Electrical Resistivity Characterization of a Reclaimed Gold Mine to Delineate Acid Rock Drainage Pathways

Rucker, Dale F.; Glaser, Danney R.; Osborne, Tom; Maehl, William C.

doi:10.1007/s10230-009-0072-x

Cited by 47 publications

(19 citation statements)

References 47 publications

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“…These factors may be the major determinants of the low resistivity anomalies detected in tailings impoundments, as observed by previously cited authors. For instance, Rucker et al (2009) presented a strong correlation between resistivity decrease and porewater composition with a correlation factor R 2 = 0.85 for electrical resistivity and TDS. Evidences of this at the Haveri tailings impoundment are: the higher resistivity values around test pit 40 (Zone IV) where the vadose tailings show considerably lower metal and S concentrations and lesser sulfide oxidation owing to higher moisture content; and lower resistivity values around test pit 24 (Zone I) where the metal and S concentrations are higher and sulfide oxidation is more advanced owing to lower moisture content.…”

Section: Discussionmentioning

confidence: 97%

“…Geophysical methods have increasingly demonstrated their potential to: delineate areas contaminated with potentially harmful elements and compounds and acidic seepage at industrial landfills and mine waste sites; define petrophysical properties and the internal structure of tailings impoundments and waste rock piles (Ebraheem et al 1990;Yuval and Oldenburg 1996;Campbell et al 1998;Campbell and Fitterman 2000;Painter et al 2000;Campbell and Horton 2001;Smith et al 2001;Buselli and Lu 2001;Vanhala and Lahti 2001;Shemang et al 2003;Guérin et al 2004;Chouteau et al 2005;Sjödahl et al 2005;Vanhala et al 2005;Martínez-Pagán et al 2009;Martín-Crespo et al 2010;Rucker et al 2009;Poisson et al 2009). Because the electrical properties of soils change as a function of mineral and porewater composition, grain-size variation and moisture content, electrical resistivity tomography (ERT) is a highly promising tool for investigating the internal structure of mine wastes that are controlled by water and oxygen fluxes responsible for sulfide oxidation and possible generation of acid mine drainage (AMD) (Chouteau et al 2005).…”

Section: Introductionmentioning

confidence: 96%

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Integrated geophysical and geochemical study on AMD generation at the Haveri Au–Cu mine tailings, SW Finland

Placencia-Gómez¹,

Parviainen

Hokkanen³

et al. 2010

Environ Earth Sci

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The Haveri tailings area contains 1.5 Mt of sulfide-bearing waste from the Au-Cu mine that operated during [1942][1943][1944][1945][1946][1947][1948][1949][1950][1951][1952][1953][1954][1955][1956][1957][1958][1959][1960][1961]. Geophysical and geochemical methods were used to evaluate and characterize the generation of acid mine drainage (AMD). Correlations were examined among the electrical resistivity tomography (ERT) data, the total sulfide content and concentrations of sulfide-bound metals (Cu, Co, Fe, Mn, Ni, Pb and Zn) of tailings samples, and the resistivity and geochemistry of surface water. The resulting geophysical-geochemical model defines an area in the vadose tailings, where a low resistivity anomaly (\10 Ohm m) is correlated with the highest sulfide content, extensive sulfide oxidation and low pH (average 3.1). The physical and geochemical conditions, resulting from the oxidation of the sulfide minerals, suggest that the low resistivity anomaly is associated with acidic and metal-rich porewater (i.e., AMD). The lower resistivity values in the saturated zone of the central impoundment suggest the formation of a plume of AMD. The natural subsoil layer (silt and clay) and the bedrock surface below the tailings area were well mapped from the ERT data. The detected fracture zones of the bedrock that could work as leakage pathways for AMD were consistent with previous geological studies. The integrated methodology of the study offers a promising approach to fast and reliable monitoring of areas of potential AMD generation and its subsurface movement over large areas (ca. 9 ha). This methodology could be helpful in planning drill core sampling locations for geochemical and mineralogical analysis, groundwater sampling, and choosing and monitoring remedial programs.

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Section: Discussionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 96%

Integrated geophysical and geochemical study on AMD generation at the Haveri Au–Cu mine tailings, SW Finland

Placencia-Gómez¹,

Parviainen

Hokkanen³

et al. 2010

Environ Earth Sci

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“…These methods have also been used to define the petrophysical properties and internal structure of tailings impoundments and waste rock piles (Buselli and Lu 2001;Campbell and Fitterman 2000;Chouteau et al 2005;Guérin et al 2004;Martin-Crespo et al 2010;Martinez-Pagán et al 2009;Placencia-Gòmez et al 2010;Poisson et al 2009;Rucker et al 2009;Shemang et al 2003;Sjodahl et al 2005;Vanhala et al 2005). To monitor or decontaminate affected sites, a complete knowledge of their geology and hydrogeology is necessary, as is knowledge of the behaviour of the pollutants and their means and routes of transport.…”

Section: Introductionmentioning

confidence: 96%

Electrical and Seismic Tomography Used to Image the Structure of a Tailings Pond at the Abandoned Kettara Mine, Morocco

Lghoul

Teixidó²,

Peña³

et al. 2012

Mine Water Environ

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International audienceThe Kettara site (Morocco) is an abandoned pyrrhotite ore mine in a semi-arid environment. The site contains more than 3 million tons of mine waste that were deposited on the surface without concern for environmental consequences. Tailings were stockpiled in a pond, in a dyke, and in piles over an area of approximately 16 ha and have generated acid mine drainage (AMD) for more than 29 years. Geophysical methods have been used at the Kettara mine site to determine the nature of the geological substrate of the tailings pond, the internal structure of the mine wastes, and to investigate the pollution zones associated with sulphide waste dumps. Electrical resistivity tomography (ERT) and seismic refraction data were acquired, processed, and interpreted; the results from ERT and seismic refraction were complementary. A topographical survey of the tailings disposal area was also undertaken to estimate the volume of wastes and quantify the AMD process. Two-dimensional inverse models were used to investigate the geophysical data and indicated alteration zones at depth. It was determined that the material could be classified into three categories: tailings, with low resistivity (5-15 Omega m) and low velocity (500-1,800 m/s); altered, black shales, with intermediate resistivity (20-60 Omega m) and velocity (2,000-3,500 m/s), and; materials with high resistivity and velocity (> 60 Omega m and > 4,000 m/s, respectively), including unaltered shales associated with quartzite seams. The low-resistivity zone generates AMD, which migrates downward through fractures and micro-fractures. The substrate is composed of broken and altered shale, which facilitates AMD infiltration

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“…The procedure is repeated for many di↵erent electrode locations and current configurations to develop a spatially distributed dataset of subsurface conductance (See Loke et al, 2013, for a recent review). ER has been previously used to image both the extent and concentrations of subsurface mining contamination (e.g., Oldenburg & Li, 1994;Rucker et al, 2009). However, these studies were limited in that they assumed a consistent relationship between resistivity and TDS (Day-Lewis et al, 2005), which, due to heterogeneities in the aquifer and in the resolution of the inversion, can be di cult to define (Singha & Gorelick, 2006).…”

Section: Introductionmentioning

confidence: 99%

Non-invasive flow path characterization in a mining-impacted wetland

Bethune

Randell

Runkel

et al. 2015

Journal of Contaminant Hydrology

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Time-lapse electrical resistivity (ER) is used in this study to capture the annual pulse of acid mine drainage (AMD) contamination, the so-called 'first-flush' driven by spring snowmelt, through the subsurface of a wetland downgradient of the abandoned Pennsylvania Mine workings in Central Colorado. Data were collected from mid-July to late October of 2013, with an additional dataset collected in June of 2014. ER provides a distributed measurement of changes in subsurface electrical properties at high spatial resolution. Inversion of the data shows the development through time of multiple resistive anomalies in the subsurface, which corroborating data suggest are driven by changes in total dissolved solids (TDS) localized in preferential flow pathways. Because of the non-uniqueness inherent to deterministic inversion, the exact geometry and magnitude of the anomalies is unknown, but sensitivity analyses on synthetic data taken to mimic the site suggest that the anomalies would need to be at least several meters in diameter to be adequately resolved by the inversions. Preferential flow path existence would have a critical impact on the extent of attenuation mechanisms at the site, and their further characterization could be used to parameterize reactive transport models in developing quantitative predictions of remediation strategies.iii

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Electrical Resistivity Characterization of a Reclaimed Gold Mine to Delineate Acid Rock Drainage Pathways

Cited by 47 publications

References 47 publications

Integrated geophysical and geochemical study on AMD generation at the Haveri Au–Cu mine tailings, SW Finland

Integrated geophysical and geochemical study on AMD generation at the Haveri Au–Cu mine tailings, SW Finland

Electrical and Seismic Tomography Used to Image the Structure of a Tailings Pond at the Abandoned Kettara Mine, Morocco

Non-invasive flow path characterization in a mining-impacted wetland

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