Laserfiche WebLink
<br />Williams Fork Mines Prepared by: R. Reilley M.S. GISP <br />C1981044 5 November 2018 <br /> <br /> <br /> 5 <br />of which over one-third is snowfall (averaging 66.5 inches/year). Average annual precipitation at the Trapper <br />Mine, next to the Williams Fork Mines, is 16.7 inches. The mean annual temperature in Craig is 43°F, with <br />recorded extremes of -45°F and +100°F. Winds are predominantly from the west, but are locally modified by <br />topographic features. The growing season for the area around Craig averages 77 days. <br /> <br />Physiographic Setting. The No. 5 and No. 5A portals of the Williams Fork Mines are driven into the steep- <br />sided walls of the valley that the Williams Fork River has cut through at the west end of the Williams Fork <br />Mountains. The mines’ facilities area is in the bottom of the valley. The elevation of the valley bottom is 6,150 <br />ft. From the valley bottom, the permit area extends up to the crestal ridge of the Williams Fork Mountains. <br />The crest of the Williams Fork Mountains forms a ridge extending about 30 miles east-west at elevations <br />between 7,400 and 7,800 feet. The Williams Fork River crosses through the mine permit area and flows into <br />the Yampa River in the northwest corner of the permit area. The Yampa River is one of the largest tributaries <br />of the upper Colorado River system. <br /> <br />Stratigraphic Setting. Bedrock at the ground surface in the Williams Fork Mines permit area is a sequence of <br />sandstones, siltstones, shales, and coals that are part of the Cretaceous-age Williams Fork Formation. The <br />Williams Fork Formation is part of the regionally extensive Mesa Verde Group. The Williams Fork Formation <br />crops out along a six-mile wide belt that extends along the entire length of the Williams Fork Mountains. The <br />Williams Fork Formation is subdivided into the following three units (in ascending stratigraphic order): the <br />lower Williams Fork, the Twentymile sandstone, and the upper Williams Fork. Approximate thicknesses are: <br />lower Williams Fork, 840 ft.; Twentymile sandstone, 120 ft.; and upper Williams Fork, 850 ft. Unconsolidated <br />alluvial deposits of Quaternary age fill stream drainages in the permit area and surrounding areas. The alluvium <br />is thickest in the Yampa and Williams Fork River valleys. <br /> <br />Coal Seam Stratigraphy. The coal seams formally mined at the Williams Fork Mines are in the lower and <br />upper units of the Williams Fork Formation. Each seam is less than 10 feet thick. The No. 9 Mine removed <br />coal from the P seam in the upper Williams Fork Formation. The No. 5 Mine removed coal from the F seam <br />in the lower Williams Fork. The No. 6 Mine portal was used to access and mine coal from the E seam in the <br />lower Williams Fork. <br /> <br />Geologic Structural Setting. The Williams Fork Mines are situated on the northeast flank of the northwest <br />plunging Moffat Anticline. The Moffat Anticline is part of the larger-scale Axial uplift that extends <br />northwestward across northwest Colorado to the Uinta Mountains in northeast Utah. The northeast limb of the <br />Moffat Anticline dips northward into the Big Bottom syncline. Although only small-displacement gravity <br />faults have been found in the permit area, the large displacement Moffat thrust fault probably lies several <br />thousand feet beneath the ground surface of the permit area. The surface trace of the Moffat thrust is two miles <br />southwest of the permit area. <br /> <br />Local Coal Mining History. Previous mining within the Williams Fork Mines permit area included: the Fields <br />Mine which operated in the E seam during the 1930s; the Wise Mine and the Wise Hill No. 2 which operated <br />in the C seam (below the E seam) in the 1940s and 1950s; the Leo White and Baker Mines which operated in <br />the Hart seam (between the F seam and Twentymile sandstone); and the Wise Hill Nos. 3 and 4, which operated <br />in the Hart seam during the 1970s. <br /> <br />Surface Water Features. Drainages within and adjacent to the permit area (on the north-facing slope) are <br />ephemeral and generally extend south to north down the slope in a dendritic pattern. These drainages flow <br />primarily in response to snowmelt or heavy rains. Flows in these drainages that do not infiltrate into the ground <br />or evaporate eventually enter the Williams Fork River, and then flow the short distance to the confluence with <br />the Yampa River in the northwest corner of the permit area.