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      Diseño urbano sensible al agua para la zona kárstica de Bacalar, Quintana Roo, México Translated title: Water sensitive urban design for the karst zone of Bacalar, Quintana Roo, México

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          Abstract

          Resumen: En las regiones kársticas de México la construcción de ciudades se ha realizado con el uso de materiales y procesos que no corresponden con el funcionamiento de la dinámica de filtración del agua. Con el uso de modelos hidrodinámicos se analizó la implementación del Diseño Urbano Sensible al Agua (DUSA) en el karst y se evaluó el beneficio económico al disminuir las inundaciones en Bacalar, Quintana Roo, México. Como primera etapa se modeló la precipitación, escorrentía e infiltración; se determinó la infraestructura útil para mantener la conectividad del sistema hidrológico y se generaron escenarios modelo de permeabilidad. En la segunda etapa se analizó la eficiencia de los escenarios modelo. Finalmente se valorizaron los daños de inundación para cada escenario. Los resultados muestran que, si se mantiene un 68% de área urbana permeable y 32% impermeable con infraestructuras esponja, con periodo de retorno de 10 años, se retrasa hasta por 30 minutos el inicio de las inundaciones. Esto implica un ahorro de 5.56 millones de salarios mínimos. La implementación de DUSA reduce inundaciones, genera ahorros sociales y económicos, pero además mantiene la dinámica de flujo y conectividad del karst. El modelo internacional de DUSA disminuye la vulnerabilidad de los sistemas kársticos ante el cambio climático.

          Translated abstract

          Abstract: In the karst regions of Mexico, the construction of cities has been carried out using materials and processes that do not correspond to the functioning of filtration dynamics. The present work analyzes the effects of WSUD (Water Sensitive Urban Design) implementation on karst zone and the influence in the reduction of flooding. A permeability model was developed for the urban area of Bacalar, Quintana Roo, Mexico. As a first phase, precipitation, runoff, and infiltration were modeled; the useful infrastructure to maintain the connectivity of the hydrological system was determined and permeability models considering different scenarios were generated. In the second phase, the efficiency of the model scenarios was analyzed. Finally, flood damages were assessed for each scenario. The results show that if 68% of the urban area is kept permeable and 32% impermeable with sponge infrastructure, with a return period of 10 years, the onset of flooding is delayed by up to 30 minutes. This implies a saving of 5.56 million minimum wages. The implementation of DUSA reduces flooding, generates social and economic savings, but also maintains the flow dynamics and connectivity of the karst. The international DUSA model reduces the vulnerability of karst systems to climate change.

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          Urban water management in cities: historical, current and future regimes

          R R Brown, N. Keath, T. H. F. Wong (2009)
          Drawing from three phases of a social research programme between 2002 and 2008, this paper proposes a framework for underpinning the development of urban water transitions policy and city-scale benchmarking at the macro scale. Through detailed historical, contemporary and futures research involving Australian cities, a transitions framework is proposed, presenting a typology of six city states, namely the 'Water Supply City', the 'Sewered City', the 'Drained City', the 'Waterways City', the 'Water Cycle City', and the 'Water Sensitive City'. This framework recognises the temporal, ideological and technological contexts that cities transition through when moving towards sustainable urban water conditions. The aim of this research is to assist urban water managers with understanding the scope of the hydro-social contracts currently operating across cities in order to determine the capacity development and cultural reform initiatives needed to effectively expedite the transition to more sustainable water management and ultimately to Water Sensitive Cities. One of the values of this framework is that it can be used by strategists and policy makers as a heuristic device and/or the basis for a future city state benchmarking tool. From a research perspective it can be an underpinning framework for future work on transitions policy research.
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            Impediments and solutions to sustainable, watershed-scale urban stormwater management: lessons from Australia and the United States.

            H Thurston, R. M. Brown, Paul H. Roy (2008)
            In urban and suburban areas, stormwater runoff is a primary stressor on surface waters. Conventional urban stormwater drainage systems often route runoff directly to streams and rivers, thus exacerbating pollutant inputs and hydrologic disturbance, and resulting in the degradation of ecosystem structure and function. Decentralized stormwater management tools, such as low impact development (LID) or water sensitive urban design (WSUD), may offer a more sustainable solution to stormwater management if implemented at a watershed scale. These tools are designed to pond, infiltrate, and harvest water at the source, encouraging evaporation, evapotranspiration, groundwater recharge, and re-use of stormwater. While there are numerous demonstrations of WSUD practices, there are few examples of widespread implementation at a watershed scale with the explicit objective of protecting or restoring a receiving stream. This article identifies seven major impediments to sustainable urban stormwater management: (1) uncertainties in performance and cost, (2) insufficient engineering standards and guidelines, (3) fragmented responsibilities, (4) lack of institutional capacity, (5) lack of legislative mandate, (6) lack of funding and effective market incentives, and (7) resistance to change. By comparing experiences from Australia and the United States, two developed countries with existing conventional stormwater infrastructure and escalating stream ecosystem degradation, we highlight challenges facing sustainable urban stormwater management and offer several examples of successful, regional WSUD implementation. We conclude by identifying solutions to each of the seven impediments that, when employed separately or in combination, should encourage widespread implementation of WSUD with watershed-based goals to protect human health and safety, and stream ecosystems.
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              The water sensitive city: principles for practice

              T. H. F. Wong, R R Brown (2009)
              With the widespread realisation of the significance of climate change, urban communities are increasingly seeking to ensure resilience to future uncertainties in urban water supplies, yet change seems slow with many cities facing ongoing investment in the conventional approach. This is because transforming cities to more sustainable urban water cities, or to Water Sensitive Cities, requires a major overhaul of the hydro-social contract that underpins conventional approaches. This paper provides an overview of the emerging research and practice focused on system resilience and principles of sustainable urban water management Three key pillars that need to underpin the development and practice of a Water Sensitive City are proposed: (i) access to a diversity of water sources underpinned by a diversity of centralised and decentralised infrastructure; (ii) provision of ecosystem services for the built and natural environment; and (iii) socio-political capital for sustainability and water sensitive behaviours. While there is not one example in the world of a Water Sensitive City, there are cities that lead on distinct and varying attributes of the water sensitive approach and examples from Australia and Singapore are presented.
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                Author and article information

                Journal
                Journal ID (publisher-id): era
                Title: Ecosistemas y recursos agropecuarios
                Abbreviated Title: Ecosistemas y recur. agropecuarios
                Publisher: Universidad Juárez Autónoma de Tabasco, Dirección de Investigación y Posgrado (Villahermosa, Tabasco, Mexico )
                ISSN (Print): 2007-9028
                ISSN (Electronic): 2007-901X
                Publication date (Print and electronic): August 2022
                Volume: 9
                Issue: 2
                Electronic Location Identifier: e3236
                Affiliations
                [3] Chetumal Quintana Roo orgnameEl Colegio de la Frontera Sur Mexico
                [2] Chetumal Quintana Roo orgnameInstituto Tecnológico de Chetumal Mexico
                [1] Quintana Roo orgnameGeoAlternativa A.C México
                [4] Chetumal Quintana Roo orgnameGobierno del estado de Quintana Roo México
                [5] Playa del Carmen Quintana Roo orgnameNacaome Foundation México
                Article
                Publisher ID: S2007-90282022000200009 Publisher ID: S2007-9028(22)00900200009
                DOI: 10.19136/era.a9n2.3236
                SO-VID: 04d083ba-0616-4ece-8453-4e679eae84c3
                License:

                This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

                History
                Date accepted : 10 June 2022
                Date received : 10 January 2022
                Page count
                Figures: 0, Tables: 0, Equations: 0, References: 53, Pages: 0
                Product

                SciELO Mexico

                Categories
                Subject: Artículos científicos

                Keywords: economic valuation,valoración económica,permeabilidad,modelación urbana,inundaciones,Cambio climático,permeability,urban modeling,flooding,Climate change
                Data availability:
                Keywords: economic valuation, valoración económica, permeabilidad, modelación urbana, inundaciones, Cambio climático, permeability, urban modeling, flooding, Climate change

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