Mineral abundances within bulk and size-fractionated mine waste from the Tar Creek Superfund Site, Tri-State Mining District, Oklahoma, U.S.A.
May 31, 2022
Mineral abundances within bulk and size-fractionated mine waste from sampled historical waste piles from the Tar Creek Superfund Site, Oklahoma, U.S.A., were determined by Mineral Liberation Analysis (MLA) and X-Ray Diffraction (XRD). Data and methods reported are part of a research study published below in the 'Related External Resources' section.
Citation Information
| Publication Year | 2022 |
|---|---|
| Title | Mineral abundances within bulk and size-fractionated mine waste from the Tar Creek Superfund Site, Tri-State Mining District, Oklahoma, U.S.A. |
| DOI | 10.5066/P9ZM36FG |
| Authors | Sarah Jane O White, Nadine Piatak, Ryan McAleer, Sarah M Hayes, Robert R Seal, Laurel A. Schaider, James P. Shine, Carlin J Green, Darryl A Hoppe, Mary R. Croke |
| Product Type | Data Release |
| Record Source | USGS Asset Identifier Service (AIS) |
| USGS Organization | Geology, Energy & Minerals Science Center |
| Rights | This work is marked with CC0 1.0 Universal |
Related
Germanium redistribution during weathering of Zn mine wastes: Implications for environmental mobility and recovery of a critical mineral
Germanium (Ge) is a metal used in emerging energy technologies, communications, and defense, and has been deemed critical by the United States due to its essential applications and scarce supply. Germanium is recovered as a byproduct of zinc (Zn) sulfides, and mining and processing of these materials lead to waste that could act both as a source of extractable Ge and a source for exposure to human
Authors
Sarah Jane White, Nadine M. Piatak, Ryan J. McAleer, Sarah M. Hayes, Robert R. Seal, Laurel A. Schaider, James P. Shine
Sarah Jane White, Ph.D.
Research Chemist
Research Chemist
Email
Phone
Nadine M. Piatak-Hackley
Research Geologist
Research Geologist
Email
Phone
Related
Germanium redistribution during weathering of Zn mine wastes: Implications for environmental mobility and recovery of a critical mineral
Germanium (Ge) is a metal used in emerging energy technologies, communications, and defense, and has been deemed critical by the United States due to its essential applications and scarce supply. Germanium is recovered as a byproduct of zinc (Zn) sulfides, and mining and processing of these materials lead to waste that could act both as a source of extractable Ge and a source for exposure to human
Authors
Sarah Jane White, Nadine M. Piatak, Ryan J. McAleer, Sarah M. Hayes, Robert R. Seal, Laurel A. Schaider, James P. Shine
Sarah Jane White, Ph.D.
Research Chemist
Research Chemist
Email
Phone
Nadine M. Piatak-Hackley
Research Geologist
Research Geologist
Email
Phone