Open Access
Issue
E3S Web Conf.
Volume 7, 2016
3rd European Conference on Flood Risk Management (FLOODrisk 2016)
Article Number 11008
Number of page(s) 9
Section Risk evaluation and assessment
DOI https://doi.org/10.1051/e3sconf/20160711008
Published online 20 October 2016
  1. Meyer V., Becker N., Markantonis V., Schwarze R., Van den Bergh J. C. J. M., Bouwer L. M., Bubeck P., Ciavola P., Genovese E., Green C., Hallegatte S., Kreibich H., Lequeux Q., Logar I., Papyrakis E., Pfurtscheller C., Poussin J., Przyluski V., Thieken A. H., and Viavattene C. (2013). Assessing the costs of natural hazards–state of the art and knowledge gaps. Natural Hazards Earth System Science, 13, 1351–1373. [Google Scholar]
  2. Gornitz V.M. (1990). Vulnerability of the East Coast. Journal of Coastal Research, SI 9, 201–237. [Google Scholar]
  3. McLaughlin S., McKenna J. and Cooper J.A.G. (2002). Socio-economic data in coastal vulnerability indices: constraints and opportunities. Journal of Coastal Research, SI 36, 487–497. [Google Scholar]
  4. Ramieri E., Hartley A., Barbanti A., Duarte Santos F., Gomes A., Hilden M., Laihonen P., Marinova N. and Santini M. (2011). Methods for assessing coastal vulnerability to climate change. ETC CCA Technical paper. [Google Scholar]
  5. Balica S.F., Wright N. G., and van der Meulen F. (2012). A flood vulnerability index for coastal cities and its use in assessing climate change impacts. Natural Hazards, 64, 73–105. [CrossRef] [Google Scholar]
  6. Garrity N.J., Battalio R., Hawkes P.J., and Roupe D. (2006). Evaluation of the event and response approaches to estimate the 100-year coastal flood for Pacific coast sheltered waters. Proc. 30th ICCE, ASCE, 1651–1663. [Google Scholar]
  7. Sánchez-Arcilla A., Jiménez J.A., and Peña C. (2009). Wave-induced morphodynamic risks. Characterization of extremes. Coastal Dynamics 2009, World Scientific (CD), paper 127. [Google Scholar]
  8. Divoky D. and McDougal W.G. (2006). Responsebased coastal flood analysis. Proc. 30th Int. Conf. on Coastal Engineering, ASCE, 5291–5301. [Google Scholar]
  9. FEMA. (2007). Guidelines and Specifications for Flood Hazard Mapping: Atlantic Ocean and Gulf of Mexico coastal guidelines update. Federal Emergency Management Agency. [Google Scholar]
  10. Holman R.A. (1986). Extreme value statistics for wave run-up on a natural beach. Coastal Engineering, 9, 527–544. [CrossRef] [Google Scholar]
  11. Nielsen P., and Hanslow D.J. (1991). Wave runup distributions on natural beaches. Journal of Coastal Research, 7 (4), 1139–1152. [Google Scholar]
  12. Stockdon H.F., Holman R.A., Howd P.A., and Sallenger A.H., (2006). Empirical parameterization of setup, swash and run-up. Coastal Engineering, 53, 573–588. [Google Scholar]
  13. Donnelly C. (2008). Coastal Overwash: Processes and Modelling. Ph.D. Thesis, University of Lund, p. 53. [Google Scholar]
  14. Roelvink D., Reniers A., van Dongeren A.P., de Vries J.V.T., McCall R., Lescinski J. (2009). Modelling storm impacts on beaches, dunes and barrier islands. Coastal Eng., 56 (11), 1133–1152. [Google Scholar]
  15. Hedges T., and Reis M. (1998). Random wave overtopping of simple seawalls: a new regression model. Water, Maritime and Energy Journal, 1 (130), 1–10. [Google Scholar]
  16. Pullen T., Allsop N.W.H., Bruce T., Kortenhaus A., Schüttrumpf H., and van der Meer J.W. (2007). EurOtop. Wave overtopping of sea defences and related structures: Assessment manual. www.overtopping-manual.com [Google Scholar]
  17. Kriebel D. and Dean R.G. (1993). Convolution model for time-dependent beach-profile response. Journal of Waterway, Port, Coastal and Ocean Engineering, 119, 204–226. [CrossRef] [Google Scholar]
  18. Mendoza E.T. and Jiménez J.A. (2006). Storminduced beach erosion potential on the Catalonian coast. Journal of Coastal Research. SI 48, 81–88. [Google Scholar]
  19. Almeida L.P., Ferreira O. and Taborda R. (2011). Geoprocessing tool to model beach erosion due to storms: application to Faro beach (Portugal). Journal of Coastal Research, SI 64, 1830–1834. [Google Scholar]
  20. Almeida L.P., Vousdoukas M.V., Ferreira O., Rodrigues B.A. and Matias A. (2012). Thresholds for storm impacts on an exposed sandy coastal area in southern Portugal. Geomorphology, 143-144, 3–12. [CrossRef] [Google Scholar]

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