Mostrar el registro sencillo del ítem

Ciudades sensibles al agua: paradigma contemporáneo para gestionar aguas urbanas

dc.creatorMolina Prieto, Luis Fernando
dc.creatorVillegas Rodríguez, Ernesto
dc.date2016-09-14
dc.date.accessioned2020-08-21T20:40:19Z
dc.date.available2020-08-21T20:40:19Z
dc.identifierhttps://revistas.unbosque.edu.co/index.php/RevTec/article/view/1847
dc.identifier10.18270/rt.v14i1.1847
dc.identifier.urihttp://test.repositoriodigital.com:8080/handle/123456789/10736
dc.descriptionEn el último decenio los efectos del cambio climático se han desplegado con gran rigor en las ciudades, y además, las migraciones campo-ciudad han incrementado de manera inusitada la densidad demográfica de las urbes en todo el mundo. Estas nuevas condiciones climáticas y poblacionales han generado dos retos para las ciudades del presente siglo: i) asegurar la distribución sostenible de agua a poblaciones en continuo crecimiento; y ii) desarrollar estrategias para el manejo de las aguas pluviales, de manera que las zonas urbanas minimicen las inundaciones o se tornen resilientes frente a ellas. El artículo reflexiona en torno a la Water Sensitive Citie, concepto australiano que ha traspuesto las fronteras de su país de origen, logrando transformar la visión tradicional del diseño urbano a nivel mundial, y proponiendo —por primera vez en la historia de las ciudades— armonía y sinergia entre la planificación hidrológica y el ordenamiento urbano. Abstractn the last decade the effects of climate change have been felt with great rigor in cities , furthermore, rural-urban migration have increased so unusual population density of cities worldwide. These new climate and population conditions have created two challenges for cities of this century: i) ensure sustainable water distribution in cities with growing populations; and ii) develop strategies for storm water management, so that urban areas minimize floods or from becoming resilient to them. The article reflects on the Water Sensitive Cities, Australian concept that has transposed the borders of their country of origin, managing to transform the traditional vision of urban design worldwide, which are the first in proposing for the first time in the history of the cities: harmony and synergy between water planning and urban planning.es-AR
dc.descriptionEn el último decenio los efectos del cambio climático se han desplegado con gran rigor en las ciudades, y además, las migraciones campo-ciudad han incrementado de manera inusitada la densidad demográfica de las urbes en todo el mundo. Estas nuevas condiciones climáticas y poblacionales han generado dos retos para las ciudades del presente siglo: i) asegurar la distribución sostenible de agua a poblaciones en continuo crecimiento; y ii) desarrollar estrategias para el manejo de las aguas pluviales, de manera que las zonas urbanas minimicen las inundaciones o se tornen resilientes frente a ellas. El artículo reflexiona en torno a la Water Sensitive Citie, concepto australiano que ha traspuesto las fronteras de su país de origen, logrando transformar la visión tradicional del diseño urbano a nivel mundial, y proponiendo —por primera vez en la historia de las ciudades— armonía y sinergia entre la planificación hidrológica y el ordenamiento urbano. Abstractn the last decade the effects of climate change have been felt with great rigor in cities , furthermore, rural-urban migration have increased so unusual population density of cities worldwide. These new climate and population conditions have created two challenges for cities of this century: i) ensure sustainable water distribution in cities with growing populations; and ii) develop strategies for storm water management, so that urban areas minimize floods or from becoming resilient to them. The article reflects on the Water Sensitive Cities, Australian concept that has transposed the borders of their country of origin, managing to transform the traditional vision of urban design worldwide, which are the first in proposing for the first time in the history of the cities: harmony and synergy between water planning and urban planning.es-ES
dc.formatapplication/pdf
dc.languagespa
dc.publisherUniversidad El Bosquees-ES
dc.relationhttps://revistas.unbosque.edu.co/index.php/RevTec/article/view/1847/1419
dc.relation/*ref*/Banco Mundial. Informe sobre el desarrollo mundial 2010. Desarrollo y cambio climático. Washington: Banco Internacional de Reconstrucción y Fomento/Banco Mundial, 2010.
dc.relation/*ref*/Buhaug, H. & Urdal, H. An urbanization bomb? Population growth and social disorder in cities. Global Environmental Change, vol. 23, N° 1, pp.1-10, 2013.
dc.relation/*ref*/Black, R.; Kniventon, D. & Schmidt-Verkerk, K. “Migration and Climate Change: Toward an Integrated Assessment of Sensitivity”. In Faist, T. & Schade, J. (eds) Disentangling migration and climate change: Towards an analysis of concepts, methodologies, and policies. Berlin: Springer, pp. 29-53, 2013.
dc.relation/*ref*/Castán, V. & Bulkeley, H. “A survey of urban climate change experiments in 100 cities”. Global Environmental Change, vol. 23, pp. 92-112, 2013.
dc.relation/*ref*/De Hann, F.J; Rogers, B.C.; Frantzeskaki, N. & Brown, R.R. “Transitions through a lens of urban water”. Environmental Innovation and Societal Transitions, article in press, 2015.
dc.relation/*ref*/Nelson, V.; Moddemeyer, S. & Schwartz, P. The Baltimore Charter for Sustainable Water Systems, 2007. http://sustainablewaterforum.org/baltimore.html
dc.relation/*ref*/Bacchin, T.K.; Ashley, R.; Sijmons, D.; Zevenbergen, C. & Timmeren, A. Green-Blue Multifunctional Infrastructure: An Urban Landscape System Design New Approach. 13th International Conference on Urban Drainage, Sarawak, Malaysia, 7-12 September 2014.
dc.relation/*ref*/Elmer, V. & Fraker, H. “Water, Neighborhoods and Urban Design: Micro-Utilities and the Fifth Infrastructure”. In: Howe, C. & Mitcell, C. (eds) Water Sensitive Cities. London: IWA Publishing, 2012.
dc.relation/*ref*/Salinas Rodríguez, C.N.A.; Ashley, R.; Gersonius, B.; Rijke, J.; Pathirana, A. & Zevenbergen, C. “Incorporation and application of resilience in the context of water-sensitive urban design: linking European and Australian Perspectives”. WIREs Water, vol. 1, pp. 173-186, 2014.
dc.relation/*ref*/Lee, S. & Yigitcanlar, T. Sustainable urban stormwater management: water sensitive urban design perceptions, drivers and barriers. In: Yigitcanlar, T. (Ed) Rethinking Sustainable Development: Urban Management, Engineering, and Design. New York: Engineering Science Reference, pp. 26-37, 2010.
dc.relation/*ref*/Monash University. Monash University Submission to the Review of the Metropolitan Water Sector. Melbourne: Victorian Competition & Efficiency Commission, 2008.
dc.relation/*ref*/De Sousa, D. Project A 3.2 Final Report: Results of Legislative Stock-take for Western Australia.Melbourne: Cooperative Research Centre for Water Sensitive Cities, 2008.
dc.relation/*ref*/COAG-Council of Australian Governments. Intergovernmental Agreement on a National Water Initiative, Commonwealth of Australia and the Governments of New South Wales, Victoria, Queensland, South Australia, the Australian Capital Territory and the Northern Territory, signed 25 June 2004. Disponible en: http://www.water.wa.gov.au/ PublicationStore/first/82387.pdf, p. 20
dc.relation/*ref*/McCallum, T. Conceptualising Urban Water Regulation. The Melbourne System. Melbourne: Cooperative Research Centre for Water Sensitive Cities, 2014.
dc.relation/*ref*/Wong, T.H.F. & Brown, R. R. “The water sensitive city: principles for practice”. Water Science & Technology, vol. 60, Nº 3, pp. 673-682, 2009.
dc.relation/*ref*/Wong, T.H.F. & Brown, R.R. Transitioning to Water Sensitive Cities: Ensuring Resilience through a new Hydro-Social Contract. 11th International Conference on Urban Drainage, Edinburgh, Scotland, UK, 2008.
dc.relation/*ref*/Adger, N. “Vulnerability”. Global Environmental Change, N° 16, pp. 268-281, 2006.
dc.relation/*ref*/Floyd, J.; Iaquinto, B. L.; Ison, R. & Collins, K. “Managing complexity in Australian urban watergovernance: transitioning Sydney to a water sensitive city”. Futures, Vol. 61, pp. 1-12, 2014.
dc.relation/*ref*/Wong, T.H.F.; Allen, R.; Brown, R.R.; Deletic, A.; Gangadharan, L.; Gernjak, W.; Jakob, C.; Johnstone, P.; Reeder, M.; Tapper, N.; Vietz, G. & Walsh, C.J. Blueprint 2013 - Stormwater Management in a Water Sensitive City. Melbourne: Cooperative Research Centre for Water Sensitive Cities, 2013.
dc.relation/*ref*/Brown, R.R.; Keath, N. & Wong, T. (2008). Transitioning to Water Sensitive Cities: Historical, Current and Future Transition States. 11th International Conference on Urban Drainage, Edinburgh, Scotland, UK, 2008.
dc.relation/*ref*/Brown, R.R. & Clarke, J. Transition to Water Sensitive Urban Design: the story of Melbourne, Australia. Melbourne: Facility for Advancing Water Biofiltration/ Monash University, 2007.
dc.relation/*ref*/Birrell, R.; Hay, C. & Hilton, R. Port Phillip Bay: the case for alarm. Clayton [Australia]: Environmental Research Associates, Monash University, 1974.
dc.relation/*ref*/Wong, T.; Breen, P.F.; Somes, N. & Lloyd, S. Managing Urban Stormwater using Constructed Wetlands. Melbourne: Cooperative Research Centre for Catchment Hydrology, 1998.
dc.relation/*ref*/CRCWSC. Submission to the 2014 Triennial Assessment of water reform progress in Australia. Clayton, Australia: CRC for Water Sensitive Cities, 2014.
dc.relation/*ref*/McManus, R. Water Sensitive Urban Design Barriers and Opportunities in Darwin - Discussion Paper. Darwin: Northern Territory Department of Planning and Infrastructure, 2009.
dc.relation/*ref*/Water by Design. Water Sensitive Urban Design: Barriers to Adoption and Opportunities in South- East Queensland. Queensland: Water by Design,2005.
dc.relation/*ref*/Ison, R.L.; Collins, K.B.; Bos, J.J. & Iaquinto, B. Transitioning to Water Sensitive Cities in Australia: A summary of the key findings, issues and actions arising from five national capacity building and leadership workshops. Clayton: NUWGP/IWC, Monash University, 2009.
dc.relation/*ref*/Ferguson, B.; Frantzeskaki, N.; Skinner, R. & Brown, R.R. Melbourne’s Transition to a Water Sensitive City. Recommendations for Strategic Action. Melbourne: Monash University, 2012.
dc.relation/*ref*/Howe, C. & Mitchell, C. Water Sensitive Cities. London: IWA Publishing, 2012.
dc.relation/*ref*/OECD. Water and Cities. Ensuring Sustainable Futures. París: OECD, 2015.
dc.relation/*ref*/Boroomand, L. (2015). NEWater urban scapes. A methodology for assessing water sensitive cities. Tesis de Maestría: Politécnico e Milán.
dc.relation/*ref*/Kim, H.; Kwack, D.; Yoon, M.; Lee, J. & Hwang, Y. (2014). Residential Environment Function and Evaluation of Water Sensitive Urban Design. Jorunal of the Residential Environment Institute of Korea, vol. 12, Nº 3: 327-341.
dc.relation/*ref*/Morgan, C.; Bevington, C.; Levin, D.; Robinson, P.; Davis, P.; Abbott, J. & Simkins, P. Water Sensitive Urban Design in the UK – Ideas for built environment practitioners. Londres: CIRIA, 2013.
dc.sourceJournal of Technology; Vol 14 No 1 (2015): Productos y servicios limpios; 53-64en-US
dc.sourceRevista de Tecnología; ##issue.vol## 14 ##issue.no## 1 (2015): Productos y servicios limpios; 53-64es-AR
dc.sourceRevista de Tecnología; Vol. 14 Núm. 1 (2015): Productos y servicios limpios; 53-64es-ES
dc.source1692-1399
dc.subjectResilencia Urbanaes-ES
dc.subjectCiudades sustentableses-ES
dc.subjectInfraestructuraes-ES
dc.subjectRecurso pluviales-ES
dc.titleCiudades sensibles al agua: paradigma contemporáneo para gestionar aguas urbanases-AR
dc.titleCiudades sensibles al agua: paradigma contemporáneo para gestionar aguas urbanases-ES
dc.typeinfo:eu-repo/semantics/article
dc.typeinfo:eu-repo/semantics/publishedVersion


Ficheros en el ítem

FicherosTamañoFormatoVer

No hay ficheros asociados a este ítem.

Este ítem aparece en la(s) siguiente(s) colección(ones)

Mostrar el registro sencillo del ítem