Laserfiche WebLink
reasonably be required to remove this contaminant should it occur in drinking water. <br /> The Maximum Contaminant Level Goal (MCLG) for DBCP is zero. <br /> Soil Profile and Geologic Information <br /> The Site is depicted on the Geologic map of the San Francisco-San Jose quadrangle, <br /> California (Wagner et al., 1991). The Site is depicted within a map unit of Holocene <br /> alluvial fan deposits (Plate 8). <br /> The surface and near surface soils located at the Site are reported by the USDA Web <br /> Soil Survey to be composed of Capay clay (Plate 9) (USDA, 2019). The table below <br /> presents some selected properties of this soil: <br /> Table 1. Selected Properties of On-Site Soils (USDA, 1992) <br /> Soil Name Depth Unified Soil Salinity Soil Perme- Septic tank <br /> and Map mmhos/cm Reaction ability absorption <br /> Symbol (in) Classification pH (in/hr) fields <br /> Capay Clay, 0-20: Clay, CH, CL <4 6.6 - 8.4 0.06 - 0.2 Severe: <br /> wet, 0-2% 20-44: Clay, silty clay: CH, CL <4 6.6 - 8.4 0.06 - 0.2 peres slowly <br /> slopes, 121 44-60: Silty clay loam, clay <4 6.6 - 8.4 0.06 - 0.2 <br /> loam: CL <br /> Note: The table descriptions do not necessarily reflect site-specific soil properties. See description of the map unit for <br /> composition and behavior characteristics of the map unit. <br /> Soil Borings <br /> On September 27, 2018, Live Oak excavated a shallow soil boring near the center of <br /> the Site for the purpose of conducting a percolation test. The boring was four inches in <br /> diameter, 3.46 feet deep, and was excavated by hand auger (Table 2). The location of <br /> the boring is indicated on Plate 10. <br /> The soil in the boring was similar to that described by the Soil Survey. Sandy clay was <br /> encountered to 10 inches below ground surface, followed by fat clay to the full depth of <br /> the hole. The soil log is presented on Plate 11. <br /> Discussion of Soil Lithology <br /> Based on the soil observed in the boring, there appears to be limited potential for <br /> percolation in the shallow soil zone. Sandy soils generally have a much greater <br /> potential for percolation than fine-grained or cemented soils. However, a percolation <br /> test is the only accepted method for determining the suitability of the soils for a septic <br /> disposal area. Percolation test results are discussed in the following section. <br /> LOGE 2106 Page 5 <br />