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Estuarine hurricane wind can intensify surge-dominated extreme water level in shallow and converging coastal systems

Mithun Deb, James J. Benedict, Ning Sun, Zhaoqing Yang, Robert D. Hetland, David Judi, Taiping Wang

2024Natural hazards and earth system sciences13 citationsDOIOpen Access PDF

Abstract

Abstract. Based on the projected increase in hurricane landfall frequency on the middle to lower US east coast, we examined the crucial role of the estuarine wind field in exacerbating coastal flooding. A regionally refined atmospheric and two high-resolution hydrology and ocean models are integrated to provide plausible and physically consistent ensembles of hurricane events and the associated flooding inside the Delaware Bay and River, a US mid-Atlantic estuary. Model results show that the hurricane propagation direction, estuarine geometry, remote surge from the open ocean, and direct nearshore upwind stress could magnify the flood magnitude. More specifically, inland-bound tracks that make landfall before reaching the mid-Atlantic coast produce a more significant surge within Delaware Bay than the shore-parallel tracks, where the estuarine wind direction plays the primary role in surge amplification. Ultimately, this study emphasized the need for integrated models to capture the nonlinear dynamics and interactions in flood hazard modeling.

Topics & Concepts

EstuaryStorm surgeBayShoreFlooding (psychology)Coastal floodSurgeLandfallOceanographyFlood mythEnvironmental scienceWaves and shallow waterWater levelGeologyHydrology (agriculture)Tropical cycloneStormSea level riseClimate changeGeographyGeomorphologyArchaeologyCartographyPsychotherapistPsychologyGeotechnical engineeringTropical and Extratropical Cyclones ResearchOcean Waves and Remote SensingCoastal wetland ecosystem dynamics