Eduardo López scite author profile

Often centralized water supply, sanitation and solid waste services struggle to keep up with the rapid expansion of urban areas. The peri-urban areas are at the forefront of this expansion and it is here where decentralized technologies are increasingly being implemented. The introduction of decentralized technologies allows for the development of new opportunities that enable the recovery and reuse of resources in the form of water, nutrients and energy. This resource-oriented management of water, nutrients and energy requires a sustainable system aimed at low resource use and high recovery and reuse rates. Instead of investigating each sector separately, as has been traditionally done, this article proposes and discusses a concept that seeks to combine the in-and outflows of the different sectors, reusing water and other liberated resources where possible. This paper shows and demonstrates examples of different types of sustainable technologies that can be implemented in the peri-urban areas of Mexico City [rainwater harvesting, EcoSan and OPEN ACCESSWater 2012, 4 740 biofiltros (small constructed wetlands), and (vermi-)composting]. An innovative participatory planning method, combining scenario development with a participatory planning workshop with key stakeholders, was applied and resulted in three concept scenarios. Specific technologies were then selected for each concept scenario that the technical feasibility and applicability was assessed. Following this, the resulting resource flows (nutrients, water and energy) were determined and analyzed. The results show that decentralized technologies not only have the potential to deliver adequate water supply, sanitation and solid waste services in peri-urban areas and lessen environmental pollution, but also can recover significant amounts of resources thereby saving costs and providing valuable inputs in, for instance, the agricultural sector. Social acceptance of the technologies and institutional cooperation, however, is key for successful implementation.

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Opportunities and Constraints for Resource Efficient Environmental Management in Rapidly Developing Urban Areas: The Example of Mexico City

Starkl

Bisschops

Essl

et al. 2013

Aquatic Procedia

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Host range ofCercospora piaropi andAcremonium zonatum, potential fungal biocontrol agents for waterhyacinth in Mexico

Jiménez

López

2001

Phytoparasitica

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Nanninga, T.A., et al. Discussion on Sustainable Water Technologies for Peri-Urban Areas of Mexico City: Balancing Urbanization and Environmental Conservation. Water 2012, 4, 739–758

Nanninga

Bisschops

López³

et al. 2013

Water

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Eduardo López

A planning-oriented sustainability assessment framework for peri-urban water management in developing countries

Discussion on Sustainable Water Technologies for Peri-Urban Areas of Mexico City: Balancing Urbanization and Environmental Conservation

Opportunities and Constraints for Resource Efficient Environmental Management in Rapidly Developing Urban Areas: The Example of Mexico City

Host range ofCercospora piaropi andAcremonium zonatum, potential fungal biocontrol agents for waterhyacinth in Mexico

Nanninga, T.A., et al. Discussion on Sustainable Water Technologies for Peri-Urban Areas of Mexico City: Balancing Urbanization and Environmental Conservation. Water 2012, 4, 739–758

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