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place to detect any ground water problems early-on so mitigative measures can be <br />implemented. <br />Drawdown of water levels in aquifers - The original permit application predicted that <br />the excavation of pits at the Trapper Mine could temporarily draw down water levels in <br />local aquifers by a few feet at a distance of one mile from the permit boundary (page 4- <br />226 of permit application). The predictions proved inaccurate as no draw-downs were <br />detected in wells at those distances. Observed draw-downs have been temporary and <br />are limited to the immediate vicinity of the pits. The operator expects such limited <br />draw-downs to continue with future mining. Draw-downs may be so limited because <br />the mine is on the up-dip edge (near the drainage divide) of the local hydrologic basin. <br />Impact on aquifer recharge capacity - The proposed mining operation will have little <br />if any effects on the post-mining recharge capacity. The applicant's studies concluded <br />that the recharge capacity of the reclaimed spoils will actually be slightly higher than <br />the pre-mine condition. The applicant estimated the pre-mining infiltration rate to be <br />approximately 10"5 to 10-6 cm/sec (0.034 to 0.34 inches per day). Reclaimed spoils are <br />expected to have an infiltration rate of 10-3 to 10-4 cm/sec (3.4 to 34 inches per day). <br />The mine activities should not impact any regional aquifers except the Third White <br />Sandstone. Mined strata dip far beneath the Yampa River alluvial aquifer and <br />communication between these strata and the alluvial aquifer is negligible. <br />During the review for Permit Revision PR-O1, the Division raised the issue that any <br />degradation of water quality in a well that is owned by one of Trapper's neighbors, the <br />Lux well, could push the well's water quality beyond the secondary drinking water <br />standards because the pre-mining quality of the well's water barely met those <br />standards. Monitoring was required and has been incorporated into Trapper's <br />groundwater monitoring plan. <br />Surface Water Impacts <br />During mining in a drainage, runoff may temporarily increase during the time period the <br />ground surface is denuded. Much of the increased runoff will be contained by the pits <br />and the required sediment control system of ditches and ponds. Spring snowmelt will <br />cause the ponds to discharge, although the levels of total suspended solids in snowmelt <br />runoff will be substantially below pre-mine levels in most cases due to settling in the <br />sediment ponds. Pit pumping will also cause some drainage systems to discharge on a <br />regular basis but this water is of generally acceptable quality for stock watering and other <br />agricultural purposes and no problems are projected due to this discharge. Once <br />vegetation is re-established throughout a drainage, runoff in the drainage may decrease <br />below pre-mining levels as surface water infiltrates more easily into the subsurface which <br />has been disaggregated by mining. <br />The most noticeable change in surface water quality will likely be an increase in the <br />levels of total dissolved solids (mainly sulfate) contributed by springs that discharge from <br />the mined-out pits that have been back-filled with spoils. Following reclamation, each <br />Trapper Mine 24 July 25, 2008