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2-15 <br />hardpan following heavy rain, runoff is slow, and the water erosion hazard is slight. The <br />typical uses of this soil type are irrigated cropland, orchards, vineyards, and sometimes <br />irrigated pasture and urban development. <br />The Clear Lake clay soil type is common along the North Fork and South Fork of South <br />Littlejohn's CreekSouth For l(. The surface layer is dark gray clay about 29 inches thick <br />followed by another 8 inches of dark gray clay, then 5 inches of mixed light brownish gray <br />clay loam , then variegated dark grayish brown ~ weakly to strongly cemented hardpan to a <br />depth of 60 inches . The permeability of this soil is low, tI=le-available water ho lding capacity <br />is moderate, the shrink-swell potential is high,4Re water erosion hazard is low, and the soil <br />is subject to rare f looding during abnormally high rainfall events. This soil type is typically <br />used for irrigated cropland, orchards, and sometimes irrigated pasture and urban <br />development. <br />Soil Properties . Subsurface soil properties 0flSfte have been evaluated in several <br />geotechnical investigations during three separate soil investigations. The first investigation <br />of the onsite subsurface soils was performed by EMCON Associates in 1972. EMCON drilled <br />a total of 17 borings ranging in depth from 38 feet to 178 feet. The locations of the EMCON <br />boreholes are shown on the Existing Conditions Plan (Drawing 1) of that report. Another <br />subsurface investigation was performed by InsituTech in 1987 using Cone Penetration <br />Testing (CPT) in the WMU E area. The exact locations of the CPTs were, unfortunately, not <br />surveyed by InsituTech. <br />The subsurface investigation was performed by CH2M HILL in 1992; it consisted of four soil <br />borings drilled in April and May, 1992. The Existing Conditions Plan (Drawing 1) of that <br />report shows the approximate location of these four borings, designated as BH-1 through <br />BH -4. Pitcher Drilling Company of Palo Alto, California, was subcontracted to drill the soil <br />borings. CH2M HILL personnel specified the locations, depths of borings, and sampling <br />intervals and observed the drilling and sampling operations. All borehole logs available for <br />the site are included as an appendix in that report. <br />The CH2M HILL borings were 4-7/8-inch diameter and extended to depths ranging from 43 <br />to 102 feet. The borings were advanced using mud rotary drilling methods with a truck- <br />mounted Failing 750 drill rig. As each boring was completed, the hole was grouted to the <br />surface using a "neat" cement grout. The borings were grouted from the bottom upward <br />using a 2-inch drill pipe as a tremie. <br />Relatively undisturbed samples were obtained using a 3-inch outside diameter Shelby tube <br />sampler (ST samples) or Pitcher Barrel sampler (PB samples). The Pitcher Barrel sampler <br />was used to obtain samples of very stiff clay where the Shelby tubes could not be pushed. <br />This sampling was performed in general accordance with procedures for Thin-Walled Tube <br />Sampling of Soils as described by the American Society of Testing and Materials (ASTM), <br />Standard D 1587. Disturbed soil samples were obtained from the borings using a 2-inch <br />outside diameter split-spoon sampler, driven as described for the Standard Penetration Test <br />(SPT), ASTM Standard D1586. <br />Soil recovered during the drilling program was visually classified by a CH2M HILL engineer in <br />general accordance with ASTM D2487 and D2488. The soil names on the boring logs <br />reflect these ASTM standards. Pocket penetrometer tests were conducted on most cohesive <br />samples. Samples were then prepared for storage by placing representative portions in <br />Forward Composting Facility SWT Engineering <br />Report of Compostlng Site Information -May 2014 <br />z:\projects\aliied waste\forward \resource recovery fa cility\5 yr pe rmit rvw 2013-14\rcsi 2014\text\se c 2 -revtr.doc