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conditions within the disposal trench and surrounding soils will increase the uptake of nitrogen and other wastewater <br /> constituents by soil microbes. <br /> Groundwater <br /> Groundwater in the vicinity of the parcel is variable depending on the year and season. Groundwater has been <br /> documented at an approximate elevation of-50' below mean sea level (msl), or approximately 85' below the ground <br /> surface in the Spring of 2015,with the groundwater gradient trending eastward toward an apparent cone of <br /> depression near Waterloo.' Conversely,groundwater depth in the area was observed in the Spring of 2016 to be <br /> nearly-90(msl)with a steeper eastward gradient with a focal point near the Calaveras County line. <br /> Groundwater in the area of the subject parcel is used for agricultural and domestic purposes; future use will likely be <br /> similar. No documentation of degraded local groundwater was found during the course of our research. <br /> B. Sources of Nitrogen <br /> The land use in the immediate vicinity of the subject parcel is rural/suburban, with the immediate neighborhood <br /> consisting of half to one-acre lots and subdivisions with smaller lots located to the west, or up-gradient location. Lots <br /> within the existing subdivision are served by OWTS and appear to be of a recent vintage. It is noted that existing <br /> subdivisions west of Freesia Avenue are served by public sewer. <br /> Factors effecting nitrate loading will be primarily the OWTS and commercial nitrogen based lawn fertilizer. Nitrate <br /> loading from OWTS is relatively straightforward. While concentrations of nitrate-nitrogen in individual systems vary <br /> widely, documented ranges are 26-75 milligrams per liter(mg/L)6, and 20-85 mg/L, with an average value of 35 mg/L.' <br /> For the purposes of this analysis,the industry standard average value of 35 mg/L of nitrate is used. <br /> Nitrogen leaching from domestic lawns is based primarily on the homeowner's application rates of fertilizer and water <br /> and not possible to accurately calculate from a theoretical stance. That being said, a theoretical proposal would not <br /> carry much meaning and has been avoided. The same rationale existing for irrigation of landscape. <br /> Nitrogen removal from the soil column, through the process of microbial nitrification/denitrification is a function of <br /> detention time, BOD:N ratio and anoxic conditions. Denitrification rates up to 60 Ib/acre*d can be achieved in some <br /> situations,'with an average reduction due to denitrification is 25%.9 Vegetative uptake will also remove nitrogen from <br /> the soil column. Lawn grasses can consume 200+/- pounds of nitrogen/year/acre. However, for the purposes of this <br /> assessment, we will assume that no vegetative nitrogen uptake occurs other than the consumption of commercial <br /> fertilizer. <br /> C. Mass Balance <br /> This analysis looks specifically at the nitrogen loading of the local soil and groundwater due to development activities <br /> on the parcel. We have used the Hantzche-Finnemore model for this analysis. To properly complete this model,we <br /> will require the data listed below: <br /> Wastewater <br /> The model requires the vertical depth of the annual volume of wastewater dispersed over the entire property. The <br /> volume of wastewater is calculated at a rate of 140 gallons per bedroom per day. The proposed home will consist of 5 <br /> bedrooms for a total daily wastewater volume of 700 gallons per day. The attached data sheet shows the calculation <br /> of the wastewater volume to a vertical depth. <br /> 5 San Joaquin County Flood Control District,2016 <br /> 6 EPA Onsite wastewater treatment systems manual <br /> 7 Small and decentralized wastewater management systems,Crites,1998 <br /> 8 Land Treatment systems for Municipal and Industrial Wastes,Crites et al,2000 <br /> 9 Small and Decentralized Wastewater Management Systems,Crites,1998 <br /> Applied Wastewater Solutions, Inc. page 3 of 4 <br />