Abstract:

Although the warning performance for supercell tornadoes has greatly improved, it is generally less adequate for quasi-linear convective systems (QLCSs). Recent studies have demonstrated that differential reflectivity (ZDR) columns can be used as a proxy for updraft intensity and may help anticipate tornado formation within supercells. This study analyzes ZDR column in 54 QLCS mesovortices to further investigate their potential to indicate tornado formation and intensity within QLCSs. A series of ZDR column cases associated with both tornadic and nontornadic mesovorticies were studied by quantifying the height and width of each column at multiple instances prior to tornadogenesis. When comparing the width of the ZDR columns between tornadic and nontornadic cases, the tornadic ZDR column were slightly wider on average than the nontornadic ZDR columns. More studies with a larger sample size and more statistical analysis are needed to verify this correlation. However, the initial results indicate that the width of the ZDR column could potentially be useful to forecasters when predicting tornadoes in QLCSs, especially when paired with other polarimetric radar signatures. Comparing the height of the ZDR columns for tornadic and nontornadic cases, there was not a distinguishable difference between tornadic and nontornadic cases or different intensities. Although most of the correlations were not incredibly consistent across all the ZDR column cases, the initial results show somewhat promising correlations when looking at the ZDR column width as an precursor to tornado formation and should be studied further in future research.

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