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NITRATE LOADING STUDY <br /> Because of concerns of nitrate leaching into ground water from septic systems, a nitrate <br /> loading analysis was required by the San Joaquin County Environmental Health <br /> Department for approval of the proposed project. The study estimates the potential <br /> concentration of percolating effluent produced by the project over the long term. Where <br /> percolating effluent leaches into the ground, ground water quality may be impacted to <br /> some degree should the effluent reach ground water. <br /> The method utilized for the nitrate loading analysis is based on a simple and convenient <br /> mass balance formula, discussed in a published paper by Hantzsche and Finnemore <br /> (1992). <br /> Hantzsche and Finnemore have found from investigations conducted in the Chico, <br /> California area, the water quality in the upper saturated ground-water zone closely <br /> approximates the quality of percolating effluent from septic systems. They have <br /> developed a simple method that could be used to estimate the quality of the percolating <br /> effluent from septic systems. The quality of the percolating effluent may represent the <br /> potential worst-case condition the upper aquifer would ever experience from the use of <br /> on-site septic systems. Mixing and dilution in the aquifer as well as adsorption and <br /> adhesion in the soil would tend to substantially reduce the concentration of percolating <br /> effluent. <br /> The Hantzsche and Finnemore equation is a conservative approximation of ground- <br /> water nitrate-nitrogen concentration resulting from the combined effect of on-site <br /> sewage disposal systems and percolating recharge waters. The equation and method <br /> is for estimation of long-term effect ground-water quality, and is not intended for <br /> prediction of seasonal changes (Hantzsche and Finnemore, 1992). The Hantzsche and <br /> Finnemore equation is used for evaluating nitrate loading from septic effluent only; no <br /> other potential sources of nitrate are considered. <br /> The method takes into account the development area, soil denitrification factor, rate of <br /> recharge from percolating waters, waste effluent quantity, and waste effluent nitrate <br /> concentration from on-site septic systems, and predicts the nitrate concentration of <br /> percolating effluent. <br /> Mass Transport Soil Properties <br /> The percolation tests have revealed that the soils are permeable. The soil will allow <br /> moderate infiltration of water through the surface soils. The longer the effluent remains <br /> near the surface, the more biologic treatment may occur. If permeable soils exist to the <br /> depth of the ground water aquifer, it is possible that any remaining surface <br /> contaminants may be transported to the first saturated zone of the aquifer. <br /> LOGE 1917 Page 9 <br />