliminary results from Pittsburgh and St. Louis have shown that there may be some patterns in the spatial ditribution of radar vortex signatures (mesocyclones, tornadic vortex signature, and others) that can be tied to the local geography. Other patterns are artifacts of the observing platform. Examples at Pittsburgh include some possible variation over the Appalachain mountains, as well as near Lake Erie (a large U.S. Great Lake). More statistical analysis results will be presented at the conference including temporal frequency distributions, density distributions, analyses on the data stratified by various vortex parameters (e.g., strength, size, etc.), and spatial analysis.

The methods being developed at NSSL may offer a cost- and time-saving option to develop severe weather climatologies at other locations worldwide (including Europe), especially those locations where knowledge of severe weather climatologies are not as well documented or at locations where severe weather verification is problematic.

Session 12A, Climatological Analyses (Parallel with Session 12B)
Tuesday, 24 July 2001, 9:00 AM-12:45 PM

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