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Urban deltas belong to the most promising regions considering their population concentrations, ecosystems service and economy significance. Meanwhile these regions are facing multiple threats and are extreme vulnerable for increasing flood risk, damage of social and ecological values and substantial economic losses. These challenges are demanding a fundamental review of the planning and design of urban delta landscapes and their spatial networks, in particular in relation to environmental issues and sustainability. Systematic study of urbanized delta landscapes is essential as a basis for future-oriented action and thinking for the sustainable development of these rapidly changing landscapes. This chapter aims to introduce a multiscale approach to understand and represent urbanizing deltas as complex systems composed of subsystems, each with their own dynamics and speed of change. As a system the urbanized delta landscape is a material space that is structured as a constellation of networks and locations with multiple levels of organization at different spatial and temporal dimensions. Mapping the peculiar form of these systems provides insight into the complexity of the built environment and the related spatial networks—and with that, understanding in important social and ecological relationships. The Pearl River Delta, one of the quickest and most densified large scale urbanizing deltas of the world, serves as a case study how mapping can be used as a powerful tool to reveal relationships between landscape, networks and urbanization.
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Archive Bureau of Guangdong Province. (1928). Provincial goverment on USA assistanced hydrological engineering planning. Documents, River Dikes in Nanhai County and Dike Restoration Plan, 6(2), 447.
Batty, M. (2013). The new science of cities. Cambridge, MA: The MIT Press.
Board of Pearl River Delta Agriculture Gazetteer in Foshan Revolutionary Committee. (1976). Agriculture Gazetteer of Pearl River Delta 2: History of Dike and Recliamation in Pearl River Delta. Foshan.
Braudel, F. (1966). La Medtiterranee: La part du milieu. Paris: Librairie Armand Colin.
Burel, F., & Baudry, J. (2003). Landscape ecology. Concepts, methods and applications. Enfield: Science Publishers.
Castells, M. (2000). The information age: Economy, society and culture. The rise of the network society (Vol. 1). London: Blackwell Publishing.
Chau, K. W., & Jiang, Y. W. (2003). Simulation of transboundary pollutant transport action in the Pearl River delta. Chemosphere, 52, 1615–1621. CrossRef
Che, W. (2016). Difficulties and keys of sponge city construction. In The Twelfth International Conference on Green and Energy-Efficient Building New Technologies and Products Expo. Beijing.
Chen, X., & Chen, Y. D. (2004). Human-induced hydrological changes in the river network of the Pearl River Delta, South China. In Chen, Y., Takara, K., Cluckie, I., Smedt, F., & De, H. (Eds.), GIS and Remote Sensing in Hydrology, Water Resources and Environment—Proceedings of ICGRHWE (pp. 197–205). Three Gorges Dam: IAHS.
Chen, Y., Feng, R., Liu, S., et al. (1995). Atlas of Shunde urban and rural planning. Shunde: Shunde Urban and Rural Planning Board.
Chen, Y. D., Zhang, Q., Xu, C., et al. (2010). Multiscale streamflow variations of the Pearl River basin and possible implications for the water resource management within the Pearl River Delta, China. Quaternary International, 226, 44–53. CrossRef
Council of Europe. (2000). European landscape convention. Florence.
Cui, S., Wang, X., & Deng, J. (2005). On the river ecology issue and solution of Pearl River Delta River network. Water Resources Development Reservoir, 5, 7–11.
Dammers, E., Bregt, A. K., Edelenbos, J., et al. (2014). Urbanized deltas as complex adaptive systems: Implications for planning and design. Built Environment, 40, 156–168. CrossRef
De Jong, T. M. (2012). Urban ecology, scale and identity. In E. van Bueren, H. van Bohemen, L. Itard, & H. Visscher (Eds.), Sustainable urban environments: An ecosystem approach (pp. 71–89). The Netherlands, Dordrecht: Springer. CrossRef
Doxiadis, C. A. (1968). Ekistic: An introduction to the science of human settlements. London: Hutchinson & Co.
Feng, Z. (1990). Dongguan water conservation local Gazetteer. Dongguan: Dongguan Water Resources Bureau.
Guangdong Historical Atlas Board. (1995). Guangdong historical Atlas.
Guangdong Province Planning Commission. (1964). Facts of hydraulic construction in Guangdong Province (1950–September 1963) (pp. 27–28).
Guangdong Provincial Department of Land and Resources. (2009). Basic elements in Guangdong Provincial Standard Map.
Hu, W., & He, J. (2003). Built-up land-cover change monitoring by remote sensing of urban area in the Pearl River Delta based on GIS. Journal of Remote Sensing, 7, 201–207.
Hu, W., Wu, Z., & He, J. (2002). Analysis of the impacts of recent urban development in the Pearl River Delta on Soil Resources based on RS and GIS. Journal of Natural Resources, 17, 549–555.
Huang, X. (2003). Discussion on population issue in sustainable development of social-economy in the Pearl River Delta. Journal of Geographical Geo-Information Science, 19, 109–112.
Huang, Z., & Zhang, W. (2004). Impacts of artificial factors on the evolution of geomorphology during recent thirty years in the Zhujiang Delta. Quaternary Science, 24, 394–401.
Huang, Z., Xie, X., Fan, J., & Al, E. (2000). Impacts of sea level changes in Guangdong and the counter measures. Guangzhou: Guangdong Science and Technology Press.
International Statistics Information Center of National Statistics Bureau. (2009). Yangtze River Delta & Pearl River Delta and Hongkong & Macao SAR and Taiwan statistical yearbook. Beijing: China Statistics Press.
Li, P. (1998). Recent flood and waterlogging calamities in the Pearl River Delta as viewed from geography. Pearl River, 5, 56–58.
Li, J. (2011) . Population development analysis of the eleventh five-year plan in Guangdong province. http://www.gdstats.gov.cn/ydzt../115cjzl/t20110816_86112.htm.
Li, R., Qiao, P., Zheng, H., et al. (1991). Environment evolution of Zhujiang Delta in the past 10,000 years. Beijing: China Ocean Press.
Li, C., Lei, Y., He, W., & Dai, Z. (2001). Land-ocean interaction in modern delta formation and development: A case study of the Pearl River Delta, China. Science in China, Series B: Chemistry, 44, 63–71. CrossRef
Liu, Y., Han, M., Wu, L., & Mimura, N. (1998). Recent evolution of outlets in Zhujiang River Delta and the prospect for land reclamation. Acta Geographica Sinica, 53, 492–500.
Liu, W., Li, M., Lu, B., & Chen, R. (2001). Dongguan water conservation local Gazetteer addition (1988–1997). Dongguan: Dongguan Water Resources Bureau.
Lo, C. P. (1989). Recent spatial restructuring in Zhujiang Delta, South China: A study of socialist regional development strategy. Annals of the Association of American Geographers, 79, 293–308. CrossRef
Mao, Z. (2002). Dongguan historical Atlas. Dongguan: Cultural and Historical Archive Committee of Dongguan Chinese People’s Political Committee.
Meyer, H., & Nijhuis, S. (2013). Delta urbanism: Planning and design in urbanized deltas—comparing the Dutch delta with the Mississippi River delta. Journal of Urbanism, 6, 160–191.
Meyer, H., & Nijhuis, S. (2016). Designing for different dynamics: the search for a new practice of planning and design in the Dutch delta. In J. Portugali & E. Stolk (Eds.), Complexity, cognition, urban planning and design (pp. 293–312). Springer Proceedings in Complexity. Cham: Springer. CrossRef
Nijhuis, S. (2013). Principles of landscape architecture. In E. Farina & S. Nijhuis (Eds.), Flowscapes. Exploring landscape infrastructures (pp. 52–61). Madrid: Mairea Libros Publishers.
Nijhuis, S., & Pouderoijen, M. (2014). Comparing urbanized delta landscape. In H. Meyer & S. Nijhuis (Eds.), Urban deltas in perspective: An international comparison of four urbanized delta landscape (pp. 15–48). Delft: Delft University of Technology.
Otto, F. (2011). Occupying and connecting: Thoughts on territories and spheres of influence with particular reference to human settlement. Stuttgart-Fellbach: Edition Axel Menges.
Ouyang, T., Zhu, Z., & Kuang, Y. (2006). Assessing impact of urbanization on river water quality in the Pearl River Delta Economic Zone, China. Environmental Monitoring and Assessment, 120, 313–325. CrossRef
Seto, K. C., Woodcock, C. E., Song, C., et al. (2002). Monitoring land-use change in the Pearl River Delta using Landsat TM. International Journal of Remote Sensing, 23, 1985–2004. CrossRef
Statistics Bureau of Guangdong Province, Survey Office of the National Bureau of Statistics in Guangdong. (2011). Statistical communique on the 2010 national economic and social development of Guangdong Province, Guangzhou.
Statistics Bureau of Guangdong Province, Survey Office of the National Bureau of Statistics in Guangdong. (2014). Statistical communique on the 2013 national economic and social development of Guangdong Province.
Tan, Q. (1982). The Historical Atlas of China. Beijing: Sinomaps Press.
Tang, X. (2008). Highlights megalopolis: Taking the Pearl River Delta as an example. Beijing: Science Press.
Turner, M. G., Dale, V. H., & Gardner, R. H. (1989). Predicting across scales: Theory development and testing. Landscape Ecology, 3, 245–252. CrossRef
United Nations, Population Division. (2012). World urbanization prospects, the 2011 Revision: Highlights, New York.
U.S. Army Map Service. (1954). China AMS Topographic Maps, 1:250000, Series L500.
Wang, Z., Cheng, D., & Liu, C. (2005). Impacts of human activities on typical delta processes–the Yangtze and Pearl River Deltas. Journal of Sediment Research, 6, 76–81.
Wang, L., Li, C., Ying, Q., et al. (2012). China’s urban expansion from 1990 to 2010 determined with satellite remote sensing. Chinese Science Bulletin, 57, 2802–2812. CrossRef
Wang, C., Li, X., Lai, Z., et al. (2013). Temporal and spatial pattern of the Phytoplankton Biomass in the Pearl River Delta. Acta Ecologica Sinica, 33, 5835–5847. CrossRef
Weng, Q. (2000). Human-environment interactions in agricultural land use in a South China’s wetland region: A study on the Zhujiang Delta in the Holocene. GeoJournal, 51, 191–200. CrossRef
Weng, Q. H. (2002). Land use change analysis in the Zhujiang Delta of China using satellite remote sensing, GIS and stochastic modelling. Journal of Environmental Management, 64, 273–284. CrossRef
World Bank. (2015). East Asia’s Changing urban landscape: Measuring a decade of spatial growth. Washington, DC: World Bank. CrossRef
Wu, J. (1999). Hierarchy and scaling: Extrapolating information along a scaling ladder. Canadian Journal of Remote Sensing, 25, 367–380. CrossRef
Wu, Y., Tan, J., & Liang, X. (1990). Shunde county water conservation local Gazetteer. Shunde: Shunde County Water Conservation Chronicle Board.
Xinhua News Agency. (2016). Similar flood possibility as 1998 in the Pearl River Basin this year. http://epaper.oeeee.com/epaper/A/html/2016-04/01/content_23803.htm. Accessed June 1, 2016.
Xu, J., & Luo, C. (2005). Characteristics of saline water activities in the Pearl River Delta in recent years and major Studied Basin. Pearl River, 2, 21–23.
Yeh, A. G.-O., & Li, X. (1999). Economic development and agricultural land loss in the Pearl River Delta, China. Habitat International, 23, 373–390. CrossRef
Yu, K. (2016). Six issues in sponge city construction. Xinhua Net. http://news.xinhuanet.com/2016-08/10/c_1119370215.htm. Accessed August 15, 2016.
Zeng, Z., & Huang, S. (1987). A research on historical geomorphology of Zhujiang Delta. Guangzhou:Guangdong Higher Education Press (in Chinese).
Zeng, Z., Wu, Y., Huang, S., & Zhang, S. (1982). River channel change of the Pearl River Delta in historical periods. Guangzhou: Department of Geography, South China Normal University (in Chinese).
Zhang, Q., Xu, C., Gemmer, M., et al. (2008). Changing properties of precipitation concentration in the Pearl River basin, China. Stochastic Environmental Research and Risk Assessment, 23, 377–385. CrossRef
Zhao, Y. (2010). The remote sensing dynamic monitoring of the evolution of Shoreline and Mangrove Wetlands in the Zhujiang River Estuary in the past 30 years. Remote Sensing for Land Resources, 22(s1), 178–184.
- Exploring Spatial Relationships in the Pearl River Delta
- Chapter 9