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以关中平原城市群11个地级市为研究对象,从经济、社会和基础设施3个维度构建评价体系;运用博弈论组合赋权法、灰色关联度分析法、灰色预测模型对关中平原城市群内涝灾害韧性进行评估预测,并提出提升策略。结果表明:(1)研究区内涝灾害韧性水平总体呈波动上升趋势,子系统韧性水平差异显著;(2)内涝灾害水平呈现以西安市为核心逐渐递减的空间特征,子系统韧性中经济、社会韧性发展潜力大,基础设施韧性有待进一步提升;(3)维度层内涝灾害韧性的主要影响因素为经济因素,指标层人均可支配收入的关联度最高;(4)2024—2028年研究区内涝灾害韧性继续呈现增长态势,宝鸡市、咸阳市和运城市的核心地位逐渐凸显。
Abstract:Taking 11 prefecture-level cities in the Guanzhong plain urban agglomeration as the research object, we established an urban flood resilience evaluation system from economic, social and infrastructure three dimensions, used game theory combination weighting method, grey relational analysis method, and grey prediction model to evaluate and predict the resilience level of urban flood in the Guanzhong plain urban agglomeration, and proposed improvement strategies. The results indicate that(1) the overall level of urban flood resilience in the Guanzhong plain urban agglomeration shows a fluctuating upward trend, significant differences are present in the resilience levels of three dimensions.(2)The urban flood level displays a spatial pattern with Xi'an as the core, gradually decreasing outward. Among the subsystem resilience, economic and social resilience have great development potential, while infrastructure resilience requires further enhancement.(3)The main factor influencing urban flood resilience is economic factor at the dimension level, with per capita disposable income showing the highest degree of correlation.(4)Urban flood resilience in the study area is expected to continue its growth from 2024 to 2028. The core status of cities like Baoji, Xianyang and Yuncheng gradually becomes more prominent.
[1]王浩,王佳,刘家宏,等.城市水循环演变及对策分析[J].水利学报,2021,52(1):3-11
[2]张昕晗,赵文婷,焦菊英,等. 1960—2023年黄土高原极端降水事件时空演变特征[J].干旱区地理,2025,48(7):1153-1166
[3]刘家福,张柏.暴雨洪灾风险评估研究进展[J].地理科学,2015,35(3):346-351
[4]李超超,程晓陶,申若竹,等.城市化背景下洪涝灾害新特点及其形成机理[J].灾害学,2019,34(2):57-62
[5]蔡建明,郭华,汪德根.国外弹性城市研究述评[J].地理科学进展,2012,31(10):1245-1255
[6]文海家,钱龙,李卓航,等.山地城镇洪涝滑坡灾害韧性评估研究[J].防灾减灾工程学报,2024,44(4):751-761
[7]邵亦文,徐江.城市韧性:基于国际文献综述的概念解析[J].国际城市规划,2015,30(2):48-54
[8]李亚,翟国方,顾福妹.城市基础设施韧性的定量评估方法研究综述[J].城市发展研究,2016,23(6):113-122
[9]王化齐,张戈,李林,等.城市内涝风险识别、预警与韧性评估研究进展[J].灾害学,2023,38(1):136-140
[10]李亚,翟国方.我国城市灾害韧性评估及其提升策略研究[J].规划师,2017,33(8):5-11
[11]孟晓静,陈鑫,陈佳静,等.组合赋权-TOPSIS在洪涝灾害下城市区域韧性评估中的应用[J].安全与环境学报,2023,23(5):1465-1473
[12]贺山峰,梁爽,吴绍洪,等.长三角地区城市洪涝灾害韧性时空演变及其关联性分析[J].长江流域资源与环境,2022,31(9):1988-1999
[13]王文静,穆晓红,王媛媛,等.青海省城镇洪涝韧性评估及障碍因子诊断[J/OL].(2024-04-28)[2024-12-18].甘肃农业大学学报,http://kns. cnki. net/kcms/detail/62.1055.S.20240428. 1500. 060. html
[14]Fu L,Ding M,Zhang Q. Flood Risk Assessment of Urban Cultural Heritage Based on PSR Conceptual Model with Game Theory and Cloud Model:A Case Study of Nanjing[J].Journal of Cultural Heritage,2022,58:1-11
[15]徐彬,文彦君,郭梦凡,等.县域尺度下陕西省干旱灾害韧性时空演变特征及障碍因子分析[J].灾害学,2024,39(3):102-109
[16]许兆丰,田杰芳,张靖.防灾视角下城市韧性评价体系及优化策略[J].中国安全科学学报,2019,29(3):1-7
[17]Moghadas M,Asadzadeh A,Vafeidis A,et al. A Multi-criteria Approach for Assessing Urban Flood Resilience in Tehran,Iran[J]. International Journal of Disaster Risk Reduction,2019,35:101069
[18]高玉琴,汪键,高见,等.基于组合赋权-云模型的城市洪涝灾害韧性评价方法[J].水利水电科技进展,2024,44(2):22-29
[19]周健,张宏建,王冰,等.城市暴雨洪涝灾害脆弱性时空特征分析[J].地理空间信息,2021,19(10):40-43
[20]王松茂,牛金兰.山东半岛城市群城市生态韧性的动态演化及障碍因子分析[J].经济地理,2022,42(8):51-61
[21]陈军飞,张玉琦,嵇娟,等.长三角城市群洪涝韧性时空演化及影响因素[J].水资源保护,2024,40(6):58-68
[22]李梦杰,刘德林.中原城市群城市灾害韧性时空演变及障碍因子研究[J].中国安全科学学报,2022,32(9):144-151
[23]史玉芳,牛玉.关中平原城市群韧性空间关联网络及其影响因素研究[J].干旱区地理,2024,47(2):270-280
[24]《陕西历史自然灾害简要纪实》编委会.陕西历史自然灾害简要纪实[M].北京:气象出版社,2002
[25]袁林.西北灾荒史[M].兰州:甘肃人民出版社,1994
[26]雷向杰,李茜,王娟,等.陕西关中地区旱涝演变规律和21世纪旱涝特点分析[J].灾害学,2016,31(3):101-109
[27]Yang J,Huang X. The 30 m Annual Land Cover Dataset and Its Dynamics in China from 1990 to 2019[J]. Earth System Science Data,2021,13(8):3907-3925
[28]Zhu S Y,Li D Z,Huang G Y,et al. Enhancing Urban Flood Resilience:A Holistic Framework Incorporating Historic Worst Flood to Yangtze River Delta[J]. China International Journal of Disaster Risk Reduction,2021,61:102355
[29]Ruan J E,Chen Y B,Yang Z W. Assessment of Temporal and Spatial Progress of Urban Resilience in Guangzhou Under Rainstorm Scenarios[J]. International Journal of Disaster Risk Reduction,2021,66:102578
[30]苏广全,吕海深,朱永华,等.基于博弈论组合赋权的洪水风险评价:以武威地区为例[J].干旱区研究,2022,39(3):801-809
[31]尹建军,胡静,黄宇瑄.长江中游城市群城市韧性时空演化特征及动态预测研究[J].长江流域资源与环境,2023,32(11):2312-2325
[32]嵇娟,陈军飞,丁童慧,等.长三角城市群城市洪涝韧性与生态系统服务的耦合协调关系[J].生态学报,2024,44(7):2772-2785
基本信息:
中图分类号:TU992
引用信息:
[1]郑安丽,宋军林,李景宜,等.关中平原城市群内涝灾害韧性评估与影响因素分析[J].地理空间信息,2026,24(03):71-77.
基金信息:
国家自然科学基金资助项目(41771215); 陕西省重大项目前期工作专项资助项目(202310); 陕西省重点实验室资助项目(13JS009); 宝鸡文理学院研究生科研创新资助项目(YJSCX24YB54); 国家级大学生创新创业训练计划资助项目(202210721018)
2026-03-24
2026-03-24