1 / 26

CASE: GASH SUSTAINABLE LIVELIHOODS PROJECT (SUDAN)

CASE: GASH SUSTAINABLE LIVELIHOODS PROJECT (SUDAN). Red sea. Gash Die. GASH RIVER. eritrea.

dora
Download Presentation

CASE: GASH SUSTAINABLE LIVELIHOODS PROJECT (SUDAN)

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. CASE: GASH SUSTAINABLE LIVELIHOODS PROJECT (SUDAN)

  2. Red sea Gash Die GASH RIVER eritrea

  3. POPULATION:Estimated 87 000 households comprising (500 000 persons)Semi-nomadic pastoralists (mainly Hadendowa tribe) with agriculture as a secondary activity to provide staple grain at subsistence levelCLIMATESemi-arid to aridMaximum temperatures: from 42OC in May to 34OC in August Minimum temperatures: from 25OC to 16OC in January-February Average annual rainfall: from 260 mm in the southeast to less than 100 mm in the northwest. Rainy season: between July and OctoberRainfall pattern extremely variable in amount, intensity and distributionAverage altitude: 500 masl

  4. Map

  5. Map Upstream of Kassala Bridge: River training (spurs and dykes to maintain velocity of flow and avoid Gash river is diverting course) One minor off-take (Fota)

  6. Downstream of Kassala Bridge: • Six main off-takes: • Salam Alaikom • Mekali • Degain • Tendeli • Metateib • Hadaliya

  7. short channels (masga channels) located at cross regulators on the main cannels take water to fields. Regulation of flow in canals and masga channels carried out by stop logs

  8. From here single fields of 420 hectars (1000 feddan) are irrigated in one flush to spread sediment

  9. Beyond the command area all water is dissipated on the flood plain and terminal fan (Gash Die). Here it is used for rangeland and forestry

  10. Water ManagementChallenges • Sedimentation is a major challenge: – 129 mm/year • Land slope = 0.1 % • This results in substantial sedimentation in the canals, requiring considerable excavation

  11. Agricultural Features • The Gash system was initially developed (1924) for commercial cotton production • In the past land preparation and cotton marketing were done by the Gash Agricultural Scheme (GAS) • When cotton prices fell in late 1960’s, castor (oilseed) was introduced in 1967. From 1984 this lost its popularity. • Now most common crop is smallholders sorghum • There is no groundwater in the command area due to fine clays • However in the flood plain there is small horticultural production using groundwater

  12. Institutional Features • There have been problems with maintenance: • Annual requirement is USD 1.8 Million • Land and water fees are low (USD 15/ha and USD 0.40/ha) – insufficient to pay for full maintenance • Payment of problems • Limited funding for maintenance by government • No permanent staff of Irrigation Ministry since 1990’s – until recently • Earthmoving equipment obsolete • System not maintained for nearly fifteen years – massive deterioration

  13. Institutional Features • The scheme is operated by the Gash Agricultural Scheme (GAS) • GAS is responsible for land use in the irrigation scheme, including the registration of tenants, admission of new tenants in the irrigation scheme, supervision of land allocation, irrigation, and overall operation and maintenance. • It has a Board of Directors, chaired by the Federal Minister of Agriculture. The Board members comprise the Director of the GAS, the State Minister of Agriculture, representatives of the MOFNE and ABS, and three representatives from the Farmers Union • The current scheme management is severely restricted in its overall capacity and capabilities. It has lacked a sound financial base since the late 1960s when foreign currency resources were stripped. • The move to subsistence food crop production in the early over much of the irrigation area in the early 1980s has meant that its revenue base is severely eroded • It cannot at present operate the scheme without direct assistance from MOFNE. .

  14. Land TenureFeatures • All land belongs to Government under the Unregistered Lands Act (1970) • Irrigation is done by the GAS – after which plots are allocated on an an annual basis to tenant • The GAS rotates irrigation bi-annually between two command areas • Allocation is done by lottery – through committees in the irrigation blocks • These six committees are part of the Farmers’ Union, which to a large degree reflects the interests of the tribal clan sheikhs • This system prevents individual improvement and investment in the land • There is large demand for land: registered tenants have increased from 22,000 (1988) to 45,000 (2003) • Moreover tribal leader have a prior claim to land (among other for local social welfare) • As a result effective land holdings are less than 1 feddan (0.42 ha).

  15. Environmental challenges Mesquite infestation is a major problem – with the deep-rooted mesquite invading land and flood-channels and consuming precious groundwater

  16. ACTIVITIES OF GSLRP GASH SUSTAINABLE LIVELIHOODS REGENERATION PROJECT

  17. REHABILATION AND RE-EXCAVATION OF INFRASTRUCTURE

  18. CONSTRUCTIONOF FLOOD PROTECTION KASSALA TOWN

  19. Mechanical uprooting REMOVING MESQUITE, WITH ROOTS Manual uprooting Producing charcoal

  20. AGRICULTURAL EXTENSION

  21. PROVIDING DRINKING WATER SYSTEMS

  22. VACCINATION OF LIVESTOCK

  23. ESTABLISHMENT OF WATER USERS ASSOCIATIONS

  24. IN THE FUTURE: REGISTERING INDIVIDUAL LAND TITLES

  25. With thanks to Hamid Mohammed Hamid, GSLRP

More Related