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FTRODUCTION <br /> , <br /> The preliminary physical and chemical testing of the soil and chemical analysis of the water table <br /> have been completed for the proposed domestic wastewater effluent disposal areas associated with <br /> each Building referenced on the Title Page. The soil physical testing consisted of percolation <br /> testing along with soil chemical testing for factors that influence nitrate loading. Additionally, <br /> water table samples were retrieved to also determine nitrate loading factors and constituents. This <br /> data and information will be used in the Nitrate Loading/Soil Suitability Studies required by the <br /> San Joaquin County Environmental Health Department(EHD)for this project. These test results <br /> and water table determinations will also be used in the final effluent disposal design by Siegfried <br /> Engineering,Inc. for each Building. <br /> Testing was conducted in the months of February and March of this year during one of the wettest <br /> rainy seasons on record. Because of the closely intermittent rainfall events and intensity,perc test <br /> scheduling was very challenging. The soils maintained moisture contents that could be <br /> considered well above field capacity,but below saturation. Consequently,the perc test procedures <br /> of inducing soil saturation were readily achieved at the beginning of each test. <br /> FINDINGS <br /> Testing protocol for this project began near the proposed effluent disposal location to serve <br /> Building E&E(a.k.a. Building J) on February 25,2019. Two separate percolation tests were E <br /> drilled to different elevations,as noted on the attached Percolation Test Rate data sheet. Both <br /> perc tests were conducted in a silty clay loam(USCS silty clay- SC)soil structure.At the 24" <br /> perc test depth,which was conducted just 7.56" above the water table and within the capillary ' <br /> fringe,there remains permeability with a perc rate of 83.3 minutes/inch(min/in). Although this is <br /> a comparatively slow rate,a much slower rate would have been expected. Technically,this rate is <br /> considered failing by EHD since it is slower than 60 min/in. However, since all the wastewater <br /> treatment and disposal systems for this project will be engineered,under Section 7.1 of the SJC <br /> EHD Onsite Wastewater Treatment Systems Standards, failing rates can still be used for civil <br /> engineering design purposes. <br /> Analysis of the groundwater under the disposal area for Building E&E,finds a high concentration <br /> of nitrate from past on-site organic recycling operations. This nitrate determination will be <br /> addressed in the Nitrate Loading Study for the E&E Parcel and proj ect. <br /> The second E&E perc test was conducted at a depth of 36" and at a 3.65'higher elevation(test <br /> depth=2.65'higher) directly east of the 24" perc test, as noted on the attached perc test locations <br /> map. It is my understanding that this is near the elevation where the proposed disposal area is to <br /> be constructed for Building E&E. Test results reveal a slow but passing perc rate at 50.0 min/in <br /> with'the same soil structure at test depth as in the 24" deep perc test and conducted well above the <br /> capillary fringe. <br /> The second testing protocol began on March 19 for the south test locations for Buildings A and B. <br /> Perc test result for B-S (Building B, South)had a final perc rate of 41.7 min/in. <br /> �....���Pagel of 3 <br /> Chesney Consulting <br />