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This section of the permit discusses the potential for environmental exposure of uranium <br />related constituents by the transport of groundwater. To evaluate this potential, the site <br />geology, hydrology, geochemistry of the deposits, and possible groundwater migration <br />pathways are discussed. <br />8.1 Area Geology <br />The JD -9 mine site is located on the southwestern flank of the Paradox Valley anticline <br />near the axis of the Dry Creek Basin syncline (see Figure U1). Geologic units in the <br />mine area gently slope south - southwest toward the Dry Creek Basin syncline at a <br />gradient of 0.008. Remnants of Dakota Sandstone and the Burro Canyon Formation form <br />the highlands of Monogram Mesa to the north and east, and the southern rim of Bull <br />Canyon. The Dakota Sandstone and Burro Canyon Formations are resistant to <br />weathering and form the cap rock for more easily eroded rock. Directly underlying the <br />Burro Canyon Formation is the Brushy Basin Member of the Morrison Formation. This <br />geologic unit is comprised of mostly bentonitic shale but contains some sandstone and <br />conglomeritic lenses (Cater, 1954). This unit's stratigraphy plays an important role in <br />understanding groundwater transport in this region. Bentonite is classified as a <br />montmorillonite clay mineral formed by the weathering of volcanic ash deposited during <br />the Jurassic Period and characterized by a three layer crystal lattice that exhibits <br />significant swelling on wetting. These types of shales are not only extremely <br />impermeable to water movement but also exhibit high cation exchange capacities that <br />adsorb and prevent the migration of dissolved constituents related to uranium deposits. <br />These same bentonitic shales are found in the Salt Wash Member and restrict the <br />downward movement of dissolved minerals. <br />Table 1: Summary of Selected Properties of Solid Phase Layered Silicates <br />(After Bohn et al., 1979) <br />Component <br />Kaolinite <br />Montmorillonite <br />Mineral Type (silicate layers) <br />11 <br />2:1 <br />Cation Exchange Capacity <br />1 -10 me /100g <br />80 -120 me /100g <br />The Salt Wash Member of the Morrison Formation is the mineralized zone where <br />uranium and vanadium ores are found. The unit is comprised of interbedded sandstones, <br />shales and mudstones. The sandstone units, particularly the upper sandstone, are <br />mineralized. These sandstones tend to be fine grain and well cemented. The upper <br />sandstone unit of the Salt Wash is where the mine portal is located. <br />Underlying the Morrison Formation is the Summerville Formation that consists of shales <br />and mudstones and is usually considered an aquitard in the area. The Entrada /Carmel <br />Formations undivided (mapped as the same unit) underlie the Summerville aquitard and <br />provide the first possible aquifers in the area. While the Carmel contains mudstone <br />layers, the Entrada Formations consist dominantly of fine -grain eolian sandstones. <br />O'Connor Design Group Inc. U - 11 <br />