Assessment and comparison of extreme sea levels and waves during the 2013/2014 storm season in two UK coastal regions
Assessment and comparison of extreme sea levels and waves during the 2013/2014 storm season in two UK coastal regions
The extreme sea levels and waves experienced around the UK's coast during the 2013/2014 winter caused extensive coastal flooding and damage. In such circumstances, coastal managers seek to place such extremes in relation to the anticipated standards of flood protection, and the long-term recovery of the natural system. In this context, return periods are often used as a form of guidance. We therefore provide these levels for the winter storms, as well as discussing their application to the given data sets and case studies (two UK case study sites: Sefton, northwest England; and Suffolk, east England). We use tide gauge records and wave buoy data to compare the 2013/2014 storms with return periods from a national dataset, and also generate joint probabilities of sea level and waves, incorporating the recent events. The UK was hit at a national scale by the 2013/2014 storms, although the return periods differ with location. We also note that the 2013/2014 high water and waves were extreme due to the number of events, as well as the extremity of the 5 December 2013 "Xaver" storm, which had a very high return period at both case study sites. Our return period analysis shows that the national scale impact of this event is due to its coincidence with spring high tide at multiple locations as the tide and storm propagated across the continental shelf. Given that this event is such an outlier in the joint probability analyses of these observed data sets, and that the season saw several events in close succession, coastal defences appear to have provided a good level of protection. This type of assessment should be recorded alongside details of defence performance and upgrade, with other variables (e.g. river levels at estuarine locations) included and appropriate offsetting for linear trends (e.g. mean sea level rise) so that the storm-driven component of coastal flood events can be determined. Local offsetting of the mean trends in sea level allows long-term comparison of storm severity and also enables an assessment of how sea level rise is influencing return levels over time, which is important when considering long-term coastal resilience in strategic management plans.
2665-2708
Wadey, M.P.
e712b840-f36b-41aa-ae28-d4d81de31831
Brown, J.M.
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Haigh, I.D.
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Dolphin, T.
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Wisse, P.
1ad7de7e-505c-49e8-b466-f744eae47d5a
16 April 2015
Wadey, M.P.
e712b840-f36b-41aa-ae28-d4d81de31831
Brown, J.M.
86c68843-fe2f-4f86-accc-f4571259a76a
Haigh, I.D.
945ff20a-589c-47b7-b06f-61804367eb2d
Dolphin, T.
1ff95385-ab1c-4119-8afc-768e8fddda1e
Wisse, P.
1ad7de7e-505c-49e8-b466-f744eae47d5a
Wadey, M.P., Brown, J.M., Haigh, I.D., Dolphin, T. and Wisse, P.
(2015)
Assessment and comparison of extreme sea levels and waves during the 2013/2014 storm season in two UK coastal regions.
Natural Hazards and Earth System Sciences Discussions, 3 (4), .
(doi:10.5194/nhessd-3-2665-2015).
Abstract
The extreme sea levels and waves experienced around the UK's coast during the 2013/2014 winter caused extensive coastal flooding and damage. In such circumstances, coastal managers seek to place such extremes in relation to the anticipated standards of flood protection, and the long-term recovery of the natural system. In this context, return periods are often used as a form of guidance. We therefore provide these levels for the winter storms, as well as discussing their application to the given data sets and case studies (two UK case study sites: Sefton, northwest England; and Suffolk, east England). We use tide gauge records and wave buoy data to compare the 2013/2014 storms with return periods from a national dataset, and also generate joint probabilities of sea level and waves, incorporating the recent events. The UK was hit at a national scale by the 2013/2014 storms, although the return periods differ with location. We also note that the 2013/2014 high water and waves were extreme due to the number of events, as well as the extremity of the 5 December 2013 "Xaver" storm, which had a very high return period at both case study sites. Our return period analysis shows that the national scale impact of this event is due to its coincidence with spring high tide at multiple locations as the tide and storm propagated across the continental shelf. Given that this event is such an outlier in the joint probability analyses of these observed data sets, and that the season saw several events in close succession, coastal defences appear to have provided a good level of protection. This type of assessment should be recorded alongside details of defence performance and upgrade, with other variables (e.g. river levels at estuarine locations) included and appropriate offsetting for linear trends (e.g. mean sea level rise) so that the storm-driven component of coastal flood events can be determined. Local offsetting of the mean trends in sea level allows long-term comparison of storm severity and also enables an assessment of how sea level rise is influencing return levels over time, which is important when considering long-term coastal resilience in strategic management plans.
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Published date: 16 April 2015
Organisations:
Physical Oceanography, National Oceanography Centre
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Local EPrints ID: 376338
URI: http://eprints.soton.ac.uk/id/eprint/376338
PURE UUID: 4e10ddfa-8ff2-4347-8d1c-96f1687a90b1
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Date deposited: 17 Apr 2015 10:01
Last modified: 15 Mar 2024 03:26
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Author:
M.P. Wadey
Author:
J.M. Brown
Author:
T. Dolphin
Author:
P. Wisse
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