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Ile 20042 nd Quarter Groundwater Report <br /> Frontier Transportation <br />' August 9, 2004 <br /> Page 3 <br /> within the west-central portion of the Great Valley Geomorphic province of California The <br />' Great Valley has been filled with a sequence of older to younger alluvium of Pliocene to <br /> Holocene age which overlay sedimentary rocks of Cretaceous to Tertiary age These sedimentary <br />' units, in turn, overlay a crystalline basement of Paleozoic and Mesozoic metamorphic and <br /> igneous rocks The shallow subsurface geology in the site vicinity is a heterogeneous mix of <br /> gravel, sand, silt, and clay(Reference Site Characterization Re ort, Twining Laboratories, <br />' October 16, 1996) BEH encountered predominantly clays with traces of interbedded sands from <br /> 0' to 25' bgs during well advancement in January of 1998 <br /> First subsurface water was encountered at depths from X Y'to 4-2 bgs during tank removal VM, <br /> °y <br />' and monitoring well installation at this site in 1995 and 1996 Since then, first subsurface water <br /> has been encountered beneath the site between 6' and 10' bgs Data collected in June of 2004 <br />' identified the flow of groundwater in a western direction beneath the site (See Figure 3, <br /> Groundwater Gradient Map)l Historic first subsurface groundwater data identified a weosyt or <br /> southwest flow beneath the site Groundwater was also encountered at approximately 5' bgs <br />' during installation of deep monitoring wells MW-12 through MW-16 and MW-18 The <br /> potentiometric groundwater levels in these deep wells, however, were similar to the first <br /> subsurface water levels <br /> I Hydrographs are presented as Figures 4 and 5 for shallowoundwater monitoring wells <br /> � g <br /> (up to 25-feet bgs) and deep groundwater monitoring wells (40-feet bgs) Groundwater levels <br />' beneath the site appear to be affected by seasonal recharge In general, the groundwater is at its <br /> yearly low in the winter and yearly high in the spnng,,\ <br />' 4.0) QUARTERLY GROUNDWATER SAMPLE RESULTS <br />' BEII contracted Del-Tech to collect groundwater samples from monitoring wells MW-1 <br /> through MW-18 on June 18, 2004 for laboratory analysis Groundwater parameters (pH, <br /> temperature, and conductivity) were measured before, during, and after well purging (See <br />' Appendix A for Monitoring Well Field Logs) Groundwater samples were analyzed for TPH-d, <br /> TPH-g, TPH-m and BTEX using EPA methods 8015 modified for diesel, 8015 modified for <br /> gasoline, 8015 modified for motor oil and 8020 for BTEX, respectively In addition, <br />' groundwater samples were analyzed for MTBE, tertiary butyl alcohol (TBA), di-isopropyl ether <br /> (DIPE), ethyl tertiary butyl ether(ETBE), tertiary amyl methyl ether(TAME), 1,2-dichl oro ethane <br /> (1,2-DCA) and 1,2-dibromoethane (EDB) using EPA method 8260 Laboratory analysis results <br />' for all monitoring episodes are presented in Table 1 Recent laboratory analytical reports are <br /> included as Appendix B <br />' Historical groundwater data has identified dissolved TPH-rn in monitoring well MW-3 <br /> 1 <br /> I <br />