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Supercell-External Storms and Boundaries Acting as Catalysts for Tornadogenesis

It has long been observed that interactions of a supercell with other storms or storm-scale boundaries sometimes seem to directly instigate tornadogenesis. First, the authors explore the frequency of such constructive interactions. Radar data from WSR-88D are used to categorize 136 tornadic supercel...

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Published in:	Monthly weather review 2023-01, Vol.151 (1), p.23-38
Main Authors:	Fischer, Jannick, Dahl, Johannes M. L.
Format:	Article
Language:	English
Subjects:	Acquisitions & mergers Boundaries Catalysts Deceleration External pressure Outflow Pressure gradients Radar Radar data Simulation Storms Supercells Thunderstorms Tornado formation Tornadoes Updraft Vortices
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creator	Fischer, Jannick Dahl, Johannes M. L.
description	It has long been observed that interactions of a supercell with other storms or storm-scale boundaries sometimes seem to directly instigate tornadogenesis. First, the authors explore the frequency of such constructive interactions. Radar data from WSR-88D are used to categorize 136 tornadic supercells into isolated supercells and supercells that interacted with external factors within 20 min before tornadogenesis. Most cases (80%) showed some form of external influence prior to tornadogenesis. Common patterns of interactions, the typical supercell quadrant that is affected, and changes in azimuthal shear are also identified. To further study these interactions, two sets of idealized Cloud Model 1 (CM1) simulations are performed. The first set demonstrates that the speed of the near-ground horizontal flow relative to the updraft can control whether a vortex patch develops into a tornado. A weaker updraft-relative flow is favorable because the developing vortex stays in the updraft region longer and becomes less tilted. Building on these results, it is shown that external outflow can lead to tornado formation by a deceleration of the updraft-relative flow. The deceleration is caused by the pressure gradient force associated with the external outflow, which is already noticeable several kilometers ahead of the outflow boundary. This offers one possible mechanism by which external outflow can act as a catalyst for supercell tornadogenesis.
doi_str_mv	10.1175/MWR-D-22-0026.1
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Common patterns of interactions, the typical supercell quadrant that is affected, and changes in azimuthal shear are also identified. To further study these interactions, two sets of idealized Cloud Model 1 (CM1) simulations are performed. The first set demonstrates that the speed of the near-ground horizontal flow relative to the updraft can control whether a vortex patch develops into a tornado. A weaker updraft-relative flow is favorable because the developing vortex stays in the updraft region longer and becomes less tilted. Building on these results, it is shown that external outflow can lead to tornado formation by a deceleration of the updraft-relative flow. The deceleration is caused by the pressure gradient force associated with the external outflow, which is already noticeable several kilometers ahead of the outflow boundary. 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subjects	Acquisitions & mergers Boundaries Catalysts Deceleration External pressure Outflow Pressure gradients Radar Radar data Simulation Storms Supercells Thunderstorms Tornado formation Tornadoes Updraft Vortices
title	Supercell-External Storms and Boundaries Acting as Catalysts for Tornadogenesis
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