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<br />HYDROLOGIC DATA INTERPRETATION AND <br />IMPACT ASSESSMENT FOR THE PERMIT AREA <br />AND ADJACENT AREA5 <br />• <br />m•.s:M:M;ra:cxaa,.m.xx:'~.rc~.~~:x-mx^rs.:.cx~zx:~.x.'srs;a:xrzr~,r,.m:.o:Rx~x~m:.M:•••.:nx.:ss^xzsr. ~.:s:~:~:~;z;xxrxe+.~cx:x:~:x:w,;• ~::.:x:a:.'n..,..xrxc.x::a;eahe':x <br />This section wntains an analysis oC the <br />hydrologic data gathered during water year 1988; <br />an assessment of impacts of mining on the quality <br />and quantity of water in surface streams, springs, <br />groundwater aquifers, mine inflows, and discharges <br />during water year 1988; and an estimate of poten- <br />tial impacts of mining on these waters during <br />water year 1989. <br />Surface water, springs, and groundwater are <br />considered separately even though they are inter- <br />related. The report attempts to show the inter- <br />relationships that are significant or could be <br />expected. Because mine water and groundwater <br />are so interrelated, they are discussed together. <br />ASSESSMENT OF MINE <br />WATER AND <br />GROUNDWATER <br />MINE WATER <br />Generally, underground room and pillar <br />mining methods, which are currently in use at the <br />Mt. Gunnison No. 1 Mine, ran affect groundwater <br />in essentially two ways. First, development mining <br />in areas where groundwater is present in or im- <br />mediately adjacent to the coal seam can cause <br />localized movement of this water into the mine <br />workings. To date, groundwater movements of this <br />type have occurred in areas of low cover which <br />are highly fractured (near outcrops and near <br />stream channels) and where sandstone channels <br />bearing water immediately overlie the coal seam. <br />Secondly, retreat mining, which causes subsidence, <br />can (racture overlying groundwater formations <br />causing movement of the water, usually into the <br />mine workings. At the Mt. Gunnison No. 1 Mine, <br />the permeability of the "F' seam and overlying <br />strata is very low and the areal extent and quan- <br />tity of water stored in these units are small. <br />The mine workings located near the outcrop, <br />the main portal area, and along Sylvester Gulch <br />behaved similarly to previous years with respect to <br />inflows. Inflows occurred primarily from the roof <br />in areas of low overburden and near the "F' seam <br />outcrop. Inflow locations are essentially the same <br />as previous years and are shown on Exhibit II. <br />The estimated flows at these locations are also <br />shown on Exhibit 11 for low flow conditions as <br />well as spring runoff conditions. Table 5 shows <br />total estimated sustained mine inflows for the <br />1988 water year. <br />The seasonal pattern of mine inflows observed <br />in the mine workings at the main portal area and <br />along Sylvester Gulch indicate that the colluvium, <br />coal, and bedrock recharge locally. The area along <br />Sylvester Gulch contains many naturally occurring <br />fractures. Water moves down slope through the <br />colluvium and fracture zones and discharges as <br />springs and seeps. Water inflows appear to be <br />controlled by the amount of precipitation (mostly <br />snowmelt), depth of overburden, and location and <br />extent of fracture zones and not by the extent of <br />the underground workings. <br />Mine water inflows for the 1989 water year in <br />the Sylvester Gulch area and the main portal area <br />are expected to be similar to those of the 1987 <br />and 1988 water years; however, precipitation could <br />have an impact on inflow rates if there is a <br />dramatic change in 1989. <br />Mine water inflows for other areas of the <br />mine, namely the 1st West Submain, Panels <br />1W2S, 1W3S, 1W4S, 1WSS, 1W6S, and the <br />1st East Submain are related to particular geo- <br />logic and topographic features as well as water <br />bearing formations in these areas. Consequently, <br />each of these areas is discussed separately. <br />• <br />