Distribution of Uranium Contamination in Weathered Fractured Saprolite/Shale and Ground Water
2006
Phillips, D. H. | Watson, D. B. | Roh, Y. | Mehlhorn, T. L. | Moon, J.-W. | Jardine, P. M.
The objective of this study was to determine how structure, stratigraphy, and weathering influence fate and transport of contaminants (particularly U) in the ground water and geologic material at the Department of Energy (DOE) Environmental Remediation Sciences Department (ERSD) Field Research Center (FRC). Several cores were collected near four former unlined adjoining waste disposal ponds. The cores were collected, described, analyzed for U, and compared with ground water geochemistry from surrounding multilevel wells. At some locations, acidic U-contaminated ground water was found to preferentially flow in small remnant fractures weathering the surrounding shale (nitric acid extractable U [UNA] usually < 50 mg kg⁻¹) into thin (<25 cm) Fe oxide-rich clayey seams that retain U (UNA 239 to 375 mg kg⁻¹). However, greatest contaminant transport occurs in a 2 to 3 m thick more permeable stratigraphic transition zone located between two less permeable, and generally less contaminated zones consisting of (i) overlying unconsolidated saprolite (UNA < 0.01 to 200 mg kg⁻¹) and (ii) underlying less-weathered bedrock (UNA generally < 0.01 to 7 mg kg⁻¹). In this transition zone, acidic (pH < 4) U-enriched ground water (U of 38 mg L⁻¹) has weathered away calcite veins resulting in greater porosity, higher hydraulic conductivity, and higher U contamination (UNA 106 to 745 mg kg⁻¹) of the weathered interbedded shale and sandstone. These characteristics of the transition zone produce an interval with a high flux of contaminants that could be targeted for remediation.
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