Abstract
It is believed that, in the future, the intensity and frequency of extreme coastal flooding events may increase as a result of climate change. The Natural Environment Research Council (NERC) Flood Risk from Extreme Events (FREE) project, Coastal Flooding by Extreme Events and EU FP7 Morphological Impacts and Coastal Risks Induced by Extreme Storm Events project are investigating the flood risks in the eastern Irish Sea, an area that includes most of England’s coastal types. Using a previously modelled and validated historical extreme surge event, in November 1977, we now investigate the changes in peak surge as a result of possible future climate conditions. In order to simulate the surge, we have set up a one-way nested approach, using the Proudman Oceanographic Laboratory Coastal Ocean Modelling System 3D baroclinic model, from a domain covering the whole NW European continental shelf, through to a 1.85 km Irish Sea model; both areas are forced by tides, atmospheric pressure and winds. We use this modelling system to investigate the impact of enhanced wind velocities and increased sea levels on the peak surge elevation and residual current pattern. The results show that sea level rise has greater potential to increase surge levels than increased wind speeds.
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Acknowledgements
This research is part of the NERC–FREE CoFEE (grant NE/E002471/1) and the EU FP7 MICORE (grant 202798) projects. Eric Jones is acknowledged for his help in providing wind and surge data for the 1977 event. ECMWF are also acknowledged for the use of their wind data to drive the course models.
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Brown, J.M., Souza, A.J. & Wolf, J. Surge modelling in the eastern Irish Sea: present and future storm impact. Ocean Dynamics 60, 227–236 (2010). https://doi.org/10.1007/s10236-009-0248-8
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DOI: https://doi.org/10.1007/s10236-009-0248-8