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Effects on Ground Water Quality of Aquifers <br />• No significant water quality effects in The Trout Creek or T~ventymile Sandstone or alluvial units are anticipated <br />to occur during active mining operations from discharges from the mine as ground water flows will tend to be <br />from these units to the workings. Mine inflows will be collected in sump areas within the mine and pumped to the <br />surface where they will be treated if necessary and discharged to surface streams. The effects of this discharge on <br />surface water flows and quality are discussed under Probable Hydrologic Consequences for Surface Water <br />Systems below. <br />After mining operations have been completed and the mine workings are allowed to flood then there is the <br />potential for water quality effects on units that will receive water that has been in communication with the <br />workings or related zones disturbed by subsidence. The increased surface effect increases the potential for <br />leaching by ground water in the flooded workings. This will lead to increased solute concentrations and changes <br />in water quality characteristics compared with pre-mining conditions. <br />The Trout Creek Sandstone aquifer water quality is unlikely to be affected by the operations as the potential for <br />flov+~, under both pre-mining and post-mining conditions, tends to be toward the proposed mining zone. The <br />Twentymile Sandstone, as previously indicated, is effectively isolated from the proposed mine zone by 700 feet of <br />marine shale. Mining-related subsidence is not expected to generate appreciable permanent fracturing over about <br />350 feet above the mine zone. Consequently, the potential for movement of significant quantities of ground water <br />from the mine workings to the Twentymile Sandstone is limited to major natural fault zones, which may provide <br />sufficient communication. However, fault zones penetrated to-date have not yielded any significant long-term <br />inflows from the Trout Creek Sandstone or T~ventymile Sandstone. Fault zones, which have the potential to <br />provide this communication through the intervening marine shale, have not been identified within the proposed <br />mining area. No movement of this type can occur until the potentiometric levels in the mine workings recover to a <br />• level higher than that of the overlying Twentymile Sandstone. It has been calculated in an earlier section that this <br />may take about 350 years. <br />The Wadge overburden unit is the only bedrock unit, which is likely to be impacted with respect to water quality <br />effects. Subsidence effects will probably result in rubblization of most of the existing unit above mined areas. <br />This zone is up to 100 feet thick. Above the rubblized zone there will probably be considerable subsidence- <br />induced fracturing in the overlying marine shale. The thickness of this fractured zone is likely to be in the order of <br />200 feet. <br />The post-mining water quality that will result from flooding of the mine workings and associated overlying <br />rubblized and fractured zones may undergo two phases of development. Initially, ground water filling the mine <br />workings will be under oxidized conditions and the quality of water that results from leaching the overburden <br />material and remaining coal zones will reflect these conditions. After the rubblized zone is filled completely, <br />conditions of continued solute leaching will be under reduced conditions. Due to the structure of the basin, <br />flooding of the workings will tend to occur first in the lowest sections of the proposed mine near the center of the <br />basin and spread out to the margins, even though most of the post-mining recharge will occur at the margins. It <br />can be seen that oxidized and reduced conditions will exist in different areas of the mine at the same time. <br /> <br />TR99-32 2.05-142 L!.u~~'L3'~~•'LrJ Feu 0 8 2000 1/3/00 <br />