Iman Hosseini-Shakib, Atieh Alipour, Benjamin Seiyon Lee, Vivek Srikrishnan, Robert E. Nicholas, Klaus Keller, and Sanjib Sharma.
Department of Energy, Office of Science, Earth & Environmental Systems Modeling Program Acknowledged Support: yes
DOI: https://doi.org/10.1016/j.jhydrol.2024.131055
Abstract
Designing strategies to manage flood risks is complicated by the often large uncertainties surrounding flood risk projections. Uncertainty surrounding riverine flood risks can stem from choices regarding boundary and initial conditions, model structures, and parameters as well as interactions among hazards, exposures, and vulnerabilities. Here we analyze a case study to rank the drivers of uncertainties surrounding riverine flood hazards and risks. Using Sobol’ sensitivity analysis with a large number of simulations, we thoroughly explore the interactions among different sources of uncertainty. We find that the projected flood risk is most sensitive to factors associated with flood hazards, rather than exposure and vulnerability: upstream discharge, river bed elevation, channel roughness, and the digital elevation model resolution. Our results highlight the importance of uncertainty quantification in enhancing the reliability of flood models and risk assessments.
