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I <br /> by EA and by the PHS/EHD, that the groundwater elevation differences are due in part to <br /> seasonal agricultural groundwater pumping, and seasonal natural groundwater recharge. <br /> 4.3 Soil Analytical Results <br /> Soil samples were collected and submitted for laboratory analyses as described previously. <br /> The soil analytical, results are presented in Table 2. Soil analytical data sheets and chain-of- <br /> custody records are included in, Appendix M. <br /> The analytical results of the soil sampling indicates that concentrations of TPH as gasoline <br /> (TPH-G) were detected in the soil collected from monitor wells MW2 through MW5. <br /> BTEX compounds were detected in the soil samples collected from monitor wells MW2, <br /> MW3 and MW4. The maximum concentrations of petroleum hydrocarbons detected in soil <br /> samples were from the samples collected at 25 feet below ground surface, at the historical <br /> highest seasonal groundwater elevation. <br /> No concentrations of TPH-G were detected in the soil samples collected from boring MWL <br /> TPH-G were detected in the soil sample collected from boring MW2 at a depth of 25 feet <br /> below grade at a concentration of 22 mg/kg, at a concentration of 420 mg/kg ut the soil <br /> sample collected from boring MW3 at 25 feet, and in the soil sample collected at 30 feet <br /> below grade immediately above first encountered groundwater at a concentration of 27 <br /> mg/kg TPH-G was detected in the sod sample collected from boring MW4 at 25 feet <br /> below grade at a concentration of 160 mg/kg, and in the soil sample collected at 30 feet <br /> below grade immediately above first encountered groundwater at a concentration of 160 <br /> mg/kg In the soil sample collected from MW5 at a depth of 25 feet below grade the <br /> TPH-G concentration was 12 mg/kg <br /> Analytical data indicated that no concentrations of BTEX were detected in the soil samples <br /> collected and analyzed from borings MW1 and MW5 Ethylbenzene and xylenes were <br /> detected in the soil sample collected at 25 feet below grade from boring MW2 at <br /> concentrations of 0 024 mg/kg and 0 073 mg/kg, respectively, and benzene was detected at <br /> a concentration of 0 041 mg/kg in the soil sample collected from boring MW2 at a depth <br /> of 30 feet below grade immediately above first encountered groundwater. BTEX were <br /> detected in the soil sample collected from boring MW3 at a depth of 25 feet below grade <br /> at concentrations of 0 34 mg/kg benzene, 1.2 mg/kg toluene, 2.7 mg/kg ethylbenzene, and <br /> 14 6 mg/kg xylenes, and at 30 feet below grade collected immediately above first <br /> encountered groundwater at concentrations of 059 mg/kg benzene, 0.083 mg/kg <br /> ethylbenzene, and 0 2 mg/kg xylenes. BTEX were detected in the soil sample collected <br /> from boring MW4 at a depth of 25 feet below grade at concentrations of 0 58 mg/kg <br /> benzene, 0 51 mg/kg ethylbenzene, and 2.9 mg/kg xylenes, at 30 feet below grade collected <br /> immediately above first encountered groundwater at concentrations of 0 082 mg/kg benzene, <br /> 0.088 mg/kg ethylbenzene, and 2.9 mg/kg xylenes, and a saturated soil sample at 40 feet <br /> below grade approximately 8 feet below the first encountered groundwater level at <br /> concentrations of xylenes at 0 011 mg/kg <br /> 40 <br /> ii iatoai 12 <br />