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Eastern San Joaquin Groundwater Basin Groundwater Management Plan <br /> downstream of the confluence of the Stanislaus River with the San Joaquin River. The USBR is <br /> obligated to meet the Vernalis objectives as a condition of their water right permits. Water <br /> quality in the San Joaquin River is influenced by factors such as rain and snow melt runoff, <br /> reservoir operations, and irrigation return flows in the San Joaquin River basin. The CVP service <br /> area on the Westside of the San Joaquin Valley drain agricultural return flows with significant <br /> elevated salt loads into the San Joaquin River. To meet the Vernalis objective, the Bureau of <br /> Reclamation supplements flows on the San Joaquin River with releases from New Melones <br /> Reservoir on the Stanislaus River by reducing allocations to SEWD and CSJWCD. Despite the <br /> take away, the Bureau is unable to meet the Vernalis standard in years when runoff is below <br /> average. Eastern San Joaquin County and Delta interests have pushed for the development of <br /> water quality objectives up-stream of the confluence of the San Joaquin and Stanislaus Rivers. <br /> 2.3 Regional Groundwater Flow Patterns <br /> Regional groundwater flow patterns have been significantly altered since pre-development <br /> conditions. The pre-development and current/post-development groundwater flow patterns are <br /> discussed below. <br /> 2.3.1 Pre-Development Conditions <br /> Groundwater was used for agriculture in the Central Valley starting around 1850, prior to which <br /> time the groundwater system was in a state of hydrologic equilibrium (Williamson, et. al., 1989). <br /> Under equilibrium, or steady-state conditions, groundwater flowed from the natural recharge <br /> areas along the perimeter of the valley towards the low areas along the San Joaquin River. The <br /> natural groundwater and surface water discharge was through the Delta westward to San <br /> Francisco Bay. Under pre-development conditions groundwater gradients within San Joaquin <br /> County were likely similar to the topographic gradient, or around 0.0012 ft/ft. <br /> 2.3.2 Post-Development Conditions <br /> Beginning in 1850 the development of groundwater for agriculture expanded rapidly. Within the <br /> Central Valley, irrigated agriculture has grown from less than 1 million acres around the turn of <br /> the century, to an estimated 7 to 8 million acres at present. Within eastern San Joaquin County, <br /> an estimated 800,000 of/yr of groundwater was being extracted by 1993. In Bulletin 118-80, <br /> DWR designated the Basin as `critical overdrafted'. <br /> Figures 2-1 through 2-4 illustrate groundwater table contours for spring and fall 1993 and 1998. <br /> The map clearly shows the significant cone of depression east of Stockton. Regional <br /> groundwater flow now converges on this low point, with relatively steep groundwater gradients <br /> (0.0018 feet/feet) westwards towards the cone of depression, and eastward gradients from the <br /> Delta area on the order of 0.0008 feet/feet. The eastward flow from the Delta area is significant <br /> because of the typically poorer quality water. <br /> 2.3.3 Groundwater Level Trends <br /> The groundwater level trends illustrate the change in groundwater flow patterns described <br /> above. Hydrographs for selected wells and sub-regions are presented in Figures 2-7 through 2- <br /> 21 and a map of the well locations is shown on Figure 2-22. <br /> Northeastern San Joaquin County Section 2 <br /> Groundwater Banking Authority 45 Hydrogeology <br />