Challenges, Advances and Opportunities in Regional Sea Level Projections: The Role of Ocean‐Shelf Dynamics

Jevrejeva, Svetlana; Calafat, Francisco M.; De Dominicis, Michela; Hirschi, Joël J.‐M.; Mecking, Jennifer V.; Polton, Jeff A.; Sinha, Bablu; Wise, Anthony; Holt, Jason

doi:10.1029/2024ef004886

Earth's Future

2024

DOI: 10.1029/2024ef004886

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Challenges, Advances and Opportunities in Regional Sea Level Projections: The Role of Ocean‐Shelf Dynamics

Svetlana Jevrejeva,

Francisco M. Calafat,

Michela De Dominicis

et al.

Abstract: Future sea level rise and changes in extreme weather will increase the frequency of flooding and intensify the risks for the millions of people living in low‐lying coastal areas. Concerns about coastal adaptation have been broadened due to societal awareness of the threat from rising seas, leading to a large set of potential adaptation users with diverse needs for adequate sea level projections in coastal areas beyond the current state of the art regional projections. In this paper, we provide an overview of t… Show more

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Cited by 1 publication

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A Link Between U.S. East Coast Sea Level and North Atlantic Subtropical Ocean Heat Content

Steinberg,

Griffies,

Krasting

et al. 2024

JGR Oceans

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Using a recently developed 1/12th degree regional ocean model, we establish a link between U.S. East Coast sea level variability and offshore upper ocean heat content change. This link manifests as a cross‐shore mass redistribution driven by an offshore thermosteric sea level response to subsurface warming or cooling. Approximately 50% of simulated monthly to interannual coastal sea level variance south of Cape Hatteras can be statistically accounted for by this mechanism, realized as a function of regional ocean hypsometry, gyre scale warming, and the depth dependence of density change. This response to offshore warming explains the nonstationarity of U.S. East Coast sea level covariance, a specifically observed and modeled behavior after 2010. Since approximately 2010, elevated rates of sea level rise south of Cape Hatteras can be partly explained as the result of shoreward mass redistribution due to offshore subsurface warming within the North Atlantic subtropical gyre. These results reveal a mechanism that connects local coastal sea level to a broader region and identifies the influence of regional heat content changes on coastal sea level. This analysis presents a framework for identifying new regions that may be susceptible to enhanced sea level rise due to ocean warming and helps bridge the gap between quantifying large scale change and anticipating local coastal impacts that can make flooding and storm surge more acutely damaging.

show abstract

A Link Between U.S. East Coast Sea Level and North Atlantic Subtropical Ocean Heat Content

Steinberg,

Griffies,

Krasting

et al. 2024

JGR Oceans

View full text Add to dashboard Cite

show abstract

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Challenges, Advances and Opportunities in Regional Sea Level Projections: The Role of Ocean‐Shelf Dynamics

Cited by 1 publication

References 149 publications

A Link Between U.S. East Coast Sea Level and North Atlantic Subtropical Ocean Heat Content

A Link Between U.S. East Coast Sea Level and North Atlantic Subtropical Ocean Heat Content

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