| Locality type: | Mine |
| Classification |
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| Species: | Pyrolusite |
| Formula: | Mn4+O2 |
| Confirmation |
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| Validity: | Believed Valid |
| Data |
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| Mineral Data: | Click here to view Pyrolusite data |
| Locality Data: | Click here to view Summer Camp pit, Getchell Mine, Adam Peak, Potosi Mining District, Osgood Mountains, Humboldt County, Nevada, USA |
| Data Identifiers |
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| Mindat Occurrence Record ID: | 1335724 |
| Long-form Identifier: | 1:3:1335724:5 |
| GUID (UUID V4): | d9cf2f58-df39-4624-87c8-0c2a7104774d |
| Nearest other occurrences of Pyrolusite |
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| 6.7km (4.2 miles) | ⓘDry Hills Manganese Prospect, Potosi Mining District, Osgood Mountains, Humboldt County, Nevada, USA |
| 32.2km (20.0 miles) | ⓘGolconda Mine, Golconda Mining District, Humboldt County, Nevada, USA |
| 33.8km (21.0 miles) | ⓘManganese Occurrence (MRDS10043963), Iron Point Mining District, Humboldt County, Nevada, USA |
| 46.9km (29.1 miles) | ⓘHansen & Knudsen Claims, Gold Run Mining District, Humboldt County, Nevada, USA |
| 51.9km (32.3 miles) | ⓘTom Major Property, Gold Run Mining District, Humboldt County, Nevada, USA |
| 61.8km (38.4 miles) | ⓘO'Leary Prospect, Black Diablo Mining District, Humboldt County, Nevada, USA |
| 62.1km (38.6 miles) | ⓘBlack Diamond claim, Black Diablo Mining District, Humboldt County, Nevada, USA |
| 62.9km (39.1 miles) | ⓘBlack Diablo Mine, Black Diablo Mining District, Pershing County, Nevada, USA |
| 65.4km (40.6 miles) | ⓘUnnamed Manganese occurrence (MRDS10044069), Battle Mountain Mining District, Lander County, Nevada, USA |
| 66.9km (41.6 miles) | ⓘBlack Rock mine, Buffalo Valley Mining District, Lander County, Nevada, USA |
| References |
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| Reference Search (possible matching items) |
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 | | Journal (article/letter/editorial) | | Control of pit-lake water chemistry by secondary minerals, Summer Camp pit, Getchell mine, Nevada R.J. Bowella...Reno, Nevada NV89502, USA Accepted 1 June 2004 Abstract At the Summer Camp pit of the Getchell mine in...in northern Nevada, the sulfate mineralogy is complex and includes gypsum, jarosite, pickeringite–halotrichite...hydrogen ions to the lake. During the early stages of pit-lake refilling (1991–1993), this mechanism had an...an important control on water quality in the pit, although over time the effect has lessened as groundwater |  | | Journal (article/letter/editorial) | | products of trace-metal precipitation in neutralized pit-lake waters without ferric and aluminous adsorbent:...dissolved trace metals during neutralization of acid mine drainage has usually been described and modelled...neutralization experiments with waters from two acidic pit lakes. The objectives of our study were to identify...and the significance of these minerals for future pit-lake remediation initiatives are discussed. K EY...low-crystallinity products, geochemical modelling, pit-lake waters, trace-metal precipitation. Introduction |
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