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_29_ <br />and siltstone roof strata in the Mt. Gunnison, Blue Ribbon, Hawk's Nest and <br />Somerset mines also weep for short periods of time following mining and <br />eventually dry up. The Hawk's Nest Mine workings in the "E" seam are dry even <br />though these workings are within 600 feet of the North Fork, are below the <br />level of the North Fork, and are parallel to the North Fork. These in-mine <br />observations indicate that the "B-2", "E" and "F" coal seams and their roof <br />strata are not significant regional aquifers. Observations of mining within <br />the "C" and "D" seam at the Bear No. 1, 2 and 3 mines and of mining within the <br />"D" seam at the Orchard Valley Mine indicate that the "C" and "D" seams and <br />their associated roof strata also are not significant regional aquifers. If <br />the coals and their roof strata were aquifers, these strata would have <br />continued to weep throughout the life of these mines. <br />Some fractures and faults transect the Mesa Verde Formation and extend <br />vertically to the surface. These faults and fractures produce narrow bands of <br />secondary porosity within the rock strata. Due to the low permeability of the <br />rock strata within the Mesa Verde Formation, these faults and fractures <br />provide the primary path through which water flows both vertically between <br />rock strata and horizontally within rock strata. <br />When faults and fractures are encountered within the mines in the North Fork <br />region, they generally produce mine inflows. The flow characteristics of each <br />mine inflow associated with faults and fractures depend upon the lateral <br />extent and the proximity of the fault or fracture to a stream valley. All <br />inflows from these sources are characterized by an initial surge of water <br />which then either decreases, or ceases completely with time. <br />Since most stream channels in the North Fork drainage basin are developed in <br />zones of weak fractured rock associated with fracturing and faulting (Dunrud, <br />1976), mine inflows from fractures and faults below these streams mimic the <br />temporal flow characteristics of the overlying streams. In the Hawk's Nest <br />Mine, an inflow was encountered under the ephemeral drainage of Hawk's Nest <br />Creek. The rates of inflow beneath this drainage fluctuate seasonally with a <br />slight lag time in response to the flows in the overlying stream. In the <br />Somerset Mine, inflows beneath Hubbard Creek are continuous and may reflect <br />the perennial nature of this stream. <br />Inflows from faults and fractures located outside stream valleys (such as in <br />the Orchard Valley Mine) generally dry up with time or flow intermittently at <br />discrete points along the fault or fracture. Those which continue to flow <br />have flow rates which diminish to a trickle. Such inflows may represent the <br />dewatering of lenticular sandstone units with limited recharge areas, or may <br />represent flows through fracture zones extending to the surface which have <br />narrow recharge zones on steep slopes. <br />Description of the Surface Water Regime <br />The North Fork of the Gunnison River is the major drainage for the general <br />area. Smaller streams in or adjacent to the life-of-mine areas are all <br />tributary to the North Fork (Figure 1). Figure 4 contains the drainage map of <br />the study area with the locations of streams and reservoirs which are <br />described in the following discussion. <br />