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Unraveling urban hydro-environmental response to climate change and MCDA-based area prioritization in a data-scarce developing city

Kexin Liu, Tsuyoshi Kinouchi, Reasmey Tan, Sokchhay Heng, Kong Chhuon, Wenpeng Zhao

2024The Science of The Total Environment14 citationsDOIOpen Access PDF

Abstract

Climate change leads to more frequent and intense heavy rainfall events, posing significant challenges for urban stormwater management, particularly in rapidly urbanizing cities of developing countries with constrained infrastructure. However, the quantitative assessment of urban stormwater, encompassing both its volume and quality, in these regions is impeded due to the scarcity of observational data and resulting limited understanding of drainage system dynamics. This study aims to elucidate the present and projected states of urban flooding, with a specific emphasis on fecal and organic contamination caused by combined sewer overflow (CSO). Leveraging a hydrological model incorporating physical and biochemical processes validated against invaluable observational data, we undertake simulations to estimate discharge, flood volume, and concentrations of suspended solids (SS), Escherichia coli (E. coli), and chemical oxygen demand (COD) within the drainage channel network of Phnom Penh City, Cambodia. Alterations in flood volumes, and pollutant concentrations and loads in overflow under two representative concentration pathways (RCPs 4.5 and 8.5) for extreme rainfall events are projected. Furthermore, we employ a multi-criteria decision analysis (MCDA) framework to evaluate flood risk, incorporating diverse indicators encompassing physical, social, and ecological dimensions. Our results demonstrate the exacerbating effects of climate change on flood volumes, expansion of flooded areas, prolonged durations of inundation, elevated vulnerability index, and heightened susceptibility to pollutant contamination under both scenarios, underscoring increased risks of flooding and fecal contamination. Spatial analysis identifies specific zones exhibiting heightened vulnerability to flooding and climate change, suggesting priority zones for investment in flood mitigation measures. These findings provide crucial insights for urban planning and stormwater management in regions with limited drainage infrastructure, offering essential guidance for decision-making in locales facing similar challenges.

Topics & Concepts

Environmental scienceStormwaterFlood mythFlooding (psychology)Climate changeScarcityWater resource managementSurface runoffVulnerability (computing)Fecal coliformHydrology (agriculture)Environmental planningWater qualityGeographyEcologyComputer scienceArchaeologyPsychotherapistComputer securityBiologyEconomicsPsychologyMicroeconomicsEngineeringGeotechnical engineeringUrban Stormwater Management SolutionsFlood Risk Assessment and ManagementHydrology and Watershed Management Studies
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