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TABLE 2 <br /> PERCOLATION TEST RESULTS WITH CORRESPONDING <br /> APPLICATION RATES IN GALLONS/FT'/DAY <br /> 36 INCH DEEP PERC TEST 5.6 min/inch / 0.800 gallons/ft/day <br /> 96 INCH DEEP PERC TEST 62.5 min/inch / 0.190 allonsW/da <br /> Application Rates adapted from Waste Quality Control for Siting,Design,Operation and Maintenance of On-site Wastewater Treatment Systems,based on the Perc Rate. <br /> D. GROUNDWATER INFORMATION <br /> NLS§2.1, SSS§ 4.1. Groundwater depths and elevations throughout San Joaquin County are <br /> illustrated on maps published by the County Flood Control and Water Conservation District. The <br /> 2016 Lines of Equal Depth Map indicates the depth to water at 28-29 ft. The Lines of Equal <br /> Elevation Maps groundwater directional flow is in a northeasterly direction. <br /> NLS§2.2,3.1, SSS§2.1,4.2. Properties to the north, south, and west are currently commercial, <br /> industrial and residential. Considering that this area was farmed for decades, along with onsite <br /> wastewater treatment systems density,there is a significant potential for nitrate contamination of <br /> the underlying groundwater. <br /> NLS§2.3, SSS§4.3,4.4, 4.5, 4.6. There is no on-site well(s),nor has there apparently ever been a <br /> well on the portion of the property occupied by Robertson's. Although the water source is <br /> municipal, a water sample was obtained from the batch plant for analyses. The water contains<0.6 <br /> mg/L of nitrate and total alkalinity of 56 mg/L. <br /> Calculation on the Alkalinity Requirement for Nitrification <br /> The nitrate-nitrogen loading calculations are contingent upon the environmental factors required <br /> for nitrification to occur. These conditions include soil pore-space oxygen content, soil <br /> temperature,pH, electrical conductivity, organic matter, cation exchange capacity, and alkalinity. <br /> Alkalinity in wastewater effluent is derived from the water source, in addition to the introduction <br /> of wastes. Nitrification consumes approximately 7.1 mg of alkalinity for every mg of ammonia- <br /> nitrogen(NH4-N) oxidized. Nitrification of the average Total Nitrogen(TN) concentration of 62 <br /> mg/L,as determined below,would require: 62 mg/L N114-N x 7.1 mg CaCO3 =440 mg/L <br /> alkalinity. The alkalinity in the municipal water was determined to be 56 mg/L. Therefore, soil <br /> alkalinity, which is significant, and alkalinity from wastes must provide a sufficient alkalinity <br /> concentration for nitrification to occur. <br /> Page -4- <br /> Chesney Consulting <br />