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Eastern San Joaquin Groundwater Basin Groundwater Management Plan <br /> Urban Water $200-$250 New Infrastructure Minimal Potentially effective Minimal <br /> Conservation <br /> Crop Potentially land Potentially effective if <br /> Rotation/Land -$50 None intensive mitigated Minimal <br /> Fallowing <br /> Source: San Joaquin County Water Management Plan Volume I <br /> Farmington Groundwater Recharge and Seasonal Habitat Study <br /> 4.1.3 Water Reclamation <br /> Water reclamation or water reuse is the treatment of water that has been used previously and <br /> would otherwise be discharged out of the Basin. Municipal and industrial wastewater <br /> reclamation is becoming increasingly prevalent throughout the State as a viable alternative for <br /> compliance with regulatory waste discharge requirements. As municipalities and industries <br /> move to meet these waste discharge requirements with tertiary treatment, high quality supplies <br /> may become available for irrigation or other non-potable uses. Pending further growth of the <br /> reclaimed water market, Eastern San Joaquin County could put to beneficial use a substantial <br /> non-potable water supply; however, the resulting reduced supply to downstream users would <br /> need to be mitigated. <br /> 4.1.4 Water Conservation <br /> Demand management is a key component for long-term planning and management of water <br /> resources. Implementation of best management practices (BMPs) can be more economical <br /> than developing new water sources and less damaging to the environment. <br /> Urban Water Conservation <br /> Active urban water conservation programs throughout the State potentially save 10 to 20 <br /> percent of the historical demand. BMPs included in such programs include water metering, <br /> tiered water pricing, rebates for water saving appliances and amenities, water-saving household <br /> plumbing devices, and education and outreach. Urban water conservation programs are eligible <br /> for State and Federal grants. <br /> Agricultural Water Conservation <br /> Crop science has determined that plants consumptively use a fraction of the total water applied <br /> during irrigation. Agricultural water conservation relates mainly to the use of more efficient <br /> irrigation technologies that reduce the amount of water applied while still meeting the <br /> consumptive needs of the plant. Increasing irrigation efficiency decreases the amount of water <br /> that is lost through evaporation during conveyance or application and the discharge of tailwater <br /> to surface streams. Growers moving from flood irrigation to drip and sprinkler systems often <br /> report irrigation efficiencies upwards of 90 percent. <br /> It should be noted that the conversion to drip and sprinkler irrigation is not suited for all crop <br /> types and in some cases does not provide its intended benefits. Some crops are sensitive to <br /> changes in irrigation methods and may either produce crops of poorer quality or, in some cases, <br /> actually increase the consumptive demand of the plant. Excess applied surface water resulting <br /> in tailwater drainage is a benefit to the groundwater Basin when allowed to percolate and may <br /> be a major source of water for downstream users who depend on return flows. Extensive <br /> analysis should be undertaken prior to implementation of agricultural water conservation <br /> measures to ensure the intended benefits are realized. <br /> Northeastern San Joaquin County Section 4 <br /> Groundwater Banking Authority 86 Groundwater Management Options <br />