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The cut/fill area consists of colluvium deposits overlying Morrison Formation bedrock or <br /> exposed bedrock. The Jurassic Age Morrison Formation consists of siltstone and claystone <br /> containing thin beds of very fine-grained sandstone and minor conglomeratic sandstone. The <br /> strike and dip measurements indicate the strike of the bedding varies from north 80 to 88 degrees <br /> west, and dips steeply southeast between 28 and 35 degrees. This bedding slope is favorable. <br /> The native soil in the flat section consists of heterogeneous deposits of chiefly silty to <br /> boulder sediments deposited by or adjacent to glacial activity near the mouth of La Plata Canyon. <br /> The surface deposit consists of fine sandy silt material underlain by rounded cobbles and <br /> boulders in a sandy silt matrix. <br /> 3.2 Surface Conditions <br /> As shown on cross sections RWB-07 on Figure 3, surface conditions in the through-cut <br /> area consist of a sloping roadway surface with cut slopes on either side. The road surface <br /> transitions from a through-cut to a cut-fill at approximately Station 16+50. The road surface is <br /> cut into the north slope with the outboard side of the bench to the south. There is existing <br /> cribbing to the south on the outslope approximately between Stations 18+50 and 19+50. The <br /> roadway then descends down the slope, crosses a drainage culvert, and then reaches a flat section <br /> near the La Plata River(Figure 2). <br /> 3.3 Subsurface Conditions <br /> Between Stations 15+00 and 16+50 materials exposed in the cutslopes consist of terrace <br /> deposits and colluvium. These materials consist of dense to very dense angular to subrounded <br /> cobbles from 2 to 6 inches in diameter in a silty sand matrix; occasional boulders up to 18 inches <br /> are also present in both the terrace deposits and colluvium. Test pits and borings in this through- <br /> cut area indicate these materials extend 3 to 4 feet below the existing road grades and overlays <br /> bedrock. <br /> Borings and test pits in the cut/fill area between Stations 16+50 and 21+00 indicate the <br /> roadway is blanketed by a layer of fill 5 to 13 feet thick. The fill material consists of lean <br /> gravelly silty clays with cobbles and large boulders overlying bedrock. Figure 3 presents <br /> representative cross section through boring RWB-04. A plan view of the cross section is shown <br /> on Figure 2. As shown, the road surface appears to be completely in cut, with fill placed over the <br /> rock bench. <br /> Boring RWB-01 indicates that the fill east of the drainage culvert is a loose to medium <br /> dense silty fine sand. Fill thickness varies from 14 feet in boring RWB-01 to essentially nil as <br /> the road slope descends to the flat section at approximately Station 20+50. Test pits in the flat <br /> section indicate the native material is fine sandy silt overlying rounded cobbles in a sandy silt <br /> matrix. Groundwater was encountered in boring RWB-01 at elevation 8,622 feet (13.5 feet <br /> below ground surface), which appears to be consistent with the elevation of the La Plata River. <br /> Rule 6.5 Geotechnical Stability Technical Revision April 2,2012 <br /> New Access Road Page 3 <br />