| Deposit ID | 10310352 |
|---|---|
| MRDS ID | W700600 |
| Record type | Site |
| Current site name | Paradise Peak Mine |
| Alternate or previous names | Granny Goose, Paradise, FMC Deposit, NBMG Sample Sites 1472, 1473, Goose Claims, Gabbs Mine, Nody Prospect, Finger Rock Prospect, County Line, Ketchup Flat, Paradise Peak/Sullivan Mine |
| Related records | 10037787 |
| Geographic coordinates: | -117.97066, 38.74936 (WGS84) |
|---|---|
| Elevation | 1670 |
| Relative position | The mine is located about 8 miles SSW of Gabbs. |
Political divisions (FIPS codes)
Nye(county)
Nevada(state)
United States(country)
North America(continent)
Land(continent)
USGS map quadrangles
Granny Goose Well(quadrangle 1:24,000 scale)
Ione Valley(quadrangle 1:100,000 scale)
Tonopah(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 | Nye |
| Meridian | Township | Range | Section | Fraction | State |
|---|---|---|---|---|---|
| Mount Diablo | 010N | 036E | 03 04 06 10 | Nevada |
| Commodity | Importance |
|---|---|
| Gold | Primary |
| Silver | Primary |
| Mercury | Secondary |
| Barium-Barite Critical | Tertiary |
| Bismuth Critical | Tertiary |
| Lead | Tertiary |
| Antimony Critical | Tertiary |
| Titanium Critical | Tertiary |
| Tin Critical | Tertiary |
| Molybdenum | Tertiary |
| Thallium | Tertiary |
| Iron | Tertiary |
| Materials | Type of material |
|---|---|
| Gold | Ore |
| Pyrite | Ore |
| Cerargyrite | Ore |
| Silver | Ore |
| Acanthite | Ore |
| Cinnabar | Ore |
| Embolite | Ore |
| Iodyrite | Ore |
| Pyrite | Ore |
| Alunite | Ore |
| Chalcedony | Ore |
| Opal | Ore |
| Leucoxene | Ore |
| Illite | Ore |
| Kaolinite | Ore |
| Limonite | Ore |
| Orpiment | Ore |
| Realgar | Ore |
| Barite | Ore |
| Stibnite | Ore |
| Jarosite | Ore |
| Chalcopyrite | Ore |
| Galena | Ore |
| Sphalerite | Ore |
| Tetrahedrite | Ore |
| Pyrrhotite | Ore |
| Marcasite | Ore |
| Plumbojarosite | Ore |
| Hematite | Ore |
| Sulfur | Ore |
| Metacinnabar | Ore |
| Corderoite | Ore |
| Montroydite | Ore |
| Calomel | Ore |
| Quartz | Gangue |
| Model code | 154 |
|---|---|
| USGS model code | 25e |
| Deposit model name | Epithermal quartz-alunite Au |
| Mark3 model number | 38 |
| Host or associated | Host | ||||
|---|---|---|---|---|---|
| Rock type | Volcanic Rock (Aphanitic) > Pyroclastic Rock > Tuff > Welded Tuff | ||||
| Rock type qualifier | rhyolitic pyroclastic | ||||
| Rock unit name | "the composite tuff" | ||||
| |||||
| Host or associated | Host | ||||
|---|---|---|---|---|---|
| Rock type | Volcanic Rock (Aphanitic) > Pyroclastic Rock > Volcanic Breccia (Agglomerate) | ||||
| Rock type qualifier | black matrix hydrothermal breccias | ||||
| |||||
| Host or associated | Host | ||||
|---|---|---|---|---|---|
| Rock type | Volcanic Rock (Aphanitic) > Felsic Volcanic Rock > Rhyolite | ||||
| Rock type qualifier | intrusive | ||||
| |||||
| Host or associated | Host | ||
|---|---|---|---|
| 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 | Volcanic Rock (Aphanitic) > Pyroclastic Rock > Volcanic Breccia (Agglomerate) | ||
| Rock type qualifier | rhyolitic pyroclastic tuff | ||
| |||
| Host or associated | Associated | ||
|---|---|---|---|
| Rock type | Volcanic Rock (Aphanitic) > Intermediate Volcanic Rock > Andesite | ||
| Rock type qualifier | unaltered flow | ||
| |||
| (1) | -117.97066, 38.74936 |
|---|
| Type of structure | Regional |
|---|---|
| Structure description | Walker Lane structiral zone |
| Type of structure | Local |
| Structure description | Three major orientations of faults are exposed in the Paradise Peak Mine: 1) NW to WNW, 2) N to NNE, 3) E-W. All faults may have been active during the hydrothermal system and acted as conduits for hydrothermal fluids. Many of the NNE-trending faults appear to have post-mineralization movement. In addition, "ring faults" down-drop the central ore zone. Hydrothermal breccias are abundant in all levels of the deposit mined to date and are a major influence on ore grades. Three major types are recognized: 1) early white silica matrix breccias primarily developed in quartz-feldspar porphyry, 2) heterolithic black matrix breccia primarily developed in the ore-hosting tuff, and 3) heterolithic opal-jarosite matrix breccias. Types 1 and 3 are generally barren; black matrix breccias (type 2) formed during a major period of au mineralization and commonly constitute high grade gold-silver ore. Matrix of black matrix breccias is composed of fine-grained sugary quartz (<0.05 mm), anatase, and locally, fine-grained sulfide minerals (mostly pyrite or marcasite); vugs are common and are filled by coarser-grained quartz, barite, sulfides, and occasionally visible gold. The deposit is overlain by a black matrix hydrothermal breccia that was the discovery outcrop. |
| General form | disseminated; stratiform |
|---|
| Operation type | Surface-Underground |
|---|---|
| Development status | Past Producer |
| Commodity type | Both |
| Deposit size | Medium |
| Significant | Yes |
| Discovery year | 1934 |
| Discoverer | Mr. and Mrs. William Arnell |
| Year of first production | 1986 |
| Year of last production | 1994 |
| Production years | AU: 1986 - 1994 |
| District name | Fairplay District |
|---|
| Ownership category | BLM Administrative Area |
|---|---|
| Area name | Battle Mountain Administrative District |
| Type | Owner-Operator |
|---|---|
| Owner | Arimetco International, Inc. |
| Year | 1997 |
Bonham, H.F., Jr., 11 Sep 84, NBMG Field Examination Report and Sample Analysis
Thomason, Robert, E., F.M.C., 1986, G.S.N. Lecture On Paradise Peak Gold Deposit.
Reno Gazette-Journal, Oct 1985, "Big Gold, Silver Deposit Discovered Near Gabbs.
NBMG Mining District File 227, many press clippings, 1984-1986, Items 19, 20
NBMG MI-1985, 1986, 1989.
Rocky Mountain Pay Dirt, April 1988, p. 124
Thomason, R. E., 1986, Geology of the Paradise Peak Gold/Silver Deposit in Tingley , J.V. and Bonham, H. F., Precious Metal Mineralization in Hot-Springs Systems, Nevada-California, NBMG Report 41, P. 90-92
Thomason, R.E., 1987, Geology of the Paradise Peak Gold/Silver Deposit in Johnson, J.L. Ed, Guidebook for Field Trips: Geological Society of Nevada Symposium, Bulk Mineable Precious Deposits of the Western U.S., Reno, p. 250-253
John, D. A., Nash, J.T., Clark, C.W.,Wulftange,W.H., 1990, Geology of the Paradise Peak Deposit, in Buffa, R. Ed, Guidebook For Field Trips: Geological Society Of Nevada Symposium, Bulk Mineable Precious Deposits of the Western U.S., Fieldtrip 11, Reno
Bonham, H.F. and Hess, R.H., 1990, Bulk-Mineable Precious Metal Deposits in Nevada, NBMG MI-89
FMC Gold, Annual Reports, 1987,88,89
Nevada Mineral Reserves and Resources Data Base, Nevada Bureau Of Mines And Geology Db7
John, D., Nash, J., Clark, C., and Wulftange, W., 1991, Geology, Hydrothermal Alteration, and Mineralization at the Paradise Peak Gold-Silver-Mercury Deposit, Nye County, Nevada, in Raines, G.L., et al, eds., Geology and Ore Deposits of the Great Basin, The Geological Society of Nevada, Reno, p. 1020-1050.
Dobak, P., 1988, Alteration and Paragenesis of the Paradise Peak Gold/Silver Deposit, unpublished M.S. Thesis, Colorado State University, 141 p.
Skillings, D., 1986, FM's Paradise Peak Gold/Silver Mine Officially Dedicated June 28, Skillings' Mining Review, August 9, p. 4-7.
NBMG, 1991, The Nevada Mineral Industry - 1990, NBMG Special Publication MI-1990.
Read, Mike, 1993, Oral Communication on Status of Paradise Peak Operations From FMC Gold's Paradise Peak Mine, 4 August, 1993
Mining Magazine, January 1989, p44
NBMG, 1994, MI-1993
Nevada Division of Minerals, 1994
Meridian Gold's website, 2004: http://www.meridiangold.com/operations_past.cfm#paradise
| Subject category | Comment text |
|---|---|
| Deposit | Studies to date suggest at least 3 stages of hypogene gold deposition formed an ore zone that is elliptical, about 200 by 450 m in plan and elongated in a NW direction. Some host rock is brecciated with quartz-sulfide matrix. Breccia exhibits hydrothermal replacement texture. Bottom of ore zone is not yet defined, but it dips 15 SE, and thins out on the SE edge, to 15-20 ft thick. Mineralization is bounded on the west side by a fault that was active before mineralization event, acting as a dam to mineralizing fluids. Faults offset ore zone on north and east sides. Curvilinear faults encircle ore zone and drop the center down. Ore zone is nearly stratiform confined largely to the felsic volcanics although there is some gold-silver mineralization in the underlying dacites. Gold-silver mineralization is mainly confined to the silicified rhyolitic tuffs. Ore zone is about 100 ft thick. Ore zone boundaries are sharp. |
| Type | Date | Name | Affiliation | Comment |
|---|---|---|---|---|
| Reporter | 01-AUG-86 | LaPointe, D.D. (Tingley, J.V.) | Nevada Bureau of Mines and Geology | |
| Updater | 01-NOV-88 | La Pointe, D.D. | Nevada Bureau of Mines and Geology | |
| Updater | 01-AUG-89 | Beougher, Dee (Spanski, Gregory T.) | U.S. Geological Survey | |
| Updater | 01-AUG-90 | Marcus, Sue | U.S. Geological Survey | |
| Updater | 01-AUG-86 | Phinisey, J. (Marcus, S.) | U.S. Geological Survey | |
| Updater | 01-APR-92 | Marcus, Susan | U.S. Geological Survey | |
| Updater | 01-AUG-93 | Li, Zhiping ( Moyer, L.) | U.S. Geological Survey | |
| Updater | 01-JUN-04 | La Pointe, D.D. | Nevada Bureau of Mines and Geology | |
| Editor | 01-SEP-07 | 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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