international union for conservation of nature conjunctive ground/surface water/watershed management...
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INTERNATIONAL UNION FOR CONSERVATION OF NATURE
Conjunctive ground/surface water/watershed management to secure
livelihoods in Marj Sanour, Jenin Governorate
November2007-December 2010REWARD Programme
Palestine
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Project Setting
The “Conjunctive Ground/ Surface Water/ Watershed Management to Secure Livelihoods in Marj Sanour, Jenin Governorate” Project, is one of the demonstration projects within the REWARD Programme initiated by the DGCS/ WESCANA Project and supported by the IUCN Water and Nature Initiative (WANI), funded by DGIS/ The Netherlands.
Up-scaling of methodologies and insights, are realized through the sub-networks on different water resource systems of REWARD’s Regional Water Knowledge Network.
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Jenin Governorate
• In WBG, Marj Sanour watershed project is implemented in Jenin governorate.
• Situated at the northern part of the WB and in the southern part of Jenin Governorate
• Governorate area about 583 km². with 258,321 inhabitants.
• It is surrounded by 7 villages:• Sanour, Aljarba, Meselieh,Serees; Seer and Meithaloun .
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• affected socially and economically by the basin;
• entirely dependent on groundwater for domestic use.
Marj Sanour Socio-economic conditions
26.500
People
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Marj Sanour is a valleywith good agricultural potential
• surrounded by hills.• with an altitude range from 350 m up to 365 m ASL.
EnvironmentThe climate of the area is characterized by:• a moderate hot and dry summer and by a moderate cool and rainy winter;• average long term rainfall of 540 mm/y;• important flooding every 3 to 5 years from winter rains and snow.
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The flooding situation diagramMain Water Flow components:
1- Rainfall
2- Water retention on hill slopes
3- Water retention in valley floor
4- Surface run off
5- Evaporation
6- Recharge of the aquifer
7- Seepage of flood water to aquifer
8- Groundwater abstraction by well/ borehole
9- Use of flood water for irrigation
10- Groundwater flow to springs well of Qabatia and Fari’a
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• Lack of trust and confidence by locals
• Fragmentation of landownership, influencing any decision process
• Low efforts to develop
Decision Support System
Constrains
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Project beneficiaries
From the bottom
To the top
Communities of Marj area, stakeholders, farmers, CBOs, villages, partner NGOs
Government institutions
Other mountainous area in the region or in other countries
Best Practice for
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Project Donors Project Partners
• IUCN Project Office in Palestine
• Palestinian Hydrology
Group
• Union of Agricultural Working Committees
Project
Stakeholders
• Ministry of Agriculture.
• Ministry of Local Government.
• Palestinian Water Authority.
• Environment Quality Affairs.
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Project long term goal:• to improve rural livelihoods in
watershed areas• To increase agricultural
development areas
Project description
Purpose: Application of systemic and participatory approaches to Integrated Water Resources Management to other mountainous area in the MENA region.
effectiveecosystem/watershed
managementand
conjunctive use ofground and surface water
through
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Double face problem (scarcity and flooding) originates
from the same root:
Bad land-use
Bad Water management in the watershed
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Flooding of valley land in heavy rain seasons reduced
Surface (run off) water coming down the hills reduced
Water retention techniques improved
Cultivated and vegetation land increased
Productivity of agricultural land in the hills improved
Environmental Hazards decreased
Productivity of agricultural land in the valley improved
access to ground water in the region( in Al Faraa , Qabatia and Marj Sanour area) for drinking and irrigation increased
Livelihoods of rural households rescued in Marj Sanour Watershed
Interest, awareness and capacity among farmers raised/built and funds made available to invest in watershed development
Soil and water conservation of hilly land improved
Adaptive solutions implemented to overcome closed topography of the watershed area and soil impermeability
Use and maintenance of hill terraces improved
Ground water recharge improved
dReduce water loss by evaporation
Ground water depletion reduced
Long Term Objective TreeLong Term Objective Tree
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Recharge scenario diagram
Main water flow components:
1. Rainfall2. Water retention on hill slopes3. Water retention in valley floor4. Surface run off5. Evaporation
6. Recharge of the aquifer 7. Seepage of flood water to aquifer 8. Groundwater abstraction by well/borehole9. Use of flood water for irrigation10. Groundwater flow to springs/wells of Qabatia and Fari'a
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Main Assumption
• Improving the productivity of agricultural land
• Increasing water availability, by a conjunctive use of ground and surface water.
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Key-Pillars Project Strategy
Stakeholder Dialogue System Tools
Better management of scarce water and land resourcesthrough a participatory and stakeholder-led planning process
Empowerment
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System Tools
• A more systemic approach:
• to collect and analyze information
• to planning and decision-making processes
• Under Empowerment. Creating interest/raising awareness. Building Capacity
• Under Stakeholders’ Multilevel dialogue/,Long term concerted action
• Strong coordination of activities and decision-making
Stakeholder consultation and participatory planning and decision-making
Conducting studies: water resource assessment, environmental assessments, etc.
Development and implementation of community pilot projects to test potential solutions
Development and endorsement of a watershed development plan for Marj Sanour as a methodology for replication
Empowerment of local communities and local government agencies
Local communities empowered in WR planning and decisions-making and enabled for Plan implementation
An operational plan for Marj Sanour watershed development that contributes to livelihoods improvement
A number of tested community pilot activities that can contribute to sustainability of livelihoods
A general methodology for watershed development strategizing and decision-making endorsed by key stakeholders in Palestine
Use of systemic, participatory approaches to Integrated Water Resources Management for the mountainous area in the MENA region demonstrated in Marj Sanour watershed
Development of system tools (possibly DSS) to support plan development
Rural livelihoods in Palestinian watershed areas are rescued
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• To involve local people from all surrounding villages in the planning of the project.
• To facilitate the dialogue between the implementing partners and the Key Stakeholders.
• To enhance Steering Committee role.
• To review and verify previous studies
Issues Raised
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Progress to Date
• Stakeholder facilitation and establishing an effective communication system between all stakeholders at different levels.
• Establishing Project Steering and Technical Advisory Committees .
• Establishing Community Local Committees.• Mobilizing watershed communities.• Promotion for the project idea and increase awareness
of the communities on watershed problems and project design.
• Agreement on establishing a local watershed development association concluded
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Progress to date Cont.
• Conducting Draft Hydrological Assesment Study• Identification of the physical boundaries of the watershed that depending on the
topographical features of the watershed as a surface water catchment.
• Determination of the sub- catchment within the general watershed and their areas.
• Classifying and mapping the soil cover in the watershed area. Physical, and chemical properties of soil was determined.
• Indicating the geological, structural, and geo-morphological built features of the watershed.
• Identifying the different climatologically parameters.
• Determining the hydrological parameters (runoff, infiltration, evapotranspiration
• Describing the hydro-geological characteristics of the different hydro-geological units depending on their ability of storing and transmitting water.
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Progress to date Cont.
• Conducting Draft Hydrological Assesment Study Cont.• Describing the hydraulic properties of the aquifer systems. • Identifying the groundwater quality and the hydro-chemical type, through the
analyses of different water samples from groundwater wells distributed in the area.
• Identifying the water quality of flood water, • Determining the water resources (groundwater wells, cisterns,…) and their
capacity for different purposes (domestic, and agricultural). • Studying the situation of water related infrastructure.• Indicating supply, consumption, and demand for the different purposes. Data
of these items were collected by using PRA, and records of local councils.• Identifying pollution water resources in the area.
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Progress to date Cont.
• Socio-Economic Assesment Study almost finalized• investigating the socio-economic characteristics of the Marj Sanour villages
(7 villages )• Studying the main characteristics of the agricultural production
systems/patterns and agricultural holdings in the Marj area • Investigating the water availability, access and quality status, and the
attitudes of farmers in this regard. • Giving insight on the losses caused by the Marj flooding, and
social/economical perceptions vis a vis potential solutions/scenarios for the flooding problem.
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Progress to date Cont.
• Identification and development of most appropriate and effective DSTs techniques
• Building the conceptual Driving Forces-Pressure-State-Impact-Response (DPSIR) framework based on the previous studies and data collected of Marj sanour watershed.
• (DPSIR framework is presented as a system for organizing information that emphasizes CAUSE-EFFECT RELATIONSHIPS. It is a methodological framework (or guideline) for decision makers that summarizes key information (indicators) from different sectors. )
• Defining the list of criteria in different aspects (Socio-economic, Environment and Economic) to be quantified and then used for Multi criteria analysis (MCA).
• Start building the DSS interface using Visual Studio.Net as a programming language.