River-discharge effects on United States Atlantic and Gulf coast sea-level changes

Identifying physical processes responsible for historical coastal sea-level changes is important for anticipating future impacts. Recent studies sought to understand the drivers of interannual to multidecadal sea-level changes on the United States Atlantic and Gulf coasts. Ocean dynamics, terrestria...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2018-07, Vol.115 (30), p.7729-7734
Main Authors: Piecuch, Christopher G., Bittermann, Klaus, Kemp, Andrew C., Ponte, Rui M., Little, Christopher M., Engelhart, Simon E., Lentz, Steven J.
Format: Article
Language:English
Subjects:
Climate models
Coastal environments
Density stratification
Earth rotation
Environmental risk
Floods
Land ice
Ocean circulation
Ocean currents
Ocean dynamics
Physical oceanography
Physical Sciences
Population density
Remote sensing
River discharge
River flow
Rivers
Sea level changes
Sea level rise
Stream flow
Water circulation
Water discharge
Water storage
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Summary:Identifying physical processes responsible for historical coastal sea-level changes is important for anticipating future impacts. Recent studies sought to understand the drivers of interannual to multidecadal sea-level changes on the United States Atlantic and Gulf coasts. Ocean dynamics, terrestrial water storage, vertical land motion, and melting of land ice were highlighted as important mechanisms of sea-level change along this densely populated coast on these time scales. While known to exert an important control on coastal ocean circulation, variable river discharge has been absent from recent discussions of drivers of sea-level change. We update calculations from the 1970s, comparing annual river-discharge and coastal sea-level data along the Gulf of Maine, Mid-Atlantic Bight, South Atlantic Bight, and Gulf of Mexico during 1910–2017. We show that river-discharge and sea-level changes are significantly correlated (p < 0.01), such that sea level rises between 0.01 and 0.08 cm for a 1 km³ annual river-discharge increase, depending on region. We formulate a theory that describes the relation between river-discharge and halosteric sea-level changes (i.e., changes in sea level related to salinity) as a function of river discharge, Earth’s rotation, and density stratification. This theory correctly predicts the order of observed increment sea-level change per unit river-discharge anomaly, suggesting a causal relation. Our results have implications for remote sensing, climate modeling, interpreting Common Era proxy sea-level reconstructions, and projecting coastal flood risk.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1805428115