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Kennedy/Jenks Consultants <br /> the 5 to 7-foot depth in the soil borings located in the LAAs, however silty material was <br /> encountered at 21 feet bgs and 17 feet bgs in two borings. <br /> Two predominant soil types, which mainly differ in clay accumulation and subsurface properties, <br /> include the Delhi loamy sand and the Veritas fine sandy loam. According to boring descriptions <br /> reported by Twining, Inc. (Twining, 2000), the majority of LAA basins 1, 2, 5 and 6, and the <br /> northern half of basin 3 may be occurring in soils mapped as Delhi. The majority of LAA basins <br /> 4 and 7, as well as the southern half of basin 3 may be in soil mapped as Veritas soils. These <br /> preliminary soil type delineations were estimated using the presence of cemented material in <br /> boring logs to separate soil types. According to the San Joaquin Soil Survey, cemented material <br /> is associated with the Veritas soil. The presence of cemented material will be further <br /> investigated during lysimeter installation. <br /> There is a high percentage of sand in both soils, so the available water capacity for both soils <br /> has been estimated between 0.08 and 0.17 (in/in) (USDA, 1992). Water runoff of the soils is <br /> slow and since the area has slopes ranging from 0-3%, the hazard of soil erosion by runoff is <br /> considered slight. Permeability rates have been estimated to range from 2.0 to 20 inches per <br /> hour, which is considered moderately rapid. The effective rooting depth of the soils has been <br /> estimated at approximately 60 inches (USDA, 1992). The depth to groundwater has been <br /> measured at approximately 58 feet (Twining, 2000). <br /> Rainfall and evapotranspiration (ET) data were collected as part of the water balance <br /> calculations for the process water at the Site (Kennedy/Jenks, 2003). These values, which are <br /> believed to be representative of rainfall at the Facility, were collected at the nearby Manteca <br /> CIMIS station (Station 70). Other information for the Site including engineering properties, water <br /> management, and soil physiochemical properties can be found in the San Joaquin County, CA, <br /> Soil Survey (USDA, 1992). According to estimated data from the San Joaquin Soil Survey <br /> (USDA, 1992), soil type and climate are conducive for process water treatment using application <br /> of winery effluent to LAAs. A general description of the physical and chemical properties for the <br /> different soil types underlying the Site was obtained from the Soil Survey of San Joaquin <br /> County, California, (USDA, 1992). <br /> 1.6 Regional Setting <br /> 1.6.1 Hydrogeology <br /> The Central Valley regional aquifer system of California is a 400-mile long, northwest-trending <br /> asymmetric trough, averaging 50 miles in width. The significant water-producing geologic units <br /> in the valley are the unconsolidated to semi-consolidated non-marine sediments ranging from <br /> approximately 25 million years in age to present. The west side of the trough is bounded by pre- <br /> Tertiary and Tertiary marine sedimentary rocks of the Coast Ranges. The east side of the valley <br /> is underlain by pre-Tertiary igneous and metamorphic rocks of the Sierra Nevada foothills (San <br /> Joaquin River Group Authority 1999 (SJRGA 1999)). The southern two-thirds of the Central <br /> Valley is referred to as the San Joaquin Valley. <br /> The San Joaquin Valley basin contains up to six vertical miles of unconsolidated sediment, of <br /> which the top 2,000 feet contain freshwater. As lakes filled and drained over the last 24 million <br /> years, laterally extensive clay units were deposited, forming barriers to vertical groundwater <br /> Groundwater Investigation Work Plan Page 7 <br /> Barrel Ten Quarter Circle Winery, Escalon, California <br /> g:Bs-groupladn int ob1031030118.08_barrenenl09-reportslgw invest wrk pinVextdoc <br />