Difference between revisions of "Water Portal / Rainwater Harvesting / Multiple Use Services (MUS)"

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{{Language-box|english_link=Multiple Use Services (MUS)|french_link=|spanish_link=Servicios para usos múltiples (MUS)}}
 
[[Image:MUS in Nepal.jpg|thumb|right|200px|A multi-use water system in Nepal provides safe drinking water and drip irrigation for farmers, helping them adapt to climate change.  Photo: [http://www.ens-newswire.com/ens/nov2010/2010-11-22-03.html USAID and Winrock International]]]
 
[[Image:MUS in Nepal.jpg|thumb|right|200px|A multi-use water system in Nepal provides safe drinking water and drip irrigation for farmers, helping them adapt to climate change.  Photo: [http://www.ens-newswire.com/ens/nov2010/2010-11-22-03.html USAID and Winrock International]]]
 
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Revision as of 02:34, 29 August 2014

English Español





A multi-use water system in Nepal provides safe drinking water and drip irrigation for farmers, helping them adapt to climate change. Photo: USAID and Winrock International

Multiple-use water services (MUS) is an innovative approach to water services. It unlocks new investment opportunities for poverty reduction and gender equity in peri-urban and rural areas. MUS takes people’s multiple water needs as the starting point of planning and design of new systems and upgrades. Universally, water users already use ‘domestic’ systems or ‘irrigation’ systems for multiple purposes, whether legal or not. By planning for these multiple uses, many more benefits from investments in infrastructure can be realized: health, freedom from domestic chores, food and income and gender equity.


Multiple-use water services is a holistic approach to
sustainable water services that improves health and livelihoods.

Homestead-scale MUS: 50 – 200 litres per capita per day

Whenever water is available near homes and on adjoining lands, or ‘homesteads’, people use such water for domestic and many productive uses. This empirical relationship between water uses and availability is depicted in the ‘multiple-use water ladder’. The policy recommendation is to enable poor people ‘to climb the water ladder’ and to provide 50-200 liters per capita per day. Out of this, 3-5 liters per capita per day should be safe for drinking. Income generated enable repayment of most multiple-use systems investments within three years. Homestead-scale MUS is especially beneficial for women, who are disproportionately responsible for domestic water supplies and tend to have a stronger say over homestead production. The land-poor, who only have access to homestead land, also benefit.

Community-scale MUS: local-level integrated water resource management

Here MUS takes communities as entry point of water services. It holistically considers their multiple water uses (domestic, irrigation, animal watering, tree-growing, fisheries, enterprises, ceremonies, environment) from multiple water sources (rain, surface water, groundwater, wetlands) at multiple sites (homesteads, fields, open access). This integrated water resource management at the local level is (potentially) considerably more cost-effective and sustainable than single-use water services.

Advantages Disadvantages
- Gender-friendly, because the needs of both men and women are considered.

- Enhancing willingness and ability to pay, which helps financing of public schemes and upscaling of self-financed schemes.
- Improving water productivity through “more use per drop.”
- Increasing ownership by building upon local integrated water arrangements.
- Anticipating all uses, avoiding damage, conflicts, or scheme abandonment.
- Addressing water-quality needs for all risks and all water uses, also beyond public schemes.
- Allowing for transparent, equitable and environmentally sustainable sharing of scarce water and financial resources, and protecting people’s domestic and productive basic needs.

- Most water sector projects are not organised to include multiple use, so planning is "new territory" for some.

- Sometimes when multiple use ideas are outside of the original water project plan, they are prevented, declared "illegal" with fines.
- Clarity and intent of water uses that apply to all necessary uses need to be planned early and clearly.

What does a multiple-use water service look like?

Once you understand the people, their needs and desires, and the sources, you can design an integrated water service with supporting health and livelihood components. How do you decide on the right combination of technologies and supporting programs?

1. Water: Multiple-use water services are not about just repeating the same technology throughout a community. Choosing the right technology can be an important part of creating a successful and sustainable service by enabling a community to use the right technology for the right uses. Equally important is choosing the right supporting programs (governance, management, and training), that will enable long-term sustainability of the water services.

Click to zoom. Chart: Winrock International

A key element of support programs is management. Work with water users to design a management structure that takes into account their resources and constraints. Some options for a management structure are community (management by committee or delegation to an entrepreneur or enterprise) or private (management by individual, household, or small group).

2. Health: By only providing potable water, you can make a health impact. To the extent that project resources permit, designing additional Health Activities (hygiene, sanitation, and nutrition) can maximize the overall health impacts of the new water service. Information learned in the Assessment process along with the results from the Design of Water Services can inform which Health Activities to include in the project.

Click to zoom. Chart: Winrock International

3. Livelihoods: Simply by providing holistic water services, livelihoods will be improved. To the extent that project resources permit, designing additional Livelihoods Activities (agriculture, livestock, trade) can broaden the impact of your project by increasing incomes and enabling access to opportunities like education.

Click to zoom. Chart: Winrock International

Field experiences

In Nepal, multiple-use water systems were introduced by Nepal Smallholder Market Initiative (SIMI), International Development Enterprise (IDE), and Winrock. The systems consist of collection tanks at springs or small streams diversions, which deliver water to a reservoir near a village by gravity flow through a pipe. These systems serve 10-40 households, which use the water both for domestic purposes and horticulture. The introduction of drip irrigation systems ensured an efficient use of the water and better plant growth. Sixty percent of drip irrigation users apply water from the domestic system.

RSR project


Akvorsr logo lite.png
RSR Project 555
WASH Media Forum


Manuals, videos and links

IDE Nepal, Multiple Use
Water System (MUS) Program
Small scale irrigation
with a rope pump

Acknowledgements

This article in other languages

Malayalam - മലയാളം