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Reply to: Sandy beaches can survive sea-level rise

Nature Climate Change volume 10pages 996–997 (2020)Cite this article

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The Original Article was published on 27 October 2020

replying to J. A. G. Cooper et al. Nature Climate Change https://doi.org/10.1038/s41558-020-00934-2 (2020)

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References

  1. Vousdoukas, M. I. et al. Sandy coastlines under threat of erosion. Nat. Clim. Change 10, 260–263 (2020).

    Article  Google Scholar 

  2. Cooper, J. A. G. et al. Sandy beaches can survive sea-level rise. Nat. Clim. Change https://doi.org/10.1038/s41558-020-00934-2 (2020).

  3. Vitousek, S., Barnard, P. L. & Limber, P. Can beaches survive climate change? J. Geophys. Res. Earth Surf. 122, 1060–1067 (2017).

    Google Scholar 

  4. Carter, R. W. G. & Woodroffe, C. D. Coastal Evolution (Cambridge Univ. Press, 1994).

  5. Bird, E. C. F Coastline Changes: A Global Review (Wiley, 1985).

  6. Woodroffe, C. D. Coasts: Form, Process and Evolution (Cambridge Univ. Press, 2002).

  7. Small, C. & Nicholls, R. J. A global analysis of human settlement in coastal zones. J. Coast. Res. 19, 584–599 (2003).

    Google Scholar 

  8. Merkens, J.-L., Reimann, L., Hinkel, J. & Vafeidis, A. T. Gridded population projections for the coastal zone under the Shared Socioeconomic Pathways. Glob. Planet. Change 145, 57–66 (2016).

    Google Scholar 

  9. Neumann, B., Vafeidis, A. T., Zimmermann, J. & Nicholls, R. J. Future coastal population growth and exposure to sea-level rise and coastal flooding—global assessment. PLoS ONE 10, e0118571 (2015).

  10. Mentaschi, L., Vousdoukas, M. I., Pekel, J.-F., Voukouvalas, E. & Feyen, L. Global long-term observations of coastal erosion and accretion. Sci. Rep. 8, 12876 (2018).

    Google Scholar 

  11. Luijendijk, A. et al. The state of the world’s beaches. Sci. Rep. 8, 6641 (2018).

    Google Scholar 

  12. Castelle, B. et al. Spatial and temporal patterns of shoreline change of a 280-km high-energy disrupted sandy coast from 1950 to 2014: SW France. Estuar. Coast. Shelf Sci. https://doi.org/10.1016/j.ecss.2017.11.005 (2017).

  13. Ranasinghe, R. & Stive, M. J. F. Rising seas and retreating coastlines. Climatic Change 97, 465 (2009).

    Google Scholar 

  14. SCOR Working Group 89 The response of beaches to sea-level changes: a review of predictive models. J. Coast. Res. 7, 895–921 (1991).

    Google Scholar 

  15. Stive, M., Ranasinghe, R. & Cowell, P. J. in Handbook of Coastal and Ocean Engineering (Ed. Kim, Y. C.) 1023–1037 (World Scientific, 2009).

  16. Ranasinghe, R. On the need for a new generation of coastal change models for the 21st century. Sci. Rep. 10, 2010 (2020).

    CAS  Google Scholar 

  17. Ranasinghe, R., Callaghan, D. & Stive, M. J. F. Estimating coastal recession due to sea level rise: beyond the Bruun rule. Climatic Change 110, 561–574 (2012).

    Google Scholar 

  18. Li, F. Probabilistic Estimation of Dune Erosion and Coastal Zone Risk. PhD thesis, Delft Univ. Technology (2014).

  19. Toimil, A., Losada, I. J., Camus, P. & Díaz-Simal, P. Managing coastal erosion under climate change at the regional scale. Coast. Eng. 128, 106–122 (2017).

    Google Scholar 

  20. Le Cozannet, G et al. Quantifying uncertainties of sandy shoreline change projections as sea level rises. Sci. Rep. 9, 42 (2019).

    Google Scholar 

  21. Wolinsky, M. A. & Murray, A. B. A unifying framework for shoreline migration: 2. Application to wave-dominated coasts. J. Geophys. Res. 114, F01009 (2009).

  22. Paprotny, D., Morales‐Nápoles, O., Vousdoukas, M. I., Jonkman, S. N. & Nikulin, G. Accuracy of pan‐European coastal flood mapping. J. Flood Risk Manag. https://doi.org/10.1111/jfr3.12459 (2019).

  23. Vousdoukas, M. I. et al. Understanding epistemic uncertainty in large-scale coastal flood risk assessment for present and future climates. Nat. Hazards Earth Syst. Sci. 18, 2127–2142 (2018).

    Google Scholar 

  24. Hargreaves, J. C. Skill and uncertainty in climate models. WIREs Clim. Change 1, 556–564 (2010).

    Google Scholar 

  25. Fox-Kemper, B. et al. Challenges and prospects in Ocean circulation models. Front. Mar. Sci. https://doi.org/10.3389/fmars.2019.00065 (2019).

  26. Morim, J., Hemer, M., Cartwright, N., Strauss, D. & Andutta, F. On the concordance of 21st century wind-wave climate projections. Glob. Planet. Change 167, 160–171 (2018).

    Google Scholar 

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Author information

Authors and Affiliations

  1. Joint Research Centre (JRC), European Commission, Ispra, Italy

    Michalis I. Vousdoukas, Lorenzo Mentaschi & Luc Feyen

  2. Department of Water Science and Engineering, IHE Delft Institute for Water Education, Delft, the Netherlands

    Roshanka Ranasinghe

  3. Water Engineering and Management, Faculty of Engineering Technology, University of Twente, Enschede, the Netherlands

    Roshanka Ranasinghe & Panagiotis Athanasiou

  4. Harbour, Coastal and Offshore Engineering, Deltares, Delft, the Netherlands

    Roshanka Ranasinghe, Panagiotis Athanasiou & Arjen Luijendijk

  5. Department of Applied Physics, University of Cadiz, Puerto Real, Spain

    Theocharis A. Plomaritis

  6. CIMA, University of Algarve, Faro, Portugal

    Theocharis A. Plomaritis

  7. Faculty of Civil Engineering and Geosciences, Department of Hydraulic Engineering, Delft University of Technology, Delft, the Netherlands

    Arjen Luijendijk

Authors
  1. Michalis I. Vousdoukas
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  2. Roshanka Ranasinghe
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  3. Lorenzo Mentaschi
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  4. Theocharis A. Plomaritis
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  5. Panagiotis Athanasiou
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  6. Arjen Luijendijk
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  7. Luc Feyen
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Contributions

All authors conceived, wrote and commented on the manuscript at all stages.

Corresponding author

Correspondence to Michalis I. Vousdoukas.

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The authors declare no competing interests.

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Peer review information Nature Climate Change thanks Charles Fletcher and the other, anonymous, reviewer(s) for their contribution to the peer review of this work.

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Vousdoukas, M.I., Ranasinghe, R., Mentaschi, L. et al. Reply to: Sandy beaches can survive sea-level rise. Nat. Clim. Chang. 10, 996–997 (2020). https://doi.org/10.1038/s41558-020-00935-1

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