Quantifying Extreme Hurricane Risk in the North Atlantic and Gulf of Mexico

Hurricanes threaten the United States every year. It is important to quantify the risk of these events for emergency managers. Extreme value statistics are used to model hurricane characteristics at different locations. Using wind speeds over a specified threshold, the risk of extreme winds are esti...

Full description

Bibliographic Details
Other Authors: Trepanier, Jill, 1985- (authoraut), Elsner, James (professor directing dissertation), Donoghue, Joseph (university representative), Mesev, Victor (committee member), Zhao, Tingting (committee member), Department of Geography (degree granting department), Florida State University (degree granting institution)
Format: Text
Language:English
Published: Tallahassee, Florida: Florida State University 2012
Subjects:
Geography
North Atlantic
Online Access:https://diginole.lib.fsu.edu/islandora/object/fsu%3A183157/datastream/TN/view/Quantifying%20Extreme%20Hurricane%20Risk%20in%20the%20North%20Atlantic%20and%20Gulf%20of%20Mexico.jpg
Description
Summary:Hurricanes threaten the United States every year. It is important to quantify the risk of these events for emergency managers. Extreme value statistics are used to model hurricane characteristics at different locations. Using wind speeds over a specified threshold, the risk of extreme winds are estimated in twelve Florida cities. The risk estimates are provided as statistical return periods, or the expected frequency of specific hurricane magnitudes. Results show that the city of Miami can expect to see hurricane winds blowing at 50 ms-1 (45.5-54.5) [90% CI] or stronger, on average, once every 12 years. In comparison, the city of Pensacola can expect to see hurricane winds of 50 ms-1 (46.9-53.1) [90% CI] or stronger once every 24 years. Hurricanes in the vicinity of Florida are found to be increasing in intensity over time as a product of higher offshore intensification rates. The risk of hurricane strikes can be further understood by including an additional variable, storm surge. Using observational data, the joint probability distribution of hurricane wind speeds and storm surge is found at three Air Force Bases along the U. S. Gulf coast. The quartile pointwise uncertainty is quantified using a Monte Carlo procedure. Eglin Air Force Base can expect wind speeds blowing at 50 ms-1 and surge heights of 3 m, on average, once every 28 years (23-36). MacDill Air Force Base can expect wind speeds blowing at 50 ms-1 and surge heights of 3 m, on average, once every 27 years (22-34). Keesler Air Force Base can expect wind speeds blowing at 50 ms-1 and surge heights of 3 m, on average, once every 15 years (13-18). Utilizing a spatial tessellation across the North Atlantic and Gulf of Mexico provides additional insight into the risk of hurricane strikes. Parameters from the extreme value model are mapped across space to visualize patterns. Sea surface temperature is included as a covariate in a geographically weighted regression model with each parameter. It is found that as sea surface temperatures increase, the ...

Similar Items