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• • <br /> Kennedy/Jenks Consultants <br /> movement(SJRGA 1999). The most extensive is the Corcoran Clay of the Tulare Formation, <br /> encountered between approximately 100 and 400 feet bgs mainly west of the San Joaquin River <br /> (DWR 1967). Where present, the Corcoran Clay serves as a confining layer dividing upper <br /> unconfined aquifers from lower, confined aquifers (SJRGA 1999). <br /> The Facility and LAA are located in the San Joaquin River Hydrologic Region, Eastern San <br /> Joaquin Subbasin (Subbasin 5-22.01) (DWR 1967). The Subbasin contains three important <br /> hydrogeologic formations: the Victor, the Laguna, and the Mehrten. The Laguna Formation <br /> (occurring mainly east of the San Joaquin River) is generally coeval to the Tulare Formation <br /> (occurring mainly west of the San Joaquin River) (DWR 1967). The generally coarser-grained <br /> Victor Formation extends from the ground surface to about 150 feet bgs and is underlain by the <br /> Laguna Formation. The Laguna Formation is 600 to 1,000 feet thick and is composed of <br /> discontinuous lenses of unconsolidated to semi-consolidated sands and silts with lesser <br /> amounts of gravel and silt(SJRGA 1999). <br /> DWR (1967) records for wells in the vicinity of the Site indicated that the average completion <br /> depth is 200 feet bgs, which means that the wells are likely intercepting the Victor and Laguna <br /> Formations. Wells installed in the Victor Formation could produce 650 gallons per minute (gpm); <br /> the formation has a specific capacity of 60 gpm per foot (gpm/ft)and a transmissivity of <br /> 87,600 gallons per day per foot(gpd/ft). Recharge to the aquifer is by rainfall, return irrigation, <br /> and from waters of traversing streams (DWR 1967). Wells installed in the underlying Laguna <br /> Formation offer somewhat greater production, estimated at 900 gpm, with specific capacity of <br /> 35 gpm/ft and transmissivity of 59,500 gpd/ft. <br /> 1.6.2 Soil <br /> Soils have been characterized using three different sources of information: 1) a general <br /> description of the physical and chemical properties for the different soil types underlying the Site <br /> obtained from the Soil Survey of San Joaquin County, California (Soil Survey), published by the <br /> United States Department of Agriculture, Soil Conservation Service (USDA 1992); 2) in-situ soil <br /> boring log data collected and reported to the CRWQCB by Twining (Twining 2000); and 3) soil <br /> boring data collected as part of the Groundwater Monitoring Well and Lysimeter Installation <br /> Report (Kennedy/Jenks 2003d). <br /> According to the Soil Survey, soil parent materials in the area are reported as wind-modified <br /> alluvium derived from granitic rock sources and alluvium derived from mixed rock sources, <br /> respectively. In addition, there are two soil types described at the Site: Delhi loamy sand, and <br /> Veritas fine sandy loam. Both soils are described as having moderately rapid drainage, low <br /> available water capacity (due to sandy textures), slopes of 0 to 2%, and effective rooting depths <br /> of approximately 60 inches. The rate of water intake where the soils are irrigated has been <br /> reported at approximately 1.5 inches per hour. Available water holding capacity for both soil <br /> types has been estimated between 0.08 and 0.17 (in/in), which is considered moderate to low, <br /> and is based on the high percentage of sand. Flooding on these soils is reported as rare but <br /> possible during years of abnormally high precipitation. <br /> The following are general descriptions of the upper 5 feet of these soil types, as described by <br /> the Soil Survey (USDA 1992): <br /> Groundwater Investigation Work Plan Page 8 <br /> Barrel Ten Quarter Circle Winery, Escalon, California <br /> g:\is-group\adminfob1031030118.08—barrelten\09-reports\gw invest wrk pinVeztdoc <br />