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FAsnoted from the table, in the months of January, February,March,November and December, <br /> p percolation probably will occur. During these months, it is critical that nitrogen not be <br /> lied to lawns and landscaping, not only because of deep percolation, but also since most plants <br /> are in dormancy and there will be little uptake. <br /> In addition, if the leachlines can be installed as high in elevation as possible, during the months of <br /> April through October, significant evapotranspiration may occur to alleviate excessive percolation <br /> of septic effluent. This premise would not only apply to surface and subsurface soil temperatures <br /> causing evaporation, but also to transpiration by certain plants that are planted near, or over the <br /> leachfield. These would include grasses and shallow rooted shrubs over the leachfield. <br /> C. GROUNDWATER INFORMATION <br /> 1. ESTIMATED GROUNDWATER GRADIENT AND VELOCITY <br /> According to the most recent Groundwater Lines of Equal Depth Map (1999) provided by the San <br /> Joaquin County Flood Control District, the static water level under the center of the project is <br /> approximately 140 ft below grade. Lines of Equal Elevation maps are included in Appendix 6 to <br /> illustrate the groundwater.directional flow during the years of 1992, 1996, 1997, 1998, and 1999. <br /> As noted the directional flow appears to have changed over these years,but is predominately <br /> toward the Mokelumne River. Whether the gradient under the subject property flows <br /> northwesterly toward the River, or if it continues in a westerly direction to eventually encounter <br /> the River is unknown without highly sophisticated monitoring over time. Groundwater typically <br /> follows the topography of the land surface. Consequently, as denoted from the USGS <br /> topographical map, the flow direction may be in a predominate westerly direction until the <br /> influence of the River overtakes gravitational flow. The equal lines map show the gradient to be <br /> very gradual and flat as the.groundwater flow travels west-southwest toward the town of <br /> Lockeford. <br /> The groundwater gradient as the flow descends from the project site is estimated to be 10 ft <br /> 7,920 ft (1.5 mi) = 0.00126 ft/ft, based on the equal elevation and depth maps. The velocity of <br /> the groundwater directly downgradient from the subject site can be estimated by the following <br /> formula: <br /> K(11>-1121 <br /> vaquifer— L <br /> 7.5 p <br /> Where: --._- <br /> K=Hydraulic conductivity of aquifer formation in gals/day/ft2 =5000 gals/day/ftz (est.based on a silty, <br /> medium sand formation) <br /> h,= 140 ft <br /> h,= 130 ft <br /> L= 1.5 mi = 7,920 ft <br /> p =porosity of aquifer 37% (est.) <br /> vaquif,,=2.3 ft/day <br /> Page -8- <br /> Chesney Consulting <br />