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Soil Suitability/Nitrate Loading Study <br /> Soares Property■ Escalon, CA Irerracon <br /> December 13, 2019 ■ Terracon Project No. NA197095 <br /> Groundwater was not encountered within our borings which were drilled between 3.16 and 3.25 <br /> feet below ground surface (bgs). <br /> According to the California Department of Water Resources, Groundwater Information Center <br /> Interactive Map from 2014 through 2018 depth to groundwater was reported between <br /> approximately 70 and 80 feet bgs in the Spring and between approximately 80 and 90 feet in the <br /> Fall. Based on a review of the San Joaquin County Flood Control and Water Conservation District <br /> Groundwater Report, Lines of Equal Depth to Groundwater Spring and Fall 2015 to 2016, depth <br /> to groundwater was reported between approximately 70 to 80 feet. Based on a review of the <br /> sources, depth to groundwater is anticipated to be greater than 70 feet bgs. <br /> The groundwater flow direction and the depth to shallow, unconfined groundwater, if present, <br /> would likely vary depending upon seasonal variations in rainfall and other hydrogeological <br /> features. Without the benefit of on-site groundwater monitoring wells surveyed to a datum, <br /> groundwater depth and flow direction beneath the site cannot be directly ascertained. <br /> 1.4.2 Potential Groundwater Contamination Issues <br /> Potential groundwater contamination can occur from a number of sources including historical <br /> petroleum hydrocarbon use, agricultural activities, dairies, septic systems, and storm water <br /> infiltration. As per EHD requirements nitrate as N and 1,2-dibromo-3-chloropropane (DBCP)have <br /> been included as part of the SSS discussion. Identifying potential groundwater contamination <br /> other than nitrates and DBCP is beyond the scope of work for this report. <br /> The presence of nitrates is not uncommon in shallow groundwater aquifers in San Joaquin County <br /> and other parts of the Central Valley. Nitrate in groundwater occurs as a result of the application <br /> of fertilizers, livestock waste, and untreated septic tank waste. Nitrate is mobile and often <br /> accumulates in the shallow groundwater zones. <br /> In the early 1900s, natural levels of nitrate in groundwater were measured in forty-three (43)wells <br /> throughout the Sacramento Valley by Kirk Bryan (1923). It was thought that groundwater at that <br /> time was close to "natural" conditions. Based on the work by Bryan, it is estimated that under <br /> "natural" conditions, groundwater concentration containing nitrate is no more than about 13.5 <br /> milligrams per liter (mg/L) nitrate (NO3) or (3 mg/L-N). Areas having 24.75 mg/L-NO3 (5.5 mg/L- <br /> N) or more, are those in which nitrate concentrations may be increasing (Hull, 1984). <br /> DBCP (dibromo chloropropane) is a nematocide and soil fumigant for vegetables and grapes. It <br /> is thought to cause health problems consisting of kidney damage, liver damage, and cancer. The <br /> use of DBCP was discontinued in 1979. <br /> Based on the historical information, the past agricultural land use, former onsite septic system, <br /> and septic systems in the area should be considered potential groundwater contamination <br /> Responsive ■ Resourceful ■ Reliable 7 <br />