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[[Image:carelogo.png|thumb|right|150px|This section is based on a desk study written by [http://www.linkedin.com/pub/eric-fewster/4/333/a90 Eric Fewster], commissioned by [http://www.carenederland.org/ CARE Netherlands ] and the [http://www.rodekruis.nl/paginas/home.aspx Netherlands Red Cross]]]
Resilient WASH systems need to be able to cope with changes in the availability of water. This section explores which techniques can be used to improve water availability over space and time in areas not only prone to drought and changing climate variability, but also those areas with deteriorating water availability due to increasing water demands and human influences. The focus is on water supply and non-motorized irrigation in rural areas for populations of up to 5,000 people. Resilience is a concept used to describe how to make water systems more robust in terms of water availability, thereby reducing the vulnerability of people that rely on them.
====Primary focusMain content====*[[Impact of drought on WASH systems]] - Includes world maps on the locations of water stress, scarcity, and historical drought.*[[Drought and links to other disasters]] - How drought is linked to other major disasters such as poverty, inequality, and conflict.*[[Drought resilience - General issues|General issuesDrought resilience, non-technical solutions]]- Non-technical ways to make water systems more resilient, such as financial, institutional, environmental and social measures.*[[Drought resilience - Technical solutions|Technical Drought resilience, technical solutions]]- Technical solutions to make water systems more resilient.*[[Drought cycle management]]- Four stages of drought management: normal, alert, emergency, recovery.*[[Framework for evaluation of projects in drought-prone areas]]- a set of questions to help evaluate projects.
Both technical '''and''' non-technical components are important in discussing how to make water systems resilient. In many cases, it is not technical issues which cause projects to become unsustainable, but non-technical issues such as management, social relationships and community dynamics. A useful model to use is the [[FIETS sustainability principles| FIETS model]], which covers five dimensions of sustainability: Financial, Institutional, Environmental, Technical, and Social.
* Environmental solutions - e.g. siting of seasonal water points in relation to pasture availability in pastoral areas
* Social solutions - e.g. changing behavior in water use, use of communal sources, etc.
