New Mineral Deposit Models for Gold, Phosphate Rare Earth Elements, and Placer Rare Earth Element-Titanium Resources
USGS Mineral Deposit Models are "an organized arrangement of information describing the essential characteristics or properties of a class of mineral deposits. Models themselves can be classified according to their essential attributes (for example: descriptive, grade-tonnage models, genetic, geoenvironmental, geophysical, probability of occurrence, and quantitative process models)." (Stoeser and Heran, 2000). They are a tool for assessing areas for undiscovered mineral deposits.
This project focused on updating mineral deposit models for future assessment work within the U.S. The updated models included six gold deposit types (epithermal, orogenic, Carlin-like, alkaline-related, iron oxide copper gold, and Precambrian paleoplacer), sedimentary phosphorus (± rare earth elements) deposits, and titanium-rare earth element placer deposits. These mineral deposit models are designed for assessment use and include components on geoenvironmental impacts, human health, and critical elements. Other activities included investigating modern techniques in the applications of geochemistry and geophysics for all gold models.
Reference: Stoeser, D.B., and W.D. Heran, 2000, USGS mineral deposit models: U.S. Geological Survey Data Series 64, 1 disk, https://doi.org/10.3133/ds64.
Below are publications associated with this project and previous mineral deposit model publications.
A preliminary deposit model for lithium brines
A preliminary deposit model for lithium-cesium-tantalum (LCT) pegmatites
A deposit model for magmatic iron-titanium-oxide deposits related to Proterozoic massif anorthosite plutonic suite
Stratiform chromite deposit model
Podiform chromite deposits--database and grade and tonnage models
Arc-related porphyry molybdenum deposit model
Volcanogenic massive sulfide occurrence model
Magmatic ore deposits in layered intrusions - Descriptive model for reef-type PGE and contact-type Cu-Ni-PGE deposits
Occurrence model for volcanogenic beryllium deposits
Deposit model for closed-basin potash-bearing brines
Ni-Co laterite deposits
Carbonatite and alkaline intrusion-related rare earth element deposits–A deposit model
USGS Mineral Deposit Models are "an organized arrangement of information describing the essential characteristics or properties of a class of mineral deposits. Models themselves can be classified according to their essential attributes (for example: descriptive, grade-tonnage models, genetic, geoenvironmental, geophysical, probability of occurrence, and quantitative process models)." (Stoeser and Heran, 2000). They are a tool for assessing areas for undiscovered mineral deposits.
This project focused on updating mineral deposit models for future assessment work within the U.S. The updated models included six gold deposit types (epithermal, orogenic, Carlin-like, alkaline-related, iron oxide copper gold, and Precambrian paleoplacer), sedimentary phosphorus (± rare earth elements) deposits, and titanium-rare earth element placer deposits. These mineral deposit models are designed for assessment use and include components on geoenvironmental impacts, human health, and critical elements. Other activities included investigating modern techniques in the applications of geochemistry and geophysics for all gold models.
Reference: Stoeser, D.B., and W.D. Heran, 2000, USGS mineral deposit models: U.S. Geological Survey Data Series 64, 1 disk, https://doi.org/10.3133/ds64.
Below are publications associated with this project and previous mineral deposit model publications.