Diagnosing Tropical Cyclone Risk Through the Development of a Landfall Index for the North Atlantic Basin
While a number of research groups offer quantitative diagnostic indices of aggregate annual Atlantic Basin tropical cyclone (TC) activity, the literature is comparatively thin concerning methods to similarly quantify seasonal U.S. landfall risks. An accurate diagnostic assessment of annual TC risk w...
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English |
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Meteorology |
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Meteorology Diagnosing Tropical Cyclone Risk Through the Development of a Landfall Index for the North Atlantic Basin |
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Meteorology |
| description |
While a number of research groups offer quantitative diagnostic indices of aggregate annual Atlantic Basin tropical cyclone (TC) activity, the literature is comparatively thin concerning methods to similarly quantify seasonal U.S. landfall risks. An accurate diagnostic assessment of annual TC risk would be of great public utility and economic value, but the methods used to assess yearly activity demonstrate little skill in evaluating count or severity of TCs making landfall in the continental United States. As existing models are optimized to capture variability in cumulative seasonal TC activity, they are suboptimal statistical diagnostic tools for assessing the potential for sensible impacts of storms on populated areas. This project aims to address this utility gap in existing seasonal aggregate TC potential indices by taking a broader view of the factors that influence where TCs develop and move in the Atlantic Basin, shifting the focus to the physical parameters most closely linked to the historical conditions associated with U.S. landfall events. Using an extended record of Atlantic TC activity and reanalysis model datasets, characteristic atmospheric and oceanic traits of elevated U.S. TC landfall risk are identified, with the aim of quantifying the internal variance and predictability of these risks using empirical Poisson regression models. The resulting product, the Landfall Diagnostic Index (LDI), incorporates spatially and temporally averaged measures of relative sea surface temperature, layer-averaged steering winds, zonal shear vorticity, and upper-level divergence to yield a seasonal TC activity metric that has significant fidelity to the interannual and seasonal cycle variability of continental U.S. hurricane landfalls. The LDI offers physical insight into the causes and nature of TC risk on each of these scales, in particular highlighting a potential inherent tension between the conditions most favorable for elevated TC counts and those favoring steering currents directed towards the continental United States. A Dissertation submitted to the Department of Earth, Ocean, and Atmospheric Science in partial fulfillment of the requirements for the degree of Doctor of Philosophy. Summer Semester 2015. July 9, 2015. climate, climatology, diagnostic methods, hurricanes, risk management, tropical cyclones Includes bibliographical references. Robert E. Hart, Professor Directing Dissertation; James Elsner, University Representative; Philip Sura, Committee Member; Vasu Misra, Committee Member; Mark Bourassa, Committee Member. |
| author2 |
Truchelut, Ryan (authoraut) Hart, Robert E. (Robert Edward), 1972- (professor directing dissertation) Elsner, James B. (university representative) Sura, Philip (committee member) Misra, Vasubandhu, 1970- (committee member) Bourassa, Mark Allan (committee member) Florida State University (degree granting institution) College of Arts and Sciences (degree granting college) Department of Earth, Ocean, and Atmospheric Science (degree granting department) |
| format |
Text |
| title |
Diagnosing Tropical Cyclone Risk Through the Development of a Landfall Index for the North Atlantic Basin |
| title_short |
Diagnosing Tropical Cyclone Risk Through the Development of a Landfall Index for the North Atlantic Basin |
| title_full |
Diagnosing Tropical Cyclone Risk Through the Development of a Landfall Index for the North Atlantic Basin |
| title_fullStr |
Diagnosing Tropical Cyclone Risk Through the Development of a Landfall Index for the North Atlantic Basin |
| title_full_unstemmed |
Diagnosing Tropical Cyclone Risk Through the Development of a Landfall Index for the North Atlantic Basin |
| title_sort |
diagnosing tropical cyclone risk through the development of a landfall index for the north atlantic basin |
| publisher |
Florida State University |
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http://purl.flvc.org/fsu/fd/FSU_migr_etd-9514 http://fsu.digital.flvc.org/islandora/object/fsu%3A253165/datastream/TN/view/Diagnosing%20Tropical%20Cyclone%20Risk%20Through%20the%20Development%20of%20a%20Landfall%20Index%20for%20the%20North%20Atlantic%20Basin.jpg |
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ENVELOPE(34.333,34.333,67.917,67.917) |
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Sura |
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Sura |
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North Atlantic |
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North Atlantic |
| op_rights |
This Item is protected by copyright and/or related rights. You are free to use this Item in any way that is permitted by the copyright and related rights legislation that applies to your use. For other uses you need to obtain permission from the rights-holder(s). The copyright in theses and dissertations completed at Florida State University is held by the students who author them. |
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ftfloridastunidc:oai:fsu.digital.flvc.org:fsu_253165 2023-05-15T17:37:05+02:00 Diagnosing Tropical Cyclone Risk Through the Development of a Landfall Index for the North Atlantic Basin Truchelut, Ryan (authoraut) Hart, Robert E. (Robert Edward), 1972- (professor directing dissertation) Elsner, James B. (university representative) Sura, Philip (committee member) Misra, Vasubandhu, 1970- (committee member) Bourassa, Mark Allan (committee member) Florida State University (degree granting institution) College of Arts and Sciences (degree granting college) Department of Earth, Ocean, and Atmospheric Science (degree granting department) 1 online resource (193 pages) computer application/pdf http://purl.flvc.org/fsu/fd/FSU_migr_etd-9514 http://fsu.digital.flvc.org/islandora/object/fsu%3A253165/datastream/TN/view/Diagnosing%20Tropical%20Cyclone%20Risk%20Through%20the%20Development%20of%20a%20Landfall%20Index%20for%20the%20North%20Atlantic%20Basin.jpg English eng eng Florida State University This Item is protected by copyright and/or related rights. You are free to use this Item in any way that is permitted by the copyright and related rights legislation that applies to your use. For other uses you need to obtain permission from the rights-holder(s). The copyright in theses and dissertations completed at Florida State University is held by the students who author them. Meteorology Text ftfloridastunidc 2020-08-10T21:35:44Z While a number of research groups offer quantitative diagnostic indices of aggregate annual Atlantic Basin tropical cyclone (TC) activity, the literature is comparatively thin concerning methods to similarly quantify seasonal U.S. landfall risks. An accurate diagnostic assessment of annual TC risk would be of great public utility and economic value, but the methods used to assess yearly activity demonstrate little skill in evaluating count or severity of TCs making landfall in the continental United States. As existing models are optimized to capture variability in cumulative seasonal TC activity, they are suboptimal statistical diagnostic tools for assessing the potential for sensible impacts of storms on populated areas. This project aims to address this utility gap in existing seasonal aggregate TC potential indices by taking a broader view of the factors that influence where TCs develop and move in the Atlantic Basin, shifting the focus to the physical parameters most closely linked to the historical conditions associated with U.S. landfall events. Using an extended record of Atlantic TC activity and reanalysis model datasets, characteristic atmospheric and oceanic traits of elevated U.S. TC landfall risk are identified, with the aim of quantifying the internal variance and predictability of these risks using empirical Poisson regression models. The resulting product, the Landfall Diagnostic Index (LDI), incorporates spatially and temporally averaged measures of relative sea surface temperature, layer-averaged steering winds, zonal shear vorticity, and upper-level divergence to yield a seasonal TC activity metric that has significant fidelity to the interannual and seasonal cycle variability of continental U.S. hurricane landfalls. The LDI offers physical insight into the causes and nature of TC risk on each of these scales, in particular highlighting a potential inherent tension between the conditions most favorable for elevated TC counts and those favoring steering currents directed towards the continental United States. A Dissertation submitted to the Department of Earth, Ocean, and Atmospheric Science in partial fulfillment of the requirements for the degree of Doctor of Philosophy. Summer Semester 2015. July 9, 2015. climate, climatology, diagnostic methods, hurricanes, risk management, tropical cyclones Includes bibliographical references. Robert E. Hart, Professor Directing Dissertation; James Elsner, University Representative; Philip Sura, Committee Member; Vasu Misra, Committee Member; Mark Bourassa, Committee Member. Text North Atlantic Florida State University Digital Library (FSUDL) Sura ENVELOPE(34.333,34.333,67.917,67.917) |