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Probable Hydrologic Consequences New Elk Mine 16 <br />• The water is reported to have a pH between 7.6 and 8.9, and specific conductance ranging from 526 to 807 <br />gS /cm. Springs 12 and 13 have reported flows of 1 to 5 gpm. Water from the springs has circum neutral <br />pH (6.1 to 8.2) and specific conductance ranging from 700 to 761 µS /cm. The springs are used as water <br />supply by wildlife and livestock. Three windmills are also present in the drainage which produce water for <br />livestock from shallow bedrock. <br />The lower portion of the Apache Canyon drainage receives discharge from CBM wells and flows year <br />around for a distance of 2,500 feet above the confluence with Purgatoire River. The discharge point is <br />permitted outfall DPGE_1 (Plate 3). Based on monitoring data provided by the well field operator, XTO, <br />discharge from the permitted outfall averages about 60 gpm, has a pH of 8.5, and specific conductance of <br />about 1,050 pS /cm. <br />4.3 Ciruela Canyon <br />The upper reach of Ciruela Canyon is an ephemeral drainage that heads in the southeast portion of the <br />permit area. The drainage flows northeast to its confluence with the Purgatory River approximately two <br />miles east of the permit area. The canyon drains an area of approximately 1,966 acres inside the permit <br />boundary. The drainage within a one mile radius of the permit area is dry for most of the year and flows <br />only in response to localized heavy thunderstorms and snowmelt. The lower reaches of the canyon receive <br />discharge from CBM wells. <br />One bedrock spring in Ciruela Canyon (Spring 15) is located within the one mile radius of the permit <br />boundary. The spring is a minor area of seepage that occurs at the contact of a sandstone and shale bed <br />below a coal seam. Spring water is reported to have a pH of 6.7 and specific conductance of 1,054 pS /cm. <br />The spring is damp for several months a year. <br />4.4 Springs and Seeps <br />• A total of eight springs are documented within a one -mile radius of the permit area. The springs <br />are summarized in Table 9. Spring locations are shown on Plate 3. <br />Table 9. Summary of Springs within a One -Mile Radius of the Permit Area <br />Spring <br />ID <br />Elevation <br />(8 amsl) <br />Distance <br />Above <br />Apache Seam <br />(ft) <br />Temp. <br />( °C) <br />Flow <br />(gPm) <br />Specific <br />Conductance <br />(PS/cm) <br />pH <br />Notes <br />12 <br />7,550 <br />400 <br />12.3 <br />1 <br />731 <br />6.7 <br />Seepage from shale - sandstone contact <br />13 <br />7,600 <br />400 <br />21.1 <br />1 <br />736 <br />6.3 <br />Seepage from shale - sandstone contact <br />14 <br />8,220 <br />800 <br />23.8 <br />-- <br />610 <br />8.2 <br />Developed spring <br />15 <br />7,450 <br />600 <br />9.2 <br />1 <br />1,054 <br />6.7 <br />Shale - sandstone contact below coal <br />16 <br />7,500 <br />600 <br />9.5 <br />1 <br />984 <br />6.4 <br />Seepage from shale - sandstone contact <br />18 <br />7,490 <br />600 <br />15.7 <br />1 -2 <br />449 <br />5.9 <br />Seepage from shale - sandstone contact <br />19 <br />7,390 <br />600 <br />17.4 <br />1 <br />866 <br />6.6 <br />Seepage from fractured sandstone, shale <br />20 <br />7,390 <br />700 <br />16.7 <br />-- <br />553 <br />6.6 <br />Flow from 3springsat Santistevan flume <br />Notes: Monitoring data from May 9 -10, 1984 <br />Distance above Apache seam rounded to nearest 100 feet. <br />is <br />4164A.110130 WhetstojmAssociates <br />PR 02 Exhibit 8(4) Page 137 Revised 1/31/11 <br />