Tropical cyclones in vertical shear: An idealized study of TS Chantal (2001) during the CAMEX-4 field campaign
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Authors
Ritchie, Elizabeth
Elsberry, R.L.
Molinari, J.
Subjects
Advisors
Date of Issue
2003-02-13
Date
February 13, 2003
Publisher
Language
Abstract
Recent observational and idealized modeling studies of tropical cyclones (TC) in environmental
vertical wind shear have shown that the storms tend to have strong and persistent wave number one
asymmetries, particularly in the rainfall and vertical velocity fields. The asymmetries in the tropical
cyclone structure that develop under the influence of westerly wind shear have been shown to be
significantly greater compared with those that develop under similar easterly shear strength. The
intensity of the tropical cyclone is similarly impacted, with a TC in westerly shear being significantly
weakened compared with a TC in easterly shear of the same magnitude.
Tropical storm Chantal (2001) developed in strong and persistent westerly shear during the NASA
CAMEX-4 field campaign in conjunction with the Hurricane Landfall (HL 2001) experiment.
Whereas the storm struggled to develop throughout its lifetime, periods of strengthening and
weakening can be directly related to the amount of vertical wind shear present in the environment.
Using idealized model simulations that resemble the environment sampled by the NASA DC-8, ER-2
and NOAA P3 aircraft during Chantal’s struggle for survival, the relationships among the
environmental vertical wind shear and the tropical cyclone wind and precipitation structure, and
specifically the tropical cyclone intensity, will be examined.
Type
Description
Poster session for American Meteorological Society, The Simpson Symposium; Thursday, 13 February 2003. Poster Session 5, Tropical Cyclones: Intensity and Structure.
Series/Report No
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Naval Postgraduate School (U.S.)
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Format
1 p.
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This publication is a work of the U.S. Government as defined in Title 17, United States Code, Section 101. Copyright protection is not available for this work in the United States.