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RULE 4 PERFORMANCE STANDARDS <br />The Williams Fork Formation conformably overlies the Iles Formation. At the top of the <br />Iles Formation is the Trout Creek Sandstone (TCSS). The TCSS is a massive, white to <br />light gray, very fine to fine grained, moderately well sorted sandstone with a thickness of <br />between 50 and 70 feet and is approximately 1,200 to 1,300 feet below the Colowyo Mine. <br />This is the only mapped continuous unit in the area of the Colowyo Mine and has been <br />noted as being an excellent marker bed for correlation work of the coal seams. Beneath <br />the TCSS, the Iles Formation is comprised of sandstones, siltstones and marine shales. <br />Two major features, the Collom Syncline and the Danforth Hills Anticline/Wilson Dome, <br />control the geologic structure in the area of Colowyo Mine. The axis of the Collom <br />Syncline, located approximately 0.5 miles north of the north edge of the reclaimed East <br />Pit, trends west-northwest (approximately N60°W) with a slight dip in the axis to the west- <br />northwest. The Collom Syncline is sub -parallel to the Axial Anticline on the north and the <br />Danforth Hills Anticline on the south. The Collom Syncline is asymmetrical, with the <br />north flank of the syncline steeply dipping (20°-40°) to the south-southwest. The south <br />flank dips to the north-northeast at around 10°±5°. The Colowyo Mine is located on the <br />south flank of the Collom Syncline. Therefore, based on the geologic structure of the area, <br />the coal seams and non -coal beds of the Colowyo Mine dip to the north-northeast at <br />approximately 10°. The southern portion of the Colowyo Mine is located on a structural <br />high, an unnamed anticline, which is an offshoot of the Danforth Hills anticline. <br />Topographically, the mine is located on a topographic high, bordered on the east and west <br />by deeply incised valleys. These valleys are Good Spring Creek and Wilson Creek, on the <br />east and west respectively. The valleys slope from south to north, similar to the <br />topographic slope at Colowyo Mine. The topography in the area of the Colowyo Mine <br />ranges from 8000 feet on the south to 7150 feet on the north. The valleys have elevation <br />ranges from approximately 7100 feet on the south to 6550 feet on the north. On the south, <br />south of the Section 16 mine area, the topography drops off into the West Fork Good Spring <br />Creek, a small tributary to Good Spring Creek. <br />Hydrology <br />Based on the above, the Colowyo Mine is located on both a topographic and structural <br />high. Thus, these highs cause the mined units of the Colowyo Mine to be above any <br />significant recharge source, e.g., surface water. This is because the bottoms of the pits are <br />at an elevation higher than the elevation of the surface water in the creeks. Only when the <br />units are at an elevation lower than the valleys does any significant recharge occur. Thus, <br />the only source of recharge for the mined units in the pit areas of the Colowyo Mine is <br />precipitation. <br />Precipitation is less than 22 inches (on average) per year. Evaporation rates approach 30 <br />inches per year, with recharge rates in the Goodspring Creek and Taylor Creek basins being <br />less than 0.35 inches per year. In addition, any surface water/precipitation on this <br />topographic high has to percolate through the clayey soils, prevalent in the area of the <br />Colowyo Mine, into the underlying bedrock. Any water that recharges the bedrock units <br />Rule 4 Performance Standards 4-16 Revision Date: 1/25/19 <br />Revision No.: MR -198 <br />