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Delayed coastal inundations caused by ocean dynamics post-Hurricane Matthew

Earth Sciences

Delayed coastal inundations caused by ocean dynamics post-Hurricane Matthew

K. Park, E. D. Lorenzo, et al.

Post Hurricane Abnormal Water Levels (PHAWL) threaten coastal communities with inundation lasting for weeks. This research conducted by Kyungmin Park, Emanuele Di Lorenzo, Yinglong J. Zhang, Harry Wang, Tal Ezer, and Fei Ye reveals how Gulf Stream dynamics shape these dangerous conditions, extending coastal hazards beyond the hurricane's direct path.... show more
Abstract
Post Hurricane Abnormal Water Level (PHAWL) poses a persistent inundation threat to coastal communities, yet unresolved knowledge gaps exist regarding its spatiotemporal impacts and causal mechanisms. Using a high-resolution coastal model with a set of observations, we find that the PHAWLs are up to 50 cm higher than the normal water levels for several weeks and cause delayed inundations around residential areas of the U.S. Southeast Coast (USSC). Numerical experiments reveal that while atmospheric forcing modulates the coastal PHAWLs, ocean dynamics primarily driven by the Gulf Stream control the mean component and duration of the shelf-scale PHAWLs. Because of the large spatial impact of the post-hurricane oceanic forcing, the coastal hazards are not limited to a direct hit from a hurricane but can be detected throughout the USSC where the oceanic processes reach.
Publisher
npj Climate and Atmospheric Science
Published On
Jan 02, 2024
Authors
Kyungmin Park, Emanuele Di Lorenzo, Yinglong J. Zhang, Harry Wang, Tal Ezer, Fei Ye
DOI
https://doi.org/10.1038/s41612-023-00549-2
Tags
Hurricane
Abnormal Water Levels
Coastal Communities
Gulf Stream
Ocean Dynamics
Inundation
Coastal Hazards

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