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Strategic Integration of Water Management within Spatial Planning

A view from Karachi and Jakarta
  • Prathiwi Widyatmi Putri
Chapter
Part of the Jahrbuch Stadterneuerung book series (JASTA)

Zusammenfassung

Coastal cities of the Global South are subject to increased socio-demographic and environmental pressures. Given the limitations of land-use zoning to guide spatial development in both the Global North and South contexts (see Albrechts 2004, Voogd 2006, Steinberg 2007, Woltjer and Al 2007, Silver 2008, Salet and Woltjer 2009), this article argues that water management could provide a strategic focus for spatial development. It particularly features wastewater management that, as a component of the sanitation sector, is crucial for eradicating poverty and improving the socio-economic productivity of households (Allen et al. 2006, Whittington et al. 2012), as well as for tackling wider urban problems such as flooding and deteriorating water resources.

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Literatur

  1. Aalbers, M. B., & Van Beckhoven, E. (2010). The Integrated Approach in Neighbourhood Renewal: More Than Just a Philosophy? Tijdschrift voor Economische en Sociale Geografie, 101(4), 449–461.Google Scholar
  2. Abeyasekere, S. (1989). Jakarta: A history. Revised edition. Singapore: Oxford University Press.Google Scholar
  3. Albrechts, L. (2004). Strategic Spatial Planning Re-examined. Environment and Planning B: Planning and Design, 31, 743–758.Google Scholar
  4. Albrechts, L. (2006). Bridge the Gap: From Spatial Planning to Strategic Projects. European Planning Studies, 14 (10), 1487–1500.Google Scholar
  5. Albrechts, L. (2012). Reframing strategic spatial planning by using a coproduction perspective. Planning Theory, 12 (1), 46–63.Google Scholar
  6. Albrechts, L. (2015). Ingredients for a more radical strategic spatial planning. Environment and Planning B: Planning and Design, 42, 510–525.Google Scholar
  7. Allen, A. (2010). Neither rural nor urban: service delivery options that work for the peri-urban poor. In M. Khurian & P. McCarney (Eds.), Peri-urban Water and Sanitation Services: Policy, Planning and Method (pp. 27–61). London: Springer Science and Buseness Media B.V.Google Scholar
  8. Baker, S., & Mehmood, A. (2015). Social innovation and the governance of sustainable places. Local Environment: The International Journal of Justice and Sustainability, 20 (3), 321–334.Google Scholar
  9. Beatley, T., & Stein, J. M. (1988). Equity and Distributional Issues in Infrastructure Planning: A Theoretical Perspective Public Infrastructure Planning and Management (pp. 208–226). Thousand Oaks, London, New Delhi: Sage Publications Inc.Google Scholar
  10. Bianpoen. (2011). Jakarta’s Poor: A Search for Solution Untuk Apa? Untuk Siapa? Rangkaian Pemikiran Lingkungan Berkelanjutan (pp. 183–190). Jakarta: UPH Press.Google Scholar
  11. Bolay, J.-C. (2012). What sustainable development for the cities of the South? Urban issues for a third millenium. International Journal of Urban Sustainable Development, 4 (1), 76–93.Google Scholar
  12. Caljouw, M., Nas, P. J. M., & Pratiwo. (2005). Flooding in Jakarta. Towards a blue city with improved water management. Bijdragen tot de Taal-, Land-, en Volkenkunde (BKI), 161 (4), 454–484.Google Scholar
  13. Cook, I. R., & Swyngedouw, E. (2012). Cities, Social Cohesion and the Environment: Towards a Future Research Agenda. Urban Studies, 49 (9), 1959–1979.Google Scholar
  14. De Meulder, B., & Shannon, K. (2013). Water Urbanisms East. Zurich: Park Books and UFO3.Google Scholar
  15. Dehaene, M., & Amerasinghe, A. (2007). Orangi Nalla. In M. Dehaene & A. Amerasinghe (Eds.), Karachi: Site Town and the Orangi Nalla (pp. 45–51). Leuven: KU Leuven and ASIAURBS, EuropeAid.Google Scholar
  16. Faludi, A. (2000). The Performance of Spatial Planning. Planning Practice and Research, 15 (4), 299–318.Google Scholar
  17. Hasan, A. (2003). A Case Study of The Orangi Pilot Project-Research and Training Institute, Karachi, Pakistan. Draft prepared for a Research Project of the Max Lock Centre, Westminster University, London, UK. Localizing Habitat Agenda Research Project Karachi: Arif Hasan & Associates, Architects and Planning Consultants.Google Scholar
  18. Hasan, A. (2008). The Urban Resource Centre, Karachi Gatekeeper Series: The roles of local organisations in poverty reduction and environmental management (Vol. 137, pp. 2–21). London: IIED.Google Scholar
  19. Hoffman, M. L. (1992). Unregistered Land, Informal Housing, and the Spatial Development of Jakarta. In J. K. Tschangho, G. Knaap & I. J. Azis (Eds.), Spatial Development in Indonesia. Review and Prospects (pp. 329–350). Aldershot: Avebury.Google Scholar
  20. Hofmann, P. (2011). Falling through the net: access to water and sanitation by the peri-urban poor. International Journal of Urban Sustainable Development, 3 (1), 40–55.Google Scholar
  21. Hooimeijer, F. L. (2009). Exploring the relationship between water management technology and urban design in the Dutch polder cities. In J. Feyen, K. Shannon & M. Neville (Eds.), Water and Urban Development Paradigms: Toward an Integration of Engineering, Design, and Management Approaches (pp. 137–142). London: Taylor and Francis Group.Google Scholar
  22. Jumsai, S. (2009). Urban Aquatics. In J. Feyen, K. Shannon & M. Neville (Eds.), Water and Urban Development Paradigms (pp. 33–43). London: Taylor and Francis Group.Google Scholar
  23. Le Dieu, A., Legrand, B., Van Lint, J., & Shannon, K. (2007). Tan Hoa Lo Gom. Building a new life. ISOCARP REVIEW, 03.Google Scholar
  24. Libralato, G., Ghirardini, A. V., & Avezzù, F. (2012). To centralise or to decentralise: An overview of the most recent trends in wastewater treatment management. Journal of Environmental Management, 94, 61–68.Google Scholar
  25. Loftus, A. (2009a). Intervening in the environment of the everyday. Geoforum, 40, 326–334.Google Scholar
  26. Loftus, A. (2009b). Rethinking Political Ecologies of Water. Third World Quarterly, 30 (5), 953–968.Google Scholar
  27. Malisie, A. F. (2008). Sustainability Assessment on Sanitation Systems for Low Income Urban Areas in Indonesia. Unpublished PhD Thesis. Hamburg University of Technology, Germany, Hamburg.Google Scholar
  28. Mann, G. (2009). Should political ecology be Marxist? A case for Gramsci’s historical materialism. Geoforum, 40, 335–344.Google Scholar
  29. Maskrey, A., & Turner, B. (1988). Orangi Pilot Project, Karachi, Pakistan. A low-cost sewer system by low-income Pakistanis. In B. Turner (Ed.), The John Turner Archive. Building Community: a third world case book. London: Building Community Books.Google Scholar
  30. Massoud, M. A., Tarhini, A., & Nasr, J. A. (2009). Decentralized approaches to wastewater treatment and management: Applicability in developing countries. Journal of Environmental Management, 90, 652–659.Google Scholar
  31. Mehmood, A. (2016). Institutional forms of social innovation. International Journal of Innovation and Sustainable Development, 10 (3), 300–311.Google Scholar
  32. Mehmood, A., & Parra, C. (2013). Social innovation in an unsustainable world. In F. Moulaert, D. MacCallum, A. Mehmood & A. Hamdouch (Eds.), The International Hand book on Social Innovation: Collective Action, Social Learning and Transdisciplinary Research (pp. 53–66). Cheltenham: Edward Elgar Publishing.Google Scholar
  33. Mercy Corps. (2008). Urban Bulletin No.3. Urban Mapping, Jakarta. Jakarta: Mercy Corps.Google Scholar
  34. Meyer, H. (2007). The Search for New Structure and the Regional Context of Dutch Cities. In P. La Greca et al (Ed.), Urban Trialogues: Co-productive ways to relate visioning and strategic urban projects: International Society of City and Regional Planners (ISOCARP).Google Scholar
  35. Miller, J. M. (2006). Support to DKI Jakarta for Wastewater Management Unpublished Draft Final Report. Jakarta: The Worldbank- WSP EAP.Google Scholar
  36. Moulaert, F. (2000). Globalization and Integrated Area Development in European Cities. Oxford: Oxford University Press.Google Scholar
  37. Moulaert, F., MacCallum, D., Mehmood, A., & Hamdouch, A. (2013). The International Handbook on Social Innovation: Collective Action, Social Learning and Transdisciplinary Research. Cheltenham: Edward Elgar Publishing.Google Scholar
  38. Moulaert, F., Martinelli, F., Swyngedouw, E., & Gonzales, S. (2010). Can Neighbourhoods Save the City? Community Development and Social Innovation. London: Routledge: Francis and Taylor.Google Scholar
  39. Nassauer, J. I. (2013). Landscape as Method and Medium for the Ecological Design of Cities. In S. T. A. Pickett, M. L. Cadenasso & B. McGrath (Eds.), Resilience in Ecology and Urban Design: Lingking Theory and Practice for Sustainable Cities (pp. 79–106). Dordrecht: Springer Science+Business Media.Google Scholar
  40. Noor, F. (2007). Shifting to Project Gear: Between Process and Project Mode. In M. Dehaene & A. Amerasinghe (Eds.), Karachi: Site Town and the Orangi Nalla (pp. 53–61). Leuven: KU Leuven and ASIAURBS, EuropeAid.Google Scholar
  41. Novotny, V. (2009). Sustainable Urban Water Management. In V. Novotny, J. Feyen, K. Shannon & M. Neville (Eds.), Water and Urban Development Paradigms (pp. 19–31). London: Taylor and Francis Group.Google Scholar
  42. Novotny, V., & Brown, P. (2007). Cities of the Future: Towards Integrated Sustainable Water and Landscape Management. London: IWA Publishing.Google Scholar
  43. Ostrom, E. (1996). Crossing the Great Divide: Coproduction, Synergy, and Development. World Development, 24 (6), 1073–1087.Google Scholar
  44. Ostrom, E. (1997). Governing the Commons : the evolution of institutions for collective action Cambridge: Cambridge University Press.Google Scholar
  45. Parra, C. (2013). Social sustainability: a competing concept to social innovation? In F. Moulaert, D. MacCallum, A. Mehmood & A. Hamdouch (Eds.), The International Handbook on Social Innovation: Collective Action, Social Learning and Transdisciplinary Research (pp. 142–154). Cheltenham: Edward Elgar Publishing.Google Scholar
  46. Pervaiz, A., & Rahman, P. (2008). Lessons from Karachi: the role of demonstration, documentation, mapping and relationship building in advocacy for improved urban sanitation and water services. Human Settlements Discussion Paper Series. London: International Institute for Environment and Development (IIED).Google Scholar
  47. Priemus, H. (2004). Spatial Memorandum 2004: A Turning Point in the Netherlands’ Spatial Development Policy. Tijdschrift voor Economische en Sociale Geografie, 95 (5), 578–583.Google Scholar
  48. Putri, P. (2014). Black Water – Grey Settlements. Domestic Wastewater management and the Socio-ecological Dynamics of Jakarta’s Kampungs. Doctoral thesis, Faculty of Engineering Science, Department of Architecture. Leuven: KU Leuven, Science Engineering and Technology. ISBN 978–94-6018–892-3.Google Scholar
  49. Salet, W., & Woltjer, J. (2009). New concepts of strategic spatial planning dilemmas in the Dutch Randstad region. International Journal of Public Sector Management, 22 (3), 235–248.Google Scholar
  50. Serrao-Neumann, S., Renouf, M., Kenway, S. J., & Low Choy, D. (2017). Connecting landuse and water planning: Prospects for an urban water metabolism approach. Cities, 60 (Part A), 13–27.Google Scholar
  51. Shannon, K. (2002). Vietnam’s hybrid urban landscapes: the dream of western architects/urbanists? Journal of Research in Architecture and Planning, 1, 1–13.Google Scholar
  52. Shannon, K., & Manawadu, S. (2007). Indigenous Landscape Urbanism: Sri Lanka’s Reservoir and Tank System. Journal of Landscape Architecture, 2 (2), 6–17.Google Scholar
  53. Shannon, K., & Nilufar, F. (2008). Transforming urban landscapes: Dhanmondi Laka, Dhaka, Bangladesh. Topos. International Review of Landscape Architecture and Urban Design, 64, 79–83.Google Scholar
  54. Silver, C. (2008). Planning the Megacity: Jakarta in the Twentieth Century. London, New York: Routledge.Google Scholar
  55. Steinberg, F. (2007). Jakarta: Environmental problems and sustainability. Habitat International, 31, 354–365.Google Scholar
  56. Stokman, A. (2008). Water Purificative Landscapes. Constructed Ecologies and Contemporary Urbanism. In W. Kuitert (Ed.), Transforming with water. Proceedings of the 45th World Congress of the International Federation of Landscape Architects IFLA 2008, Blauwdruk (pp. 51–61). Wageningen: Techne Press.Google Scholar
  57. Suriyachan, C., Nitivattananon, V., & Amin, A. N. (2012). Potential of decentralized wastewater management for urban development: Case of Bangkok. Habitat International, 36, 85–92.Google Scholar
  58. Swyngedouw, E., Kaika, M., & Castro, E. (2002). Urban Water: A Political-Ecology Perspective. Built Environment, 28 (2), 124–137.Google Scholar
  59. Texier, P. (2008). Floods in Jakarta: when the extreme reveals daily structural constraints and mismanagement. Disaster Prevention and Management, 17 (3), 358–372.Google Scholar
  60. Tilley, E., Lüthi, C., Morel, A., Zurbrügg, C., & Schertenleib, R. (2008). Compendium of Sanitation Systems and Technologies. Duebendorf, Switzerland: Swiss Federal Institute of Aquatic Science and Technology (Eawag).Google Scholar
  61. Toshikazu, I. (2013). Post 311: Sendai OASIS. In B. De Meulder & K. Shannon (Eds.), Water Urbanisms East (pp. 64–69). Zurich: Park Books and UFO3.Google Scholar
  62. USAID. (2006). Comparative Study Centralized Wastewater Treatment Plants in Indonesia. Jakarta: USAID Environmental Services Program.Google Scholar
  63. Voogd, H. (2006). Combating flooding by planning: some Dutch experiences. disP – the Planning Review, 164 (1), 50–58.Google Scholar
  64. Werlin, H. (1999). The Slum Upgrading Myth. Urban Studies, 36 (9), 1523–1534.Google Scholar
  65. Woltjer, J. (2009). How Water Flows in Strategic Spatial Planning: The Strategic Role of Water in Dutch Regional Planning Projects. In J. Feyen, K. Shannon & M. Neville (Eds.), Water and Urban Development Paradigms: Towards an Integration of Engineering, Design and Management Approaches (pp. 127–135). London: CRC Press, Taylor and Francis Group.Google Scholar
  66. Woltjer, J., & Al, N. (2007). Integrating Water Management and Spatial Planning. Journal of the American Planning Association, 73 (2), 211–222.Google Scholar
  67. Yachiko Engineering. (2012). The Project for Capacity Development of Wastewater Sector through Reviewing the Wastewater Management Master Plan in DKI Jakarta in the Republic of Indonesia Draft Final Report, Summary. Jakarta: JICA, Ministry of Public Work, DKI Jakarta, PD PAL Jaya.Google Scholar

Copyright information

© Springer Fachmedien Wiesbaden GmbH, ein Teil von Springer Nature 2019

Authors and Affiliations

  1. 1.Universität von KopenhagenKopenhagenDänemark

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