Evaluating uncertainties of future marine flooding occurrence as sea-level rises

Gonéri Le Cozannet; Jeremy Rohmer; Anny Cazenave; Déborah Idier; Roderik van de Wal; Renske de Winter; Rodrigo Pedreros; Yann Balouin; Charlotte Vinchon; Carlos Oliveros

doi:10.1016/j.envsoft.2015.07.021

Evaluating uncertainties of future marine flooding occurrence as sea-level rises

Gonéri Le Cozannet^*, Jeremy Rohmer, Anny Cazenave, Déborah Idier, Roderik van de Wal, Renske de Winter, Rodrigo Pedreros, Yann Balouin, Charlotte Vinchon, Carlos Oliveros

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

As sea-level rises, the frequency of coastal marine flooding events is changing. For accurate assessments, several other factors must be considered as well, such as the variability of sea-level rise and storm surge patterns. Here, a global sensitivity analysis is used to provide quantitative insight into the relative importance of contributing uncertainties over the coming decades. The method is applied on an urban low-lying coastal site located in the north-western Mediterranean, where the yearly probability of damaging flooding could grow drastically after 2050 if sea-level rise follows IPCC projections. Storm surge propagation processes, then sea-level variability, and, later, global sea-level rise scenarios become successively important source of uncertainties over the 21st century. This defines research priorities that depend on the target period of interest. On the long term, scenarios RCP 6.0 and 8.0 challenge local capacities of adaptation for the considered site.

Original language	English
Pages (from-to)	44-56
Number of pages	13
Journal	Environmental Modelling and Software
Volume	73
DOIs	https://doi.org/10.1016/j.envsoft.2015.07.021
Publication status	Published - 1 Nov 2015

Keywords

Adaptation
Climate change scenarios
Global sensitivity analysis
Low-lying coastal areas
Marine flooding
Sea-level rise
Uncertainties

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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1-s2.0-S1364815215300268-mainFinal published version, 2.16 MBLicence: CC BY-NC-ND

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title = "Evaluating uncertainties of future marine flooding occurrence as sea-level rises",

abstract = "As sea-level rises, the frequency of coastal marine flooding events is changing. For accurate assessments, several other factors must be considered as well, such as the variability of sea-level rise and storm surge patterns. Here, a global sensitivity analysis is used to provide quantitative insight into the relative importance of contributing uncertainties over the coming decades. The method is applied on an urban low-lying coastal site located in the north-western Mediterranean, where the yearly probability of damaging flooding could grow drastically after 2050 if sea-level rise follows IPCC projections. Storm surge propagation processes, then sea-level variability, and, later, global sea-level rise scenarios become successively important source of uncertainties over the 21st century. This defines research priorities that depend on the target period of interest. On the long term, scenarios RCP 6.0 and 8.0 challenge local capacities of adaptation for the considered site.",

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AU - Le Cozannet, Gonéri

AU - Rohmer, Jeremy

AU - Cazenave, Anny

AU - Idier, Déborah

AU - van de Wal, Roderik

AU - de Winter, Renske

AU - Pedreros, Rodrigo

AU - Balouin, Yann

AU - Vinchon, Charlotte

AU - Oliveros, Carlos

PY - 2015/11/1

Y1 - 2015/11/1

N2 - As sea-level rises, the frequency of coastal marine flooding events is changing. For accurate assessments, several other factors must be considered as well, such as the variability of sea-level rise and storm surge patterns. Here, a global sensitivity analysis is used to provide quantitative insight into the relative importance of contributing uncertainties over the coming decades. The method is applied on an urban low-lying coastal site located in the north-western Mediterranean, where the yearly probability of damaging flooding could grow drastically after 2050 if sea-level rise follows IPCC projections. Storm surge propagation processes, then sea-level variability, and, later, global sea-level rise scenarios become successively important source of uncertainties over the 21st century. This defines research priorities that depend on the target period of interest. On the long term, scenarios RCP 6.0 and 8.0 challenge local capacities of adaptation for the considered site.

AB - As sea-level rises, the frequency of coastal marine flooding events is changing. For accurate assessments, several other factors must be considered as well, such as the variability of sea-level rise and storm surge patterns. Here, a global sensitivity analysis is used to provide quantitative insight into the relative importance of contributing uncertainties over the coming decades. The method is applied on an urban low-lying coastal site located in the north-western Mediterranean, where the yearly probability of damaging flooding could grow drastically after 2050 if sea-level rise follows IPCC projections. Storm surge propagation processes, then sea-level variability, and, later, global sea-level rise scenarios become successively important source of uncertainties over the 21st century. This defines research priorities that depend on the target period of interest. On the long term, scenarios RCP 6.0 and 8.0 challenge local capacities of adaptation for the considered site.

KW - Adaptation

KW - Climate change scenarios

KW - Global sensitivity analysis

KW - Low-lying coastal areas

KW - Marine flooding

KW - Sea-level rise

KW - Uncertainties

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SP - 44

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JO - Environmental Modelling and Software

JF - Environmental Modelling and Software

ER -

Evaluating uncertainties of future marine flooding occurrence as sea-level rises

Abstract

Keywords

UN SDGs

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