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' Revised Soil and Groundwater Investigation Work Plan <br /> Mountain House Development Site#6 July 2007 <br /> • SB-N to investigate the extent of affected media cross gradient of GP 160 and GP161. <br /> • SB-O to investigate the extent of affected media cross gradient of GP161. <br /> ' • SB-P to investigate the extent of affected media up gradient of GP 161. <br /> • SB-Q to investigate the source, magnitude,and extent of affected media at GP 161. <br /> ' • SB-R and SB-S to investigate the extent of affected media down gradient of GP 152. <br /> • SB-T to investigate the extent of affected media down gradient of GP 156. <br /> ' • SB-U to investigate the extent of affected media down gradient of GP156 and GP157. <br /> • SB-V to investigate the extent of affected media down gradient of GP157 and GP158. <br /> ' • SB-W to investigate the extent of affected media down gradient of GP158. <br /> • SB-X to investigate the extent of affected media down gradient of GP 160. <br /> ' • SB-Y and SB-Z to investigate the extent of affected media down gradient of GP161. <br /> • SB-AA to investigate the extent of affected media up gradient of GP 160. <br /> ' Some or all of primary boring locations SB-R, SB-S, SB-T, SB-U, SB-V, SB-W, and/or SB-X may not be <br /> advanced if affected soil and groundwater are not found first in up-gradient borings SB-C, SB-K, SB-L, <br /> and/or SB-M (in the Byron Road ROW). <br /> ' Details regarding the proposed boring program are provided in Table 1. <br /> Collection of Soil Samples <br /> ' Prior to direct-push advancement, each boring will be hand cleared to 8 feet bgs. Below 8 feet bgs, soil <br /> borings will be continuously cored with the GeoProbeo Dual Tube sampling system. The sampler will <br /> contain a plastic acetate liner that retains a relatively undisturbed soil core. The soil samples selected for <br /> ' analysis will be cut from the plastic liners, sealed with Teflon tape and plastic end caps,labeled with <br /> identifying information, and stored in a pre-chilled ice-chest for transportation to the laboratory. <br /> Each borehole will be logged for lithological content using the Unified Soil Classification System as a <br /> ' guide including color,relative moisture content, and other observable distinguishing characteristics(i.e., <br /> color changes,debris,rootlets, or odor). SAIC will utilize a photo-ionization detector(PID) to screen soil <br /> for the presence of volatile organic compounds. Lithologic observations,PID screening results,and other <br /> ' observations will be recorded on field logs. <br /> If affected soil is observed, soil samples will be collected from within and from beneath the affected zone <br /> to determine the magnitude of the vertical extent of the COCs in soil. If affected soil is not present in a <br /> ' boring,then soil samples will be collected at a depth where affected soil was observed in adjacent <br /> borings. If no affected soil has been observed in adjacent borings, then soil samples will be collected <br /> from just above groundwater. <br /> ' At each boring location,risk assessment samples will be collected from either the most-affected soil <br /> within the 0 to 10 feet bgs interval or from a depth of 5 feet bgs if no hydrocarbon impact is observed. If <br /> the most-affected soil is encountered below 10 feet bgs, then three intervals will be sampled: (1)the top <br /> ' 10 feet bgs for risk assessment,(2)below 10 feet bgs from the most-affected interval to assess the <br /> magnitude of COCs,and(3)beneath the affected soil to determine the vertical extent. However,if the <br /> most-affected soil occurs in the upper 10 feet bgs, then samples from the top 10 feet bgs may represent <br /> ' the most-affected interval and the risk-assessment interval. <br /> 4 —= <br /> ' ✓�:v <br /> From Scienre to Solutionss <br />