Evidence for multidecadal variability in US extreme sea level records
Evidence for multidecadal variability in US extreme sea level records
We analyze a set of 20 tide gauge records covering the contiguous United States (US) coastline and the period from 1929 to 2013 to identify long-term trends and multidecadal variations in extreme sea levels (ESLs) relative to changes in mean sea level (MSL). Different data sampling and analysis techniques are applied to test the robustness of the results against the selected methodology. Significant but small long-term trends in ESLs above/below MSL are found at individual sites along most coastline stretches, but are mostly confined to the southeast coast and the winter season when storm surges are primarily driven by extratropical cyclones. We identify six regions with broadly coherent and considerable multidecadal ESL variations unrelated to MSL changes. Using a quasi-nonstationary extreme value analysis, we show that the latter would have caused variations in design relevant return water levels (50–200 year return periods) ranging from ?10 cm to as much as 110 cm across the six regions. The results raise questions as to the applicability of the “MSL offset method,” assuming that ESL changes are primarily driven by changes in MSL without allowing for distinct long-term trends or low-frequency variations. Identifying the coherent multidecadal ESL variability is crucial in order to understand the physical driving factors. Ultimately, this information must be included into coastal design and adaptation processes.
1527-1544
Wahl, Thomas
6506794a-1f35-4803-b7f7-98702e57e667
Chambers, Don P.
c9abafab-4834-432c-a88e-46e37b1f01e2
12 March 2015
Wahl, Thomas
6506794a-1f35-4803-b7f7-98702e57e667
Chambers, Don P.
c9abafab-4834-432c-a88e-46e37b1f01e2
Wahl, Thomas and Chambers, Don P.
(2015)
Evidence for multidecadal variability in US extreme sea level records.
Journal of Geophysical Research, 120 (3), .
(doi:10.1002/2014JC010443).
Abstract
We analyze a set of 20 tide gauge records covering the contiguous United States (US) coastline and the period from 1929 to 2013 to identify long-term trends and multidecadal variations in extreme sea levels (ESLs) relative to changes in mean sea level (MSL). Different data sampling and analysis techniques are applied to test the robustness of the results against the selected methodology. Significant but small long-term trends in ESLs above/below MSL are found at individual sites along most coastline stretches, but are mostly confined to the southeast coast and the winter season when storm surges are primarily driven by extratropical cyclones. We identify six regions with broadly coherent and considerable multidecadal ESL variations unrelated to MSL changes. Using a quasi-nonstationary extreme value analysis, we show that the latter would have caused variations in design relevant return water levels (50–200 year return periods) ranging from ?10 cm to as much as 110 cm across the six regions. The results raise questions as to the applicability of the “MSL offset method,” assuming that ESL changes are primarily driven by changes in MSL without allowing for distinct long-term trends or low-frequency variations. Identifying the coherent multidecadal ESL variability is crucial in order to understand the physical driving factors. Ultimately, this information must be included into coastal design and adaptation processes.
Text
jgrc21124.pdf
- Version of Record
More information
Accepted/In Press date: 27 January 2015
Published date: 12 March 2015
Additional Information:
Not subject to U.S. copyright. Published (2016) American Geophysical Union. Further reproduction or electronic distribution is not permitted
Organisations:
Energy & Climate Change Group
Identifiers
Local EPrints ID: 393845
URI: http://eprints.soton.ac.uk/id/eprint/393845
ISSN: 0148-0227
PURE UUID: 99f01e26-5ee3-4c20-87ea-f052d991ab42
Catalogue record
Date deposited: 06 May 2016 11:07
Last modified: 15 Mar 2024 00:12
Export record
Altmetrics
Contributors
Author:
Don P. Chambers
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics