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Hurricane storm surge in Volusia County, Florida: evidence of a tipping point for infrastructure damage
Author(s) -
Helderop Edward,
Grubesic Tony H.
Publication year - 2019
Publication title -
disasters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.744
H-Index - 70
eISSN - 1467-7717
pISSN - 0361-3666
DOI - 10.1111/disa.12296
Subject(s) - storm surge , storm , tipping point (physics) , preparedness , surge , resilience (materials science) , vulnerability (computing) , environmental science , tropical cyclone , poison control , geography , climatology , meteorology , engineering , geology , environmental health , medicine , computer security , political science , physics , law , computer science , electrical engineering , thermodynamics
Storm surge often is the most destructive consequence of hurricanes and tropical storms, causing significant economic damage and loss of life. Many coastal communities that are located in high‐risk areas vis‐à‐vis hurricanes and tropical storms are prepared for moderate (between six and eight feet) storm surges. Such preparation, though, is not commensurate with more severe, but less frequent, storm surges (greater than eight feet). These gaps in preparedness have serious implications for community resilience. This paper explores elements of the vulnerability and resilience of coastal communities during major storm surge events, drawing on Volusia County, Florida, United States, as a case study. It simulates the impacts of five hurricanes (Categories I–V) and their associated storm surges on local infrastructure systems, populations, and access to resources. The results suggest that Volusia County is subject to a ‘tipping point’ , where surge damage from Category IV storms is significantly greater than that from Category III and lower hurricanes.