| Deposit ID | 10307223 |
|---|---|
| Record type | District |
| Current site name | Central Tennessee Zinc District |
| Geographic coordinates: | -85.93396, 36.19709 (WGS84) |
|---|
Political divisions (FIPS codes)
Smith(county)
Tennessee(state)
United States(country)
North America(continent)
Land(continent)
USGS map quadrangles
Gordonsville(quadrangle 1:24,000 scale)
Cookeville(quadrangle 1:100,000 scale)
Corbin(quadrangle 1:250,000 scale)
Hydrologic units (watersheds)
Caney(hydrologic unit)
Upper Cumberland(hydrologic accounting unit)
Cumberland(hydrologic subregion)
Ohio(hydrologic region)
| Country | State | County |
|---|---|---|
| United States | Tennessee | Smith |
| United States | Tennessee | Jackson |
| United States | Tennessee | Trousdale |
| Commodity | Importance |
|---|---|
| Zinc Critical | Primary |
| Cadmium | Secondary |
| Germanium Critical | Secondary |
| Barium-Barite Critical | Secondary |
| Fluorine-Fluorite Critical | Secondary |
| Lead | Tertiary |
| Materials | Type of material |
|---|---|
| Sphalerite | Ore |
| Barite | Ore |
| Fluorspar | Ore |
| Calcite | Gangue |
| Dolomite | Gangue |
| Quartz | Gangue |
| Host or associated | Host | ||
|---|---|---|---|
| Rock type | Sedimentary Rock > Carbonate | ||
| Rock unit name | Mascot Dolomite | ||
| Rock description | Mascot Dolomite | ||
| |||
| Host or associated | Host | ||
|---|---|---|---|
| Rock type | Sedimentary Rock > Carbonate | ||
| Rock unit name | Kingsport Formation | ||
| Rock description | Kingsport Formation | ||
| |||
| (1) | -85.93396, 36.19709 |
|---|
| Type of structure | Local |
|---|---|
| Structure description | Nashville Dome |
| Development status | Producer |
|---|---|
| Commodity type | Both |
| Significant | Yes |
| District name | Central Tennessee Zinc District |
|---|
| Year | 1985 | |||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Period | 1975-1985 | |||||||||||||||||||||
| Material | zinc ore | |||||||||||||||||||||
| Ore mined | 10000000mt | |||||||||||||||||||||
| ||||||||||||||||||||||
| Subject category | Comment text |
|---|---|
| Deposit | Deposits in the Central Tennessee district are the Elmwood-Gordonsville, Clinch Valley, Carthage, Gainsville, Roaring River, and Cumberland in Tennessee and Burkesville in Kentucky. |
| Deposit | Mineralization in the Central Tennessee District occurred princiaplly by filling of open spaces in dissolution collapse breccia and by filling caverns. Both breccia and caverns formed in paleoaquifers related to paleokarst development on and below the regional unconformity at the top of the Knox Group. Most of the breccia formed as a result of the dissolution and dolomitization of soluble limestone. Broad, gently dipping local structural highs along the crest of the Nashville Dome control the distribution of ore within stratigraphic horizons. Ore bodies are confined to flanks and crests of the structural highs (Briskey et al., 1986). |
| Deposit | Coarsely crystalline, dark-reddish brown, low-Fe sphalerite is the principal ore mineral in the Central Tennessee district. In the Elmwwod-Gordonsville area of Tennessee, reddish sphalerite commonly occurs with calcite, fluorite, barite, yellowish sphalerite, galena, and minor drusy quartz and dolomite. At Burkesville in Kentucky, quartz and dolomite are the principal gangue minerals, and calcite, fluorite, and barite are absent or rare. Sphalerite mineralized in caverns and open-spaces after dissolution, collapse, and alteration of the host rock. There is a tendency for large concentrations of fluorite and bariate to be deposited outside or above areas containing large amounts of sphalerite. When the three minerals are found together, sphalerite is always earliest in the paragentic sequence (Briskey et al., 1986). |
| Deposit | Sphalerite in the Central Tennessee district was deposited when metalliferous basinal brines expelled from compacting sedimentary basins rose into the broad, crestal area of the Nashville Dome and coincidentally into local structural highs. In these areas, sphalerite precipted in caverns and open areas of collapse breccias, and in the primary porosity of detrital dolostone. Sphalerite may have been deposited during pH change, cooling, and/or dilution of ore fluids with meteroric waters (Briskey et al., 1986). |
| Type | Date | Name | Affiliation | Comment |
|---|---|---|---|---|
| Reporter | 06-JAN-2004 | Woodruff, Laurel G. | U.S. Geological Survey | Work done in Filemaker |
Supplemental information added by qvyshift.com. Not part of the original USGS MRDS record.