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Changes in erosion and flooding risk due to long-term and cyclic oceanographic trends

Changes in erosion and flooding risk due to long-term and cyclic oceanographic trends
Changes in erosion and flooding risk due to long-term and cyclic oceanographic trends
We assess temporal variations in waves and sea level, which are driving factors for beach erosion and coastal flooding in the northern Gulf of Mexico. We find that long-term trends in the relevant variables have caused an increase of ~30% in the erosion/flooding risk since the 1980s. Changes in the wave climate—which have often been ignored in earlier assessments—were at least as important as sea level rise (SLR). In the next decades, SLR will likely become the dominating driver and may in combination with ongoing changes in the wave climate (and depending on the emission scenario) escalate the erosion/flooding risk by up to 300% over the next 30 years. We also find significant changes in the seasonal cycles of sea level and significant wave height, which have in combination caused a considerable increase of the erosion/flooding risk in summer and decrease in winter relative to long-term trends.
0094-8276
2943-2950
Wahl, Thomas
6506794a-1f35-4803-b7f7-98702e57e667
Plant, Nathaniel G.
3daed95e-d666-4ee3-8724-e696e01f6a4a
Wahl, Thomas
6506794a-1f35-4803-b7f7-98702e57e667
Plant, Nathaniel G.
3daed95e-d666-4ee3-8724-e696e01f6a4a

Wahl, Thomas and Plant, Nathaniel G. (2015) Changes in erosion and flooding risk due to long-term and cyclic oceanographic trends. Geophysical Research Letters, 42 (8), 2943-2950. (doi:10.1002/2015GL063876).

Record type: Article

Abstract

We assess temporal variations in waves and sea level, which are driving factors for beach erosion and coastal flooding in the northern Gulf of Mexico. We find that long-term trends in the relevant variables have caused an increase of ~30% in the erosion/flooding risk since the 1980s. Changes in the wave climate—which have often been ignored in earlier assessments—were at least as important as sea level rise (SLR). In the next decades, SLR will likely become the dominating driver and may in combination with ongoing changes in the wave climate (and depending on the emission scenario) escalate the erosion/flooding risk by up to 300% over the next 30 years. We also find significant changes in the seasonal cycles of sea level and significant wave height, which have in combination caused a considerable increase of the erosion/flooding risk in summer and decrease in winter relative to long-term trends.

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More information

Accepted/In Press date: 1 April 2015
Published date: 28 April 2015
Organisations: Energy & Climate Change Group

Identifiers

Local EPrints ID: 393843
URI: http://eprints.soton.ac.uk/id/eprint/393843
DOI: doi:10.1002/2015GL063876
ISSN: 0094-8276
PURE UUID: ceb50346-dcd9-422d-a28e-e15826ee84ad

Catalogue record

Date deposited: 06 May 2016 10:53
Last modified: 15 Mar 2024 00:12

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Contributors

Author: Thomas Wahl
Author: Nathaniel G. Plant

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