实现城市可持续发展的系统转型
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摘要
城市在为人类提供各种生态系统服务的同时,其发展中的各类问题限制着城市生态系统本身的可持续发展。首先概述了城市发展过程中面临的挑战,主要包括城市化过程中人与自然的关系问题及社会生态问题等;其次从可持续发展的内涵、社会-经济-自然复合生态系统和驱动力-压力-状态-影响-响应(DPSIR)的理论出发,分别从城市水供给和污水处置系统、消减城市废弃物排放、城市交通和区域规划、城市发展与粮食系统供求关系、城市清洁能源系统等5个方面对如何实现城市的转型进行了系统的论述。结合我国城市可持续发展的研究进展,指出城市的可持续发展问题不仅是城市自身的问题,也是城市与周边区域的协调发展问题。为此,文章提出必须基于五个"转向"来研究和建立城市化与区域生态的耦合和协调机制。
Cities have offered diversified ecosystem services for human wellbeing, while various kinds of problems emerging in urban development have hindered the sustainability of urban ecosystems. This paper presented the major challenges for urbanization including ecological and social problems as a result of rapid urban development. Based on the connotation of sustainable development, theory of Social-Economic-Natural Complex Ecosystem and Driver-Pressure-State-Impact-Response(DPSIR) model, urban water supply and sewage treatment systems, urban waste emission reduction, urban transportation and regional planning, food systems in response to urban expansion, and urban clean energy systems were systematically discussed to achieve the urban transformation. In view of the urban sustainable development in China, it is not just about city itself but also about its integrated relationships with its surrounding regions. Therefore, the paper suggested that the coupling and coordination mechanisms between urbanization and regional ecology be studied and established based on the five "transformations".
Cities have offered diversified ecosystem services for human wellbeing, while various kinds of problems emerging in urban development have hindered the sustainability of urban ecosystems. This paper presented the major challenges for urbanization including ecological and social problems as a result of rapid urban development. Based on the connotation of sustainable development, theory of Social-Economic-Natural Complex Ecosystem and Driver-Pressure-State-Impact-Response(DPSIR) model, urban water supply and sewage treatment systems, urban waste emission reduction, urban transportation and regional planning, food systems in response to urban expansion, and urban clean energy systems were systematically discussed to achieve the urban transformation. In view of the urban sustainable development in China, it is not just about city itself but also about its integrated relationships with its surrounding regions. Therefore, the paper suggested that the coupling and coordination mechanisms between urbanization and regional ecology be studied and established based on the five "transformations".
引文
[1] Dye C. Health and urban living. Science, 2008, 319(5864): 766- 769.
[2] Lahariya C. The state of the world population 2007: unleashing the potential of urban growth. Indian Pediatrics, 2008, 45(6): 481- 482.
[3] Rise of the city. Science, 2016, 352(6288): 906- 907.
[4] Normile D. China rethinks cities. Science, 2016, 352(6288): 916- 918.
[5] 吕永龙, 王尘辰, 曹祥会. 城市化的生态风险及其管理. 生态学报, 2018, 38(2): 359- 370.
[6] Yin K, Wang R S, An Q X, Yao L, Liang J. Using eco-efficiency as an indicator for sustainable urban development: a case study of Chinese provincial capital cities. Ecological Indicators, 2014, 36: 665- 671.
[7] Wang Q S, Yuan X L, Zhang J, Mu R M, Yang H C, Ma C Y. Key evaluation framework for the impacts of urbanization on air environment-a case study. Ecological Indicators, 2013, 24: 266- 272.
[8] United Nations. World Urbanization Prospects, The 2011 Revision. New York: Department of Economic and Social Affairs, Population Division, 2012.
[9] UNDP. A Report on the Sustainable Development of China′s Cities. 2016.
[10] Grimm N B, Faeth S H, Golubiewski N E, Redman C L, Wu J G, Bai X M, Briggs J M. Global change and the ecology of cities. Science, 2008, 319(5864): 756- 760.
[11] 杨振山, 丁悦, 李娟. 城市可持续发展研究的国际动态评述. 经济地理, 2016, 36(7): 9- 18.
[12] Aminzadeh B, Khansefid M. A case study of urban ecological networks and a sustainable city: Tehran′s metropolitan area. Urban Ecosystems, 2010, 13(1): 23- 36.
[13] Parikh J, Shukla V. Urbanization, energy use and greenhouse effects in economic development: results from a cross-national study of developing countries. Global Environmental Change, 1995, 5(2): 87- 103.
[14] Hobbie S E, Finlay J C, Janke B D, Nidzgorski D A, Millet D B, Baker L A. Contrasting nitrogen and phosphorus budgets in urban watersheds and implications for managing urban water pollution. Proceedings of the National Academy of Sciences of the United States of America, 2017, 114(16): 4177- 4182.
[15] 许丽丽, 李宝林, 袁烨城, 高锡章, 刘海江, 董贵华. 2000- 2010年中国耕地变化与耕地占补平衡政策效果分析. 资源科学, 2015, 37(8): 1543- 1551.
[16] 吕苑鹃. 全国耕地面积继续维持在20.25亿亩. 中国国土资源报, 2016, 34(3): 4- 5.
[17] Li J, Wang Z L, Lai C G, Wu X Q, Zeng Z Y, Chen X H, Lian Y Q. Response of net primary production to land use and land cover change in mainland China since the late 1980s. Science of the Total Environment, 2018, 639: 237- 247.
[18] Seto K C, Ramankutty N. Hidden linkages between urbanization and food systems. Science, 2016, 352(6288): 943- 945.
[19] 周洪建, 史培军, 王静爱, 高路, 郑憬, 于德永. 近30年来深圳河网变化及其生态效应分析. 地理学报, 2008, 63(9): 969- 980.
[20] Deng X J, Xu Y P, Han L F, Song S, Yang L, Li G, Wang Y F. Impacts of urbanization on river systems in the Taihu Region, China. Water, 2015, 7(4): 1340- 1358.
[21] 许有鹏. 长江三角洲地区城市化对流域水系与水文过程的影响. 北京: 科学出版社, 2012.
[22] Costanza R, d′Arge R, de Groot R, Farber S, Grasso M, Hannon B, Limburg K, Naeem S, O′Neill R V, Paruelo J, Raskin R G, Sutton P, van den Belt M. The value of the world′s ecosystem services and natural capital. Nature, 1997, 387(6630): 253- 260.
[23] Platt R H, Rowntree R A, Muick P C. The Ecological City: Preserving and Restoring Urban Biodiversity. Amherst: University of Massachusetts Press, 1994: 463- 464.
[24] Alberti M, Correa C, Marzluff J M, Hendry A P, Palkovacs E P, Gotanda K M, Hunt V M, Apgar T M, Zhou Y Y. Global urban signatures of phenotypic change in animal and plant populations. Proceedings of the National Academy of Sciences of the United States of America, 2017, 114(34): 8951- 8956.
[25] Murray V, McBean G M, Bhatt M, Borsch S, Cheong S. Managing the risks of extreme events and disasters to advance climate change adaptation. Journal of Clinical Endocrinology & Metabolism, 2011, 18(6): 586- 599.
[26] Kalnay E, Cai M. Impact of urbanization and land-use change on climate. Nature, 2003, 423(6939): 528- 531.
[27] Sun Y, Zhang X B, Ren G Y, Zwiers F W, Hu T. Contribution of urbanization to warming in China. Nature Climate Change, 2016, 6(7): 706- 709.
[28] Hallegatte S, Green C, Nicholls R J, Corfee-Morlot J. Future flood losses in major coastal cities. Nature Climate Change, 2013, 3(9): 802- 806.
[29] Gaines J M. Flooding: water potential. Nature, 2016, 531(7594): S54-S55.
[30] European Commissions. European Sustainable Cities Report. Luxembourg: Office for Official Publications of the European Communities, 1996.
[31] 汝信, 陆学艺, 李培林. 社会蓝皮书: 2012年中国社会形势分析与预测. 北京: 社会科学文献出版社, 2012.
[32] Kain J F. Housing segregation, negro employment, and metropolitan decentralization. The Quarterly Journal of Economics, 1968, 82(2): 175- 197.
[33] Kahn M E. Does sprawl reduce the black/white housing consumption gap? Housing Policy Debate, 2001, 12(1): 77- 86.
[34] Haughton G. Sustainable Cities. London: Jessica Kingsley Publishers, 1996.
[35] 国土资源部. 全国土地利用总体规划纲要(2006—2020). [2008- 10- 24]. http://www.mlr.gov.cn/xwdt/jrxw/201606/t20160623_1409630.htm.
[36] Bai X M, Shi P J, Liu Y S. Realizing China′s urban dream. Nature, 2014, 59(1799): 158- 160.
[37] Guidotti T L. Health and urban ecosystems. Archives of Environmental & Occupational Health, 2010, 65(1): 54- 55.
[38] McDonnell M J, MacGregor-Fors I. The ecological future of cities. Science, 2016, 352(6288): 936- 938.
[39] 王如松, 欧阳志云. 社会-经济-自然复合生态系统与可持续发展. 中国科学院院刊, 2012, 27(3): 337- 345.
[40] Pollock K. Policy: urban physics. Nature, 2016, 531(7594): S64-S66.
[41] 高长波, 张世喜, 莫创荣, 陈新庚. 广东省生态可持续发展定量研究: 生态足迹时间维动态分析. 生态环境, 2005, 14(1): 57- 62.
[42] 陆宏芳, 沈善瑞, 陈洁, 蓝盛芳. 生态经济系统的一种整合评价方法: 能值理论与分析方法. 生态环境, 2005, 14(1): 121- 126.
[43] 马国丰, 陆居一. 国内外系统动力学研究综述. 经济研究导刊, 2013, (6): 218- 219.
[44] 杨柳, 马克明, 郭青海, 赵景柱. 城市化对水体非点源污染的影响. 环境科学, 2004, 25(6): 32- 39.
[45] V?r?smarty C J, Green P, Salisbury J, Lammers R B. Global water resources: vulnerability from climate change and population growth. Science, 2000, 289(5477): 284- 288.
[46] 中国工程院"21世纪中国可持续发展水资源战略研究"项目组. 中国可持续发展水资源战略研究综合报告. 中国工程科学, 2000, 2(8): 1- 17.
[47] Bruaset S, Rygg H, S?grov S. Reviewing the long-term sustainability of urban water system rehabilitation strategies with an alternative approach. Sustainability, 2018, 10(6): 1987.
[48] Endo T. Groundwater management: a search for better policy combinations. Water Policy, 2015, 17(2): 332- 348.
[49] Varis O, Enckell K, Keskinen M. Integrated water resources management: Horizontal and vertical explorations and the ‘water in all policies’ approach. International Journal of Water Resources Development, 2014, 30(3): 433- 444.
[50] Marlow D R, Moglia M, Cook S, Beale D J. Towards sustainable urban water management: A critical reassessment. Water Research, 2013, 47(20): 7150- 7161.
[51] Fletcher T D, Shuster W, Hunt W F, Ashley R, Butler D, Arthur S, Trowsdale S, Barraud S, Semadeni-Davies A, Bertrand-Krajewski J L, Mikkelsen P S, Rivard G, Uhl M, Dagenais D, Viklander M. SUDS, LID, BMPs, WSUD and more-the evolution and application of terminology surrounding urban drainage. Urban Water Journal, 2015, 12(7): 525- 542.
[52] Gaines J M. Flooding: water potential. Nature, 2016, 531(7594): S54-S55.
[53] Grant S B, Saphores J D, Feldman D L, Hamilton A J, Fletcher T D, Cook P L M, Stewardson M, Sanders B F, Levin L A, Ambrose R F, Deletic A, Brown R, Jiang S C, Rosso D, Cooper W J, Marusic I. Taking the “waste” out of “wastewater” for human water security and ecosystem sustainability. Science, 2012, 337(6095): 681- 686.
[54] National Academies of Sciences, Engineering, and Medicine. Using Graywater and Stormwater to Enhance Local Water Supplies: An Assessment of Risks, Costs, and Benefits. Washington, DC: The National Academies Press, 2016.
[55] Meggers F, Leibundgut H. The potential of wastewater heat and exergy: decentralized high-temperature recovery with a heat pump. Energy and Buildings, 2011, 43(4): 879- 886.
[56] Larsen T A, Hoffmann S, Lüthi C, Truffer B, Maurer M. Emerging solutions to the water challenges of an urbanizing world. Science, 2016, 352(6288): 928- 933.
[57] Hoornweg D, Bhada-Tata P. What a Waste: A Global Review of Solid Waste Management. Washington, DC: World Bank, 2012.
[58] van Berkel R, Fujita T, Hashimoto S, Fujii M. Quantitative Assessment of Urban and Industrial Symbiosis in Kawasaki, Japan. Environmental Science & Technology, 2009, 43(5): 1271- 1281.
[59] Karagulian F, Belis C A, Dora C F C, Prüss-Ustün A M, Bonjour S, Adair-Rohani H, Amann M. Contributions to cities′ ambient particulate matter (PM): A systematic review of local source contributions at global level. Atmospheric Environment, 2015, 120: 475- 483.
[60] Ausubel J H, Waggoner P E. Dematerialization: variety, caution, and persistence. Proceedings of the National Academy of Sciences of the United States of America, 2008, 105(35): 12774- 12779.
[61] Hoornweg D, Bhada-Tata P, Kennedy C. Environment: waste production must peak this century. Nature, 2013, 502(7473): 615- 617.
[62] 齐宇, 朱坦, 高帅, 王军锋, 汲奕君, 张墨, 卜欣欣. 中国产业园区循环化改造应用关键物质流典型路径分析方法. 生态学报, 2016, 36(22): 7335- 7345.
[63] Kennedy C, Baker L, Dhakal S, Ramaswami A. Sustainable urban systems. Journal of Industrial Ecology, 2012, 16(6): 775- 779.
[64] Colvile R N, Hutchinson E J, Mindell J S, Warren R F. The transport sector as a source of air pollution. Atmospheric Environment, 2001, 35(9): 1537- 1565.
[65] Parrish D D, Zhu T. Clean air for megacities. Science, 2009, 326(5953): 674- 675.
[66] Kelly F J, Zhu T. Transport solutions for cleaner air. Science, 2016, 352(6288): 934- 936.
[67] 陆建, 王炜. 从城市交通规划发展看城市交通可持续发展规划. 华中科技大学学报: 城市科学版, 2003, 20(3): 11- 15.
[68] d′Amour C B, Reitsma F, Baiocchi G, Barthel S, Güneralp B, Erb K H, Haberl H, Creutzig F, Seto K C. Future urban land expansion and implications for global croplands. Proceedings of the National Academy of Sciences of the United States of America, 2017, 114(34): 8939- 8944.
[69] Godfray H C J, Crute I R, Haddad L, Lawrence D, Muir J F, Nisbett N, Pretty J, Robinson S, Toulmin C, Whiteley R. The future of the global food system. Philosophical Transactions of the Royal Society B: Biological Sciences, 2010, 365(1554): 2769- 2777.
[70] Foley J A, Ramankutty N, Brauman K A, Cassidy E S, Gerber J S, Johnston M, Mueller N D, O′Connell C, Ray D K, West P C, Balzer C, Bennett E M, Carpenter S R, Hill J, Monfreda C, Polasky S, Rockstr?m J, Sheehan J, Siebert S, Tilman D, Zaks D P M. Solutions for a cultivated planet. Nature, 2011, 478(7369): 337- 342.
[71] Barbier E B. Explaining agricultural land expansion and deforestation in developing countries. American Journal of Agricultural Economics, 2004, 86(5): 1347- 1353.
[72] Popkin B M. Urbanization, lifestyle changes and the nutrition transition. World Development, 1999, 27(11): 1905- 1916.
[73] Brown L R. Eco-Economy: Building an Economy for the Earth. New York: Norton, 2001.
[74] Kennedy C A, Ibrahim N, Hoornweg D. Low-carbon infrastructure strategies for cities. Nature Climate Change, 2014, 4(5): 343- 346.
[75] Kammen D M, Sunter D A. City-integrated renewable energy for urban sustainability. Science, 2016, 352(6288): 922- 928.
[76] United Nations Environment Programme. Buildings and Climate Change: Summary for Decision-Makers. 2009.
[77] 刘恒伟, 麻林巍, 付峰, 黄河, 李政, 倪维斗. 城市交通能源可持续发展规划理论体系初探. 中国能源, 2007, 29(4): 21- 25.
[78] 沈清基. 中国城市能源可持续发展研究: 一种城市规划的视角. 城市规划学刊, 2005, (6): 41- 47.
[79] 李迅, 刘琰. 中国低碳生态城市发展的现状、问题与对策. 城市规划学刊, 2011, (4): 23- 29.
[80] 张伟, 张宏业, 刘婷, 祝炜平. 我国生态城市建设的时空演化格局及其驱动机理分析. 城市发展研究, 2012, 19(5): 44- 49.
[81] 仇保兴. 紧凑度和多样性——我国城市可持续发展的核心理念. 城市规划, 2006, 30(11): 18- 24.
[82] 林珍铭, 夏斌. 熵视角下的广州城市生态系统可持续发展能力分析. 地理学报, 2013, 68(1): 45- 57.
[83] 吕一河, 马志敏, 傅伯杰, 高光耀. 生态系统服务多样性与景观多功能性——从科学理念到综合评估. 生态学报, 2013, 33(4): 1153- 1159.
[84] 李春荣, 耿涌, 薛冰, 任婉侠, 董会娟. 基于DEMATEL的城市可持续发展障碍因素分析——以沈阳市为例. 应用生态学报, 2012, 23(10): 2836- 2842.
[85] Liu Z Y, Pu C L, Yan Z M, Wei Z, Li Q, Huang X D. Influence factors of urban sustainable development of Xinjiang Uyghur Autonomous region- with a case of Urumqi. Agricultural Science & Technology, 2013, 14(11): 1674- 1678, 1682- 1682.
[2] Lahariya C. The state of the world population 2007: unleashing the potential of urban growth. Indian Pediatrics, 2008, 45(6): 481- 482.
[3] Rise of the city. Science, 2016, 352(6288): 906- 907.
[4] Normile D. China rethinks cities. Science, 2016, 352(6288): 916- 918.
[5] 吕永龙, 王尘辰, 曹祥会. 城市化的生态风险及其管理. 生态学报, 2018, 38(2): 359- 370.
[6] Yin K, Wang R S, An Q X, Yao L, Liang J. Using eco-efficiency as an indicator for sustainable urban development: a case study of Chinese provincial capital cities. Ecological Indicators, 2014, 36: 665- 671.
[7] Wang Q S, Yuan X L, Zhang J, Mu R M, Yang H C, Ma C Y. Key evaluation framework for the impacts of urbanization on air environment-a case study. Ecological Indicators, 2013, 24: 266- 272.
[8] United Nations. World Urbanization Prospects, The 2011 Revision. New York: Department of Economic and Social Affairs, Population Division, 2012.
[9] UNDP. A Report on the Sustainable Development of China′s Cities. 2016.
[10] Grimm N B, Faeth S H, Golubiewski N E, Redman C L, Wu J G, Bai X M, Briggs J M. Global change and the ecology of cities. Science, 2008, 319(5864): 756- 760.
[11] 杨振山, 丁悦, 李娟. 城市可持续发展研究的国际动态评述. 经济地理, 2016, 36(7): 9- 18.
[12] Aminzadeh B, Khansefid M. A case study of urban ecological networks and a sustainable city: Tehran′s metropolitan area. Urban Ecosystems, 2010, 13(1): 23- 36.
[13] Parikh J, Shukla V. Urbanization, energy use and greenhouse effects in economic development: results from a cross-national study of developing countries. Global Environmental Change, 1995, 5(2): 87- 103.
[14] Hobbie S E, Finlay J C, Janke B D, Nidzgorski D A, Millet D B, Baker L A. Contrasting nitrogen and phosphorus budgets in urban watersheds and implications for managing urban water pollution. Proceedings of the National Academy of Sciences of the United States of America, 2017, 114(16): 4177- 4182.
[15] 许丽丽, 李宝林, 袁烨城, 高锡章, 刘海江, 董贵华. 2000- 2010年中国耕地变化与耕地占补平衡政策效果分析. 资源科学, 2015, 37(8): 1543- 1551.
[16] 吕苑鹃. 全国耕地面积继续维持在20.25亿亩. 中国国土资源报, 2016, 34(3): 4- 5.
[17] Li J, Wang Z L, Lai C G, Wu X Q, Zeng Z Y, Chen X H, Lian Y Q. Response of net primary production to land use and land cover change in mainland China since the late 1980s. Science of the Total Environment, 2018, 639: 237- 247.
[18] Seto K C, Ramankutty N. Hidden linkages between urbanization and food systems. Science, 2016, 352(6288): 943- 945.
[19] 周洪建, 史培军, 王静爱, 高路, 郑憬, 于德永. 近30年来深圳河网变化及其生态效应分析. 地理学报, 2008, 63(9): 969- 980.
[20] Deng X J, Xu Y P, Han L F, Song S, Yang L, Li G, Wang Y F. Impacts of urbanization on river systems in the Taihu Region, China. Water, 2015, 7(4): 1340- 1358.
[21] 许有鹏. 长江三角洲地区城市化对流域水系与水文过程的影响. 北京: 科学出版社, 2012.
[22] Costanza R, d′Arge R, de Groot R, Farber S, Grasso M, Hannon B, Limburg K, Naeem S, O′Neill R V, Paruelo J, Raskin R G, Sutton P, van den Belt M. The value of the world′s ecosystem services and natural capital. Nature, 1997, 387(6630): 253- 260.
[23] Platt R H, Rowntree R A, Muick P C. The Ecological City: Preserving and Restoring Urban Biodiversity. Amherst: University of Massachusetts Press, 1994: 463- 464.
[24] Alberti M, Correa C, Marzluff J M, Hendry A P, Palkovacs E P, Gotanda K M, Hunt V M, Apgar T M, Zhou Y Y. Global urban signatures of phenotypic change in animal and plant populations. Proceedings of the National Academy of Sciences of the United States of America, 2017, 114(34): 8951- 8956.
[25] Murray V, McBean G M, Bhatt M, Borsch S, Cheong S. Managing the risks of extreme events and disasters to advance climate change adaptation. Journal of Clinical Endocrinology & Metabolism, 2011, 18(6): 586- 599.
[26] Kalnay E, Cai M. Impact of urbanization and land-use change on climate. Nature, 2003, 423(6939): 528- 531.
[27] Sun Y, Zhang X B, Ren G Y, Zwiers F W, Hu T. Contribution of urbanization to warming in China. Nature Climate Change, 2016, 6(7): 706- 709.
[28] Hallegatte S, Green C, Nicholls R J, Corfee-Morlot J. Future flood losses in major coastal cities. Nature Climate Change, 2013, 3(9): 802- 806.
[29] Gaines J M. Flooding: water potential. Nature, 2016, 531(7594): S54-S55.
[30] European Commissions. European Sustainable Cities Report. Luxembourg: Office for Official Publications of the European Communities, 1996.
[31] 汝信, 陆学艺, 李培林. 社会蓝皮书: 2012年中国社会形势分析与预测. 北京: 社会科学文献出版社, 2012.
[32] Kain J F. Housing segregation, negro employment, and metropolitan decentralization. The Quarterly Journal of Economics, 1968, 82(2): 175- 197.
[33] Kahn M E. Does sprawl reduce the black/white housing consumption gap? Housing Policy Debate, 2001, 12(1): 77- 86.
[34] Haughton G. Sustainable Cities. London: Jessica Kingsley Publishers, 1996.
[35] 国土资源部. 全国土地利用总体规划纲要(2006—2020). [2008- 10- 24]. http://www.mlr.gov.cn/xwdt/jrxw/201606/t20160623_1409630.htm.
[36] Bai X M, Shi P J, Liu Y S. Realizing China′s urban dream. Nature, 2014, 59(1799): 158- 160.
[37] Guidotti T L. Health and urban ecosystems. Archives of Environmental & Occupational Health, 2010, 65(1): 54- 55.
[38] McDonnell M J, MacGregor-Fors I. The ecological future of cities. Science, 2016, 352(6288): 936- 938.
[39] 王如松, 欧阳志云. 社会-经济-自然复合生态系统与可持续发展. 中国科学院院刊, 2012, 27(3): 337- 345.
[40] Pollock K. Policy: urban physics. Nature, 2016, 531(7594): S64-S66.
[41] 高长波, 张世喜, 莫创荣, 陈新庚. 广东省生态可持续发展定量研究: 生态足迹时间维动态分析. 生态环境, 2005, 14(1): 57- 62.
[42] 陆宏芳, 沈善瑞, 陈洁, 蓝盛芳. 生态经济系统的一种整合评价方法: 能值理论与分析方法. 生态环境, 2005, 14(1): 121- 126.
[43] 马国丰, 陆居一. 国内外系统动力学研究综述. 经济研究导刊, 2013, (6): 218- 219.
[44] 杨柳, 马克明, 郭青海, 赵景柱. 城市化对水体非点源污染的影响. 环境科学, 2004, 25(6): 32- 39.
[45] V?r?smarty C J, Green P, Salisbury J, Lammers R B. Global water resources: vulnerability from climate change and population growth. Science, 2000, 289(5477): 284- 288.
[46] 中国工程院"21世纪中国可持续发展水资源战略研究"项目组. 中国可持续发展水资源战略研究综合报告. 中国工程科学, 2000, 2(8): 1- 17.
[47] Bruaset S, Rygg H, S?grov S. Reviewing the long-term sustainability of urban water system rehabilitation strategies with an alternative approach. Sustainability, 2018, 10(6): 1987.
[48] Endo T. Groundwater management: a search for better policy combinations. Water Policy, 2015, 17(2): 332- 348.
[49] Varis O, Enckell K, Keskinen M. Integrated water resources management: Horizontal and vertical explorations and the ‘water in all policies’ approach. International Journal of Water Resources Development, 2014, 30(3): 433- 444.
[50] Marlow D R, Moglia M, Cook S, Beale D J. Towards sustainable urban water management: A critical reassessment. Water Research, 2013, 47(20): 7150- 7161.
[51] Fletcher T D, Shuster W, Hunt W F, Ashley R, Butler D, Arthur S, Trowsdale S, Barraud S, Semadeni-Davies A, Bertrand-Krajewski J L, Mikkelsen P S, Rivard G, Uhl M, Dagenais D, Viklander M. SUDS, LID, BMPs, WSUD and more-the evolution and application of terminology surrounding urban drainage. Urban Water Journal, 2015, 12(7): 525- 542.
[52] Gaines J M. Flooding: water potential. Nature, 2016, 531(7594): S54-S55.
[53] Grant S B, Saphores J D, Feldman D L, Hamilton A J, Fletcher T D, Cook P L M, Stewardson M, Sanders B F, Levin L A, Ambrose R F, Deletic A, Brown R, Jiang S C, Rosso D, Cooper W J, Marusic I. Taking the “waste” out of “wastewater” for human water security and ecosystem sustainability. Science, 2012, 337(6095): 681- 686.
[54] National Academies of Sciences, Engineering, and Medicine. Using Graywater and Stormwater to Enhance Local Water Supplies: An Assessment of Risks, Costs, and Benefits. Washington, DC: The National Academies Press, 2016.
[55] Meggers F, Leibundgut H. The potential of wastewater heat and exergy: decentralized high-temperature recovery with a heat pump. Energy and Buildings, 2011, 43(4): 879- 886.
[56] Larsen T A, Hoffmann S, Lüthi C, Truffer B, Maurer M. Emerging solutions to the water challenges of an urbanizing world. Science, 2016, 352(6288): 928- 933.
[57] Hoornweg D, Bhada-Tata P. What a Waste: A Global Review of Solid Waste Management. Washington, DC: World Bank, 2012.
[58] van Berkel R, Fujita T, Hashimoto S, Fujii M. Quantitative Assessment of Urban and Industrial Symbiosis in Kawasaki, Japan. Environmental Science & Technology, 2009, 43(5): 1271- 1281.
[59] Karagulian F, Belis C A, Dora C F C, Prüss-Ustün A M, Bonjour S, Adair-Rohani H, Amann M. Contributions to cities′ ambient particulate matter (PM): A systematic review of local source contributions at global level. Atmospheric Environment, 2015, 120: 475- 483.
[60] Ausubel J H, Waggoner P E. Dematerialization: variety, caution, and persistence. Proceedings of the National Academy of Sciences of the United States of America, 2008, 105(35): 12774- 12779.
[61] Hoornweg D, Bhada-Tata P, Kennedy C. Environment: waste production must peak this century. Nature, 2013, 502(7473): 615- 617.
[62] 齐宇, 朱坦, 高帅, 王军锋, 汲奕君, 张墨, 卜欣欣. 中国产业园区循环化改造应用关键物质流典型路径分析方法. 生态学报, 2016, 36(22): 7335- 7345.
[63] Kennedy C, Baker L, Dhakal S, Ramaswami A. Sustainable urban systems. Journal of Industrial Ecology, 2012, 16(6): 775- 779.
[64] Colvile R N, Hutchinson E J, Mindell J S, Warren R F. The transport sector as a source of air pollution. Atmospheric Environment, 2001, 35(9): 1537- 1565.
[65] Parrish D D, Zhu T. Clean air for megacities. Science, 2009, 326(5953): 674- 675.
[66] Kelly F J, Zhu T. Transport solutions for cleaner air. Science, 2016, 352(6288): 934- 936.
[67] 陆建, 王炜. 从城市交通规划发展看城市交通可持续发展规划. 华中科技大学学报: 城市科学版, 2003, 20(3): 11- 15.
[68] d′Amour C B, Reitsma F, Baiocchi G, Barthel S, Güneralp B, Erb K H, Haberl H, Creutzig F, Seto K C. Future urban land expansion and implications for global croplands. Proceedings of the National Academy of Sciences of the United States of America, 2017, 114(34): 8939- 8944.
[69] Godfray H C J, Crute I R, Haddad L, Lawrence D, Muir J F, Nisbett N, Pretty J, Robinson S, Toulmin C, Whiteley R. The future of the global food system. Philosophical Transactions of the Royal Society B: Biological Sciences, 2010, 365(1554): 2769- 2777.
[70] Foley J A, Ramankutty N, Brauman K A, Cassidy E S, Gerber J S, Johnston M, Mueller N D, O′Connell C, Ray D K, West P C, Balzer C, Bennett E M, Carpenter S R, Hill J, Monfreda C, Polasky S, Rockstr?m J, Sheehan J, Siebert S, Tilman D, Zaks D P M. Solutions for a cultivated planet. Nature, 2011, 478(7369): 337- 342.
[71] Barbier E B. Explaining agricultural land expansion and deforestation in developing countries. American Journal of Agricultural Economics, 2004, 86(5): 1347- 1353.
[72] Popkin B M. Urbanization, lifestyle changes and the nutrition transition. World Development, 1999, 27(11): 1905- 1916.
[73] Brown L R. Eco-Economy: Building an Economy for the Earth. New York: Norton, 2001.
[74] Kennedy C A, Ibrahim N, Hoornweg D. Low-carbon infrastructure strategies for cities. Nature Climate Change, 2014, 4(5): 343- 346.
[75] Kammen D M, Sunter D A. City-integrated renewable energy for urban sustainability. Science, 2016, 352(6288): 922- 928.
[76] United Nations Environment Programme. Buildings and Climate Change: Summary for Decision-Makers. 2009.
[77] 刘恒伟, 麻林巍, 付峰, 黄河, 李政, 倪维斗. 城市交通能源可持续发展规划理论体系初探. 中国能源, 2007, 29(4): 21- 25.
[78] 沈清基. 中国城市能源可持续发展研究: 一种城市规划的视角. 城市规划学刊, 2005, (6): 41- 47.
[79] 李迅, 刘琰. 中国低碳生态城市发展的现状、问题与对策. 城市规划学刊, 2011, (4): 23- 29.
[80] 张伟, 张宏业, 刘婷, 祝炜平. 我国生态城市建设的时空演化格局及其驱动机理分析. 城市发展研究, 2012, 19(5): 44- 49.
[81] 仇保兴. 紧凑度和多样性——我国城市可持续发展的核心理念. 城市规划, 2006, 30(11): 18- 24.
[82] 林珍铭, 夏斌. 熵视角下的广州城市生态系统可持续发展能力分析. 地理学报, 2013, 68(1): 45- 57.
[83] 吕一河, 马志敏, 傅伯杰, 高光耀. 生态系统服务多样性与景观多功能性——从科学理念到综合评估. 生态学报, 2013, 33(4): 1153- 1159.
[84] 李春荣, 耿涌, 薛冰, 任婉侠, 董会娟. 基于DEMATEL的城市可持续发展障碍因素分析——以沈阳市为例. 应用生态学报, 2012, 23(10): 2836- 2842.
[85] Liu Z Y, Pu C L, Yan Z M, Wei Z, Li Q, Huang X D. Influence factors of urban sustainable development of Xinjiang Uyghur Autonomous region- with a case of Urumqi. Agricultural Science & Technology, 2013, 14(11): 1674- 1678, 1682- 1682.