The combined risk of extreme tropical cyclone winds and storm surges along the U.S. Gulf of Mexico Coast

Tropical cyclones, with their nearshore high wind speeds and deep storm surges, frequently strike the United States Gulf of Mexico coastline influencing millions of people and disrupting offshore economic activities. The combined risk of occurrence of tropical cyclone nearshore wind speeds and storm...

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Bibliographic Details
Published in:Journal of geophysical research. Atmospheres 2017-03, Vol.122 (6), p.3299-3316
Main Authors: Trepanier, J. C., Yuan, J., Jagger, T. H.
Format: Article
Language:English
Subjects:
Beaches
Cities
Coasts
Confidence intervals
copula
Correlation
Cyclones
Economic activities
Economic conditions
Economics
Emergencies
Emergency management
extreme
Extreme values
Geophysics
Gulf of Mexico
Hurricanes
Offshore
Policies
Populations
Probability theory
Risk
Statistical analysis
Statistical methods
Storm surges
Storms
Surges
Synopsis
Tidal waves
Tropical climate
tropical cyclone
Tropical cyclone winds
Tropical cyclones
U.S. Gulf Coast
Wind
Wind speed
Winds
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Summary:Tropical cyclones, with their nearshore high wind speeds and deep storm surges, frequently strike the United States Gulf of Mexico coastline influencing millions of people and disrupting offshore economic activities. The combined risk of occurrence of tropical cyclone nearshore wind speeds and storm surges is assessed at 22 coastal cities throughout the United States Gulf of Mexico. The models used are extreme value copulas fitted with margins defined by the generalized Pareto distribution or combinations of Weibull, gamma, lognormal, or normal distributions. The statistical relationships between the nearshore wind speed and storm surge are provided for each coastal city prior to the copula model runs using Spearman's rank correlations. The strongest significant relationship between the nearshore wind speed and storm surge exists at Shell Beach, LA (ρ = 0.67), followed by South Padre Island, TX (ρ = 0.64). The extreme value Archimedean copula models for each city then provide return periods for specific nearshore wind speed and storm surge pairs. Of the 22 cities considered, Bay St. Louis, MS, has the shortest return period for a tropical cyclone with at least a 50 ms−1 nearshore wind speed and a 3 m surge (19.5 years, 17.1‐23.5). The 90% confidence intervals are created by recalculating the return periods for a fixed set of wind speeds and surge levels using 100 samples of the model parameters. The results of this study can be utilized by policy managers and government officials concerned with coastal populations and economic activity in the Gulf of Mexico. Synopsis Using a branch of extreme statistics, the combined risk of tropical cyclone wind speeds and storm surges is estimated at 22 cities along the U.S. Gulf of Mexico coastline in Texas, Louisiana, Mississippi, Alabama, and Florida. The city with the shortest return time for a Category 3 hurricane (50 ms−1) with a 3 m surge is Bay St. Louis, Mississippi. This city can expect a storm of this magnitude every 19 years, on average. Shell Beach, Louisiana, has the second highest return frequency for this type of event (about 28 years). This information can be used by emergency managers and policy makers to better allocate resources for protective measures against tropical cyclones along the coast. Key Points The strongest significant relationship between nearshore tropical cyclone wind speeds and storm surges occurs at Shell Beach, Louisiana An extreme value copula model is used to analyze the probabilit
ISSN:2169-897X
2169-8996
DOI:10.1002/2016JD026180