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W4297180372 abstract "The selection of flood management measures has been regarded as a challenge among basin planners in recent decades. Using merely the flood volume or peak runoff indicator to select the solutions is generally insufficient. Thus, in addition to inundation characteristics, there is a need to define a set of technical, socio-economic, and environmental indicators to assess the resiliency and sustainability of the basin system. This study proposes a combined approach consisting of the CCHE1D hydrodynamic model and some functions to estimate indicators exposing sustainable development criteria (SDC) along with finite-alternative multi-attribute decision-making (MADM) software, DEFINITE. The proposed approach makes it possible to take both flood characteristics and consequences aspects into prioritizing the mitigation alternatives in integrated flood management (IFM) and investigate uncertainties in the decision-making process. This approach uses sensitivity analysis to evaluate the impact of uncertainty on the ranking of alternatives. A set of structural and non-structural measures for flood management, considering the local conditions, have been presented in the Dough River in Madarsoo basin, Northeastern Iran. This basin has faced severe and destructive floods in the last two decades. The findings indicate that the proposed approach can investigate the stability-resilience degree of different alternatives in the basin area. The study also indicates that the compensatory DEFINITE software is appropriate for incorporating different SDC to display decision preferences. Using this approach, for each level of prioritizing, managers can choose the best combination of executive actions considering a set of resilience or sustainability indicators. • This study investigated the effectiveness of the IFM approach in mitigating the impacts of fluvial flood disasters throughout the basin system. • Evaluation of resilience and sustainability of alternatives was carried out by employing the CCHE model, ArcGIS, and WS method. • A set of indicators was used for technical, economic, social, and environmental dimensions. • Three perspectives were proposed for modeling the preferences of basin planners. • Green non-structural alternatives outperform natural conditions in terms of sustainability and resilience of FMAs." @default.
W4297180372 created "2022-09-27" @default.
W4297180372 creator A5020232391 @default.
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W4297180372 date "2022-11-01" @default.
W4297180372 modified "2023-10-11" @default.
W4297180372 title "Evaluation of integrated Flood Management Alternatives (FMAs) by measuring basin-scale sustainability and resiliency capacities" @default.
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W4297180372 doi "https://doi.org/10.1016/j.ijdrr.2022.103320" @default.
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