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Eastern San Joaquin Groundwater Basin Groundwater Management Plan <br /> Table ES-5 Simplified Groundwater Balance for Eastern San Joaquin County <br /> Groundwater Flow Component Average Value Explanation <br /> Inflows(ao <br /> Deep Percolation/Recharge 608,400 Net infiltration from rainfall, <br /> irrigation, canal leakage etc. <br /> Gain from Streams 198,170 Net inflow from streams to <br /> groundwater system <br /> Lateral Inflow 98,000 Net of subsurface inflows and <br /> outflows. <br /> Total Inflows 904,577 <br /> Outflows(ao <br /> Groundwater Pumping 867,600 Net agricultural, municipal and <br /> industrial pumping <br /> Loss to Streams 108,898 Net outflow from groundwater <br /> system to streams <br /> Lateral Outflow 35,300 Subsurface Outflows <br /> Total Outflows 1,011,815 <br /> Groundwater Overdraft(ao <br /> Mined Aquifer Storage 107,238 Total Inflows minus Total Outflows <br /> Estimated Saline Intrusion 42,000 Lateral Saline Intrusion into the <br /> Stockton Area <br /> Total Estimated Overdraft 150,700 Sum of Mined Aquifer Storage and <br /> Saline Intrusion <br /> Source: San Joaquin County Water Management Plan Volume I <br /> Groundwater flow in the Basin now converges on the depression with relatively steep <br /> groundwater gradients eastward from the Delta toward the cone of depression as depicted in <br /> Figures ES-2 and ES-3. The eastward flow from the Delta area is significant because of the <br /> typically poorer quality water now moving eastward in the Stockton area. Increased lateral <br /> inflow from the west is undesirable, as this water is typically higher in TDS and chloride levels <br /> and causes the degradation of water quality in the Basin. Figure ES-4 illustrates the <br /> approximate location of the 300 mg/L isochlor as measured in 2000. Projections indicate that <br /> the rate of eastward migration of the saline front is approximately 150 to 250 feet per year. <br /> Figure ES-4 also depicts the projected 2030 location of the 300 mg/L isochlor under no-action <br /> conditions. <br /> Degradation of water quality due to TDS or chloride contamination threatens the long-term <br /> sustainability of a very important water resource for San Joaquin County, since water high in <br /> TDS and/or chloride is unusable for either urban drinking water needs or for irrigating crops. <br /> Damage to the aquifer system could for all practical purposes be irreversible due to saline water <br /> intrusion, withdrawal of groundwater from storage, and potentially subsidence and aquifer <br /> consolidation. The saline intrusion problem is not well understood by the Authority. Further <br /> studies and monitoring methods are necessary to ensure the problem is addressed and <br /> monitored adequately. The Plan further defines the groundwater science and monitoring <br /> investigations geared towards both saline intrusion and general Basin understanding. <br /> A no-action or baseline simulation was conducted to predict how current groundwater and <br /> surface management practices would impact the groundwater basin in 2030. Groundwater <br /> modeling has shown that unless there is a change in how groundwater is used or managed, <br /> Northeastern San Joaquin County Executive Summary <br /> Groundwater Banking Authority 9 <br />