[1] Academy of Disaster Reduction and Emergency Management, Ministry of Emergency Management-Ministry of Education, National Disaster Reduction Center of China, Ministry of Emergency Management. 2020 Global Natural Disaster Assessment Report [EB/OL]. (2021-10-10) [2021-12-12]. https://www.gddat.cn/WorldInfoSystem/production/BNU/2020-EN.pdf [2] 候玉栋, 李树平, 周巍魏, 等. 城市内涝现状分析与应对措施探讨. 《中国给水排水》杂志社第九届年会, 乌鲁木齐, 2012: 185-188 [3] 俞孔坚, 李迪华, 袁弘, 等. “海绵城市”理论与实践. 城市规划, 2015, 22(6): 26-36 [4] USEPA (US Environmental Protection Agency). Low Impact Development (LID): A Literature Review [EB/OL]. (2000-10-10) [2021-12-10]. https://nepis.epa.gov [5] USEPA (US Environmental Protection Agency). Enhancing Sustainable Communities with Green Infrasturcture [EB/OL]. (2014-10-10) [2021-12-10]. https://www.epa.gov [6] Ballard BW, Kellagher R. The SUDS Manual. London: Construction Industry Research & Information Association (CIRIA), 2007 [7] 陈娜, 马伯, 向辉, 等. 基于径流目标分解的南方低山丘陵区海绵城市建设——以湖南凤凰县为例. 经济地理, 2018, 38(8): 67-75 [8] 彭翀, 袁敏航, 顾朝林, 等. 区域弹性的理论与实践研究进展. 城市规划学刊, 2015(1): 84-92 [9] Turner BL, Kasperson RE, Matson PA. A framework for vulnerability analysis in sustainability science. Procee-dings of the National Academy of Sciences of the United States of America, 2003, 100: 8074-8079 [10] Liao KH. A theory on urban resilience to floods: A basis for alternative planning practices. Ecology & Society, 2012, 17: 388-395 [11] Bertilsson L, Wiklund K, Tebaldi IDM, et al. Urban flood resilience: A multi-criteria index to integrate flood resilience into urban planning. Journal of Hydrology, 2019, 573: 970-982 [12] Schelfaut K, Pannemans B, Craats IVD, et al. Bringing flood resilience into practice: The freeman project. Environmental Science & Policy, 2011, 14: 825-833 [13] 俞孔坚, 许涛, 李迪华, 等. 城市水系统弹性研究进展. 城市规划学刊, 2015(1): 75-83 [14] 许涛, 王春连, 洪敏. 基于灰箱模型的中国城市内涝弹性评价. 城市问题, 2015(4): 2-11 [15] 车伍, 周晓兵. 城市风景园林设计中的新型雨洪控制利用. 中国园林, 2008(11): 52-56 [16] 冯扬, 张新平, 刘建军, 等. 基于CiteSpace的国内外城市生态修复研究进展以及对西北地区的启示. 中国园林, 2018, 34(增刊1): 76-81 [17] Klein RJT, Nicholls RJ, Thomalla F. Resilience to natu-ral hazards: How useful is this concept? Global Environmental Change Part B: Environmental Hazards, 2003, 5: 35-45 [18] Holling CS. Resilience and stability of ecological systems. Annual Review of Ecology & Systematics, 1973, 4: 1-23 [19] 欧阳虹彬, 叶强. 弹性城市理论演化述评: 概念、脉络与趋势. 城市规划, 2016, 40(3): 34-42 [20] Restemeyer B, Woltjer J, Brink MVD. A strategy-based framework for assessing the flood resilience of cities: A Hamburg case study. Planning Theory & Practice, 2015, 16: 45-62 [21] Zhang X, Li H. Urban resilience and urban sustainabi-lity: What we know and what do not know? Cities, 2018, 72: 141-148 [22] Djordjevic' S, Butler D, Gourbesville P, et al. New policies to deal with climate change and other drivers impacting on resilience to flooding in urban areas: The CORFU approach. Environmental Science & Policy, 2011, 14: 864-873 [23] Hegger D, Essen PPJ, Wiering MA, et al. Toward more flood resilience: Is a diversification of flood risk management strategies the way forward? Ecology and Society, 2016, 21: 52-71 [24] Salinas R, Carlos NA, Ashley, et al. Incorporation and application of resilience in the context of water-sensitive urban design: Linking European and Australian perspectives. Wiley Interdisciplinary Reviews: Water, 2014, 1: 173-186 [25] Klijn M. Resilience: A new goal for water management? Landscape, 2000, 17: 31-44 [26] De Bruijn KM. Resilience and Flood Risk Management: A Systems Approach Applied to Lowland Rivers. PhD Thesis. Delft, Netherlands: Delft University of Techno-logy, 2005 [27] Batica J, Gourbesville P, Fang YH. Methodology for flood resilience index development. International Confe-rence on Flood Resilience Experience in Asia and Europe, Exeter, 2013: 312 [28] Tourbier J. A methodology to define flood resilience. EGU General Assembly Conference, Vienna, 2012: 13902 [29] Chen C. Searching for intellectual turning points: Progressive knowledge domain visualization. Proceedings of the National Academy of Sciences of the United States of America, 2004, 101: 5303-5310 [30] 车伍, 杨正, 赵杨, 等. 中国城市内涝防治与大小排水系统分析. 中国给水排水, 2013, 29(16): 13-19 [31] 陈子燊, 高时友, 李鸿皓. 基于二次重现期的城市两级排涝标准衔接的设计暴雨. 水科学进展, 2017, 28(3): 382-389 [32] 刘家宏, 夏霖, 王浩, 等. 城市深隧排水系统典型案例分析. 科学通报, 2017, 62(27): 3269-3276 [33] Vis M, Klijn F, De Bruijn KM, et al. Resilience strategies for flood risk management in the Netherlands. Advances in Science & Technology of Water Resources, 2003, 1: 33-40 [34] 曹哲静. 荷兰空间规划中水治理思路的转变与管理体系探究. 国际城市规划, 2018(6): 68-79 [35] Karin M, De B, Klijn F. Resilient flood risk management strategies. XXIX Biennial Congress of the International Association of Hydraulic Engineering and Research (IAHR), Beijing, 2001: 450-457 [36] Gunderson LH. Ecological and human community resi-lience in response to natural disasters. Ecology and Soc-iety, 2010, 15: 18 [37] 颜文涛, 王云才, 象伟宁. 城市雨洪管理实践需要生态实践智慧的引导. 生态学报, 2016, 36(16): 4926-4928 [38] 冯娴慧, 李明翰. 美国雨水管理理念与实践的发展历程研究与思考. 中国园林, 2018, 34(9): 89-93 [39] Li MH, Dvorak BD, Sung CY. Bioretention, low impact development, and stormwater management. Urban Ecosystem Ecology, 2010, 55: 413-430 [40] Eckart K, Mcphee Z, Bolisetti T. Performance and implementation of low impact development: A review. Science of the Total Environment, 2017, 607-608: 413-432 [41] CIRIA. Sustainable Urban Drainage System-Best Practice Manual for England, Scotland, Wales and Northern Ireland. London: Construction Industry Research and Information Association, 2001 [42] Ahammed F. A review of water-sensitive urban design technologies and practices for sustainable stormwater management. Sustainable Water Resources Management, 2017, 3: 1-14 [43] 张园, 于冰沁, 车生泉. 绿色基础设施和低冲击开发的比较及融合. 中国园林, 2014, 30(3): 49-53 [44] 方程, Charlene LB, 赵宏宇, 等. 视野·格局·焦点——2017国际风景园林教育大会(CELA)雨洪管理前沿研究综述. 现代城市研究, 2018, 33(2): 2-8 [45] 张青萍, 李晓策, 陈逸帆, 等. 海绵城市背景下的城市雨洪景观安全格局研究. 现代城市研究, 2016, 31(7): 6-18 [46] Jiao S, Zhang X, Xu Y. A review of Chinese land suitability assessment from the rainfall-waterlogging perspective: Evidence from the Su Yu Yuan area. Journal of Cleaner Production, 2017, 144: 100-106 [47] 孙瑶, 曾振, 许乙青. 基于流域概念的城市生态排水体系构建——以溆浦县城区生态排水体系构建为例. 中国园林, 2013, 29(10): 91-95 [48] 陈娜, 任安之, 马伯, 等. 湖南省凤凰县雨洪管控路径. 地理学报, 2021, 76(1): 153-166 [49] 吴先华, 肖杨, 李廉水, 等. 大数据融合的城市暴雨内涝灾害应急管理述评. 科学通报, 2017, 62(9): 920-927 [50] 孙超, 钟少波, 邓羽. 基于暴雨内涝灾害情景推演的北京市应急救援方案评估与决策优化. 地理学报, 2017, 72(5): 804-816 [51] 周蕾, 吴先华, 吉中会. 考虑恢复力的洪涝灾害损失评估研究进展. 自然灾害学报, 2017, 26(2): 11-21 [52] 张冬冬, 严登华, 王义成, 等. 城市内涝灾害风险评估及综合应对研究进展. 灾害学, 2014, 29(1): 144-149 [53] Jayasooriya VM, Ng AWM. Tools for modeling of stormwater management and economics of green infrastructure practices: A review. Water, Air & Soil Pollution, 2014, 225: 2055 [54] Yin Z, Jie Y, Xu S, et al. Community-based scenario modelling and disaster risk assessment of urban rainstorm waterlogging. Journal of Geographical Sciences, 2011, 21: 274-284 [55] 陈虹, 李家科, 李亚娇, 等. 暴雨洪水管理模型SWMM的研究及应用进展. 西北农林科技大学学报:自然科学版, 2015, 43(12): 225-234 [56] 刘家琳, 张建林. 基于SWMM模型的山坡型公园子汇水区地表产流特征——以重庆地区为例. 中国园林, 2018, 34(6): 81-87 [57] 蔡凌豪. 适用于“海绵城市”的水文水力模型概述. 风景园林, 2016(2): 33-43 |