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Implications of Variability and Trends in Coastal Extreme Water Levels

William Sweet, Ayesha S. Genz, Melisa Menéndez, John J. Marra, Jayantha Obeysekera

2024Geophysical Research Letters14 citationsDOIOpen Access PDF

Abstract

Abstract Probabilities of coastal extreme water levels (EWLs) are increasing as sea levels rise. Using a time‐dependent statistical model on tide gauge data along U.S. and Pacific Basin coastlines, we show that EWL probability distributions also shift on an annual basis from climate forcing and long‐period tidal cycles. In some regions, combined variability (>15 cm) can be as large or larger than the amount of sea level rise (SLR) experienced over the past 30 years and projected over the next 30 years. Considering SLR and variability by 2050 at a location like La Jolla, California suggests a moderate‐level (damaging) flood today with a 50‐year return level (2% annual chance) would occur about 3–4 times a year during an El Nino nearing the peak of the nodal tide cycle. If interannual variability is overlooked, SLR related impacts could be more severe than anticipated based solely upon decadal‐scale projections.

Topics & Concepts

Environmental scienceClimatologyOceanographyGeologyPhysical geographyGeographyClimate variability and modelsTropical and Extratropical Cyclones ResearchOceanographic and Atmospheric Processes
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