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Abstract High-shear, low-CAPE environments prevalent in the southeastern United States account for a large fraction of tornadoes and pose challenges for operational meteorologists. Yet, existing knowledge of supercell dynamics, particularly in the context of cloud-resolving modeling, is dominated by moderate- to high-CAPE environments typical of the Great Plains. This study applies high-resolution modeling to clarify the behavior of supercells in the more poorly understood low-CAPE environments, and compares them to a benchmark simulation in a higher-CAPE environment. Simulated low-CAPE supercells’ main updrafts do not approach the theoretical equilibrium level; their largest vertical velocities result not from buoyancy, but from dynamic accelerations associated with low-level mesocyclones and vortices. Surprisingly, low-CAPE tornado-like vortex parcels also sometimes stop ascending near the vortex top instead of carrying large vorticity upward into the midlevel updraft, contributing to vortex shallowness. Each of these low-CAPE behaviors is attributed to dynamic perturbation pressure gradient accelerations that are maximized in low levels, which predominate when the buoyancy is small.more » « less
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Bai, Yuntao ; Venugopalan, Gautam ; Kuns, Kevin ; Wipf, Christopher ; Markowitz, Aaron ; Wade, Andrew R. ; Chen, Yanbei ; Adhikari, Rana X. ( , Physical Review A)null (Ed.)
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Wade, Andrew R. ; McKenzie, Kirk ; Chen, Yanbei ; Shaddock, Daniel A. ; Chow, Jong H. ; McClelland, David E. ( , Physical Review D)