Pioche Deposits

Past Producer in Lincoln county in Nevada, United States with commodities Lead, Silver, Gold, Manganese, Iron, Copper, Zinc, Arsenic
Sections on this page
  1. Identification information
  2. Geographic coordinates
  3. Site location context
  4. Geographic areas
  5. Public Land Survey System information
  6. Commodities
  7. Materials information
  8. Alteration
  9. Mineral occurrence model information
  10. Host and associated rocks
  11. Nearby scientific data
  12. Geologic structures
  13. Ore body information
  14. Controls for ore emplacement
  15. Economic information about the deposit and operations
  16. Mining district
  17. Land status
  18. Ownership information
  19. Bibliographic references
  20. General comments
  21. Reporter information

Geologic information

Identification information

Deposit ID 10310394
MRDS ID W002906
Record type District
Current site name Pioche Deposits
Alternate or previous names Caselton (Combined Metals Reduction Co.) Mine, Ely Valley Mine, Prince-Virginia Louise-Davidson Mine, Raymond and Ely Mine
Related records 60001661

Comments on the site identification

  • This is a new record that includes all material in earlier MRDS record W002906, other earlier MRDS records for theindividual deposits, as well as additional new information.

Geographic coordinates

Geographic coordinates: -114.45195, 37.93524 (WGS84)
Elevation 2130
Relative position The Pioche District mines are located in the Pioche Hills southwest of Pioche, about 19 miles west of the Utah-Nevada border.

Site location context

Political divisions (FIPS codes)

Lincoln(county)

Nevada(state)

United States(country)

North America(continent)

Land(continent)

USGS map quadrangles

Pioche(quadrangle 1:24,000 scale)

Caliente(quadrangle 1:100,000 scale)

Caliente(quadrangle 1:250,000 scale)

Hydrologic units (watersheds)

Meadow Valley Wash(hydrologic unit)

Lower Colorado-Lake Mead(hydrologic accounting unit)

Lower Colorado-Lake Mead(hydrologic subregion)

Lower Colorado(hydrologic region)

Geographic areas

Country State County
United States Nevada Lincoln

Public Land Survey System information

Meridian Township Range Section Fraction State
Mount Diablo 01N 67E 14 17 22 23 26 32 33 04 Nevada

Comments on the location information

  • The Pioche District mines are scattered over a few square miles in the Pioche Hills (including Treasure Hill) west, southwest, and south of Pioche.

Commodities

Commodity Importance
Lead Primary
Silver Primary
Gold Primary
Manganese Critical Primary
Iron Secondary
Copper Secondary
Zinc Critical Secondary
Arsenic Critical Tertiary

Comments on the commodity information

  • Ore Materials: argentite, cerargyrite, cerussite, galena, pyrite, sphalerite, chalcopyrite, gold
  • Gangue Materials: quartz, calcite, siderite, jarosite, limonite

Materials information

Materials Type of material
Argentite Ore
Cerargyrite Ore
Cerussite Ore
Galena Ore
Pyrite Ore
Sphalerite Ore
Chalcopyrite Ore
Gold Ore
Quartz Gangue
Calcite Gangue
Siderite Gangue
Jarosite Gangue
Limonite Gangue

Alteration

  • (Local) oxidation; hydrothermal

Mineral occurrence model information

Model code 72
USGS model code 19a
Deposit model name Polymetallic replacement
Mark3 model number 47

Host and associated rocks

  • Host or associated Host
    Rock type Metamorphic Rock > Metasedimentary Rock > Quartzite
    Rock unit name Prospect Mountain Quartzite
    Stratigraphic age (youngest) Early Cambrian
    Stratigraphic age (oldest) Neoproterozoic
  • Host or associated Host
    Rock type Sedimentary Rock > Carbonate > Limestone
    Rock unit name Combined Metals Member of the Pioche Shale
    Stratigraphic age (youngest) Early Cambrian
  • Host or associated Host
    Rock type Sedimentary Rock > Carbonate > Limestone
    Rock unit name Lyndon Limestone
    Stratigraphic age (youngest) Middle Cambrian
  • Host or associated Host
    Rock type Sedimentary Rock > Carbonate > Limestone
    Rock unit name Mendha Limestone
    Stratigraphic age (youngest) Early Ordovician
    Stratigraphic age (oldest) Late Cambrian
  • Host or associated Host
    Rock type Sedimentary Rock > Carbonate > Limestone
    Rock unit name Highland Peak Limestone
    Stratigraphic age (youngest) Middle Cambrian
  • Host or associated Host
    Rock type Plutonic Rock > Granitoid > Granite
    Rock type qualifier porphyry dikes
    Stratigraphic age (youngest) Tertiary
  • Host or associated Host
    Rock type Plutonic Rock > Porphyry
    Rock type qualifier granite dikes
    Stratigraphic age (youngest) Tertiary
  • Host or associated Associated
    Rock type Sedimentary Rock > Clastic Sedimentary Rock > Shale
    Rock unit name Chisholm Shale
    Stratigraphic age (youngest) Middle Cambrian
  • Host or associated Associated
    Rock type Sedimentary Rock > Carbonate > Limestone
    Rock unit name Yellow Hill Limestone
    Stratigraphic age (youngest) Early Ordovician
  • Host or associated Associated
    Rock type Sedimentary Rock > Carbonate > Limestone
    Rock unit name Tank Hill Limestone
    Stratigraphic age (youngest) Early Ordovician
  • Host or associated Associated
    Rock type Metamorphic Rock > Metasedimentary Rock > Quartzite
    Rock unit name Eureka Quartzite
    Stratigraphic age (youngest) Late Ordovician
    Stratigraphic age (oldest) Middle Ordovician
  • Host or associated Associated
    Rock type Sedimentary Rock > Carbonate > Dolomite
    Rock unit name Ely Springs Dolomite
    Stratigraphic age (youngest) Late Ordovician
  • Host or associated Associated
    Rock type Sedimentary Rock > Carbonate > Dolomite
    Rock unit name Silverhorn Dolomite
    Stratigraphic age (youngest) Middle Devonian
  • Host or associated Associated
    Rock type Sedimentary Rock > Carbonate > Dolomite
    Rock unit name West Range Dolomite
    Stratigraphic age (youngest) Late Devonian
  • Host or associated Associated
    Rock type Volcanic Rock (Aphanitic) > Felsic Volcanic Rock > Dacite
  • Host or associated Associated
    Rock type Volcanic Rock (Aphanitic) > Intermediate Volcanic Rock > Andesite
  • Host or associated Associated
    Rock type Sedimentary Rock > Carbonate > Limestone
    Rock unit name Bristol Pass Limestone
    Stratigraphic age (youngest) Early Mississippian
  • Host or associated Associated
    Rock type Volcanic Rock (Aphanitic) > Felsic Volcanic Rock > Rhyolite
  • Host or associated Associated
    Rock type Sedimentary Rock > Clastic Sedimentary Rock > Siltstone
    Rock unit name Peers Spring Fm
    Stratigraphic age (youngest) Late Mississippian
  • Host or associated Associated
    Rock type Metamorphic Rock > Metasedimentary Rock > Quartzite
    Rock unit name Scotty Wash Quartzite
    Stratigraphic age (youngest) Late Mississippian
  • Host or associated Associated
    Rock type Plutonic Rock > Granitoid > Quartz Monzonite
    Rock type qualifier intrusives
  • Host or associated Associated
    Rock type Sedimentary Rock > Carbonate > Limestone
    Rock unit name Bailey Spring Limestone
    Stratigraphic age (youngest) Pennsylvanian
    Stratigraphic age (oldest) Mississippian
  • Host or associated Associated
    Rock type Volcanic Rock (Aphanitic) > Pyroclastic Rock > Tuff
    Rock type qualifier sedimentary

Nearby scientific data

(1) -114.45195, 37.93524

Economic information

Geologic structures

Type of structure Regional
Structure description E-W and N-S normal faulting before thrusting; N60 degree S faults mineralized; N-S, NW-trending post mineral.
The Pioche Hills appear to be a window in a regional thrust of upper Cambrian rocks over lower Cambrian and Tertiary volcanics. Pioche Shale bed dropped by closely spaced parallel normal faults mineralization principally in Combined Metals bed of the Pioche Shale.
Highland Peak overthrust
Type of structure Local
Structure description steeply dipping fissures: N50-70E mineralized zone

Ore body information

  • General form tabular to lenticular orebodies, tapering away from fissures

Controls for ore emplacement

  • Ore occurs in tabular replacement bodies, at the intersection of steep fissures and limestone beds in Pioche Shale.

Comments on the geologic information

  • The Combined Metals Member of the Pioche Shale is the host rock for the replacement orebodies. It consists of 3 parts: (1) a lower 3 ft of massive limestone (2) a middle 3-ft thick calcareous sandstone (which in the orebody is unreplaced) and (3) an upper 30-ft layer of thin-bedded nodular limestones, usually only 2-3 inches thick and so nodular that they look like "beds of flattened potatoes". The nodules are coated with a thin black carbonaceous skin. The Pioche Shale belt trends NW between 2 faults.

Economic information about the deposit and operations

Operation type Underground
Development status Past Producer
Commodity type Metallic
Deposit size Large
Significant Yes
Discovery year 1863
Discoverer Hamblin (Panaca)
Year of first production 1869

Mining district

District name Pioche District

Land status

Ownership category Private
Ownership category BLM Administrative Area
Area name Las Vegas BLM administrative district

Ownership information

  • Type Owner-Operator
    Owner Kerr-McGee

Comments on the workings information

  • The veins were developed by extensive underground workings; shafts, adits, trenches, cuts, and prospect pits. Most of the old underground workings were caved by the 1980s. There was a small open pit and heap-leach operation working in the 1980s.
    Water was in the old workings at the 1200 foot level.

Comments on other economic factors

  • From 1905 to 1958 the total production from the Pioche district mines was 810,366 ounces of gold, 17,956,492 ounces of silver, 6,254,900 pounds of copper, 317,007,800 pounds of lead, 640,224,100 pounds of zinc, and 711,400 tons of manganese ore. 1869 to 1904 production was not broken down.

    Reserves: 1958: Caselton type ore: 2,642,830 metric t (includes production) 0.046 opt Au, 5.32 opt Ag, 4.81% Pb, 11.82% Zn; Pan American type ore: 149,629 metric t, 0.028 opt Au, 1.64 opt Ag, 1.39% Pb, 2.66%Zn, 9.7% Mn
    1952: Caselton type ore: 674,300 metric t (includes production) 0.013 opt Au, 0.65 opt Ag, 0.6% Pb, 9.5% Zn, 0.4% Cu
    1949: Caselton type ore: 197,921 metric t (includes production) 0.035 opt Au, 3.21 opt Ag, 1.24% Pb, 9.7% Zn, 0.14% Cu; 12.32% Mn (oxidized ore); 31.5% Fe (oxidized ore)

Comments on development

  • The initial mineral discovery in Pioche occurred in 1863 and mining production began in 1869. The original ore consisted of oxidized silver chlorides occurring in fissures in Cambrian quartzites. The Raymond and Ely vein system contained high-grade lead-silver ore that was mined in the 1870s
    At one time Pioche was one of largest silver districts in the United States. Total mineral production exceeded $130,000,000. The primary metal values were for gold, silver, lead, zinc and copper. Low-grade argentiferous manganese oxides were also found in the region. Major periods of production were: 1895-1901; 1912-1920; 1934-1953; and 1958-1959. Minimal activity has occurred from 1959 to the present time. Early milling occurred in Pioche, but a shortage of water forced the mills to be relocated to Bullionville (near Panaca) around 1871. In 1924 Combined Metals Reduction Company developed a selective flotation process to treat the massive lead-zinc sulfide ores. Combined Metals Reduction Company processed ore at a mill in Bauer, Utah from 1923-1941, until the Caselton Mill was built in 1941. Mountain Mines, Inc. acquired the Caselton Tailings after the bankruptcy of Combined Metals Reduction Company in 1976. Mountain Mines, Inc. claims to have produced precious metals from the tailings with a small chemical processing facility located in the vicinity of the tailings.
    Numerous mining companies have had operators or exploration activity at site, including: Meadow Valley Mining Company (1864-1876); Consolidated Mining Company (1880's); White Pine Minerals Company (?); Combined Metals Reduction Company (1924-present); Pioche Manganese Company (WWII); Comet Coalition Mining Company (1964-1978); St. Patrick Mining Company (1975); Bunker Hill Mining Company (1976-77); Kerr-McGee Chemical Company (1980); Mountain Mines, Inc. (1976-present). Homestake Mining Company, Prince Consolidated Mining Company and Anaconda Company also have been active in the area.
    Midway Gold Company has recently (2004) been exploring for a faulted offset of the high-grade silver-gold Salt Lake Pioche vein under post- mineral volcanic rock. The property consists of five patented and 36 unpatented claims lying south of the town of Pioche on a combination of private patented mining claims and BLM administered lands. Midway began a 3500 foot reverse circulation drill program on the Pioche Project in October 2004.

Reference information

Bibliographic references

General comments

Subject category Comment text
Deposit The main orebody at the Caselton, Raymond & Ely/Combined Metals Reduction #1 mines is the result of selected replacement of the Combined Metals Limestone bed where it intersects the steeply-dipping Greenwood Fissure, which is a fault of slight displacement, usually expressed as a thin gouge seam but which may be up to 5 feet thick. It trends N70E, and dips 65-70N, nearly paralleling the Raymond and Ely vein, which dips 75S. The ore has been offset by many cross-faults the main orebody is a tabular massive sulfide bed extending laterally into the limestone layer, thickest (30-40 feet) adjacent to the Greenwood Fissure, and tapering down away from it. Bedded ore occurs up to 200 feet on either side of the Greenwood Fissure. The ore of the upper bed preserves the nodular character of the limestone host. Ore consists of about 60% pyrite, 22% sphalerite, 8% galena, minor chalcopyrite and practically no gangue minerals. The lower bed ore is massive with an irregular bottom contact, as the underlying quartzite has been irregularly replaced by pyrite and sphalerite. The ore is unoxidized. The Raymond and Ely vein in the Prospect Mountain Quartzite strikes parallel to the Greenwood Fissure. The Greenwood ore occurs chiefly in Pioche Shale. The Black Ledge vein of quartz and sphalerite was also mined yielding 12-20% zinc and 5-21 ounces of silver per ton. The Raymond and Ely vein system splits eastward into two branches: the Meadow Valley vein and the Burke Vein. The largest and richest ore shoot in the vein occurred just below the Pioche Shale within about 400 feet of the Yuba Dike. The complex sulfide ore was of no value until selective flotation was invented. The ore bed was mined for more than 10,000 feet along an east west channel 100 to 1800 feet wide. Ore body terminates against the frontal fault. The hanging wall was unsuccessfully explored to a depth of 2500 feet.
Most gold came from the Combined Metals Mine.
On Treasure Hill, the workings explore a series of faults and shears and the north end of the Yuba dike, a principal contributor to the mineralization of the area. Much of the fault breccia shows milling texture with jarosite and iron-manganese oxides coating most exposed surfaces. The quartzite ranges from white to grey-rose colored with prominent banding. Pods of very fine-grained argentiferous minerals along with galena and other sulfides are disseminated throughout the breccia. Yellow oxides are also common on exposed surfaces. Abundant sericite is present. Locally the breccia zones are silicified and abundant gossan occurs where ore minerals have weathered out. Late opaline silica is deposited on fracture surfaces and iron sulfides have altered to specular hematite. Euhedral quartz crystals line cavities. Quartz vein material which fills fault fissures exhibits brecciation and is recemented with silica, and contains bands of finely disseminated grey sulfides.
The Raymond and Ely, Meadow Valley, and Burke veins strike roughly east-west and dip 50 degrees south. Oxidized silver ore in the quartzite decreased in grade eastward and downward. The Meadow Valley vein was mined continuously for 2000 feet to a depth of 1,200 feet. Average ore thickness was 2-3 feet. Galena and sphalerite are increasingly abundant in the lower levels. Rich silver-lead ore was mined from the Yuba Dike. Three or more cross veins strike northeast at 45 degrees to the principal veins. The "quartzite fissures" are veins with filling of loose rubble of angular quartzite fragments to breccia cemented by lead carbonate, limonite, and jarosite. The quartzite fissures strie N15-20W.

Reporter information

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.

Beyond USGS

Supplemental information added by qvyshift.com. Not part of the original USGS MRDS record.

External references

Authoritative Nevada resources

These are landing pages for further research — the state agencies don't currently expose per-mine deep links.