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The organic matter is low starting at 0.5% from the 3 ft depth and decreasing to 0.3% at the 6 ft <br /> depth and 0.2%at the 9 ft depth. This O.M. concentration suggests there is very low potential for <br /> future nitrate formation from organic matter. The nitrate-nitrogen concentrations illustrate <br /> significant denitrification occurring within the soil profile. At the 3 ft depth the NO3-N <br /> concentration is 6 ppm, declines to 4 ppm at 6 ft depth and 3 ppm at the 9 ft depth; a 50% reduction. <br /> Considering the sample site location was recently under almond orchard cultivation, nitrogen <br /> fertilizer applications were significant. <br /> Since septic effluent is composed predominately of ammonium (NH4),the pH, along with the CEC, <br /> have significant influence on ammonium molecules. The pH of the soil is acidic/neutral which may <br /> have the effect of promoting ammonium formation and not ammonia formation. The CEC measures <br /> the ability of the soil to theoretically trap and hold ammonium molecules and was measured at low <br /> levels due to the sand texture. This suggests a low potential for the retention of ammonium <br /> molecules for microbial assimilation within the soil. <br /> NLS§3.3. Table 1 below summarizes the analyzed soil physical and chemical characteristics from <br /> the retrieved soil sample: <br /> TABLE 1 <br /> SOIL PROFILE CHARACTERISTICS AND <br /> ANALYTICAL TEST RESULTS <br /> SAMPLE DEPTH SOIL TEXTURE SOIL NITRATE- pH AND <br /> CLASSIFICATION NITROGEN CONTENT CATION EXCHANGE CAPACITY <br /> In meq/100g <br /> 3 FT DEPTH Loamy Sand 6 ppm NO3-N 6.7 3.4 meq/100g <br /> 6 FT DEPTH Loamy Sand 4 ppm NO3-N 6.7 3.5 meq/1009 <br /> 9 FT DEPTH Sand 3 ppm NO;-N 7.1 3.1 me /1008 <br /> GROUNDWATER INFORMATION <br /> NLS§2.1. Groundwater depths and elevations throughout San Joaquin County are illustrated on <br /> maps published by the County Flood Control and Water Conservation District. The 1983 and 1999 <br /> Lines of Equal Depth Maps indicate groundwater depth at a potential 9 ft below grade. Soil <br /> observations in the backhoe test pit down to 10 ft did not reveal indicators or soil saturation. <br /> However, due to the sandy soil texture encountered, soil mottling within a medium coarse sand <br /> would be difficult to discern. <br /> NLS§2.2,3.1. Surrounding ag properties are currently farmed and have been for decades, so the <br /> potential for nitrate contamination of the underlying groundwater can be considered significant. As <br /> noted below,the nitrate-nitrogen concentration in the well water is 15.5 ppm; 5.5 ppm over the <br /> Maximum Contaminant Level (MCL). <br /> Page-2- <br /> Chesney Consulting <br />