[1] Whitford V, Ennos AR, Handley JF. “City form and natural process” : Indicators for the ecological perfor-mance of urban areas and their application to Merseyside, UK. Landscape and Urban Planning, 2001, 57: 91-103 [2] Peng C (彭 翀), Zhang C (张 晨), Gu C-L (顾朝林). Response to megalopolis’ comprehensive city planning for a “sponge city”. South Architecture (南方建筑), 2015(3): 48-53 (in Chinese) [3] County PG. Low-impact Development Design Strategies: An Integrated Design Approach. Prince Georges County, Maryland: Department of Environmental Resources, Programs and Planning Division, 1999 [4] United States Environmental Protection Agency. Low Impact Development (LID): A Literature Review. EPA-841-B-00-005. Washington DC: United States Environmental Protection Agency, 2000 [5] CIRIA. SUDS: Sustainable Drainage Systems: Promoting Good Practice-A CIRIA Initiative [EB/OL]. (2005-09-09) [2008-03-22]. http://www.ciria.org/suds/background.html [6] Martiz M. Water sensitive urban design. Australian Journal of Soil and Water Conservation, 1990, 3: 19-22 [7] Coffman L. Low-impact development: Smart technology for clean water definitions, issues, roadblocks, and next steps. Proceedings of the Global Solutions for Urban Drainage, Portland, 2002: 1-11 [8] Xiong L-J (熊丽君), Huang F (黄 飞), Xu Z-X (徐祖信), et al. Characteristics of rainfall and runoff in urban drainage based on the SWMM model. Chinese Journal of Applied Ecology (应用生态学报), 2015, 26(11): 3659-3666 (in Chinese) [9] Qin HP, Li ZX, Fu GT. The effects of low impact deve-lopment on urban flooding under different rainfall cha-racteristics. Journal of Environmental Management, 2013, 129: 577-585 [10] Tong H (仝 贺), Wang J-L (王建龙), Che W (车伍), et al. The methodological discussion on urban planning on the concept of sponge city. South Architecture (南方建筑), 2015(4): 108-114 (in Chinese) [11] Qiu B-X (仇保兴). Connotation, ways and prospects of sponge city (LID). Water & Wastewater Engineering (给水排水), 2015(3): 1-7 (in Chinese) [12] Liao C-X (廖朝轩), Gao A-G (高爱国), Hang E-H (黄恩浩). Enlightenment of rainwater management in foreign countries to sponge city construction in China. Water Resources Protection (水资源保护), 2016, 32(1): 42-45 (in Chinese) [13] Ke S-B (柯善北). Recipe for solving the problem of “see the sea from the city”: Understanding technical guide for sponge city construction. China Construction (中华建设), 2015(1): 22-25 (in Chinese) [14] Li JX, Song CH, Cao L, et al. Impacts of landscape structure on surface urban heat islands: A case study of Shanghai, China. Remote Sensing of Environment, 2011, 115: 3249-3263 [15] Sun RH, Chen LD. How can urban water bodies be designed for climate adaptation? Landscape and Urban Planning, 2012, 105: 27-33 [16] Kadish J, Netusil NR. Valuing vegetation in an urban watershed. Landscape and Urban Planning, 2012, 104: 59-65 [17] Diaz-Ramirez J, Duan ZY, McAnally W, et al. Sensitivity of the HSPE model to land use/land cover datasets. Journal of Coastal Research, 2005, 52:89-94 [18] Chen L-D (陈利顶), Sun R-H (孙然好), Liu H-L (刘海莲). Eco-environmental effects of urban landscape pattern changes: Progresses, problems, and perspectives. Acta Ecologica Sinica (生态学报), 2013, 33(4): 1042-1050 (in Chinese) [19] Nagase A, Dunnett N. Amount of water runoff from different vegetation types on extensive green roofs: Effects of plant species, diversity and plant structure. Landscape and Urban Planning, 2012, 104: 356-363 [20] Caradot N, Granger D, Chapgier J, et al. Urban flood risk assessment using sewer flooding databases. Water Science & Technology, 2011, 64: 832-840 [21] Suriya S, Mudgal BV. Impact of urbanization on flooding: The Thirusoolam subwatershed: A case study. Journal of Hydrology, 2012, 412/413: 210-219 [22] Ministry of Housing and Urban-Rural Development of the People’s Republic of China (中华人民共和国住房和城乡建设部). Sponge City Construction Technology Guide: Low Impact Development Rainwater System Building (Trial). Beijing: Ministry of Housing and Urban-Rural Development, People’s Republic of China, 2014 (in Chinese) [23] Panjin Planning Bureau (盘锦规划局). The Master Planning of Liaodong Bay New District, Panjin [EB/OL]. (2015-06-23) [2016-06-18]. http://gh.panjin.gov.cn/kzxxxgh/content/40288bd74fb4aa8f01518ac6dc-223b86.html (in Chinese) [24] Liu W (刘 文), Chen W-P (陈卫平), Peng C (彭驰). Advances in low impact development technology for urban stormwater management. Chinese Journal of Applied Ecology (应用生态学报), 2015, 26(6): 1901-1912 (in Chinese) [25] Wang Q-S (王琼珊), Liu X-M (刘晓梅), Zhao D-Q (赵冬泉). Selection of low impact development techniques and analysis of suitable construction area. China Water & Wastewater (中国给水排水), 2014, 30(3): 96-100 (in Chinese) [26] Facilities Planning & Workplace Resources Department. Campus Planning & Design Guidelines[EB/OL]. (2010-08-12) [2014-05-23]. http://www.studiolimage.com/planning _ site/guidelines/03210guide-landcirc.html [27] Fassman EA, Blackbourn S. Urban runoff mitigation by a permeable pavement system over impermeable soils. Journal of Hydrologic Engineering, 2010, 15: 475-485 [28] Dreelin EA, Fowler L, Carroll C. A test of porous pavement effectiveness on clay soils during natural storm events. Water Research, 2006, 40: 799-805 [29] Jin C-T (晋存田), Zhao S-Q (赵树旗), Yan X-L (闫肖丽), et al. Impacts of permeable brick and sunken lawn on urban stormwater. China Water & Wastewater (中国给水排水), 2010, 26(1): 40-46 (in Chinese) [30] Ma S-S (马珊珊), Zhuang B-Y (庄宝玉), Zhang X-B (张新波), et al. Analysis of peak flow reduction with green roof and sunken lawn applied in series. China Water & Wastewater (中国给水排水), 2014, 30(3): 101-105 (in Chinese) [31] Wang H-W (王红武), Mao Y-F (毛云峰), Gao Y (高 原), et al. Low impact development practice and its effects. Environmental Science & Technology (环境科学与技术), 2012, 35(10): 99-103 (in Chinese) [32] Fu B-J (傅伯杰), Lv Y-H (吕一河), Chen L-D (陈利顶), et al. The latest progress of landscape ecology in the world. Acta Ecologica Sinica (生态学报), 2008, 28(2): 798-804 (in Chinese) [33] Turner MG. Spatial and temporal analysis of landscape patterns. Landscape Ecology, 2005, 4: 21-30 [34] Xiang WN. Doing real and permanent good in landscape and urban planning: Ecological wisdom for urban sustainability. Landscape and Urban Planning, 2014, 121: 65-69 [35] Wang R-S (王如松), Li F (李 锋), Han B-L (韩宝龙), et al. Urban eco-complex and eco-space mana-gement. Acta Ecologica Sinica (生态学报), 2014, 34(1): 1-11 (in Chinese) [36] Zhou H, Shi P, Wang J, et al. Rapid urbanization and implications for river ecological services restoration: Case study in Shenzhen, China. Journal of Urban Planning and Development, 2011, 137: 121-132 [37] Zhang L (张 靓), Zeng H (曾 辉), He S-B (赫胜彬). Measuring ecological footprints of Chinese pro-vinces between 1992 and 2010 based on an improved ecological footprint model. Ecology and Environmental Sciences (生态环境学报), 2013, 22(8): 1365-1370 (in Chinese) [38] Mao Q-Z (毛齐正), Ma K-M (马克明), Wu J-G (邬建国), et al. An overview of advances in distributional pattern of urban biodiversity. Acta Ecologica Sinica (生态学报), 2013, 33(4): 1051-1064 (in Chinese) [39] Li X, Zhou W, Ouyang Z, et al. Spatial pattern of greenspace affects land surface temperature: Evidence from the heavily urbanized Beijing metropolitan area, China. Landscape Ecology, 2012, 27: 887-898 [40] Chen A-L (陈爱莲), Sun R-H (孙然好), Chen L-D (陈利顶). Studies on urban heat island from a landscape pattern view: A review. Acta Ecologica Sinica (生态学报), 2012, 32(14): 4553-456 (in Chinese) [41] Pathirana A, Denekew HB, Veerbeek W, et al. Impact of urban growth-driven land use change on microclimate and extreme precipitation: A sensitivity study. Atmospheric Research, 2014, 138: 59-72 [42] Gong J-P (宫继萍), Hu Y-M (胡远满), Liu M (刘淼), et al. Review on three-dimensional expansion and its atmosphere environmental effects of urban landscape. Chinese Journal of Ecology (生态学杂志), 2015, 34(2): 562-570 (in Chinese) [43] Li C-L (李春林), Liu M (刘 淼), Hu Y-M (胡远满), et al. Characteristics of pollutants in urban rainfall runoff in Shenyang City. Chinese Journal of Ecology (生态学杂志) 2014, 33(5): 1327-1336 (in Chinese) |