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Groundwater Scenario

Groundwater Scenario. Major shifts in water management: Management of water resources – Individuals/Communities to State Harvest and usage of rainwater has declined Changing agricultural practices: Increase in land under irrigation Water-thirsty crops. Groundwater Scenario….

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Groundwater Scenario

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  1. Groundwater Scenario Major shifts in water management: • Management of water resources – Individuals/Communities to State • Harvest and usage of rainwater has declined Changing agricultural practices: • Increase in land under irrigation • Water-thirsty crops

  2. Groundwater Scenario… • Water wars (inter- & intra-state) • Depleting groundwater levels • Hardly 1/10th of the total rainwater recharges aquifers • Farmers in debt trap – large scale suicides and increased out-migration

  3. FWS conceptualization APFAMGS adopted FFS approach: • Discovery and experiential learning process • Farmers master concepts of groundwater management • Empower to effectively manage collective resource.

  4. Adaptation of FFS to CWB • FFS facilitators – subject knowledge and facilitation skills • FFS-TOT May 2005, build skills of the project staff – master facilitators. • By mid 2005, Farmers: • familiar with the PHM activities and • able to record PHM data into HMR books. • GMCs formed • capacities strengthened to monitor the PHM activities at habitation and HUN level. • Experiment adaptation of FFS to CWB Exercise.

  5. Farmer Water Schools [FWS] Participants discuss: • groundwater concepts & availability, • impact on crop growth, • role of institutions in sustainability, and • gender equity.

  6. Hydro-ecosystem Analysis Observe • Recharge factors, like amount of rainfall, surface water, and rock & soil formation. • Discharge factors – no. of borewells, pumping hours/days, average discharge Analyze data [Discussion / Sharing] Reach decisions on crop plans & management of groundwater

  7. FWS objectives: • Empower farmers with knowledge and skills to measure recharge & draft • Sensitize farmers on the need for collective action • Sharpen the farmers’ ability to make critical and informed decisions on crop plans • Sensitize farmers on new ways of thinking and resolving issues

  8. Planning for FWS Staff Training: • Organize TOT / TOF course on FWS • Staff orientation on FWS and its core components – HESA, Short Studies, Group • Subject specific inputs • Curriculum • Session guides • Relevant materials, visuals/posters

  9. Planning for FWS… Village/Habitation Level • Selection of village/area • Needs assessment • Selection of participants • Ballot box exercise • Curriculum finalization with farmers • Session planning with staff and participants • Development of materials, visuals, models • Prior intimation to the selected participants about FWS session • Group kits

  10. FWS: Multi-cycle approach Reach large number of farmers; Simultaneous learning-teaching process: Farmer participants of first cycle facilitate 2nd cycle. FWS cycles one and two run simultaneously with gap of two to four days First cycle: FWS – 34; Second cycle: FWS– 272

  11. PNGO Teams • identified content appropriate to local needs • involved farmers in development of session guides, identifying methods and dev. Models • made efforts to make farmer training sessions an exercise in discovery-learning • organized sessions where farmers could observe geological formations and structures • encouraged farmers to recap learnings at the start of each session.

  12. Typical FWS: • Lasts a full hydrological year [June–May] • Between 25 and 30 farmers participate in an FWS • Farmers meet once every 15/20 days • Primary learning material: HU & farmer field • Field school close to the farming plots • Participants learn together in small groups of five to maximize participation • FFS educational methods are experiential, participatory and learner-centered

  13. Typical FWS [contd.]: • Each FWS meeting includes at least three activities: hydro-ecosystem analysis, a special topic, and group dynamics activity • FWS participants conduct a study comparing farmer and experimental plots • FWS often includes several additional field studies depending on local field problems • Ballot Box Exercise: Pre- and post-test are conducted • Field Day: share learning and results of their studies

  14. FWS & GMC/HUN • GMCs involved in FWS preparation meetings to determine needs, recruit participants and discuss logistics • Farmer participants share their learning from each FWS session at GMC meetings • HUNs take lead in the organization and conduct of Field Day

  15. Role of facilitator: Facilitator – crucial • Organizes the field school • Facilitates the activities associated with 16 meetings of the field school • Takes care of administrative issues • Maintains constructive communications with local govt. officials, NGOs, and other agencies • Determine site for FWS and identify study fields • Identify potential participants

  16. FWS Content: FWS Sessions: • Introduction, BBE, and set-up LTE • Knowing the HU • Participatory Hydrology Monitoring • Groundwater recharge • Estimation of groundwater recharge • Estimation of draft & groundwater balance • CWB workshop

  17. FWS Content [contd.]: • Review of farmer decisions & alternate irrigation practices • Crop adoption results • Alternate irrigation practices • Soil moisture retention • PHM data analysis • FWS impact • Actual groundwater situation & post-BBE • Planning for Field Day • FWS Field Day

  18. Quality Control • Curriculum • Session guides [Manual] • Relevant materials, visuals/posters [Tool kit] • Planning Checklist – • Session Guides, • Materials, • Logistics, • Venue • Monitoring Checklist • Qualitative [logistics, participants, facilitation] • Quantitative [no. participants, no. facilitators, duration, farmer questions]

  19. Thank You

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