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Understanding the evolution trend of urban flood risk and resilience for better flood management

Wenjie Chen, Yong Lei, Qi Long, Jiaxuan Zheng, Guoru Huang, Huilin Wang

2024Ecological Indicators20 citationsDOIOpen Access PDF

Abstract

• Evaluated flood risk and resilience in the Pearl River Delta from 1990 to 2020. • Introduced six indices to analyze spatiotemporal trends in flood risk and resilience. • Identified expansion, fragmentation, and southward spread of high-risk areas. • Proposed green infrastructure and adaptive urban planning strategies to mitigate risks. The Pearl River Delta (PRD) has undergone rapid urbanization over the past three decades, leading to significant changes in urban flood risk and resilience. This study addresses the critical need to understand evolution trend of urban flood risk and resilience in the PRD for both pre-urbanization (1990) and post-urbanization (2020) periods. Using 12 indices integrated within the different frameworks, the spatial and temporal evolution of risk and resilience over the past 30 years are analyze. Six new evaluative indicators are introduced to capture spatial characteristics and their evolutionary trends more accurately. Findings reveal the spatial distribution of urban flood risk and resilience. And the results further indicate that high-risk and low-resilience areas have expanded, become more interconnected, and exhibited increased fragmentation and complexity, while spatial aggregation has decreased. High-risk areas particularly show a trend of spreading southward, whereas low-resilience areas have remained relatively stable. Strategies involving green infrastructure to reduce the interconnection of flood risk patches, urban planning to limit the expansion of risk regions, and adaptive management to handle the complexity of flood-prone areas are proposed. This study provides insights into the spatiotemporal evolution of flood risk and resilience, offering valuable guidance for urban planners and policymakers.

Topics & Concepts

Flood mythResilience (materials science)Flood risk managementEnvironmental scienceEnvironmental resource managementGeographyPsychological resilienceEnvironmental planningWater resource managementPsychologyPhysicsThermodynamicsPsychotherapistArchaeologyFlood Risk Assessment and ManagementDisaster Management and ResilienceInfrastructure Resilience and Vulnerability Analysis