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RULE 2 PERMITS <br />• Potential Impacts to Bedrock Groundwater Quantity <br />No impacts are anticipated to the quantity of groundwater in the Williams Fork Formation or the Trout <br />Creek Sandstone of the Iles Formation. Drilling and mining by Colowyo in the area identified very <br />limited perched water, and no saturated conditions, in the Williams Fork Formation. In the Williams Fork <br />Formation, the low permeability and depositional nature of the strata restrict the ability of the bedrock to <br />store and transmit water. There are no continuous non-coal beds in the Danforth Hills. Groundwater <br />movement is mainly controlled by fractures of varying orientation. <br />The Williams Fork Formation is not a significant water supply source in the Danforth Hills. It is not used <br />as a source of water where the alluvial and surface waters aze accessible. Where wells yield water, the <br />water quality in the Williams Fork Formation is generally good. Very few registered wells for domestic, <br />agricultural, or industrial purposes are completed in the Williams Fork Formation in the vicinity of the <br />South Taylor pit. Drilling by Colowyo and other parties encountered no significant water in the South <br />Taylor pit azea in the litholgic sequence which is planned to mined. This is based on the drilling and <br />geophysical logs. <br />It should be noted that the current East and West Pits at the Colowyo Mine do not intersect any significant <br />aquifers. Perched aquifers have been encountered which drain rapidly. Once drained, they do not <br />produce any significant water to the current pits. Since the South Taylor pit is higher in elevation than the <br />two current pits, and also up dip of the current pits, no significant aquifers should be encountered in this <br />pit. <br />The Trout Creek Sandstone aquifer is sepazated from the lowest coal seam (G8) to be mined by <br />approximately 590 feet in the South Taylor pit azea. Between this coal seam and the Trout Creek <br />• Sandstone is a mudstone/shale, sandstone, siltstone, and coal sequence of the Williams Fork Formation. <br />About 165 feet above the Trout Creek Sandstone, atwo-foot thick smectite clay layer (known as the Krrt <br />bed) exists that is found throughout the Danforth Hills area. This layer has low permeability and <br />therefore would be an additional impediment to downwazd or upward groundwater flow. <br />To determine the potential for the operations to encounter substantial groundwater and thus to require <br />dewatering, elevations of groundwater and the depth of the pits were compazed. The elevation of the <br />potentiometric surface in well 84-0-OB was 7,054 feet above mean sea level (AMSL) in October 1984 <br />(CDM 1985a). This well was completed in the sandstone in the above the I3 seam of the Williams Fork <br />Formation (as correlated by Colowyo). The lowest projected depth of the South Taylor pit is <br />approximately 7,320 feet AMSL. The Trout Creek Sandstone aquifer has a potentiometric elevation of <br />between 7,050 and 7,100 feet AMSL beneath the South Taylor mining azea (CDM, 1985a). This <br />indicates that the pit bottom is above the saturated bedrock. <br />Since the base of the pit will be above the elevations of the potentiometric surfaces in bedrock and <br />alluvial aquifers, no impacts to the quantity of groundwater available in the Williams Fork Formation or <br />the Trout Creek Sandstone aze anticipated. <br />u <br />South TaylodLower Wilson- Rule 2, Page 112 Revision Date: 3/30/07 <br />Revision No.: PR-02 <br />