Green infrastructure for stormwater control as a measure of adaptation to climate change
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Abstract
The present work arose from the need for an exhaustive bibliographic review on green infrastructure for runoff control, since in the field of green and sustainable construction, it is very necessary to have validated information on the benefits of this type of solutions based on nature. For the scientific community, it is very valuable to know the new trends, the different typologies and the solutions that can be implemented in the American tropics or the lack of scientific information as a starting point for new research and development processes. As a methodological approach, Scopus and Web of Science databases were analyzed, using 1138 scientific publications, of all of them, not a single publication was recorded in a language other than English or Mandarin Chinese, using the Bibliometrix package in R. The main ones the results obtained in this work were the following: efficiency in the combination of different typologies, lack of research registered in the databases consulted for Latin America, existence of authors of Latin American origin although their research is in other latitudes. As a general conclusion, more research is required from the Latin American region in English within the most important databases.
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References
V. Kati y N. Jari, «Bottom-up thinking-Identifying socio-cultural values of ecosystem services in local blue-green infrastructure planning in Helsinki, Finland,» Land Use Policy, vol. 50, pp. 537-547, 2016.
C. Calama gonzález, J. M. Calama Rodriguez y C. Cañas Palop, «Rehabilitación hidrologica de Barrios a travez de Sistemas urbanos de drenaje sostenible,» Anales de edificación, vol. 4, nº 1, 1-13, p. 13, 2018.
Y. F. Abunnasr, Climate Change Adaptation: A Green Infraestructure Planning Framework for Resilient Urban Regions, Massachusetts, 2013.
J. P. García, D. Butler, J. Comas, G. Darch, C. Sweetapple y A. Thornton, «Resilience Theory incorporated into Urban Wastewater Systems management. State of art,» Water R, vol. 115, pp. 149-161, 2017.
K. Eckart, Z. Mcphee y T. Bolisetti, «Performance and implementation of low impact development – A review,» Science of the Total Environment, Vols. %1 de %2607-608, pp. 413-432, 2017.
F. Chan, J. Griffiths, D. L. Higgit y S. Xu, «Sponge City in China-A breakthrough of planning and flood risk management in the urban context,» Land use policy, p. 8, 2018.
E. Zimmermann, L. Bracalenti y A. Onocko, «Infraestructura Verde Como alternativa Sustentable para reducir el riesgo hidrico en areas urbanizadas,» CUADERNOS del CURIHAM, vol. 21, p. 15, 2015.
S. J. McGrane, «Impacts of urbanisation an hydrological and water quality dynamics, urban water management a review,» Hydrolofycal Science Journal, vol. 61, nº 13, 2016.
E. D. Cubides y S. G. E, «Control de Escorrentia Urbanas mediante Sistemas Urbanos de drenaje Sostenible (SUDS): Pozos/Zanjas de infiltración,» Entre Ciencia e Ingenieria, vol. 12, nº 24, pp. 32-42, 2018.
T. D. Fletcher, W. Shuster, W. F. Hunt, R. Ashley, D. Butler, S. Arthur, S. Trowsdale, S. Barraud, A. SemadeniDavies, J. L. Bertrand-Krajewski, P. S. Mikkelsen, G. Rivard, M. Uhl, D. Dagenais y M. Viklander, «SUDS, LID, BMPs, WSUD and more-The evolution and application of terminology surroundig urban drainage,» Urban Water Journal, vol. 12, nº 7, pp. 525-542, 2014.
Q. Zhou, «Areview of Sustainable Urban Drainage Systems Considering the Climate Change and Urbanization Impacts,» Water, vol. 6, pp. 976-992, 2014.
A. E. Vásquez, «Infraestructura verde, servicios ecosistemicos y sus aportes para enfrentar el cambio climatico en ciudades: el caso corredor ribereño del río Mapocho en Santiago de Chile,» Revista de Geografia norte Grande, vol. 63, pp. 63-86, 2016.
Zellner, M., Massey, D.,, M. E, g y M. Gonzalez, «Exploring the effects of green infrastructure placement on neighborhood-level flooding via spatially explicit simulations,» Computer Enviroment and Urban Systems, vol. 56, pp. 116-128, 2016.
S. Perales-Momparier y I. A. Doménech, «Los sistemas Urbanos de Drenaje Sostenible: Una alternativa a la Gestión del Agua de Lluvia,» Directiva del marco del agua, Valencia, España, 2008.
A. Khadka, T. Kokkonen, T. J. Niemi, E. Lähde, N. Sillanpää y H. Koivusalo, «Towards natural water cycle in urban areas: Modelling stormwater management designs,» Urban Water Journal, 2019.
Z. Zahmatkesh, S. Burian, M. Karamouz, H. Tavakol-Davani y E. Goharian, «Low-impact development practices to mitigate climate change effects on urban stormwater runoff: Case study of New York City,» Journal of Irrigation and Drainage Engineering, vol. 141, nº 04014043, 2015.
L. Moore, J. Gulliver, L. Stack y M. Simpson, «Stormwater management and climate change: vulnerability and capacity for adaptation in urban and suburban contexts,» Climatic Change, vol. 138, nº 3-4, pp. 491-504, 2016.
S. Uvino y R. Upaka, «Sustainable urban drainage systems (SUDS)-what it iswhre do we stand today?,» Engineering and Applied Science Research, vol. 44, nº 4, pp. 235-241, 2017.
J. L. Webber, T. D. Fletcher, L. Cunningham, D. Butler y M. J. Burns, «Is green infraestructure a viable strategy for managing urban surface flooding?,» URBAN WATER JOURNAL, 2019.
G. uk, «www.geogreen.co.uk,» 24 abril 2020. [En línea]. Available: https://www.geogreen.co.uk/applications/suds-tank-applications/. [Último acceso: 24 4 2020].
BERA, «http://www.bera-centroamerica.com/,» 23 4 2020. [En línea]. Available: http://www.bera-centroamerica.com/Web/bera-gravel-fix-pro_es.html. [Último acceso: 23 4 2020].
Susdrain, «www.susdrain.org,» 24 4 2020. [En línea]. Available: https://www.susdrain.org/delivering-suds/using-suds/background/sustainable-drainage.html. [Último acceso: 24 4 2020].
Urbanscape, «www.urbanscape-architecture.com,» 24 4 2020. [En línea]. Available: https://www.urbanscape-architecture.com/. [Último acceso: 23 4 2020].
W. Z. X. C. C. J. J. H. X. T. J. Z. Xixin zhang, Assesnmet on the Effectiveness of Urban StormWater Management, MDPI Water, 2020.
Z. Yxin, Z. Weihan, C. Xue , Y. Changhyun, H. Jianli , T. Xiaonan y Z. Jun, «Assessment on the Effectivenness of Urban Stormwater Managemet,» Water MDPIA, vol. 13, nº 4, 2021.
J. H. Amorim, M. Engardt, C. Johannsson, I. Ribeiro y M. Sannebro, «Regulating and Cultural Ecoystem Services of Urban Green Infraestructure in nordic countries: A Systematic review,» Internacional Journal of Enviromental reseach and Public Health, vol. 1219, nº 18, 2021.
J. R. Junqueira, S. Serrano Neumann y I. White, «Developing and testing a cost-efefctiveness analysis to prioritize green infrastructure alternatives for climate change adaptation,» Water and Enviromental Journal promoting Sustainable Solutions, 2022.
F. Rezende Leite y M. L. Pereira Antunes, «Green roof recent designs to runoff control: A Review of building materials and plant species used in studies,» Edcological Engineering, vol. 189, 2023.