Are we preventing flood damage eco-efficiently? An integrated method applied to post-disaster emergency actions

• Published in: The Science of the total environment Vol. 580; pp. 873 - 881
• Main Authors: Petit-Boix, Anna, Arahuetes, Ana, Josa, Alejandro, Rieradevall, Joan, Gabarrell, Xavier
• Format: Journal Article Publication
• Language: English
• Published: Netherlands Elsevier B.V 15.02.2017
• Subjects: Climate change; Control; Damage prevention; Enginyeria civil; Flood control; Geologia; Inundacions; Life cycle assessment; Life cycle costing; Riscos geològics; Risk management; Àrees temàtiques de la UPC; Life cycle assessment; Life cycle costing; Climate change; Risk management; Damage prevention
• ISSN: 0048-9697; 1879-1026
• DOI: 10.1016/j.scitotenv.2016.12.034

Flood damage results in economic and environmental losses in the society, but flood prevention also entails an initial investment in infrastructure. This study presents an integrated eco-efficiency approach for assessing flood prevention and avoided damage. We focused on ephemeral streams in the Maresme region (Catalonia, Spain), which is an urbanized area affected by damaging torrential events. Our goal was to determine the feasibility of post-disaster emergency actions implemented after a major event through an integrated hydrologic, environmental and economic approach. Life cycle assessment (LCA) and costing (LCC) were used to determine the eco-efficiency of these actions, and their net impact and payback were calculated by integrating avoided flood damage. Results showed that the actions effectively reduced damage generation when compared to the registered water flows and rainfall intensities. The eco-efficiency of the emergency actions resulted in 1.2kgCO2eq. per invested euro. When integrating the avoided damage into the initial investment, negative net impacts were obtained (e.g., −5.2E+05€ and −2.9E+04kgCO2eq. per event), which suggests that these interventions contributed with environmental and economic benefits to the society. The economic investment was recovered in two years, whereas the design could be improved to reduce their environmental footprint, which is recovered in 25years. Our method and results highlight the effects of integrating the environmental and economic consequences of decisions at an urban scale and might help the administration and insurance companies in the design of prevention plans and climate change adaptation. [Display omitted] •Mediterranean cities must manage floods eco-efficiently to adapt to climate change.•We combined hydrology and eco-efficiency to assess post-disaster emergency actions.•The net impact and payback period of the actions was estimated through avoided damage.•The economic investment was recovered in 2years; 25years in environmental terms.•Negative net impacts suggest that the actions provided benefits to the society.