An integrated approach for assessing flood impacts due to future climate and socio-economic conditions and the scope of adaptation in Europe
An integrated approach for assessing flood impacts due to future climate and socio-economic conditions and the scope of adaptation in Europe
The Coastal Fluvial Flood (CFFlood) model for assessing coastal and fluvial flood impacts under current and future climate and socio-economic conditions is presented and applied at the European scale. Flood frequency is estimated as a function of river flows, extreme sea levels and estimated defence standards to determine the flood extent and depth. Flood consequences are estimated by combining the latter with information on urban areas, population density and Gross Domestic Product (GDP). Climate and socio-economic scenarios and possible adaptation choices are included to analyse future conditions. In 2010, almost 6 % of the European population is estimated to live in the 100 year flood area. The corresponding economic loss is €236 billion, assuming no defences. Estimated flood protection reduces economic damage substantially by 67 to 99 % and the number of people flooded is reduced by 37 to 99 % for the 100 year event. Impact simulations show that future climate and socio-economic conditions may increase flood impacts, especially in coastal areas due to sea-level rise. In contrast, impacts caused by fluvial flooding sometimes decrease, especially in southern and western regions of Europe due to decreases in precipitation and consequent run-off. Under high-end scenarios, flood impacts increase substantially unless there are corresponding adaptation efforts
245-260
Mokrech, M.
ab4a57d3-3bb9-41d4-bcae-e87e099ec25f
Kebede, Abiy
7370b5e9-5447-48bd-80e5-fe7b14e4a857
Nicholls, R.J.
4ce1e355-cc5d-4702-8124-820932c57076
Wimmer, F.
b50f3396-3d43-43b8-a221-697bb0180e3b
Luc, F.
78639746-cb35-4b65-9d81-70b949215834
4 December 2014
Mokrech, M.
ab4a57d3-3bb9-41d4-bcae-e87e099ec25f
Kebede, Abiy
7370b5e9-5447-48bd-80e5-fe7b14e4a857
Nicholls, R.J.
4ce1e355-cc5d-4702-8124-820932c57076
Wimmer, F.
b50f3396-3d43-43b8-a221-697bb0180e3b
Luc, F.
78639746-cb35-4b65-9d81-70b949215834
Mokrech, M., Kebede, Abiy, Nicholls, R.J., Wimmer, F. and Luc, F.
(2014)
An integrated approach for assessing flood impacts due to future climate and socio-economic conditions and the scope of adaptation in Europe.
Climatic Change, 128 (3-4), .
(doi:10.1007/s10584-014-1298-6).
Abstract
The Coastal Fluvial Flood (CFFlood) model for assessing coastal and fluvial flood impacts under current and future climate and socio-economic conditions is presented and applied at the European scale. Flood frequency is estimated as a function of river flows, extreme sea levels and estimated defence standards to determine the flood extent and depth. Flood consequences are estimated by combining the latter with information on urban areas, population density and Gross Domestic Product (GDP). Climate and socio-economic scenarios and possible adaptation choices are included to analyse future conditions. In 2010, almost 6 % of the European population is estimated to live in the 100 year flood area. The corresponding economic loss is €236 billion, assuming no defences. Estimated flood protection reduces economic damage substantially by 67 to 99 % and the number of people flooded is reduced by 37 to 99 % for the 100 year event. Impact simulations show that future climate and socio-economic conditions may increase flood impacts, especially in coastal areas due to sea-level rise. In contrast, impacts caused by fluvial flooding sometimes decrease, especially in southern and western regions of Europe due to decreases in precipitation and consequent run-off. Under high-end scenarios, flood impacts increase substantially unless there are corresponding adaptation efforts
Text
MOKRECH-etal2015_Accepted-Manuscript&ESM_ClimaticChangeJournal.pdf
- Other
Restricted to Repository staff only
Request a copy
More information
Accepted/In Press date: 16 November 2014
Published date: 4 December 2014
Organisations:
Energy & Climate Change Group
Identifiers
Local EPrints ID: 374100
URI: http://eprints.soton.ac.uk/id/eprint/374100
PURE UUID: d9f525a3-c5fb-4ef6-9718-7c6c0a4f735a
Catalogue record
Date deposited: 06 Feb 2015 10:00
Last modified: 15 Mar 2024 03:18
Export record
Altmetrics
Contributors
Author:
M. Mokrech
Author:
Abiy Kebede
Author:
F. Wimmer
Author:
F. Luc
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
