B. Greer scite author profile

Surface coal mining has altered land cover, near‐surface geologic structure, and hydrologic processes of large areas in central Appalachia, USA. These alterations are associated with changes in water quality such as elevated total‐dissolved solids, which is usually measured via its surrogate, specific conductance (SC). The SC of valley fill effluent streams is a function of fill construction methods, materials, and age; yet hydrologic studies that relate these variables to water quality are sparse due to the difficulty of conducting traditional hydrologic studies in mined landscapes. We used electrical resistivity imaging (ERI) to visualize the subsurface geologic structure and hydrologic flow paths within a valley fill. ERI is a noninvasive geophysical technique that maps spatiotemporal changes in resistivity of the subsurface. We paired ERI with artificial rainfall experiments to track infiltrated water as it moved through the valley fill. Results indicate that ERI can be used to identify subsurface geologic structure and track advancing wetting fronts or preferential flow paths. Our results suggest that the upper portion of the fill contains significant fines, whereas the deeper profile is primarily large rocks and void spaces. Water tended to pond on the surface of compacted areas until it reached preferential flow paths, where it appeared to infiltrate quickly down to >15 m depth in 75 min. ERI applications can improve understanding of how fill construction techniques influence subsurface water movement, and in turn may aid in the development of valley fill construction methods to reduce water quality effects.

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Specific conductance–stage relationships in Appalachian valley fill streams

Clark

Greer

Zipper

et al. 2016

Environ Earth Sci

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Discriminating between background and mine-impacted groundwater at the Phoenix mine, Nevada USA

Davis¹,

Heatwole²,

Greer³

et al. 2010

Applied Geochemistry

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B. Greer

Electrical resistivity imaging of hydrologic flow through surface coal mine valley fills with comparison to other landforms

Specific conductance–stage relationships in Appalachian valley fill streams

Discriminating between background and mine-impacted groundwater at the Phoenix mine, Nevada USA

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