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GeoTest Services, Inc.—Revision 1 April 10,2020 <br /> Kikuchi Retaining Wall, Everett,Washington Project No.20-0344 <br /> Subsurface Soil Conditions <br /> Subsurface conditions were explored by advancing three exploratory test pits (TP-1 through TP- <br /> 3) on March 17, 2020. The explorations were advanced to an approximate depth of 6.5 to 7.5 <br /> feet below ground surface (BGS) using a tracked excavator. The approximate locations of these <br /> explorations have been plotted on the Site and Exploration Plan (Figure 2). <br /> Subsurface conditions were similar in all three test pit locations and produced comparable <br /> results. The subsurface profile generally consisted of a 0.75-foot layer of dark brown, silty, very <br /> gravelly sand with organic matter (topsoil) at the surface. Underlying the topsoil was a light <br /> brown, very sandy silt/clay interpreted to be deposits of the native transitional beds. The upper <br /> 0.5 feet of the native soils displayed a weathered texture containing higher percentages of sand <br /> common with orange mottles. At approximately 3.5 to 4.5 BGS, soil color appeared to darken <br /> with an increase of moisture and the soils exhibited a blocky structure. In TP-3, the deposits of <br /> the transitional beds transitioned from the lighter light brown colored silt/clay to a denser <br /> greyish-blue clay. <br /> Subsurface conditions were also explored using a Dynamic Cone Penetrometer (DCP). DCP <br /> analysis consists of driving an approximately 1-inch diameter steel rod into the ground utilizing a <br /> 35-pound drop hammer. By measuring the number of blows it takes to drive the rod every four <br /> inches (10 cm), the general density of granular soils and the stiffness of cohesive soils can be <br /> determined. The number of blows for each increment can be correlated to standard N values <br /> typically obtained from Standard Penetration Testing (SPT) performed using a mechanized soil <br /> drill rig. DCP-1 and DCP-2 were advanced in the area near the existing east-west trending timber <br /> bulkhead. DCP-3 and DCP-4 were advanced into the slope above the existing timber bulkhead. <br /> Results from the DCP tests show the consistency of the subsurface soils is highly variable with <br /> depth. Within the upper 10 feet of the subsurface, the consistency of the soils ranged from soft <br /> to very stiff.Subsurface soils near the existing retaining wall(results from DCP-1 and DCP-2)show <br /> the upper 2 feet of soil have the least amount of resistance and softest consistency. Soils below <br /> 2 feet generally exhibited higher resistance with consistencies ranging from medium stiff to very <br /> stiff. In the slopes above the existing retaining wall (results from DCP-3 and DCP-4) the <br /> subsurface displayed consistencies ranging from medium stiff to stiff. Refusal conditions were <br /> encountered at around 11 ft in DCP-1, DCP-2, and DCP-4. <br /> More detailed logs of the subsurface conditions encountered within in our explorations are <br /> presented in the Test Pit Logs attached at the end of this report. <br /> General Geologic Conditions <br /> Geologic information for the project site was obtained from the Geologic Map of the Everett 7.5- <br /> Minute Quadrangle, Snohomish County, Washington (Minard, 1985) published by the U.S. <br /> Geological Survey.This map indicates that the project site is underlain by advance outwash (map <br /> 4 <br />