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Mine discharge from the Roadside Mines were estimated to increase soluble salts in the <br />river by 0.1 percent and dissolved iron by 0.2 percent (November 4, 1982 DMG Findings <br />Document). These predictions have proven to be accurate to date. <br />In its 1982 Findings, the Division also predicted that water quality effects would be <br />"minimal and will not significantly decrease water quality in the Colorado River." Surface <br />and groundwater monitoring to date (July 2007) have supported these projections. <br />Water monitoring conducted by the operator since 1982 has not identified any <br />unanticipated effects on river water quality. Mine water discharges from approved CDPS <br />points will continue to be analyzed annually for the list of parameters in Table 18-2 of the <br />permit. <br />2. Surface water runofffrom disturbed areas on the mine site passes through sediment ponds, <br />with the exception of the small areas discussed in Section C.II. A. of this document. <br />Discharges from these ponds have historically met effluent limits in the mines' CDPS <br />permit except for discharges related to severe storm events. Effects on water quality due to <br />disturbed-area runoff have been and should continue to be insignificant. <br />Groundwater <br />Groundwater puality <br />Four hydrologic units have been identified as aquifers that may be effected by the mining <br />operation. These are: Colorado River alluvium, strata overlying the Cameo coal seams, Cameo <br />coal seams, and the Rollins sandstone unit. Each of these will be addressed below as to the <br />mines' probable hydrologic impact. <br />Colorado River Alluvium <br />The Colorado River alluvium consists of silty sand intermixed with gravel along the canyon and <br />mine facility site. The alluvium varies between 0 and 60 feet in thickness and has a hydraulic <br />conductivity of 0.01 cm2. The main concern with the alluvial aquifer is the total dissolved salt <br />(TDS) content that mining contributes to the stream flow. The diminished quality of water <br />discharged from the mine due to salt and sediment loading is improved somewhat by allowing <br />the water to settle out the solids. The discharged mine water is given sufficient time to allow <br />gravity to settle the solids before discharge occurs to the Colorado River. Three NPDES points <br />discharged the mine water during active operations (Nos. 001, 002 and 004) and were subject to <br />Colorado Department of Health water quality standards. Discharge Sites OOI and 004 have been <br />inactivated since operations ceased. Outfa11002 has been retained as aback-up system for the <br />South Mine, with new Outfall 016 now operating as the primary mine-water discharge site. <br />Potential impacts on alluvial water quality due to mine water discharges were discussed <br />previously in Section B.II.A. of this document. <br />Strata OverlvinQ the Cameo Coal Seams <br />The unit directly overlying the Cameo coal seams consists of interbedded sandstones and shales <br />of discontinuous lateral extent. Consequently, the stratigraphy indicates that the entire sequence <br />of strata overlying the coal zone in the permit area behaves as a single hydraulic unit which <br />Permit Revision No. 3 Permit No. C-1981-041 <br />July 30, 2007 Page 31 <br />