2021
DOI: 10.3390/hydrology8030104
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Flood Impacts on Critical Infrastructure in a Coastal Floodplain in Western Puerto Rico during Hurricane María

Abstract: Flooding during extreme weather events damages critical infrastructure, property, and threatens lives. Hurricane María devastated Puerto Rico (PR) on 20 September 2017. Sixty-four deaths were directly attributable to the flooding. This paper describes the development of a hydrologic model using the Gridded Surface Subsurface Hydrologic Analysis (GSSHA), capable of simulating flood depth and extent for the Añasco coastal flood plain in Western PR. The purpose of the study was to develop a numerical model to sim… Show more

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Cited by 17 publications
(9 citation statements)
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“…The paper "Flood Impacts on Critical Infrastructure in a Coastal Floodplain in Western Puerto Rico during Hurricane María" [4], by Said Mejia Manrique, Eric Harmsen, Reza Khanbilvardi, and Jorge Gonzalez, evaluates the depth and extent of impacts inflicted by floods on critical infrastructures and communities on the Añasco coastal flood plain in Western Puerto Rico in the aftermath of storm Maria. The team developed a numerical model based on GSSHA code that was forced using WRF-based hydro-climate variables to model various flooding scenarios: (1) The use of an observed discharge hydrograph from the upper watershed as an inflow boundary condition for the coastal floodplain area, along with the WRF rainfall in the coastal flood plain; (2) The use of WRF rainfall to simulate runoff in the upper watershed and coastal flood plain; and (3) the use of bias-corrected WRF rainfall.…”
Section: Hydro-climatementioning
confidence: 99%
“…The paper "Flood Impacts on Critical Infrastructure in a Coastal Floodplain in Western Puerto Rico during Hurricane María" [4], by Said Mejia Manrique, Eric Harmsen, Reza Khanbilvardi, and Jorge Gonzalez, evaluates the depth and extent of impacts inflicted by floods on critical infrastructures and communities on the Añasco coastal flood plain in Western Puerto Rico in the aftermath of storm Maria. The team developed a numerical model based on GSSHA code that was forced using WRF-based hydro-climate variables to model various flooding scenarios: (1) The use of an observed discharge hydrograph from the upper watershed as an inflow boundary condition for the coastal floodplain area, along with the WRF rainfall in the coastal flood plain; (2) The use of WRF rainfall to simulate runoff in the upper watershed and coastal flood plain; and (3) the use of bias-corrected WRF rainfall.…”
Section: Hydro-climatementioning
confidence: 99%
“…The U.S. Forest Service and the National Integrated Drought Information System (NISDIS) uses soil moisture, soil saturation, and rainfall deficit information from the model for their bi-monthly reports in Puerto Rico and the USVI. Soil saturation from the model was recently used in a Hurricane María flood modeling study in western Puerto Rico ( [67]).…”
Section: Island-wide Water Balance Error Analysismentioning
confidence: 99%
“…By using a multivariate grid-cell-level-fixedeffects panel regression model at a resolution of 0.1 • , we analyze the responses of the populations in LECZ to storm surge flooding depth globally and regionally. We also investigate whether there are heterogeneous impacts of storm surge in terms of urban versus rural populations, as urban area infrastructure may be particularly vulnerable through impacts on drainage systems, electricity grids, and schools [34,35]. Furthermore, urban poor people tend to be overexposed to flood damage while for rural populations abundant land in rural areas can reduce their exposure [36][37][38].…”
Section: Introductionmentioning
confidence: 99%