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width of the alluvium, while the stream gradient and the presence of <br /> resistant sandstone in the stream channels limit the thickness and <br /> downstream extent of the alluvium. <br /> Occurrences of ground water have been noted in the Mesaverde <br /> Formation based upon information obtained from drilling, experience <br /> in the mines, and from the presence of springs and seeps in the <br /> region. This information also indicates that the only potential regional <br /> bedrock aquifer in the general area is the laterally continuous Rollins <br /> Sandstone. The laterally discontinuous lenticular sandstones within <br /> the Upper Mesaverde Formation support only localized ground water <br /> flows. <br /> Recharge to the Rollins Sandstone occurs along outcrops, along <br /> subcrops beneath stream alluvium and in the channels of the North <br /> Fork and its tributaries. However, due to the steepness of the <br /> :-)pography in the outcrop areas (i.e., sandstones are ledge formers) <br /> and the narrowness of the stream valleys, these local aquifers receive <br /> little recharge. Some recharge to the continuous units and much of <br /> the recharge to the more discontinuous, lenticular units will come <br /> directly from the percolation of snowmelt and precipitation downward <br /> through sandstone lens and along fractures. The same is true in the <br /> Jumbo Mountain area. Of 112 exploration drill holes at the West Elk <br /> Mine that were drilled prior to the mine opening, only three of the <br /> holes produced water from the F Seam at a production rate of 3 gpm <br /> or less. Three other holes in the Barren Member had rates of about <br /> 0.75 gpm. <br /> Some fractures and faults transect the Mesaverde Formation and <br /> extend vertically to the surface. These faults and fractures produce <br /> narrow bands of secondary permeability within the rock strata. Due <br /> to the low permeability of the rock strata within the Mesaverde <br /> Formation, these faults and fractures provide the primary path through <br /> which water flows both vertically between rock strata and horizontally <br /> within rock strata. <br /> When faults and fractures are encountered within the mines in the <br /> North Fork region, they generally produce mine inflows. The flow <br /> characteristics of each mine inflow associated with faults and fractures <br /> depend upon the lateral extent and the proximity of the fault or <br /> fracture to a stream valley. All inflows from these sources are <br /> characterized by an initial surge of water which then either decreases <br /> or ceases completely with time. <br /> Locally, water flow through fractures probably occurs more rapidly, <br /> as suggested by the seasonal fluctuation in discharge rates of some <br /> springs in the mine plan area. Mine inflow studies conducted as <br /> 26 <br />