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• J <br /> Kennedy/Jenks Consultants <br /> objective of this improvement was to upgrade the west sump by increasing solids settling. <br /> These changes are expected to improve flexibility and control of discharge to the LAA for <br /> vineyard or other crop irrigation. <br /> From October 2003 to November 2004, cooling water lift station flows (north sump) were <br /> approximately 1,665 gpd, which constituted only about 2 percent of the permissible flow <br /> specified in the WDR (October 2003 to March 2004). In September 2004, BTQCLC began to <br /> change winery operations and, as of November 2004, is no longer producing non-contact <br /> cooling water. <br /> Some upgrades have already been made to the process water distribution system piping <br /> including increasing the size of the main N-S channel culvert from 12 inches to 36 inches. In <br /> addition, a connection has been constructed between the South San Joaquin Irrigation District <br /> (SSJID) pipeline and the BTQCLC piping system. BTQCLC plans to construct underground <br /> piping to the LAA checks to replace the current open distribution channel system. <br /> BTQCLC is planning to plant a combination of a) vineyards with cover crops, or b) grass hay <br /> within basins 1 through 4, the southern half of basin 5 and most of basin 7 (80 acres). This <br /> acreage will be irrigated using process water as well as supplemental irrigation water(South <br /> San Joaquin Irrigation District supply), if necessary. The objective of this project is to increase <br /> crop production and nutrient uptake within the LAA, thus improving soil quality. In addition, <br /> planting vineyards and cover crops will decrease percolation of process/supplementary water, <br /> as well as improve the land management by increasing BTQCLC's ability to manage soil <br /> treatment of process water chemical constituents (e.g., nitrogen and salt loading). <br /> In order to improve monitoring of the LAA, BTQCLC has constructed two new monitoring wells <br /> cross-gradient to groundwater flow. As shown in the Technical Report (Kennedy/Jenks, 2004a), <br /> these monitoring wells have already provided some data concerning the groundwater conditions <br /> underlying the Site. <br /> 1.5 Land Application Area Site Characteristics <br /> The soils of the LAA have been mapped as Delhi and Veritas series in the San Joaquin Soil <br /> Survey (USDA, 1992). According to borings drilled by Twining (Twining 2000), soils on the Site <br /> are sandy and silty with a textural change occurring from 11 to 20 feet bgs. Based on more <br /> recent investigation (Kennedy/Jenks 2004a), the subsurface material in the LAA mainly consists <br /> of a mix of silty layers, poorly graded fine- and medium-grained sand layers, and a distinct <br /> cemented "hardpan" layer at shallow depths. The hardpan was noted as a 2- to 3-foot thick <br /> cemented sand or silty sand, typically reddish brown in color except in one boring, where the <br /> hardpan had distinct black and gray mottling. The layer was found to be very dense, and <br /> fragments were brittle with many small pores. The top of the hardpan was encountered at 6 to <br /> 7 feet bgs in one boring and in monitoring wells MW-6 and MW-7 (drilled from the top of the <br /> berm surrounding the LAA), as well as at about 5 to 7 feet bgs in soil borings located in the <br /> basins. <br /> Other cemented layers were encountered in monitoring well MW-6 at 25 feet bgs, 35 feet bgs, <br /> 40 to 45 feet bgs, 45 feet bgs, and 55 feet bgs. Cemented and brittle material was encountered <br /> between 35.5 and 38 feet bgs in MW-7. Cemented material was not encountered deeper than <br /> Groundwater Investigation Work Plan Page 6 <br /> Barrel Ten Quarter Circle Winery, Escalon, California <br /> g:Gs-group\adminyobl031030118.08_barrelten109-reportslgw invest wrk pWtextdoc <br />