Bradley S Van Gosen (Former Employee)
Science and Products
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Mapping the mineral resource base for mineral carbon-dioxide sequestration in the conterminous United States Mapping the mineral resource base for mineral carbon-dioxide sequestration in the conterminous United States
This database provides information on the occurrence of ultramafic rocks in the conterminous United States that are suitable for sequestering captured carbon dioxide in mineral form, also known as mineral carbon-dioxide sequestration. Mineral carbon-dioxide sequestration is a proposed greenhouse gas mitigation technology whereby carbon dioxide (CO2) is disposed of by reacting it with...
Authors
S. C. Krevor, C. R. Graves, B. S. Van Gosen, A. E. McCafferty
The Iron Hill (Powderhorn) carbonatite complex, Gunnison County, Colorado — A potential source of several uncommon mineral resources The Iron Hill (Powderhorn) carbonatite complex, Gunnison County, Colorado — A potential source of several uncommon mineral resources
A similar version of this slide show was presented on three occasions during 2008: two times to local chapters of the Society for Mining, Metallurgy, and Exploration (SME), as part of SME's Henry Krumb lecture series, and the third time at the Northwest Mining Association's 114th Annual Meeting, held December 1-5, 2008, in Sparks (Reno), Nevada. In 2006, the U.S. Geological Survey (USGS)
Authors
Bradley S. Van Gosen
Delineation of Magnesium-rich Ultramafic Rocks Available for Mineral Carbon Sequestration in the United States Delineation of Magnesium-rich Ultramafic Rocks Available for Mineral Carbon Sequestration in the United States
The 2005 Intergovernmental Panel on Climate Change report on Carbon Dioxide Capture and Storage suggested that a major gap in mineral carbon sequestration is locating the magnesium-silicate bedrock available to sequester CO2. It is generally known that silicate minerals with high concentrations of magnesium are suitable for mineral carbonation. However, no assessment has been made...
Authors
S. C. Krevor, C. R. Graves, B. S. Van Gosen, A. E. McCafferty
Airborne gamma-ray and magnetic anomaly signatures of serpentinite in relation to soil geochemistry, northern California Airborne gamma-ray and magnetic anomaly signatures of serpentinite in relation to soil geochemistry, northern California
Serpentinized ultramafic rocks and associated soils in northern California are characterized by high concentrations of Cr and Ni, low levels of radioelements (K, Th, and U) and high amounts of ferrimagnetic minerals (primarily magnetite). Geophysical attributes over ultramafic rocks, which include airborne gamma-ray and magnetic anomaly data, are quantified and provide indirect...
Authors
A. E. McCafferty, B. S. Van Gosen
Relational database for the geology of the northern Rocky Mountains— Idaho, Montana, and Washington Relational database for the geology of the northern Rocky Mountains— Idaho, Montana, and Washington
A relational database was created to prepare and organize geologic map-unit and lithologic descriptions for input into a spatial database for the geology of the northern Rocky Mountains, a compilation of forty-three geologic maps for parts of Idaho, Montana, and Washington in U.S. Geological Survey Open File Report 2005-1235. Not all of the information was transferred to and incorporated...
Authors
J. Douglas Causey, Michael L. Zientek, Arthur A. Bookstrom, Thomas P. Frost, Karl V. Evans, Anna B. Wilson, Bradley S. Van Gosen, David E. Boleneus, Rebecca A. Pitts
Geochemistry of Rock Samples Collected from the Iron Hill Carbonatite Complex, Gunnison County, Colorado Geochemistry of Rock Samples Collected from the Iron Hill Carbonatite Complex, Gunnison County, Colorado
A study conducted in 2006 by the U.S. Geological Survey collected 57 surface rock samples from nine types of intrusive rock in the Iron Hill carbonatite complex. This intrusive complex, located in Gunnison County of southwestern Colorado, is known for its classic carbonatite-alkaline igneous geology and petrology. The Iron Hill complex is also noteworthy for its diverse mineral resources
Authors
Bradley S. Van Gosen
Science and Products
Filter Total Items: 15
No Result Found
Filter Total Items: 101
Mapping the mineral resource base for mineral carbon-dioxide sequestration in the conterminous United States Mapping the mineral resource base for mineral carbon-dioxide sequestration in the conterminous United States
This database provides information on the occurrence of ultramafic rocks in the conterminous United States that are suitable for sequestering captured carbon dioxide in mineral form, also known as mineral carbon-dioxide sequestration. Mineral carbon-dioxide sequestration is a proposed greenhouse gas mitigation technology whereby carbon dioxide (CO2) is disposed of by reacting it with...
Authors
S. C. Krevor, C. R. Graves, B. S. Van Gosen, A. E. McCafferty
The Iron Hill (Powderhorn) carbonatite complex, Gunnison County, Colorado — A potential source of several uncommon mineral resources The Iron Hill (Powderhorn) carbonatite complex, Gunnison County, Colorado — A potential source of several uncommon mineral resources
A similar version of this slide show was presented on three occasions during 2008: two times to local chapters of the Society for Mining, Metallurgy, and Exploration (SME), as part of SME's Henry Krumb lecture series, and the third time at the Northwest Mining Association's 114th Annual Meeting, held December 1-5, 2008, in Sparks (Reno), Nevada. In 2006, the U.S. Geological Survey (USGS)
Authors
Bradley S. Van Gosen
Delineation of Magnesium-rich Ultramafic Rocks Available for Mineral Carbon Sequestration in the United States Delineation of Magnesium-rich Ultramafic Rocks Available for Mineral Carbon Sequestration in the United States
The 2005 Intergovernmental Panel on Climate Change report on Carbon Dioxide Capture and Storage suggested that a major gap in mineral carbon sequestration is locating the magnesium-silicate bedrock available to sequester CO2. It is generally known that silicate minerals with high concentrations of magnesium are suitable for mineral carbonation. However, no assessment has been made...
Authors
S. C. Krevor, C. R. Graves, B. S. Van Gosen, A. E. McCafferty
Airborne gamma-ray and magnetic anomaly signatures of serpentinite in relation to soil geochemistry, northern California Airborne gamma-ray and magnetic anomaly signatures of serpentinite in relation to soil geochemistry, northern California
Serpentinized ultramafic rocks and associated soils in northern California are characterized by high concentrations of Cr and Ni, low levels of radioelements (K, Th, and U) and high amounts of ferrimagnetic minerals (primarily magnetite). Geophysical attributes over ultramafic rocks, which include airborne gamma-ray and magnetic anomaly data, are quantified and provide indirect...
Authors
A. E. McCafferty, B. S. Van Gosen
Relational database for the geology of the northern Rocky Mountains— Idaho, Montana, and Washington Relational database for the geology of the northern Rocky Mountains— Idaho, Montana, and Washington
A relational database was created to prepare and organize geologic map-unit and lithologic descriptions for input into a spatial database for the geology of the northern Rocky Mountains, a compilation of forty-three geologic maps for parts of Idaho, Montana, and Washington in U.S. Geological Survey Open File Report 2005-1235. Not all of the information was transferred to and incorporated...
Authors
J. Douglas Causey, Michael L. Zientek, Arthur A. Bookstrom, Thomas P. Frost, Karl V. Evans, Anna B. Wilson, Bradley S. Van Gosen, David E. Boleneus, Rebecca A. Pitts
Geochemistry of Rock Samples Collected from the Iron Hill Carbonatite Complex, Gunnison County, Colorado Geochemistry of Rock Samples Collected from the Iron Hill Carbonatite Complex, Gunnison County, Colorado
A study conducted in 2006 by the U.S. Geological Survey collected 57 surface rock samples from nine types of intrusive rock in the Iron Hill carbonatite complex. This intrusive complex, located in Gunnison County of southwestern Colorado, is known for its classic carbonatite-alkaline igneous geology and petrology. The Iron Hill complex is also noteworthy for its diverse mineral resources
Authors
Bradley S. Van Gosen