Evaluating Flood Resilience Strategies for Coastal Megacities

Evaluating Flood Resilience Strategies for Coastal Megacities. Aerts, J. C. J. H., Botzen, W. J. W., Emanuel, K., Lin, N., de Moel , H., & Michel-Kerjan, E. O. Science, 344(6183):473–475, May, 2014.
doi abstract bibtex

Recent flood disasters in the United States (2005, 2008, 2012); the Philippines (2012, 2013); and Britain (2014) illustrate how vulnerable coastal cities are to storm surge flooding (1). Floods caused the largest portion of insured losses among all catastrophes around the world in 2013 (2). Population density in flood-prone coastal zones and megacities is expected to grow by 25\,% by 2050; projected climate change and sea level rise may further increase the frequency and/or severity of large-scale floods (3-7).

@article{aertsEvaluatingFloodResilience2014,
  title = {Evaluating Flood Resilience Strategies for Coastal Megacities},
  author = {Aerts, Jeroen C. J. H. and Botzen, Wouter J. W. and Emanuel, Kerry and Lin, Ning and {de Moel}, Hans and {Michel-Kerjan}, Erwann O.},
  year = {2014},
  month = may,
  volume = {344},
  pages = {473--475},
  issn = {1095-9203},
  doi = {10.1126/science.1248222},
  abstract = {Recent flood disasters in the United States (2005, 2008, 2012); the Philippines (2012, 2013); and Britain (2014) illustrate how vulnerable coastal cities are to storm surge flooding (1). Floods caused the largest portion of insured losses among all catastrophes around the world in 2013 (2). Population density in flood-prone coastal zones and megacities is expected to grow by 25\,\% by 2050; projected climate change and sea level rise may further increase the frequency and/or severity of large-scale floods (3-7).},
  journal = {Science},
  keywords = {*imported-from-citeulike-INRMM,~INRMM-MiD:c-13157153,climate-change,floods,policy-strategies-for-scientific-uncertainty,resilience,sea-level},
  lccn = {INRMM-MiD:c-13157153},
  number = {6183}
}

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