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Budget Car Rental Sales Our Job P88011 <br /> Stockton, California March 14, 1988 <br /> Page 2 <br /> The soils encountered in the boring were visually classified in <br /> the field by a Field Geologist, in accordance with the Unified <br /> Soil Classification System (Figure 2) ; the boring log is <br /> presented in Figure 3 . After field classification, the soil <br /> samples were immediately sealed and refrigerated. <br /> Soil samples were obtained utilizing a 2-inch ID split spoon <br /> sampler, containing three 6 by 1.9 inch ID stainless steel tins. <br /> Upon withdrawal from the sampler, the tubes were sealed, labeled <br /> and refrigerated. The samples were then transferred to our <br /> State-certified laboratory for analysis. Chain of Custody <br /> documentation was provided for the samples. <br /> Upon completion of the boring and soil sampling, the boring was <br /> backfilled with a Health Department approved cement-sand grout. <br /> A San Joaquin County Health Department representative observed <br /> the backfilling of the boring. <br /> Subsurface Conditions <br /> The soils encountered in the boring consisted of asphalt and <br /> aggregate baserock to a depth of one foot. Underlying the <br /> Pavement section, orange-brown clayey sand was found. At five <br /> feet, dirty brown sands were encountered, grading to orange- <br /> brown/gray-brown silt at eleven feet. The silt graded to silty <br /> sand at twenty-one feet. The boring was terminated in coarse <br /> sand at twenty-six feet. Water had been expected to be <br /> encountered near twenty feet. <br /> The Log of Boring, Figure 3, should be consulted for a more <br /> detailed description of the materials encountered. The <br /> stratification lines indicated on the boring log were <br /> approximated by the field geologist. The actual transition <br /> between soils of different classification may be more gradual. <br /> Qualitative analysis was made for hydrocarbons in the field using <br /> a Photovac TIP I photoionization detector. The soil samples and <br /> cuttings were examined with the TIP for the presence of <br /> hydrocarbons. The TIP, with Span set at 5.0, detected small <br /> amounts of photo-ionizable substances from the surface to <br /> approximately seventeen feet in depth. Maximum readings were <br /> obtained between seven and fifteen feet. A faint odor of <br /> hydrocarbons was also noted between these depths. No <br /> discoloration of the soils encountered was noted. <br /> &Assocsates <br />