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Ocean mass, sterodynamic effects, and vertical land motion largely explain US coast relative sea level rise

Earth Sciences

Ocean mass, sterodynamic effects, and vertical land motion largely explain US coast relative sea level rise

T. C. Harvey, B. D. Hamlington, et al.

This research, conducted by a team of experts including T. C. Harvey and B. D. Hamlington, unveils the intricate interplay of ocean mass changes and land motion contributing to sea-level rise in the contiguous U.S. They meticulously analyze tide gauge data from 1993 to 2018, shedding light on the relative trends at 47 locations, while raising questions about unexplained anomalies.

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~3 min • Beginner • English
Abstract
Regional sea-level changes are caused by several physical processes that vary both in space and time. As a result of these processes, large regional departures from the long-term rate of global mean sea-level rise can occur. Identifying and understanding these processes at particular locations is the first step toward generating reliable projections and assisting in improved decision making. Here we quantify to what degree contemporary ocean mass change, sterodynamic effects, and vertical land motion influence sea-level rise observed by tide-gauge locations around the contiguous U.S. from 1993 to 2018. We are able to explain tide gauge-observed relative sea-level trends at 47 of 55 sampled locations. Locations where we cannot explain observed trends are potentially indicative of shortcomings in our coastal sea-level observational network or estimates of uncertainty.
Publisher
Communications Earth & Environment
Published On
Nov 09, 2021
Authors
T. C. Harvey, B. D. Hamlington, T. Frederikse, R. S. Nerem, C. G. Piecuch, W. C. Hammond, G. Blewitt, P. R. Thompson, D. P. S. Bekaert, F. W. Landerer, J. T. Reager, R. E. Kopp, H. Chandanpurkar, I. Fenty, D. Trossman, J. S. Walker, C. Boening
Tags
sea-level rise
ocean mass change
vertical land motion
tide gauge
U.S. coast
climate impact
physical processes

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