TY - JOUR
T1 - The credibility challenge for global fluvial flood risk analysis
AU - Trigg, M.A.
AU - Birch, C.E.
AU - Neal, J.C.
AU - Bates, P.D.
AU - Smith, A.
AU - Sampson, C.C.
AU - Yamazaki, D.
AU - Hirabayashi, Y.
AU - Pappenberger, F.
AU - Dutra, E.
AU - Ward, P.J.
AU - Winsemius, H.C.
AU - Salamon, P.
AU - Dottori, F.
AU - Rudari, R.
AU - Kappes, M.S.
AU - Simpson, A.L.
AU - Hadzilacos, G.
AU - Fewtrell, T.J.
PY - 2016
Y1 - 2016
N2 - Quantifying flood hazard is an essential component of resilience planning, emergency response, and mitigation, including insurance. Traditionally undertaken at catchment and national scales, recently, efforts have intensified to estimate flood risk globally to better allow consistent and equitable decision making. Global flood hazard models are now a practical reality, thanks to improvements in numerical algorithms, global datasets, computing power, and coupled modelling frameworks. Outputs of these models are vital for consistent quantification of global flood risk and in projecting the impacts of climate change. However, the urgency of these tasks means that outputs are being used as soon as they are made available and before such methods have been adequately tested. To address this, we compare multi-probability flood hazard maps for Africa from six global models and show wide variation in their flood hazard, economic loss and exposed population estimates, which has serious implications for model credibility. While there is around 30%-40% agreement in flood extent, our results show that even at continental scales, there are significant differences in hazard magnitude and spatial pattern between models, notably in deltas, arid/semi-arid zones and wetlands. This study is an important step towards a better understanding of modelling global flood hazard, which is urgently required for both current risk and climate change projections.
AB - Quantifying flood hazard is an essential component of resilience planning, emergency response, and mitigation, including insurance. Traditionally undertaken at catchment and national scales, recently, efforts have intensified to estimate flood risk globally to better allow consistent and equitable decision making. Global flood hazard models are now a practical reality, thanks to improvements in numerical algorithms, global datasets, computing power, and coupled modelling frameworks. Outputs of these models are vital for consistent quantification of global flood risk and in projecting the impacts of climate change. However, the urgency of these tasks means that outputs are being used as soon as they are made available and before such methods have been adequately tested. To address this, we compare multi-probability flood hazard maps for Africa from six global models and show wide variation in their flood hazard, economic loss and exposed population estimates, which has serious implications for model credibility. While there is around 30%-40% agreement in flood extent, our results show that even at continental scales, there are significant differences in hazard magnitude and spatial pattern between models, notably in deltas, arid/semi-arid zones and wetlands. This study is an important step towards a better understanding of modelling global flood hazard, which is urgently required for both current risk and climate change projections.
U2 - 10.1088/1748-9326/11/9/094014
DO - 10.1088/1748-9326/11/9/094014
M3 - Article
SN - 1748-9326
VL - 11
JO - Environmental Research Letters
JF - Environmental Research Letters
M1 - 094014
ER -