| Deposit ID | 10310397 |
|---|---|
| MRDS ID | W016386 |
| Record type | Site |
| Current site name | Rawhide Mine |
| Alternate or previous names | Denton-Rawhide Mine, Kennecott-Rawhide Mine, Rawhide Group, Rawhide Gold Mine, Nevada New Mines, Gravel, North Buckskin, Regent Hill, South Forty, Black Eagle Southwest, Hooligan Hill, Murray Hill, Balloon Hill, Crazy Hill, Grutt Hill |
| Related records | 10072140, 10125681, 10198182 |
| Geographic coordinates: | -118.38624, 39.01408 (WGS84) |
|---|---|
| Elevation | 1555 |
| Relative position | The Rawhide Mine is located about 37 airmiles south-southeast of the town of Fallon, at the south end of the Sand Springs Range, 4 miles south of the Churchill County boundary. |
Political divisions (FIPS codes)
Mineral(county)
Nevada(state)
United States(country)
North America(continent)
Land(continent)
USGS map quadrangles
Rawhide(quadrangle 1:24,000 scale)
Fallon(quadrangle 1:100,000 scale)
Reno(quadrangle 1:250,000 scale)
Hydrologic units (watersheds)
Gabbs Valley(hydrologic unit)
Central Nevada Desert Basins(hydrologic accounting unit)
Central Nevada Desert Basins(hydrologic subregion)
Great Basin(hydrologic region)
| Country | State | County |
|---|---|---|
| United States | Nevada | Mineral |
| Meridian | Township | Range | Section | Fraction | State |
|---|---|---|---|---|---|
| Mount Diablo | T13N | R31.5E | 04,05,08,09,16,17 | Nevada | |
| Mount Diablo | T14N | R32E | 31 12 | Nevada |
| Commodity | Importance |
|---|---|
| Gold | Primary |
| Silver | Primary |
| Copper | Secondary |
| Lead | Secondary |
| Tungsten Critical | Tertiary |
| Selenium | Tertiary |
| Mercury | Tertiary |
| Arsenic Critical | Tertiary |
| Barium-Barite Critical | Tertiary |
| Antimony Critical | Tertiary |
| Molybdenum | Tertiary |
| Zinc Critical | Tertiary |
| Chlorine | Tertiary |
| Bromine | Tertiary |
| Aluminum Critical | Tertiary |
| Materials | Type of material |
|---|---|
| Gold | Ore |
| Electrum | Ore |
| Silver | Ore |
| Embolite | Ore |
| Cerargyrite | Ore |
| Pyrargyrite | Ore |
| Argentite | Ore |
| Acanthite | Ore |
| Argentojarosite | Ore |
| Tetrahedrite | Ore |
| Proustite | Ore |
| Azurite | Ore |
| Chalcopyrite | Ore |
| Copper | Ore |
| Covellite | Ore |
| Galena | Ore |
| Scheelite | Ore |
| Chrysocolla | Ore |
| Malachite | Ore |
| Quartz | Gangue |
| Chalcedony | Gangue |
| Chert | Gangue |
| Kaolin | Gangue |
| Calcite | Gangue |
| Adularia | Gangue |
| Alunite | Gangue |
| Jarosite | Gangue |
| Goethite | Gangue |
| Hematite | Gangue |
| Pyrrhotite | Gangue |
| Pyrite | Gangue |
| Model code | 150 |
|---|---|
| USGS model code | 25c |
| Deposit model name | Epithermal vein, Comstock |
| Mark3 model number | 16 |
| Host or associated | Host | ||
|---|---|---|---|
| Rock type | Volcanic Rock (Aphanitic) > Intermediate Volcanic Rock > Andesite | ||
| Rock unit name | pre-Esmeralda volcanic rocks(?) | ||
| |||
| Host or associated | Host | ||
|---|---|---|---|
| Rock type | Volcanic Rock (Aphanitic) > Felsic Volcanic Rock > Rhyolite | ||
| Rock type qualifier | plugs, kaolinized | ||
| Rock unit name | pre-Esmeralda volcanic rocks(?) | ||
| |||
| Host or associated | Host | ||
|---|---|---|---|
| Rock type | Volcanic Rock (Aphanitic) > Felsic Volcanic Rock > Quartz Latite | ||
| Rock unit name | pre-Esmeralda volcanic rocks(?) | ||
| |||
| Host or associated | Host | ||
|---|---|---|---|
| Rock type | Sedimentary Rock > Mixed Clastic/Volcanic Rock | ||
| Rock type qualifier | volcaniclastic sediments | ||
| Rock unit name | pre-Esmeralda volcanic rocks(?) | ||
| |||
| Host or associated | Associated | ||
|---|---|---|---|
| Rock type | |||
| Rock unit name | pre-Esmeralda volcanic rocks(?) | ||
| |||
| (1) | -118.38624, 39.01408 |
|---|
| Type of structure | Regional |
|---|---|
| Structure description | The mine is located in a large caldera system along the northeast margin of the northwest-trending Walker Lane structural zone. The Miocene Rawhide volcanic center is 6.5 by 12km (4 x 7.5 mi.) in area. |
| Type of structure | Local |
| Structure description | Three principal structural trends are recognized at Rawhide: 1) north-striking high angle faults, 2) northeast-striking moderate to high angle faults, and 3) an inferred northwest structural trend that is parallel to both the margin of the Rawhide volcanic center and the Walker Lane. North- and northeast -striking moderate to high angle faults are numerous but typically display only minor displacement. Most of the historic gold and silver production has come from veins that occupy these structures, but not all structures are mineralized and many display movement that postdates gold-silver deposition. Displacement on these structures appears to be primarily normal, although oblique-normal displacement is indicated locally by shallowly dipping slickensides. NE-trending structures control the emplacement of late lithic tuff dikes along the SW flanks of Murray and Balloon Hills and the southern flanks of Hooligan Hill. Two major N-S to NNE-trending high angle structures clearly bound and may offset ore grade mineralization at Murray and Crazy hills. Structures with NW trends are rarely exposed but an overall NW trend can be inferred from the alignment of ore zones, the northwesterly strike of tilted structural blocks, the orientation of the Balloon Hill rhyolite and other rhyolite dikes. |
| General form | irregular lenses, veins, pod-type ore zones. |
|---|
| Operation type | Surface-Underground |
|---|---|
| Development status | Producer |
| Commodity type | Both |
| Deposit size | Large |
| Significant | Yes |
| Discovery year | 1906 |
| Year of first production | 1907 |
| Year of last production | 2004 |
| Production years | 1907-1920; 1990 - 2004 |
| District name | Rawhide District |
|---|---|
| District name | Regent District |
| Ownership category | BLM Administrative Area |
|---|---|
| Area name | Carson City BLM Administrative District |
| Type | Owner-Operator |
|---|---|
| Owner | Kennecott Rawhide Mining Co. |
| Interest | 51 |
| Year | 2004 |
| Type | Owner-Operator |
|---|---|
| Owner | Pacific Rim Mining Corp. |
| Interest | 49 |
| Year | 2004 |
Ross, D.C., 1961, Geology and Mineral Deposits of Mineral County, Nevada; NBMG Bull. 58. pp. 83-84.
Vanderburg, 1937, Reconnaissance of Mining Districts in Mineral County, Nevada; USBM IC 6941. pp. 58-64.
Lincoln, F.C., 1923, Mining Districts and Mineral Resources of Nevada; Nevada Newsletter Publishing Co.
Mining and Scientific Press, Notes on Rawhide, Nevada; March 28, 1908
Bates, James A., Nov. 1967, unpublished report on the Rawhide Lode-Placer Deposits in Mineral County, Nevada.
Archibald, N.L., 1966, Industrial Mineral Deposits of Mineral County, Nevada: NBMG Report 14. p 30.
Bonham, H.F. 1988, NBMG MI-1987
Bonham, H.F. 1986, NBMG Map 91
Bonham, H.F., 1986 NBMG Field Examination and Sample Analysis
NBMG Mining District File #206, numerous press clippings 1986-1987.
Plexus Resource Corp. 1986, Rawhide Gold Mine Report.
Black, John E., 1988, Mineralization and Wallrock Alteration at the Rawhide Gold-Silver Deposit Mineral Co., Master's Thesis, Stanford University.
Black, John E., et al., 1991, Geology and Mineralization at the Rawhide Au-Ag Deposit, Mineral County, NV in Raines, G.L., et al., Eds., Geology and Ore Deposits of the Great Basin, The Geological Society of Nevada, Reno, p. 1123-1144.
NBMG, 1991, The Nevada Mineral Industry-1990, NBMG Special Publication MI-1990, p.16 and 23.
Mining Journal/ Montagu Mining Finance, Minindatabase, 8/10/91.
NBMG, 1994, MI-1993
Nevada Division of Minerals, 1994
The Mining Record April 28,1993
| Subject category | Comment text |
|---|---|
| Deposit | Mineralization at Rawhide consists of quartz veins and lodes in kaolinized rhyolite. Ore occurs as disseminated and stockwork ore (veinlets that appear to follow incipient fissures), as well as sporadic ore bodies associated with abundant breccia, phreatomagmatic and phreatic, with strong silicification bordered by argillic zones. The environment of deposition was a shallow hot spring with abundant hydrofracturing. An oxidized zone up to a few hundred feet deep in vent areas is underlain by a sulfide zone. The chief ore minerals in the oxidized zone are cerargyrite, pyrite, native silver, native gold, and electrum. Ore minerals in the sulfide zones are argentite, proustite, pyargyrite, pyrite, gold and electrum. The gangue minerals resulting from hydrothermal replacement are adularia, jarosite, kaolin, pyrite, pyrrhotite, quartz, and calcite. Some gold and silver were recovered by dry wash placer method south and southwest of Rawhide. The main belt of mineralization occurs along Balloon, Murray, and Grutt Hills. Within this zone, bodies of good grade milling ore are 5 to 30 feet wide. Sporadic ore bodies are associated with brecciation of the rock. Particularly in the Grutt and Murray Hill areas, many of the veins trend north to NE. All except 2 of the veins dip steeply west. Bulk mineable ore occurs primarily in intensely fractured andesite along the hanging wall of the rhyolite intrusion and is characterized by abundant, closely spaced, sheeted to stockwork quartz-adularia veins. Ore also occurs in zones of primary permeability in porous lithic tuffs and volcaniclastic sediments, where it is finely disseminated and is accompanied by pervasive silicification and adularization with minor or no associated veins. Several separate pod-like ore zones occur within a NW-trending area 2440 m long and 400 m wide. Individual ore zones are irregular in geometry but typically are elongate to the NW with local NE-trending apophyses. Mineralized veins strike north to NE, an orientation transverse to the overall trend of the orebodies. Gold occurs as electrum in both oxide and sulfide ores; the electrum is dominantly gold in oxide ore but contains significant silver in sulfide ore. In oxide ore, silver occurs primarily as embolite and lesser cerargyrite. In sulfide ore, silver occurs as the selenides, sulfides and sulfosalts listed above. Silver:gold averages 10:1 in both oxide and sulfide zones and generally increases as au grade decreases with distance from ore. Silver:gold ratios as high as 400:1 are known along the base of oxidation and in strongly argillized zones. |
| Type | Date | Name | Affiliation | Comment |
|---|---|---|---|---|
| Reporter | 01-JAN-2005 | LaPointe, D.D. | Nevada Bureau of Mines and Geology | |
| Editor | 01-SEP-2007 | Schruben, Paul G. | U.S. Geological Survey | Converted from S&A FileMaker format to Oracle. Edit checks on rocks, units, and ages with Geolex search, and other fields. |
Supplemental information added by qvyshift.com. Not part of the original USGS MRDS record.
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