Sand dams [Kenia]
- Creación:
- Actualización:
- Compilador: Ian Neal
- Editor: –
- Revisores: David Streiff, Deborah Niggli
Sand storage dams, Groundwater dams
technologies_1537 - Kenia
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Expandir todo Colapsar todos1. Información general
1.2 Detalles de contacto de las personas de referencia e instituciones involucradas en la evaluación y la documentación de la Tecnología
Especialista MST:
Especialista MST:
Musila Andrew
musila.asdf@gmail.com
Africa Sand Dam Foundation
P.O Box 125 - 90128, Mtito Andei, Kenya,
Kenia
Nombre del proyecto que financió la documentación/ evaluación de la Tecnología (si fuera relevante)
Book project: Water Harvesting – Guidelines to Good Practice (Water Harvesting)Nombre de la(s) institución(es) que facilitaron la documentación/ evaluación de la Tecnología (si fuera relevante)
Africa Sand Dam Foundation (ASDF) - KeniaNombre de la(s) institución(es) que facilitaron la documentación/ evaluación de la Tecnología (si fuera relevante)
Excellent Development Ltd. (Excellent Development Ltd.) - Reino Unido1.3 Condiciones referidas al uso de datos documentados mediante WOCAT
¿Cuándo se compilaron los datos (en el campo)?
27/03/2012
El compilador y la/s persona(s) de referencia claves aceptan las condiciones acerca del uso de los datos documentados mediante WOCAT:
Sí
2. Descripción de la Tecnología MST
2.1 Breve descripción de la Tecnología
Definición de la Tecnología:
A sand dam is a stone masonry barrier across a seasonal sandy riverbed that traps rainwater and sand flowing down the catchment.
2.2 Descripción detallada de la Tecnología
Descripción:
A sand dam is typically 1 - 5 metres high and 10-50 metres across. When it rains the dam captures soil laden water behind it – the sand in the water sinks to the bottom, whilst the silt remains suspended in the water. Eventually the dams fill with sand - sometimes after only one rainfall or over 1 – 3 seasons. 25 to 40% of the volume of the sand held is actually water. A mature sand dam can store millions of litres of water – refilling after each rainfall providing a year round supply to over 1,000 people.
Purpose of the Technology: Sand dams are a simple, low cost and low maintenance, replicable rainwater harvesting technology. They provide a clean, local water supply for domestic and farming use and are suited to arid and semi-arid areas of the world. It is a solution that is scaleable and has a broader application for use as a rural and game park road crossing to replace less effective culvert bridges.
Establishment / maintenance activities and inputs: Sand dams are the lowest cost form of rainwater harvesting and its robust nature and very low operational and maintenance costs make it particularly suited to remote and poorly served regions. A typical dam using 500 bags of cement would approx be 40 metres in length with a spillway 2 metres above the bedrock. The dam is constructed using stone masonry placed in timber formwork. Such a dam costs approximately USD 11,800 (in 2012 prices). This consists of materials (cement, steel reinforcement, timber, transport) and dam permit USD 8,800 (75%), project management including technical support from skilled local artisans and dam designers USD 2150 (18%) and finance and administration costs of implementing organisation USD 850 (7%). Local people freely contribute their labour to collect rock, sand and water, terrace and protect the immediate catchment and construct the dam. If this contribution was costed and included the cost of the dam would almost double. The maintenance and repair costs of the dam provided it has been well designed and constructed is negligible. Local users are responsible for the management and repair of the dam and its abstraction system. Where a hand pump is fitted, local users fund the repair and replacement of the pump as required. The purchase and repair of petrol powered water pumps which some groups use to irrigate adjacent land is the responsibility of the members of the local group.
Natural / human environment: Because the water is stored within the sand, evaporation losses are very low, the sand filters the water and water-vector diseases such as malaria are controlled. Sand dams provide significant environmental benefits such as aquifer recharge, increased downstream flows in the dry-season, rejuvenation of river ecologies and moderation of floods. As such, it contributes to ecosystem services and climate change adaption.
2.3 Fotografías de la Tecnología
2.5 País/ región/ lugares donde la Tecnología fue aplicada y que se hallan comprendidos por esta evaluación
País:
Kenia
Región/ Estado/ Provincia:
Machakos, Kitui and Makueni Counties
Especifique más el lugar :
Eastern Province, Kenya
Comentarios:
Boundary points of the Technology area: An approx. triangular area bordered by Machakos, Kitui and Mitio Andei.
Map
×2.6 Fecha de la implementación
Si no se conoce el año preciso, indique la fecha aproximada:
- 10-50 años atrás
2.7 Introducción de la Tecnología
Especifique cómo se introdujo la Tecnología:
- mediante proyectos/ intervenciones externas
Comentarios (tipo de proyecto, etc.):
Sand dams are an ancient technology. Examples are found across the world's drylands although the greatest concentration is found in Kenya. They were introduced to Kenya in the 1950s from India. Dams were pioneered in Machakos and Makueni counties of Kenya by Joshua Mukusya, a visionary farmer and development worker, in 1978. He worked with a range of agencies to develop and implement the technology. In 1990, staff trained by Joshua set up SASOL to pioneer sand dams in the neighbouring county of Kitui. In 2002, Joshua teamed up with Simon Maddrell, Excellent Development's director, to establish Excellent Development Kenya, now Utooni Development Organisation (UDO) to scale up the work. Sadly, in 2011, Joshua passed away. In 2010, Excellent Development formed a strategic partnership with the Kenyan NGO, Africa Sand Dam Foundation (ASDF), to support the wider uptake beyond Kenya. Today, ASDF, SASOL and UDO are the three NGOs with the most experience of building successful sand dams, approx. 130 dams / year, although many other NGOs have adopted the technology.
3. Clasificación de la Tecnología MST
3.1 Propósito(s) principal(es) de la Tecnología MST
- access to water
3.2 Tipo(s) actuales de uso de la tierra donde se aplica la Tecnología
vías fluviales, masas de agua, humedales
- Líneas de drenaje, vías fluviales
- Estanques, diques
Comentarios:
Major land use problems (compiler’s opinion): Drylands are characterised by intense and variable rainfall and a lack of vegetative cover. As a result, drylands are prone to droughts, flooding and soil erosion which result in endemic water and food scarcity.
Major land use problems (land users’ perception): “We used to fetch water from Londokwe; we could spend a night to collect water. One way was 3 to 10 km and up to 12 hours or more to go and come back [because of the time taken to queue]. If we could not make it to the river, we would send our children to fetch water. When they went fetching water that would mean they did not go to school. At times people would fight over fetching water from other people’s scoop holes. Scoop holes would be guarded in turns. The gourds [water containers] would be damaged and the water poured down. Children would not go to school [as they needed to] take care of the young ones as the parents went to fetch water. Children would fail to go to school because they were hungry – just because there was no water to cook."
Yikiuuku SHG
3.4 Grupo MST al que pertenece la Tecnología
- cosecha de agua
3.5 Difusión de la Tecnología
Especifique la difusión de la Tecnología:
- distribuida parejamente sobre un área
Si la tecnología se halla difundida homogéneamente en un área, indique el área aproximada que cubre:
- 1,000-10,000 km2
Comentarios:
Over 1000 dams have been built to date in these counties, predominantly by 3 organisations: Utooni Development organisation, SASOL and Africa Sand Dam Foundation in an approx. triangular area bordered by Machakos, Kitui and Mitio Andei.
3.6 Medidas MST que componen la Tecnología
medidas estructurales
- S3: Acequias graduadas, canales, vías fluviales
- S5: Diques, hondonadas, estanques
Comentarios:
Main measures: structural measures
3.7 Principales tipos de degradación del suelo encarados con la Tecnología
degradación biológica
- Bq: reducción de la cantidad/ biomasa
- Bs: reducción en la calidad y composición/ diversidad de las especies
degradación del agua
- Ha: aridificación
- Hs: cambio en la cantidad de aguas superficiales
- Hg: cambio en nivel de aguas subterráneas/ nivel de acuífero
Comentarios:
Main type of degradation addressed: Hs: change in quantity of surface water
Secondary types of degradation addressed: Bq: quantity / biomass decline, Bs: quality and species composition /diversity decline, Ha: aridification, Hg: change in groundwater / aquifer level
Main causes of degradation: Heavy / extreme rainfall (intensity/amounts), droughts
3.8 Prevención, reducción o restauración de la degradación del suelo
Especifique la meta de la Tecnología con relación a la degradación de la tierra:
- prevenir la degradación del suelo
- reducir la degradación del suelo
4. Especificaciones técnicas, actividades de implementación, insumos y costos
4.1 Dibujo técnico de la Tecnología
4.2 Especificaciones técnicas/ explicaciones del dibujo técnico
Cross-section of sand dam
Technical knowledge required for field staff / advisors: moderate (The technical skills required to site, design and supervise construction. These skills have and can be developed locally.)
Technical knowledge required for land users: low (Knowledge of local rivers and their flood levels essential. Basic knowledge of stone masonry useful)
Main technical functions: control of concentrated runoff: retain / trap, water harvesting / increase water supply, improvement of water quality, buffering / filtering water
Secondary technical functions: increase of groundwater level / recharge of groundwater, sediment retention / trapping, sediment harvesting, increase of biomass (quantity), promotion of vegetation species and varieties (quality, eg palatable fodder)
Dam/ pan/ pond
Depth of ditches/pits/dams (m): 1-5
Width of ditches/pits/dams (m): 1-2
Length of ditches/pits/dams (m): 5-50
Specification of dams/ pans/ ponds: Capacity 5,000m3
Catchment area: 300 km2m2
4.3 Información general sobre el cálculo de insumos y costos
otra / moneda nacional (especifique):
Kenyan Shilling
Indique la tasa de cambio de USD a la moneda local (si fuese relevante): 1 USD =:
83,0
Indique el costo promedio del salario de trabajo contratado por día:
2.50
4.4 Actividades de establecimiento
Actividad | Tipo de medida | Momento | |
---|---|---|---|
1. | Collection of rock, sand and water | Estructurales | 1-3 months before construction |
2. | Construct dam | Estructurales | During dry season |
3. | Cure dam | Estructurales | For 4 weeks after construction |
4. | Terracing and protection of immediate catchment | Estructurales | 1-3 months before construction |
4.5 Costos e insumos necesarios para el establecimiento
Especifique insumo | Unidad | Cantidad | Costos por unidad | Costos totales por insumo | % de los costos cubiertos por los usuarios de las tierras | |
---|---|---|---|---|---|---|
Mano de obra | Collection of rock, sand and water | Persons/day | 220,0 | 2,5 | 550,0 | 100,0 |
Mano de obra | Terracing and protection of immediate catchment | Persons/day | 100,0 | 2,5 | 250,0 | 100,0 |
Mano de obra | Construct dam | Persons/day | 500,0 | 2,5 | 1250,0 | 90,0 |
Mano de obra | Cure dam | Persons/day | 50,0 | 2,5 | 125,0 | 100,0 |
Equipo | Tools | per dam | 1,0 | 300,0 | 300,0 | |
Material de construcción | Cement (bag = 50kg) | bags | 500,0 | 9,15 | 4575,0 | |
Material de construcción | Steel (12m x Y20 steel bar) | pieces | 7,0 | 45,7 | 319,9 | |
Material de construcción | Steel | per dam | 1,0 | 1000,0 | 1000,0 | |
Otros | Skilled labour | per dam | 1,0 | 3000,0 | 3000,0 | |
Costos totales para establecer la Tecnología | 11369,9 |
Comentarios:
Duration of establishment phase: 6 month(s)
4.6 Actividades de establecimiento/ recurrentes
Actividad | Tipo de medida | Momento/ frequencia | |
---|---|---|---|
1. | Inspect and if necessary extend spillway or repair erosion around dam | Estructurales | As required / annually |
2. | Maintain hand pump if fitted | Estructurales | As required / annually |
4.7 Costos e insumos necesarios para actividades de mantenimiento/ recurrentes (por año)
Comentarios:
In 2012, in Machakos County, Kenya, the cost of materials and technical support for a dam using 250 bags of cement is USD 7,000 and USD 11,700 for a 500 bag dam. The costs in 2.6.1 are based on a 500 bag dam. The volume of a 500 bag dam is approx 140m3 of stone masonry of which 40% is mortar (sand and cement) and 60% is rock. Such a dam will typically be appropriate on rivers 30m wide and with a spillway 3 metres above the bedrock in the river bed level. Costs rise by up to 50% in more remote regions or countries. Sand dams require a lot of hard work. Community members collect the required stones, sand and water, support construction and terrace the land around the dam. If this in-kind contribution is included the costs would rise by 100%. In Kenya, with a long tradition of building sand dams, it takes from 6 to 12 weeks to plan and prepare for construction and 2 days to 2 weeks to build the dam. In other areas, with less experience and/or less community commitment, building a dam may take 6 months or more.
4.8 Factores más determinantes que afectan los costos:
Describa los factores más determinantes que afectan los costos:
Each dam is individually designed. The size, design and cost of a dam varies considerably with the size of the river and to a lesser extent, location and transport costs. Sand dams are the world’s lowest cost method of capturing rainwater in dry rural areas by a factor of 3 to 30 times compared to rain water harvesting tanks, earth dams, haffirs and rock catchments.
5. Entorno natural y humano
5.1 Clima
Lluvia anual
- < 250 mm
- 251-500 mm
- 501-750 mm
- 751-1,000 mm
- 1,001-1,500 mm
- 1,501-2,000 mm
- 2,001-3,000 mm
- 3,001-4,000 mm
- > 4,000 mm
Especificaciones/ comentarios sobre la cantidad de lluvia:
Sand dams suit dryland climate: dry sub-humid, semi-arid and arid climates
Zona agroclimática
- semi-árida
Thermal climate class: subtropics
5.2 Topografía
Pendientes en promedio:
- plana (0-2 %)
- ligera (3-5%)
- moderada (6-10%)
- ondulada (11-15%)
- accidentada (16-30%)
- empinada (31-60%)
- muy empinada (>60%)
Formaciones telúricas:
- meseta/ planicies
- cordilleras
- laderas montañosas
- laderas de cerro
- pies de monte
- fondo del valle
Zona altitudinal:
- 0-100 m s.n.m.
- 101-500 m s.n.m.
- 501-1,000 m s.n.m
- 1,001-1,500 m s.n.m
- 1,501-2,000 m s.n.m
- 2,001-2,500 m s.n.m
- 2,501-3,000 m s.n.m
- 3,001-4,000 m s.n.m
- > 4,000 m s.n.m
Comentarios y especificaciones adicionales sobre topografía :
Land forms: Sand dams only suit seasonal rivers with sufficient sandy sediment and an accessible bedrock
Altitudinal zone: Also 1,001-1,500 m a.s.l.
Slopes on average: Also moderate
5.3 Suelos
Si se halla disponible, adjunte una descripción completa de los suelos o especifique la información disponible, por ej., tipo de suelo, pH/ acidez de suelo, capacidad de intercambio catiónico, nitrógeno, salinidad, etc. :
Soil water storage capacity: The aquifer behind the dam must consist of sandy sediments with a high porosity and drainable porosity
5.4 Disponibilidad y calidad de agua
Agua subterránea:
5-50 m
Disponibilidad de aguas superficiales:
excesiva
Calidad de agua (sin tratar):
agua potable de buena calidad
Comentarios y especificaciones adicionales sobre calidad y cantidad de agua:
Availability of surface water: Sand dams only suit seasonal rivers
Water quality (untreated): Good drinking water because the sand filters the water. Water abstracted through an infiltration gallery has a high bacterialogical quality but water is often used for small scale irrigation and livestock watering.
5.5 Biodiversidad
Diversidad de especies:
- elevada
Comentarios y especificaciones adicionales sobre biodiversidad:
Sand dams rejuvenate riverine ecologies and increase local biodiversity
5.6 Las características de los usuarios de la tierra que aplican la Tecnología
Ingresos no agrarios:
- menos del 10% de todos los ingresos
Nivel relativo de riqueza:
- pobre
- promedio
Individuos o grupos:
- grupos/ comunal
Género:
- mujeres
Indique otras características relevantes de los usuarios de las tierras:
Land users applying the Technology are mainly common / average land users
Difference in the involvement of women and men: The dams are built by members of registered self-help groups, typically 50 members / group and two-thirds women. The primary concerns of these groups tend to be food and water. Sand dams provide for people, livestock and crops. Water collection and farming are primarily undertaken by women in Kikamba culture and hence women have the greatest vested interest to imrpove food and water availability. Many men migrate away from the area in search of work.
Population density: 50-100 persons/km2
Annual population growth: 2% - 3%
Off-farm income specification: This varies considerably, but most self-help group members are subsistence farmers
5.7 Área promedio de la tierra que pertenece a o es arrendada por usuarios de tierra que aplican la Tecnología
- < 0.5 ha
- 0.5-1 ha
- 1-2 ha
- 2-5 ha
- 5-15 ha
- 15-50 ha
- 50-100 ha
- 100-500 ha
- 500-1,000 ha
- 1,000-10,000 ha
- > 10,000 ha
¿Esto se considera de pequeña, mediana o gran escala (refiriéndose al contexto local)?
- pequeña escala
5.8 Tenencia de tierra, uso de tierra y derechos de uso de agua
Tenencia de tierra:
- estado
Derechos de uso de tierra:
- comunitarios (organizado)
Derechos de uso de agua:
- comunitarios (organizado)
Comentarios:
Legal agreements for construction and access between the self-help group and the owners of land adjacent to the dam and registering the dam and its associated water rights by the self-help group with the Kenyan Water Resources Management Authority (WRMA) is vital to safeguarding water rights, controlling water and sand abstraction, formalising the authority of the self-help group to levy water tarriffs if appropriate and ensuring there is open access to all to water from scoop holes.
5.9 Acceso a servicios e infraestructura
salud:
- pobre
- moderado
- bueno
educación:
- pobre
- moderado
- bueno
asistencia técnica:
- pobre
- moderado
- bueno
empleo (ej. fuera de la granja):
- pobre
- moderado
- bueno
mercados:
- pobre
- moderado
- bueno
energía:
- pobre
- moderado
- bueno
caminos y transporte:
- pobre
- moderado
- bueno
agua potable y saneamiento:
- pobre
- moderado
- bueno
servicios financieros:
- pobre
- moderado
- bueno
6. Impactos y comentarios para concluir
6.1 Impactos in situ demostrados por la Tecnología
Impactos socioeconómicos
Producción
producción de cultivo
producción de forraje
calidad de forraje
producción animal
producción de madera
riesgo de fracaso de producción
diversidad de producto
generación de energía
Comentarios/ especifique:
Tree planting enabled by dams increases fuel wood availability
Disponibilidad y calidad de agua
disponibilidad de agua potable
disponibilidad de agua para ganado
calidad de agua para ganado
disponibilidad de agua para irrigar
calidad de agua para irrigar
Ingreso y costos
ingreso agrario
diversidad de fuentes de ingreso
carga de trabajo
Comentarios/ especifique:
Construction of sand dams is labour intensive. This is more than offset by the time savings created by reducing the time required to collect water.
Otros impactos socioeconómicos
School attendance
Impactos socioculturales
seguridad alimentaria/ autosuficiencia
Comentarios/ especifique:
Sand dams are integrated within a wider programme that promotes food security and self sufficiency
situación de salud
Comentarios/ especifique:
Reduced water borne disease. Increased access to higher quality water and improved food security improves health.
oportunidades culturales
Comentarios/ especifique:
Working through and strengthening self help groups builds on the local tradition of self-help called mwethya
instituciones comunitarias
Comentarios/ especifique:
Increases the capacity of self-help groups
MST/ conocimiento de la degradación del suelo
Comentarios/ especifique:
Learning exchanges between self-help groups and demonstration plots builds knowledge and adoption of conservation farming
mitigación de conflicto
Comentarios/ especifique:
If ownership and management of dam is not clear and legally protected this can result in conflict
Fuel security
Comentarios/ especifique:
Tree nursersies and agro-forestry enabled by sand dams improves access to fuel food
Livelihood and human well-being
Comentarios/ especifique:
Sand dams save farmers hours every day that they can invest in improving their farms to grow more food and create the potential for farmers to irrigate trees and crops, water livestock and generate an income. It is strongly advised that sand ams are integrated within a wider land management and livelihoods programme in order to realise these opportunities to the maximum. Community ownership and management is critical to achieving this
Livestock health
Comentarios/ especifique:
Sand dams provide secure water source for livestock
Income
Comentarios/ especifique:
Irrigated horticulture and tree nurseries improves farmer incomes
Impactos ecológicos
Ciclo de agua/ escurrimiento de sedimento
cantidad de agua
Cantidad antes de MST:
<1000m3
Cantidad luego de MST:
2-10,000m3
calidad de agua
Comentarios/ especifique:
Sand filters the water
cosecha/ recolección de agua
Comentarios/ especifique:
Sand dams capture excess flood flows
escurrimiento superficial
Comentarios/ especifique:
Terracing the immediate dam catchment reduces surface runoff
nivel freático/ acuífero
Comentarios/ especifique:
Studies of Kitui dams found watertable increased by several metres
evaporación
Comentarios/ especifique:
Once the water level in the dam aquifer is below 60cm, evaporation losses from the sand are negligible
Suelo
humedad del suelo
Comentarios/ especifique:
Sand dams recharge the aquifer and raises the watertable above and below the dam
salinidad
Comentarios/ especifique:
Salinity of sand dam water is often less than surrounding groundwater
Biodiversidad: vegetación, animales
diversidad vegetal
Comentarios/ especifique:
Rejuvenation of riverine ecologies and planting indigenous trees increases diversity
diversidad de hábitats
Comentarios/ especifique:
Riverine ecologies rejuvenated
Reducción de riesgos de desastres y riesgos climáticos
impactos de inundaciones
Comentarios/ especifique:
By creating a buffer, flooding downstream of a dam or series of dams is reduced
emisión de carbono y gases de invernadero
Comentarios/ especifique:
Tree nursersies enabled by sand dams capture store carbon and reduce deforestation
6.2 Impactos fuera del sitio demostrados por la Tecnología
disponibilidad de agua
inundaciones río abajo
capacidad de amortiguación/ filtrado
daño a campos de vecinos
daños a infraestructura pública / privada
6.3 Exposición y sensibilidad de la Tecnología al cambio climático gradual y a extremos relacionados al clima/ desastres (desde la percepción de los usuarios de tierras)
Cambio climático gradual
Cambio climático gradual
Estación | tipo de cambios climáticos/ climas extremos | ¿Cómo es que la tecnología soporta esto? | |
---|---|---|---|
temperatura anual | incrementó | bien |
Extremos (desastres) relacionados al clima
Desastres climatológicos:
¿Cómo es que la tecnología soporta esto? | |
---|---|
tormenta de lluvia local | bien |
tormenta de viento | bien |
Desastres climatológicos
¿Cómo es que la tecnología soporta esto? | |
---|---|
sequía | bien |
Desastres hidrológicos
¿Cómo es que la tecnología soporta esto? | |
---|---|
inundación general (río) | bien |
Otras consecuencias relacionadas al clima
Otras consecuencias relacionadas al clima
¿Cómo es que la tecnología soporta esto? | |
---|---|
periodo reducido de crecimiento | bien |
Comentarios:
The capacity of the spillway would be increased to control peak flood events
6.4 Análisis costo-beneficio
¿Cómo se comparan los beneficios con los costos de establecimiento (desde la perspectiva de los usuarios de tierra)?
Ingresos a corto plazo:
positivo
Ingresos a largo plazo:
muy positivo
¿Cómo se comparan los beneficios con los costos de mantenimiento/ recurrentes (desde la perspectiva de los usuarios de tierra)?
Ingresos a corto plazo:
muy positivo
Ingresos a largo plazo:
muy positivo
Comentarios:
The very low cost of operating and maintaining sand dams means they are well suited to remote, poorly served regions. Because it is a low cost technology that requires a major community contribution and the knowledge and skills of locally trained artisans, it’s a solution particularly suited to community ownership and self-supply. This contributes to effective implementation.
6.5 Adopción de la Tecnología
De todos quienes adoptaron la Tecnología, ¿cuántos lo hicieron espontáneamente, es decir, sin recibir incentivos/ pagos materiales?
- 0-10%
Comentarios:
100% of land user families have adopted the Technology with external material support
Comments on acceptance with external material support: Sand dams require external material support including technical advice to correctly site, design and construct
There is a little trend towards spontaneous adoption of the Technology
Comments on adoption trend: There is some evidence of spontaneous adoption amongst development agencies working in regions suited to sand dams.
6.7 Fuerzas/ ventajas/ oportunidades de la Tecnología
Fuerzas/ ventajas/ oportunidades desde la perspectiva del usuario de la tierra |
---|
“I will be able to rent a plot of land near to the sand dam and grow vegetables (tomatoes, peppers, and French beans). My animals will also be healthy because they will always be able to drink here, even during the droughts.” Mauwa Maingi, self-help group member, aged 87, 2010 |
Mbatha Mbuli, 83. "My family collects water from a near-by well, about ½ Km away, but the water is very salty. It takes one hour to collect water, and needs 6 trips to fetch enough to last the day. There is a pipeline nearby but we must pay 2 shillings per 20 litres. I planted 9 different crops last year, but only 2 survived. I wanted to work with Excellent on this project because I had heard that the projects you support help communities like us to build sand dams, grow trees and create seed banks. I would like to grow trees like Neem in the future and a sand dam here will really help with that. Excellent shares in the interests of the community and they listen to the community and take direction from us" |
Stephen Hussey, Dabane Trust, 2011 “Dabane has made its name by getting water out of sand rivers – Our next step is to ensure we don’t over abstract – the answer to that, especially upstream, is sand dams. Without a doubt.” |
Milka Mutunga, Kilili Catchment SHG, Kenya 2009-10 "The distance that I used to travel in order to fetch water has been reduced..now I am able to plant more vegetables close to my home. I have learnt how to dig terraces which have helped in increasing the yields that I harvest from my farm..If this is not development then I do not know what development means" |
Kimanthi Ngovi, Yikiuuku SHG “The sand dams have done an incredible work for us – water availability at a shorter distance has helped me in saving time for other activities. When water was a long way away I had to get time to collect water in one day and dig terraces on the other day. Today I can fetch water and dig terraces on the same day.” |
Fuerzas/ ventajas/ oportunidades desde la perspectiva del compilador o de otra persona de referencia clave |
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Sand dams provide a safe, reliable, year round, local supply of water for people, crops and livestock in water scarce environments How can they be sustained / enhanced? The very low cost of operating and maintaining sand dams means they are well suited to remote, poorly served regions. Community ownership is critical to their effective management. |
Sand dams save farmers hours every day that they can invest in improving their farms to grow more food and create the potential for farmers to irrigate trees and crops, water livestock and generate an income How can they be sustained / enhanced? Don’t build a sand dam in isolation. An independent evaluation in 2010 of 2 sand dam programmes found the long term impacts on poverty, food security and incomes were greatest when sand dams were integrated within a wider community development programme aimed at improving food production, livestock management and land management practice. |
Because it is a low cost technology that requires a major community contribution and the knowledge and skills of locally trained artisans, it’s a solution particularly suited to community ownership and self-supply. This contributes to effective implementation. How can they be sustained / enhanced? Don’t short cut community ownership. Communities better understand and are able to implement solutions to their problems if they are central to the planning of the solution. Genuine community commitment and ownership from initial planning to on-going management is vital to realise the intended benefits and full potential created by a dam. Legal registration and agreements to safeguard community access and water rights help this. |
Sand dams provide significant environmental benefits such as aquifer recharge, increased downstream flows in the dry-season, rejuvenation of river ecologies and moderation of floods. As such, it contributes to eco-system services and climate change adaption. How can they be sustained / enhanced? Support terracing, tree planting and conservation farming in the wider catchment. This conserves soil and water on farms, increases aquifer recharge and base flows into the dam and reduces the amount of silt in the sand dam aquiver. Research and disseminate evidence of these benefits and the value of these eco-system services |
The technology is scaleable and has a broader application for use as a rural and game park road crossing to replace less effective culvert bridges. How can they be sustained / enhanced? In order to upscale this solution, there is a need for greater awareness and advocacy of the technology and its benefits amongst these groups. Nothing generates interest in sand dams more than exposure to successful examples |
6.8 Debilidades/ desventajas/ riesgos de la Tecnología y formas de sobreponerse a ellos
Debilidades/ desventajas/ riesgos desde la perspectiva del compilador o de otra persona de referencia clave | ¿Cómo sobreponerse a ellas? |
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Although sand dams are technically replicable, their application in new contexts requires careful understanding and consideration. | Excellent Development has developed a framework tool to help agencies identify the political, economic, social, technical, legal and environmental factors that should be taken account of when introducing sand dams to a new context. |
Sand dams require the technical knowledge and skills of local artisans in order to correctly site, design and construct them | The technical barriers to adoption are low: The technical skills required have and can be developed locally. Learning exchanges between implementing organisations and developing technical manuals and resources aids this learning |
This is a drylands solution. Sand dams can only be built on seasonal rivers with sufficient sandy sediment and where the bedrock or impermeable layer is accessible in the river bed. | Increase awareness of the criteria that determine the technical suitability of a site. Use simple field tests, such as sediment seiving and probing, to assess potential sites and to map the potenial application of sand dams. |
7. Referencias y vínculos
7.2 Vínculos a las publicaciones disponibles
Título, autor, año, ISBN:
Be buffered website including Managing the Water Buffer for Development and Climate Change Adaptation. Groundwater recharge, retention, reuse and rainwater storage. Steenbergen F. van and A. Tuinhof. (2009) which includes sand dams
¿Dónde se halla disponible? ¿Costo?
www.bebuffered.com/3rbook
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