How Does the Relationship between Ambient Deep-Tropospheric Vertical Wind Shear and Tropical Cyclone Tornadoes Change between Coastal and Inland Environments?

Schenkel, Benjamin A.; Coniglio, Michael; Edwards, Roger

doi:10.1175/WAF-D-20-0127.1

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How Does the Relationship between Ambient Deep-Tropospheric Vertical Wind Shear and Tropical Cyclone Tornadoes Change between Coastal and Inland Environments?

2021
By Schenkel, Benjamin A. ; Coniglio, Michael ; Edwards, Roger
Source: Weather and Forecasting, 36(2), 539-566

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Journal Title:

Weather and Forecasting
Personal Author:

Schenkel, Benjamin A. ; Coniglio, Michael ; Edwards, Roger

Schenkel, Benjamin A. ; Coniglio, Michael ; Edwards, Roger Less -
NOAA Program & Office:

CIMMS (Cooperative Institute for Mesoscale Meteorological Studies) ; OAR (Oceanic and Atmospheric Research) ; NSSL (National Severe Storms Laboratory) ; NWS (National Weather Service) ; SPC (Storm Prediction Center)

CIMMS (Cooperative Institute for Mesoscale Meteorological Studies) ; OAR (Oceanic and Atmospheric Research) ; NSSL (National Severe Storms Laboratory) ; NWS (National Weather Service) ; SPC (Storm Prediction Center) Less -
Description:

This work investigates how the relationship between tropical cyclone (TC) tornadoes and ambient (i.e., synoptic-scale) deep-tropospheric (i.e., 850–200-hPa) vertical wind shear (VWS) varies between coastal and inland environments. Observed U.S. TC tornado track data are used to study tornado frequency and location, while dropsonde and radiosonde data are used to analyze convective-scale environments. To study the variability in the TC tornado–VWS relationship, these data are categorized by both 1) their distance from the coast and 2) reanalysis-derived VWS magnitude. The analysis shows that TCs produce coastal tornadoes regardless of VWS magnitude primarily in their downshear sector, with tornadoes most frequently occurring in strongly sheared cases. Inland tornadoes, including the most damaging cases, primarily occur in strongly sheared TCs within the outer radii of the downshear-right quadrant. Consistent with these patterns, dropsondes and coastal radiosondes show that the downshear-right quadrant of strongly sheared TCs has the most favorable combination of enhanced lower-tropospheric near-surface speed shear and veering, and reduced lower-tropospheric thermodynamic stability for tornadic supercells. Despite the weaker intensity farther inland, these kinematic conditions are even more favorable in inland environments within the downshear-right quadrant of strongly sheared TCs, due to the strengthened veering of the ambient winds and the lack of changes in the TC outer tangential wind field strength. The constructive superposition of the ambient and TC winds may be particularly important to inland tornado occurrence. Together, these results will allow forecasters to anticipate how the frequency and location of tornadoes and, more broadly, convection may change as TCs move inland.
Keywords:

[+]

Climatology Dropsondes Hurricanes/typhoons Radiosonde/rawinsonde Observations Tornadoes Tropical Cyclones
Source:

Weather and Forecasting, 36(2), 539-566
DOI:

https://doi.org/10.1175/WAF-D-20-0127.1
Document Type:

Journal Article
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Submitted
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urn:sha256:0225d6411c54177d4485e7cc41d4e377b8d4401ef5a13ea2b2934312c7c24725
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https://repository.library.noaa.gov/view/noaa/31702/noaa_31702_DS1.pdf
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How Does the Relationship between Ambient Deep-Tropospheric Vertical Wind Shear and Tropical Cyclone Tornadoes Change between Coastal and Inland Environments?

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