Fluvial flood risk in Europe in present and future climates
In this work we evaluate the implications of climate change for future fluvial flood risk in Europe, considering climate developments under the SRES A2 (high emission) and B2 (low emission) scenario. We define flood risk as the product of flood probability (or hazard), exposure of capital and popula...
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| Published in | Climatic change Vol. 112; no. 1; pp. 47 - 62 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Dordrecht
Springer Netherlands
01.05.2012
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0165-0009 1573-1480 |
| DOI | 10.1007/s10584-011-0339-7 |
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| Abstract | In this work we evaluate the implications of climate change for future fluvial flood risk in Europe, considering climate developments under the SRES A2 (high emission) and B2 (low emission) scenario. We define flood risk as the product of flood probability (or hazard), exposure of capital and population, and vulnerability to the effect of flooding. From the European flood hazard simulations of Dankers and Feyen (J Geophys Res 114:D16108. doi:
10.1029/2008JD011523
,
2009
) discharges with return periods of 2, 5, 10, 20, 50, 100, 250 and 500 years were extracted and converted into flood inundation extents and depths using a planar approximation approach. Flood inundation extents and depths were transformed into direct monetary damage using country specific flood depth-damage functions and land use information. Population exposure was assessed by overlaying the flood inundation information with data on population density. By linearly interpolating damages and population exposed between the different return periods, we constructed damage and population exposure probability functions under present and future climate. From the latter expected annual damages (EAD) and expected annual population exposed (EAP) were calculated. To account for flood protection the damage and population exposure probability functions were truncated at design return periods based on the country GDP/capita. Results indicate that flood damages are projected to rise across much of Western Europe. Decreases in flood damage are consistently projected for north-eastern parts of Europe. For EU27 as a whole, current EAD of approximately €6.4 billion is projected to amount to €14–21.5 billion (in constant prices of 2006) by the end of this century, depending on the scenario. The number of people affected by flooding is projected to rise by approximately 250,000 to 400,000. Notwithstanding these numbers are subject to uncertainty, they provide an indication of potential future developments in flood risk in a changing climate. |
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| AbstractList | In this work we evaluate the implications of climate change for future fluvial flood risk in Europe, considering climate developments under the SRES A2 (high emission) and B2 (low emission) scenario. We define flood risk as the product of flood probability (or hazard), exposure of capital and population, and vulnerability to the effect of flooding. From the European flood hazard simulations of Dankers and Feyen (J Geophys Res 114:D16108. doi:10.1029/2008JD011523, 2009) discharges with return periods of 2, 5, 10, 20, 50, 100, 250 and 500 years were extracted and converted into flood inundation extents and depths using a planar approximation approach. Flood inundation extents and depths were transformed into direct monetary damage using country specific flood depth-damage functions and land use information. Population exposure was assessed by overlaying the flood inundation information with data on population density. By linearly interpolating damages and population exposed between the different return periods, we constructed damage and population exposure probability functions under present and future climate. From the latter expected annual damages (EAD) and expected annual population exposed (EAP) were calculated. To account for flood protection the damage and population exposure probability functions were truncated at design return periods based on the country GDP/capita. Results indicate that flood damages are projected to rise across much of Western Europe. Decreases in flood damage are consistently projected for north-eastern parts of Europe. For EU27 as a whole, current EAD of approximately [Euro6.4 billion is projected to amount to [Euro14-21.5 billion (in constant prices of 2006) by the end of this century, depending on the scenario. The number of people affected by flooding is projected to rise by approximately 250,000 to 400,000. Notwithstanding these numbers are subject to uncertainty, they provide an indication of potential future developments in flood risk in a changing climate. In this work we evaluate the implications of climate change for future fluvial flood risk in Europe, considering climate developments under the SRES A2 (high emission) and B2 (low emission) scenario. We define flood risk as the product of flood probability (or hazard), exposure of capital and population, and vulnerability to the effect of flooding. From the European flood hazard simulations of Dankers and Feyen (J Geophys Res 114:D16108. doi: 10.1029/2008JD011523 , 2009 ) discharges with return periods of 2, 5, 10, 20, 50, 100, 250 and 500 years were extracted and converted into flood inundation extents and depths using a planar approximation approach. Flood inundation extents and depths were transformed into direct monetary damage using country specific flood depth-damage functions and land use information. Population exposure was assessed by overlaying the flood inundation information with data on population density. By linearly interpolating damages and population exposed between the different return periods, we constructed damage and population exposure probability functions under present and future climate. From the latter expected annual damages (EAD) and expected annual population exposed (EAP) were calculated. To account for flood protection the damage and population exposure probability functions were truncated at design return periods based on the country GDP/capita. Results indicate that flood damages are projected to rise across much of Western Europe. Decreases in flood damage are consistently projected for north-eastern parts of Europe. For EU27 as a whole, current EAD of approximately €6.4 billion is projected to amount to €14–21.5 billion (in constant prices of 2006) by the end of this century, depending on the scenario. The number of people affected by flooding is projected to rise by approximately 250,000 to 400,000. Notwithstanding these numbers are subject to uncertainty, they provide an indication of potential future developments in flood risk in a changing climate. Issue Title: Special Issue: The Impacts of Climate Change in Europe In this work we evaluate the implications of climate change for future fluvial flood risk in Europe, considering climate developments under the SRES A2 (high emission) and B2 (low emission) scenario. We define flood risk as the product of flood probability (or hazard), exposure of capital and population, and vulnerability to the effect of flooding. From the European flood hazard simulations of Dankers and Feyen (J Geophys Res 114:D16108. doi:10.1029/2008JD011523, 2009) discharges with return periods of 2, 5, 10, 20, 50, 100, 250 and 500 years were extracted and converted into flood inundation extents and depths using a planar approximation approach. Flood inundation extents and depths were transformed into direct monetary damage using country specific flood depth-damage functions and land use information. Population exposure was assessed by overlaying the flood inundation information with data on population density. By linearly interpolating damages and population exposed between the different return periods, we constructed damage and population exposure probability functions under present and future climate. From the latter expected annual damages (EAD) and expected annual population exposed (EAP) were calculated. To account for flood protection the damage and population exposure probability functions were truncated at design return periods based on the country GDP/capita. Results indicate that flood damages are projected to rise across much of Western Europe. Decreases in flood damage are consistently projected for north-eastern parts of Europe. For EU27 as a whole, current EAD of approximately [euro]6.4 billion is projected to amount to [euro]14-21.5 billion (in constant prices of 2006) by the end of this century, depending on the scenario. The number of people affected by flooding is projected to rise by approximately 250,000 to 400,000. Notwithstanding these numbers are subject to uncertainty, they provide an indication of potential future developments in flood risk in a changing climate.[PUBLICATION ABSTRACT] In this work we evaluate the implications of climate change for future fluvial flood risk in Europe, considering climate developments under the SRES A2 (high emission) and B2 (low emission) scenario. We define flood risk as the product of flood probability (or hazard), exposure of capital and population, and vulnerability to the effect of flooding. From the European flood hazard simulations of Dankers and Feyen (J Geophys Res 114:D16108. doi: 10.1029/2008JD011523 , 2009) discharges with return periods of 2, 5, 10, 20, 50, 100, 250 and 500 years were extracted and converted into flood inundation extents and depths using a planar approximation approach. Flood inundation extents and depths were transformed into direct monetary damage using country specific flood depth-damage functions and land use information. Population exposure was assessed by overlaying the flood inundation information with data on population density. By linearly interpolating damages and population exposed between the different return periods, we constructed damage and population exposure probability functions under present and future climate. From the latter expected annual damages (EAD) and expected annual population exposed (EAP) were calculated. To account for flood protection the damage and population exposure probability functions were truncated at design return periods based on the country GDP/capita. Results indicate that flood damages are projected to rise across much of Western Europe. Decreases in flood damage are consistently projected for north-eastern parts of Europe. For EU27 as a whole, current EAD of approximately 6.4 billion is projected to amount to 14–21.5 billion (in constant prices of 2006) by the end of this century, depending on the scenario. The number of people affected by flooding is projected to rise by approximately 250,000 to 400,000. Notwithstanding these numbers are subject to uncertainty, they provide an indication of potential future developments in flood risk in a changing climate. |
| Author | Barredo, José I. Salamon, Peter Dankers, Rutger Bódis, Katalin Feyen, Luc |
| Author_xml | – sequence: 1 givenname: Luc surname: Feyen fullname: Feyen, Luc email: luc.feyen@jrc.ec.europa.eu organization: Institute for Environment and Sustainability, Joint Research Centre, European Commission – sequence: 2 givenname: Rutger surname: Dankers fullname: Dankers, Rutger organization: Hadley Centre, Met Office – sequence: 3 givenname: Katalin surname: Bódis fullname: Bódis, Katalin organization: Institute for Energy and Transport, Joint Research Centre, European Commission – sequence: 4 givenname: Peter surname: Salamon fullname: Salamon, Peter organization: Institute for Environment and Sustainability, Joint Research Centre, European Commission – sequence: 5 givenname: José I. surname: Barredo fullname: Barredo, José I. organization: Institute for Environment and Sustainability, Joint Research Centre, European Commission |
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| Copyright | Springer Science+Business Media B.V. 2011 Springer Science+Business Media B.V. 2012 |
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| Keywords | Flood Hazard Flood Risk Flood Damage Return Period Coastal Flooding |
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| PublicationSubtitle | An Interdisciplinary, International Journal Devoted to the Description, Causes and Implications of Climatic Change |
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| References | BarredoJINormalised flood losses in Europe: 1970–2006Nat Hazard Earth Syst Sci2009919710410.5194/nhess-9-97-2009 PopeVDGallaniMLRowntreePRStrattonRAThe impact of new physical parametrizations in the Hadley Centre climate model—HadAM3Clim Dyn20001612314610.1007/s003820050009 Huizinga HJ (2007) Flood damage functions for EU member states. Technical report, HKV Consultants. Implemented in the framework of the contract # 382441-F1SC awarded by the European Commission—Joint Research Centre EvansEPAshleyRHallJWPenning-RowsellECSaulASayersPBThorneCRWatkinsonAForesight flood and coastal defence project, scientific summary: volume I, future risks and their drivers2004LondonOffice of Science and Technology366 RoecknerEBengtssonLFeichterJLelieveldJRodheHTransient climate change simulations with a coupled atmosphere-ocean GCM including the tropospheric sulfur cycleJ Clim1999123004303210.1175/1520-0442(1999)012<3004:TCCSWA>2.0.CO;2 LeanderRBuishandTAvan den HurkBJJMde WitMJMEstimated changes in flood quantiles of the river Meuse from resampling of regional climate model outputJ Hydrol200835133134310.1016/j.jhydrol.2007.12.020 VogtJVSoillePde JagerARimavičiūtėEMehlWFoisneauSBódisKDusartJParacchiniMLHaastrupPBampsCA pan-European river and catchment database. EUR 22920 EN2007LuxembourgOffice for Official Publications of the European Communities CharltonRFealyRMooreSSweeneyJMurphyCAssessing the impact of climate change on water supply and flood hazard in Ireland using statistical downscaling and hydrological modelling techniquesClim Chang20067447549110.1007/s10584-006-0472-x Messner F, Penning-Rowsell E, Green C, Meyer V, Tunstall S, van der Veen A (2007) Evaluating flood damages: guidance and recommendations on principles and methods. T9-06-01, FLOODsite Project—Integrated flood risk analysis and management methodologies GallegoJPeedellSUsing corine land cover to map population density. Towards Agri-environmental indicators, Topic Report 6/20012001CopenhagenEuropean Environment Agency92103 Christensen OB, Goodess CM, Ciscar JC (2010) Methodological framework of the PESETA project on the impacts of climate change in Europe. Clim Chang (this issue) BatesPDDe RooAPJA simple raster-based model for flood inundation simulationJ Hydrol2000236547710.1016/S0022-1694(00)00278-X HallJWSayersPBDawsonRJNational-scale assessment of current and future flood risk in England and WalesNat Hazard20053614716410.1007/s11069-004-4546-7 LehnerBDöllPAlcamoJHenrichsTKasparFEstimating the impact of global change on flood and drought risks in Europe: a continental integrated analysisClim Chang20067527329910.1007/s10584-006-6338-4 Trapp RJ, Robinson ED, Baldwin ME, Diffenbaugh NS, Schwedler BRJ (2010) Regional climate of hazardous convective weather through high-resolution dynamical downscaling. Clim Dyn, doi:10.1007/s00382-010-0826-y HallJWSayersPBWalkdenMJAPanzeriMImpacts of climate change on coastal flood risk in England and Wales: 2030–2100Phil Trans Royal Society A20063641027104910.1098/rsta.2006.1752 KayALJonesRGReynardNSRCM rainfall for UK flood frequency estimation. II. Climate change resultsJ Hydrol200631816317210.1016/j.jhydrol.2005.06.013 ChristensenOBChristensenJHSevere summertime flooding in EuropeNature200342180580610.1038/421805a FreiCSchöllRFukutomeSSchmidliJVidalePLFuture change of precipitation extremes in Europe: intercomparison of scenarios from regional climate modelsJ Geophys Res2006111D0610510.1029/2005JD005965 Bosello F, Nicholls R, Richards J, Roson R, Tol RSJ (2010) Economic impacts of climate change in Europe: sea-level rise. Clim Chang (this issue) PappenbergerFBevenKJRattoMMatgenPMulti-method global sensitivity analysis of flood inundation modelsAdv Water Resour20083111410.1016/j.advwatres.2007.04.009 BellVAKayALJonesRGMooreRJUse of a grid-based hydrological model and regional climate model outputs to assess changing flood riskInt J Climatol200727121657167110.1002/joc.1539 JonesCGWillénUUllerstigAHanssonUThe Rossby Centre regional atmospheric climate model Part I: model climatology and performance for the present climate over EuropeAmbio200433199210 KundzewiczZWRadziejewskiMPińskwarIPrecipitation extremes in the changing climate of EuropeClim Res200631515810.3354/cr031051 ShabalovaMvan DeursenWBuishandTAssessing future discharge of the river Rhine using RCM integrations and a hydrological modelClim Res20032323324610.3354/cr023233 GrahamLPAndréassonJCarlssonBAssessing climate change impacts on hydrology from an ensemble of RCMs, model scales and linking methods—a case study on the Lule river basinClim Chang20078129330710.1007/s10584-006-9215-2 MeierHEMDöscherRFaxénTA multiprocessor coupled ice-ocean model for the Baltic Sea: application to salt inflowJ Geophys Res2003108C8327310.1029/2000JC000521 BatesPDRemote sensing and flood inundation modellingHydrolog Process2004182593259710.1002/hyp.5649 KundzewiczZWGraczykDMaurerTPińskwarIRadziejewskiMSvenssonCSzwedMTrend detection in river flow series: 1. Annual maximum flowHydrolog Sci J200550579781010.1623/hysj.2005.50.5.797 MudelseeMBörngenMTetzlaffGGrünewaldUNo upward trends in the occurrence of extreme floods in central EuropeNature200342516616910.1038/nature01928 BooijMJImpact of climate change on river flooding assessed with different spatial model resolutionsJ Hydrol200530317619810.1016/j.jhydrol.2004.07.013 van der Knijff J, Younis J, De Roo A (2008) LISFLOOD: a GIS-based distributed model for river-basin scale water balance and flood simulation. Int J Geogr Inform Sci, doi:10.1080/13658810802549154 DankersRFeyenLClimate change impact on flood hazard in Europe: an assessment based on high resolution climate simulationsJ Geophys Res2008113D1910510.1029/2007JD009719 NakicenovicNSwartRIPCC special report on emission scenarios2000CambridgeCambridge University Press GillelandEKatzRWExtremes toolkit (extRemes): weather and climate applications of extreme value statistics, tutorial2005BoulderUniv. Corp. for Atm. Res DEFRA (2001) National appraisal of assets at risk from flooding and coastal erosion, including the potential impact of climate change. UK Department of Environment, Food and Rural Affairs (http://www.defra.gov.uk/environ/fcd/default.htm) FeyenLKalasMVrugtJAThe value of semi-distributed parameters for large-scale streamflow simulation using global optimizationHydrol Sci J200853229330810.1623/hysj.53.2.293 FeyenLVrugtJANualláinBÓvan der KnijffJDe RooAParameter optimisation and uncertainty assessment for large-scale streamflow simulation with the LISFLOOD modelJ Hydrol2007332127628910.1016/j.jhydrol.2006.07.004 DankersRChristensenOBFeyenLKalasMDe RooAEvaluation of very high-resolution climate model data for simulating flood hazards in the Upper Danube BasinJ Hydrol200734731933110.1016/j.jhydrol.2007.09.055 MillyPCDDunneKAVecchiaAVGlobal pattern of trends in streamflow and water availability in a changing climateNature200543834735010.1038/nature04312 ABI (2005) Financial risks of climate change. Association of British Insurers (http://www.abi.org.uk/climatechange) WilbyRLUncertainty in water resource model parameters used for climate change impact assessmentHydrolog Process2005193201321910.1002/hyp.5819 ThodsenHThe influence of climate change on stream flow in Danish riversJ Hydrol200733322623810.1016/j.jhydrol.2006.08.012 KundzewiczZWMataLJArnellNWDöllPJimenezBMillerKOkiTSenZShiklomanovIThe implications of projected climate change for freshwater resources and their managementHydrol Sci J2008531310 ChristensenJHChristensenOBLopezPVan MeijgaardEBotzetMThe HIRHAM4 regional atmospheric climate model. DMI scientific report 96–41996CopenhagenDanish Meteorological Institute European Environment Agency (2000) The European topic centre on terrestrial environment: corine land cover raster database 2000–100 m ChristensenJHCarterTRRummukainenMAmanatidisGEvaluating the performance and utility of regional climate models: the PRUDENCE projectClim Chang2007811610.1007/s10584-006-9211-6 AlcamoJFlörkeMMärkerMFuture long-term changes in global water resources driven by socio-economic and climatic changesHydrol Sci J200752224727510.1623/hysj.52.2.247 DankersRFeyenLFlood hazard in Europe in an ensemble of regional climate scenariosJ Geophys Res2009114D1610810.1029/2008JD011523 SemmlerTJacobDModeling extreme precipitation events—a climate change simulation for EuropeGlob Planet Chang20044411912710.1016/j.gloplacha.2004.06.008 339_CR47 339_CR48 E Roeckner (339_CR43) 1999; 12 LP Graham (339_CR25) 2007; 81 T Semmler (339_CR44) 2004; 44 339_CR1 M Mudelsee (339_CR39) 2003; 425 R Dankers (339_CR16) 2007; 347 MJ Booij (339_CR7) 2005; 303 J Gallego (339_CR23) 2001 R Leander (339_CR34) 2008; 351 C Frei (339_CR22) 2006; 111 ZW Kundzewicz (339_CR31) 2005; 50 ZW Kundzewicz (339_CR32) 2006; 31 ZW Kundzewicz (339_CR33) 2008; 53 339_CR17 339_CR18 E Gilleland (339_CR24) 2005 339_CR13 OB Christensen (339_CR10) 2003; 421 H Thodsen (339_CR46) 2007; 333 R Dankers (339_CR14) 2008; 113 J Alcamo (339_CR2) 2007; 52 339_CR28 VD Pope (339_CR42) 2000; 16 L Feyen (339_CR20) 2007; 332 L Feyen (339_CR21) 2008; 53 R Dankers (339_CR15) 2009; 114 PD Bates (339_CR5) 2000; 236 RL Wilby (339_CR50) 2005; 19 F Pappenberger (339_CR41) 2008; 31 JH Christensen (339_CR12) 2007; 81 VA Bell (339_CR6) 2007; 27 EP Evans (339_CR19) 2004 JH Christensen (339_CR11) 1996 PCD Milly (339_CR38) 2005; 438 CG Jones (339_CR29) 2004; 33 (339_CR40) 2000 HEM Meier (339_CR36) 2003; 108 B Lehner (339_CR35) 2006; 75 JW Hall (339_CR27) 2006; 364 339_CR37 JV Vogt (339_CR49) 2007 AL Kay (339_CR30) 2006; 318 M Shabalova (339_CR45) 2003; 23 JI Barredo (339_CR3) 2009; 9 JW Hall (339_CR26) 2005; 36 PD Bates (339_CR4) 2004; 18 339_CR8 R Charlton (339_CR9) 2006; 74 |
| References_xml | – reference: ChristensenJHChristensenOBLopezPVan MeijgaardEBotzetMThe HIRHAM4 regional atmospheric climate model. DMI scientific report 96–41996CopenhagenDanish Meteorological Institute – reference: ChristensenJHCarterTRRummukainenMAmanatidisGEvaluating the performance and utility of regional climate models: the PRUDENCE projectClim Chang2007811610.1007/s10584-006-9211-6 – reference: MillyPCDDunneKAVecchiaAVGlobal pattern of trends in streamflow and water availability in a changing climateNature200543834735010.1038/nature04312 – reference: NakicenovicNSwartRIPCC special report on emission scenarios2000CambridgeCambridge University Press – reference: DankersRFeyenLFlood hazard in Europe in an ensemble of regional climate scenariosJ Geophys Res2009114D1610810.1029/2008JD011523 – reference: GrahamLPAndréassonJCarlssonBAssessing climate change impacts on hydrology from an ensemble of RCMs, model scales and linking methods—a case study on the Lule river basinClim Chang20078129330710.1007/s10584-006-9215-2 – reference: BellVAKayALJonesRGMooreRJUse of a grid-based hydrological model and regional climate model outputs to assess changing flood riskInt J Climatol200727121657167110.1002/joc.1539 – reference: KundzewiczZWGraczykDMaurerTPińskwarIRadziejewskiMSvenssonCSzwedMTrend detection in river flow series: 1. Annual maximum flowHydrolog Sci J200550579781010.1623/hysj.2005.50.5.797 – reference: RoecknerEBengtssonLFeichterJLelieveldJRodheHTransient climate change simulations with a coupled atmosphere-ocean GCM including the tropospheric sulfur cycleJ Clim1999123004303210.1175/1520-0442(1999)012<3004:TCCSWA>2.0.CO;2 – reference: HallJWSayersPBDawsonRJNational-scale assessment of current and future flood risk in England and WalesNat Hazard20053614716410.1007/s11069-004-4546-7 – reference: MeierHEMDöscherRFaxénTA multiprocessor coupled ice-ocean model for the Baltic Sea: application to salt inflowJ Geophys Res2003108C8327310.1029/2000JC000521 – reference: DankersRChristensenOBFeyenLKalasMDe RooAEvaluation of very high-resolution climate model data for simulating flood hazards in the Upper Danube BasinJ Hydrol200734731933110.1016/j.jhydrol.2007.09.055 – reference: Christensen OB, Goodess CM, Ciscar JC (2010) Methodological framework of the PESETA project on the impacts of climate change in Europe. Clim Chang (this issue) – reference: KayALJonesRGReynardNSRCM rainfall for UK flood frequency estimation. II. Climate change resultsJ Hydrol200631816317210.1016/j.jhydrol.2005.06.013 – reference: KundzewiczZWRadziejewskiMPińskwarIPrecipitation extremes in the changing climate of EuropeClim Res200631515810.3354/cr031051 – reference: ThodsenHThe influence of climate change on stream flow in Danish riversJ Hydrol200733322623810.1016/j.jhydrol.2006.08.012 – reference: PappenbergerFBevenKJRattoMMatgenPMulti-method global sensitivity analysis of flood inundation modelsAdv Water Resour20083111410.1016/j.advwatres.2007.04.009 – reference: MudelseeMBörngenMTetzlaffGGrünewaldUNo upward trends in the occurrence of extreme floods in central EuropeNature200342516616910.1038/nature01928 – reference: KundzewiczZWMataLJArnellNWDöllPJimenezBMillerKOkiTSenZShiklomanovIThe implications of projected climate change for freshwater resources and their managementHydrol Sci J2008531310 – reference: VogtJVSoillePde JagerARimavičiūtėEMehlWFoisneauSBódisKDusartJParacchiniMLHaastrupPBampsCA pan-European river and catchment database. EUR 22920 EN2007LuxembourgOffice for Official Publications of the European Communities – reference: ABI (2005) Financial risks of climate change. Association of British Insurers (http://www.abi.org.uk/climatechange) – reference: JonesCGWillénUUllerstigAHanssonUThe Rossby Centre regional atmospheric climate model Part I: model climatology and performance for the present climate over EuropeAmbio200433199210 – reference: GillelandEKatzRWExtremes toolkit (extRemes): weather and climate applications of extreme value statistics, tutorial2005BoulderUniv. Corp. for Atm. Res – reference: BooijMJImpact of climate change on river flooding assessed with different spatial model resolutionsJ Hydrol200530317619810.1016/j.jhydrol.2004.07.013 – reference: DankersRFeyenLClimate change impact on flood hazard in Europe: an assessment based on high resolution climate simulationsJ Geophys Res2008113D1910510.1029/2007JD009719 – reference: PopeVDGallaniMLRowntreePRStrattonRAThe impact of new physical parametrizations in the Hadley Centre climate model—HadAM3Clim Dyn20001612314610.1007/s003820050009 – reference: European Environment Agency (2000) The European topic centre on terrestrial environment: corine land cover raster database 2000–100 m – reference: EvansEPAshleyRHallJWPenning-RowsellECSaulASayersPBThorneCRWatkinsonAForesight flood and coastal defence project, scientific summary: volume I, future risks and their drivers2004LondonOffice of Science and Technology366 – reference: WilbyRLUncertainty in water resource model parameters used for climate change impact assessmentHydrolog Process2005193201321910.1002/hyp.5819 – reference: van der Knijff J, Younis J, De Roo A (2008) LISFLOOD: a GIS-based distributed model for river-basin scale water balance and flood simulation. Int J Geogr Inform Sci, doi:10.1080/13658810802549154 – reference: Bosello F, Nicholls R, Richards J, Roson R, Tol RSJ (2010) Economic impacts of climate change in Europe: sea-level rise. Clim Chang (this issue) – reference: LehnerBDöllPAlcamoJHenrichsTKasparFEstimating the impact of global change on flood and drought risks in Europe: a continental integrated analysisClim Chang20067527329910.1007/s10584-006-6338-4 – reference: BarredoJINormalised flood losses in Europe: 1970–2006Nat Hazard Earth Syst Sci2009919710410.5194/nhess-9-97-2009 – reference: HallJWSayersPBWalkdenMJAPanzeriMImpacts of climate change on coastal flood risk in England and Wales: 2030–2100Phil Trans Royal Society A20063641027104910.1098/rsta.2006.1752 – reference: LeanderRBuishandTAvan den HurkBJJMde WitMJMEstimated changes in flood quantiles of the river Meuse from resampling of regional climate model outputJ Hydrol200835133134310.1016/j.jhydrol.2007.12.020 – reference: AlcamoJFlörkeMMärkerMFuture long-term changes in global water resources driven by socio-economic and climatic changesHydrol Sci J200752224727510.1623/hysj.52.2.247 – reference: ShabalovaMvan DeursenWBuishandTAssessing future discharge of the river Rhine using RCM integrations and a hydrological modelClim Res20032323324610.3354/cr023233 – reference: CharltonRFealyRMooreSSweeneyJMurphyCAssessing the impact of climate change on water supply and flood hazard in Ireland using statistical downscaling and hydrological modelling techniquesClim Chang20067447549110.1007/s10584-006-0472-x – reference: FeyenLVrugtJANualláinBÓvan der KnijffJDe RooAParameter optimisation and uncertainty assessment for large-scale streamflow simulation with the LISFLOOD modelJ Hydrol2007332127628910.1016/j.jhydrol.2006.07.004 – reference: SemmlerTJacobDModeling extreme precipitation events—a climate change simulation for EuropeGlob Planet Chang20044411912710.1016/j.gloplacha.2004.06.008 – reference: Messner F, Penning-Rowsell E, Green C, Meyer V, Tunstall S, van der Veen A (2007) Evaluating flood damages: guidance and recommendations on principles and methods. T9-06-01, FLOODsite Project—Integrated flood risk analysis and management methodologies – reference: DEFRA (2001) National appraisal of assets at risk from flooding and coastal erosion, including the potential impact of climate change. UK Department of Environment, Food and Rural Affairs (http://www.defra.gov.uk/environ/fcd/default.htm) – reference: Trapp RJ, Robinson ED, Baldwin ME, Diffenbaugh NS, Schwedler BRJ (2010) Regional climate of hazardous convective weather through high-resolution dynamical downscaling. Clim Dyn, doi:10.1007/s00382-010-0826-y – reference: FreiCSchöllRFukutomeSSchmidliJVidalePLFuture change of precipitation extremes in Europe: intercomparison of scenarios from regional climate modelsJ Geophys Res2006111D0610510.1029/2005JD005965 – reference: GallegoJPeedellSUsing corine land cover to map population density. 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| SubjectTerms | at-risk population Atmospheric Sciences Climate Climate change Climate Change/Climate Change Impacts Damage Earth and Environmental Science Earth Sciences Emission analysis Emissions Environmental impact Environmental risk Europe Flood control Flood damage Flood hazards Flood protection Flooding Floodplains Floods General circulation models Hazards Hydrology Impact analysis Inundation Land use Mathematical analysis Population density prices Regions Risk Risk assessment Rivers Trends uncertainty Western European region |
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| Title | Fluvial flood risk in Europe in present and future climates |
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