Abstract
The abandoned Picher mining district in northeastern Oklahoma, part of the Tri-State mining district, was the largest source of sulfide ores of lead and zinc in the U.S.A. in the early twentieth century. After abandonment in the 1960s, numerous environmental problems caused by the abandoned mines and large tailings piles affected the district and surrounding areas with contamination of water, soils, vegetation, wildlife, and humans with lead and other metals. Current (2011) cleanup efforts in the district include separation of coarse and fine tailings particles, sales of the coarse particles (which consist mostly of dolomite and chert) for use as aggregate in asphalt, and burial of metals-rich fine tailings below ground to reduce exposure to and transport of toxic metals. Analysis in this paper indicates that reprocessing these tailings to extract remaining aluminum, titanium, lead, and zinc may be feasible. The value of lead and zinc in the tailings of this abandoned mining district probably are not sufficient to justify recovery of metals from the tailings at current market prices, but potential recovery of aluminum and titanium from these tailings may provide sufficient returns to justify the costs associated with reprocessing the fine tailings remaining in this district.
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Acknowledgments
The authors thank landowners who allowed access to their properties for collection of samples and the School of Civil Engineering and Environmental Science at the University of Oklahoma for providing facilities needed for analyses of samples used to produce some of the data in this paper.
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Andrews, W.J., Moreno, C.J.G. & Nairn, R.W. Potential recovery of aluminum, titanium, lead, and zinc from tailings in the abandoned Picher mining district of Oklahoma. Miner Econ 26, 61–69 (2013). https://doi.org/10.1007/s13563-013-0031-7
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DOI: https://doi.org/10.1007/s13563-013-0031-7