Risk assessment for hurricane-induced pluvial flooding in urban areas using a GIS-based multi-criteria approach: A case study of Hurricane Harvey in Houston, USA

Dianyu Feng; Xiaogang Shi; Fabrice G Renaud

doi:10.1016/j.scitotenv.2023.166891

Risk assessment for hurricane-induced pluvial flooding in urban areas using a GIS-based multi-criteria approach: A case study of Hurricane Harvey in Houston, USA

Sci Total Environ. 2023 Dec 15:904:166891. doi: 10.1016/j.scitotenv.2023.166891. Epub 2023 Sep 6.

Authors

Dianyu Feng¹, Xiaogang Shi², Fabrice G Renaud³

Affiliations

¹ University of Glasgow, School of Interdisciplinary Studies, Dumfries Campus, Rutherford/McCowan Building, Dumfries DG1 4ZL, United Kingdom. Electronic address: 2357431f@student.gla.ac.uk.
² University of Glasgow, School of Interdisciplinary Studies, Dumfries Campus, Rutherford/McCowan Building, Dumfries DG1 4ZL, United Kingdom. Electronic address: John.Shi@glasgow.ac.uk.
³ University of Glasgow, School of Interdisciplinary Studies, Dumfries Campus, Rutherford/McCowan Building, Dumfries DG1 4ZL, United Kingdom. Electronic address: Fabrice.Renaud@glasgow.ac.uk.

PMID: 37683859
DOI: 10.1016/j.scitotenv.2023.166891

Abstract

As one of the most destructive nature hazards, hurricane-induced flooding generates serious adverse impacts on populations, infrastructure, and the environment globally. In urban areas, complex characteristics such as high population and infrastructure densities increase flood disaster risks. Consequently, the assessment of flood risks is becoming increasingly important for understanding potential impacts on an urban area and proposing disaster risk mitigation strategies. After conducting a comprehensive literature review, this study finds that most urban flood risk assessments often overlook urban ecosystem elements, focusing more on social and economic aspects. Hence, the role of urban ecosystems cannot be fully understood. To address this gap, this study proposes a social-ecological systems (SES) flood risk assessment framework for urban areas. Based on this framework, a comprehensive list of indicators collected through a literature review is provided for urban flood risk assessments. A comparative study of flood risk during Hurricane Harvey (2017) in Houston, Texas, USA, is carried out using the improved analytic hierarchy process (IAHP) weighting method and the equal weighting method for indicator weighting. Results are then compared with the damage data of Hurricane Harvey published by the U.S. Federal Emergency Management Agency (FEMA). The analysis identifies that the western part of Houston had the highest flood risks, while the center of Houston was at lower flood risk. Comparisons between the results from the IAHP and equal weighting methods show that the latter produces a broader range of high flood risk areas than the former. This study also highlights the role of urban ecosystems in mitigating flood risks and advocates for more holistic, social-ecological assessments of flood risk. Such assessments could utilize the proposed framework and the indicator list but contextualize these to the specific urban area's contexts being investigated.

Keywords: Extreme weather; Flood risk assessment; Houston; Indicator-based method; Social-ecological systems; Urban areas.