An integrated framework of coastal flood modelling under the failures of sea dikes: a case study in Shanghai

Qian Ke, Jiangshan Yin, Jeremy D. Bricker, Nicholas Savage, Erasmo Buonomo, Qinghua Ye, Paul Visser, Guangtao Dong, Sebastiaan N. Jonkman, More Authors

Research output: Contribution to journalArticleScientificpeer-review

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Abstract

Climate change leads to sea level rise worldwide, as well as increases in the intensity and frequency of tropical cyclones (TCs). Storm surge induced by TC’s, together with spring tides, threatens to cause failure of flood defenses, resulting in massive flooding in low-lying coastal areas. However, limited research has been done on the combined effects of the increasing intensity of TCs and sea level rise on the characteristics of coastal flooding due to the failure of sea dikes. This paper investigates the spatial variation of coastal flooding due to the failure of sea dikes subject to past and future TC climatology and sea level rise, via a case study of a low-lying deltaic city- Shanghai, China. Using a hydrodynamic model and a spectral wave model, storm tide and wave parameters were calculated as input for an empirical model of overtopping discharge rate. The results show that the change of storm climatology together with relative sea level rise (RSLR) largely exacerbates the coastal hazard for Shanghai in the future, in which RSLR is likely to have a larger effect than the TC climatology change on future coastal flooding in Shanghai. In addition, the coastal flood hazard will increase to a large extent in terms of the flood water volume for each corresponding given return period. The approach developed in this paper can also be utilized to investigate future flood risk for other low-lying coastal regions.

Original languageEnglish
Number of pages33
JournalNatural Hazards
DOIs
Publication statusPublished - 2021

Bibliographical note

Correction DOI: 10.1007/s11069-021-04935-y

Keywords

  • Climate change
  • Coastal flooding
  • Dike failure
  • Sea level rise
  • Tropical cyclone

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