Assessment of Rainstorm Waterlogging Disaster Risk in Rapidly Urbanizing Areas Based on Land Use Scenario Simulation: A Case Study of Jiangqiao Town in Shanghai, China

Land Pub Date : 2024-07-19 DOI:10.3390/land13071088
Hui Xu, Junlong Gao, Xinchun Yu, Qianqian Qin, Shiqiang Du, Jiahong Wen
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Abstract

The impact of flooding on cities is becoming increasingly significant in the context of climate change and rapid urbanization. Based on the analysis of the land use changes and rainstorm waterlogging inundation scenarios of Jiangqiao Town from 1980 to 2020, a scenario analysis was conducted to simulate and assess the rainstorm waterlogging disaster risk in 2040 under three land use scenarios (a natural development scenario, Scenario ND; an economic growth scenario, Scenario EG; and an ecological development priority scenario, Scenario EP) and three rainstorm scenarios with return periods of 10, 50, and 100 years. The following results were found: (1) Land use change is a significant factor in the risk of urban rainstorm waterlogging disaster caused by surface runoff and inundation depth change. In particular, the resultant increase in impermeable surfaces such as residential land and industrial land and the decrease in farmland during urbanization would lead to an increase in urban rainstorm waterlogging disaster risk. (2) Under three rainstorm scenarios, the future land use exposure elements and losses are consistent in terms of spatial distribution; from 10-year to 100-year return periods, they manifest as an expansion from the south to the surroundings, especially to the central region of the study area. The locations at risk are mainly distributed in the central and southern regions of Jiangqiao Town. (3) The economic losses are different in different land use scenarios and rainstorm scenarios. In the context of rainstorm scenarios with return periods of 10, 50, and 100 years, the total losses in land use scenario ND are CNY 560 million, CNY 890 million, and CNY 1.07 billion; those in land use scenario EG are CNY 630 million, CNY 980 million, and CNY 1.19 billion; and those in land use scenario EP are CNY 480 million, CNY 750 million, and CNY 910 million. The total losses of land use EP are the lowest by comparison. So, the influence of land use change on the rainstorm waterlogging disaster risk shows obvious differences among different rainstorm scenarios. This study has important reference value for decision making on land use management and flood disaster risk management in rapidly urbanizing areas.
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基于土地利用情景模拟的快速城市化地区暴雨内涝灾害风险评估:中国上海江桥镇案例研究
在气候变化和快速城市化的背景下,洪涝灾害对城市的影响日益显著。在分析江桥镇 1980-2020 年土地利用变化和暴雨内涝淹没情景的基础上,进行了情景分析,模拟评估了 2040 年三种土地利用情景(自然发展情景 ND、经济增长情景 EG 和生态优先发展情景 EP)和三种暴雨情景(重现期分别为 10 年、50 年和 100 年)下的暴雨内涝灾害风险。结果如下:(1) 土地利用变化是地表径流和淹没深度变化导致城市暴雨内涝灾害风险的重要因素。特别是在城市化过程中,居住用地和工业用地等不透水地表的增加以及农田的减少将导致城市暴雨内涝灾害风险的增加。(2)在三种暴雨情景下,未来土地利用暴露要素和损失在空间分布上是一致的,从 10 年一遇到 100 年一遇,都表现为从南部向四周扩展,特别是向研究区中部地区扩展。风险点主要分布在江桥镇的中部和南部地区。(3)不同土地利用情景和暴雨情景下的经济损失不同。在重现期分别为 10 年、50 年和 100 年的暴雨情景下,土地利用 ND 情景下的总损失分别为 5.6 亿元、8.9 亿元和 10.7 亿元;土地利用 EG 情景下的总损失分别为 6.3 亿元、9.8 亿元和 11.9 亿元;土地利用 EP 情景下的总损失分别为 4.8 亿元、7.5 亿元和 9.1 亿元。相比之下,土地利用 EP 的总损失最低。由此可见,不同暴雨情景下,土地利用变化对暴雨内涝灾害风险的影响存在明显差异。本研究对快速城市化地区的土地利用管理和洪涝灾害风险管理具有重要的决策参考价值。
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