To assure adequate uranium to supply electricity from nuclear power, the US Geological Survey is working to better understand the genetic controls, distribution, and quantities of domestic uranium. Because of the heavy reliance on imported uranium, scientists also lead international groups of uranium resource experts to monitor world uranium supply. This research benefits the mining industry, utilities, regulators, land owners, land managers, and supports the development of a carbon-free energy future for the United States.
RESEARCH AND UNDISCOVERED RESOURCE ASSESSMENTS
Targeted scientific research and geospatial assessments are the foundation for the successful exploration and development of uranium resources. The USGS uranium minerals systems project has completed assessments of two uranium regions, the Texas Coastal Plain and Southern High Plains (TX, NM, OK). In addition, the project has developed genetic deposit models for the southeastern US and Colorado Plateau that will aid in the location of additional domestic resources. These are published as peer reviewed articles, fact sheets and data releases, and presented to scientific and wider non-scientific audiences.
Genetic Deposit Models
Colorado Plateau Sandstone-hosted Uranium and Vanadium Deposit Model
The Colorado Plateau physiographic region is the largest uranium province in the United States, and one of the largest in the world. Uranium, often accompanied by vanadium, has been mined from the Plateau since the 1940’s, and the only actively operating domestic uranium mill is in this region. Since 2020 USGS has been compiling data, sampling known deposits, and analyzing samples throughout the Plateau. Last comprehensively studied in the 1980’s, this work has resulted in a new genetic deposit model that will benefit the identification of prospective regions.
Southeastern U.S. Metasomatite Uranium Deposit Model
Coles Hill is the largest unmined uranium deposit in the United States. Discovered in 1978, the deposit was enigmatic and complex, defying classification. USGS led a team of researchers that included expertise from the Virginia Museum of Natural History, Virginia Tech, and Virginia Uranium as well as USGS to develop the first comprehensive genetic model for Coles Hill, published in 2022. The new understandings developed by this model can be applied to future regional undiscovered resource assessments of metasomatite-type deposits in the southeastern US.
Undiscovered Uranium Resource Assessments
Southern High Plains (TX, NM, OK) Calcrete-type Deposit Model and Assessment
In 2016 USGS geologists located outcropping calcrete-hosted uranium mineralization in the Texas Panhandle. Ensuing studies of the mineralogy of the deposits, strontium and uranium isotopes, and groundwater modelling led to the development of the first genetic deposit model for calcrete-hosted uranium deposit in the US. This model was used to identify prospective tracts and was the basis of an assessment that was completed in 2017.
Texas Coastal Plain Sandstone-type Deposit Model and Assessment
Using GIS technology, multiple sources of data were combined to develop a comprehensive regional genetic model for sandstone-hosted uranium deposits in the Texas Coastal Plain region. The method of integrating data at a regional scale and at different intervals of geologic time, led to the identification of tracts that were prospective for additional uranium resources and an assessment completed in 2015.
Links for additional information about uranium resources and production
US Energy Information Administration (http://www.eia.gov/nuclear/). Analysis and data describing the US domestic uranium and nuclear fuels industry.
USGS Mineral Resources on-line spatial data (https://mrdata.usgs.gov). Interactive maps and downloadable data for regional and global geology, geochemistry, and mineral resources including uranium.
National Geochemical Database (https://pubs.usgs.gov/of/1997/ofr-97-0492/). Downloadable hydrogeochemical and stream sediment data from the Department of Energy's National Uranium Resource Evaluation program, reformatted and now administered by the USGS.
US Environmental Protection Agency Uranium Mines and Mills Location Database (https://www.epa.gov/radiation/uranium-mines-and-mills-location-database-0) A compilation of uranium mine locations compiled by the EPA.
External Links
Organisation for Economic Cooperation and Development – Nuclear Energy Agency (http://www.oecd-nea.org/). Joint biennial publication with IAEA that summarizes world uranium resources, production, and demand.
International Atomic Energy Agency (www.iaea.org). Information about the nuclear fuel cycle.
World Nuclear Association (http://www.world-nuclear.org). Summary of world uranium production and demand and other data related to the generation of nuclear power.
Below are other science projects associated with this project.
Below are multimedia items associated with this project.
Below are publications associated with this project.
Persistent U(IV) and U(VI) following in-situ recovery (ISR) mining of a sandstone uranium deposit, Wyoming, USA
Biogeochemical aspects of uranium mineralization, mining, milling, and remediation
Coles Hill Uranium Deposit, Virginia, United States, and the Application of UNFC-2009
Energy map of southwestern Wyoming, Part B: oil and gas, oil shale, uranium, and solar
Geophysical interpretation of U, Th, and rare earth element mineralization of the Bokan Mountain peralkaline granite complex, Prince of Wales Island, southeast Alaska
Interactive energy atlas for Colorado and New Mexico: an online resource for decisionmakers
Review of the NURE assessment of the U.S. Gulf Coast Uranium Province
Uranium(VI) interactions with mackinawite in the presence and absence of bicarbonate and oxygen
Whole rock geochemistry and grain-size analyses from sediment and rock near Tuba City Open Dump, Tuba City, Arizona
Critical analysis of world uranium resources
234U/238U isotope data from groundwater and solid-phase leachate samples near Tuba City Open Dump, Tuba City, Arizona
Deposit model for volcanogenic uranium deposits
Below are news stories associated with this project.
To assure adequate uranium to supply electricity from nuclear power, the US Geological Survey is working to better understand the genetic controls, distribution, and quantities of domestic uranium. Because of the heavy reliance on imported uranium, scientists also lead international groups of uranium resource experts to monitor world uranium supply. This research benefits the mining industry, utilities, regulators, land owners, land managers, and supports the development of a carbon-free energy future for the United States.
RESEARCH AND UNDISCOVERED RESOURCE ASSESSMENTS
Targeted scientific research and geospatial assessments are the foundation for the successful exploration and development of uranium resources. The USGS uranium minerals systems project has completed assessments of two uranium regions, the Texas Coastal Plain and Southern High Plains (TX, NM, OK). In addition, the project has developed genetic deposit models for the southeastern US and Colorado Plateau that will aid in the location of additional domestic resources. These are published as peer reviewed articles, fact sheets and data releases, and presented to scientific and wider non-scientific audiences.
Genetic Deposit Models
Colorado Plateau Sandstone-hosted Uranium and Vanadium Deposit Model
The Colorado Plateau physiographic region is the largest uranium province in the United States, and one of the largest in the world. Uranium, often accompanied by vanadium, has been mined from the Plateau since the 1940’s, and the only actively operating domestic uranium mill is in this region. Since 2020 USGS has been compiling data, sampling known deposits, and analyzing samples throughout the Plateau. Last comprehensively studied in the 1980’s, this work has resulted in a new genetic deposit model that will benefit the identification of prospective regions.
Southeastern U.S. Metasomatite Uranium Deposit Model
Coles Hill is the largest unmined uranium deposit in the United States. Discovered in 1978, the deposit was enigmatic and complex, defying classification. USGS led a team of researchers that included expertise from the Virginia Museum of Natural History, Virginia Tech, and Virginia Uranium as well as USGS to develop the first comprehensive genetic model for Coles Hill, published in 2022. The new understandings developed by this model can be applied to future regional undiscovered resource assessments of metasomatite-type deposits in the southeastern US.
Undiscovered Uranium Resource Assessments
Southern High Plains (TX, NM, OK) Calcrete-type Deposit Model and Assessment
In 2016 USGS geologists located outcropping calcrete-hosted uranium mineralization in the Texas Panhandle. Ensuing studies of the mineralogy of the deposits, strontium and uranium isotopes, and groundwater modelling led to the development of the first genetic deposit model for calcrete-hosted uranium deposit in the US. This model was used to identify prospective tracts and was the basis of an assessment that was completed in 2017.
Texas Coastal Plain Sandstone-type Deposit Model and Assessment
Using GIS technology, multiple sources of data were combined to develop a comprehensive regional genetic model for sandstone-hosted uranium deposits in the Texas Coastal Plain region. The method of integrating data at a regional scale and at different intervals of geologic time, led to the identification of tracts that were prospective for additional uranium resources and an assessment completed in 2015.
Links for additional information about uranium resources and production
US Energy Information Administration (http://www.eia.gov/nuclear/). Analysis and data describing the US domestic uranium and nuclear fuels industry.
USGS Mineral Resources on-line spatial data (https://mrdata.usgs.gov). Interactive maps and downloadable data for regional and global geology, geochemistry, and mineral resources including uranium.
National Geochemical Database (https://pubs.usgs.gov/of/1997/ofr-97-0492/). Downloadable hydrogeochemical and stream sediment data from the Department of Energy's National Uranium Resource Evaluation program, reformatted and now administered by the USGS.
US Environmental Protection Agency Uranium Mines and Mills Location Database (https://www.epa.gov/radiation/uranium-mines-and-mills-location-database-0) A compilation of uranium mine locations compiled by the EPA.
External Links
Organisation for Economic Cooperation and Development – Nuclear Energy Agency (http://www.oecd-nea.org/). Joint biennial publication with IAEA that summarizes world uranium resources, production, and demand.
International Atomic Energy Agency (www.iaea.org). Information about the nuclear fuel cycle.
World Nuclear Association (http://www.world-nuclear.org). Summary of world uranium production and demand and other data related to the generation of nuclear power.
Below are other science projects associated with this project.
Below are multimedia items associated with this project.
Below are publications associated with this project.
Persistent U(IV) and U(VI) following in-situ recovery (ISR) mining of a sandstone uranium deposit, Wyoming, USA
Biogeochemical aspects of uranium mineralization, mining, milling, and remediation
Coles Hill Uranium Deposit, Virginia, United States, and the Application of UNFC-2009
Energy map of southwestern Wyoming, Part B: oil and gas, oil shale, uranium, and solar
Geophysical interpretation of U, Th, and rare earth element mineralization of the Bokan Mountain peralkaline granite complex, Prince of Wales Island, southeast Alaska
Interactive energy atlas for Colorado and New Mexico: an online resource for decisionmakers
Review of the NURE assessment of the U.S. Gulf Coast Uranium Province
Uranium(VI) interactions with mackinawite in the presence and absence of bicarbonate and oxygen
Whole rock geochemistry and grain-size analyses from sediment and rock near Tuba City Open Dump, Tuba City, Arizona
Critical analysis of world uranium resources
234U/238U isotope data from groundwater and solid-phase leachate samples near Tuba City Open Dump, Tuba City, Arizona
Deposit model for volcanogenic uranium deposits
Below are news stories associated with this project.