Locality type: | Deposit |
Classification |
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Species: | Phlogopite |
Formula: | KMg3(AlSi3O10)(OH)2 |
Confirmation |
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Validity: | Believed Valid |
Data |
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Mineral Data: | Click here to view Phlogopite data |
Locality Data: | Click here to view Rožná deposit, Rožná, Žďár nad Sázavou District, Vysočina Region, Czech Republic |
Data Identifiers |
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Mindat Occurrence Record ID: | 521558 |
Long-form Identifier: | 1:3:521558:4 |
GUID (UUID V4): | 61907774-887f-46d4-8803-7ce58f58a42e |
Localities for Phlogopite in this Region |
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Rožná I Mine, Rožná deposit, Rožná, Žďár nad Sázavou District, Vysočina Region, Czech Republic |
Nearest other occurrences of Phlogopite |
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0.1km (0.1 miles) | ⓘRožná I Mine, Rožná deposit, Rožná, Žďár nad Sázavou District, Vysočina Region, Czech Republic |
5.4km (3.4 miles) | ⓘVěžná I pegmatite, Věžná, Žďár nad Sázavou District, Vysočina Region, Czech Republic |
8.3km (5.1 miles) | ⓘMarble quarries, Pernštejn (Pernstein), Nedvědice, Brno-Country District, South Moravian Region, Czech Republic |
14.1km (8.8 miles) | ⓘProsetín Quarry, Prosetín, Žďár nad Sázavou District, Vysočina Region, Czech Republic |
16.4km (10.2 miles) | ⓘStudnice, Nové Město na Moravě, Žďár nad Sázavou District, Vysočina Region, Czech Republic |
17.7km (11.0 miles) | ⓘMarble quarry, Trhonice, Jimramov, Žďár nad Sázavou District, Vysočina Region, Czech Republic |
37.5km (23.3 miles) | ⓘMarble quarry, Kuroslepy, Třebíč District, Vysočina Region, Czech Republic |
38.6km (24.0 miles) | ⓘMarble quarry, Padochov, Oslavany, Brno-Country District, South Moravian Region, Czech Republic |
40.5km (25.2 miles) | ⓘBorovina, Třebíč, Třebíč District, Vysočina Region, Czech Republic |
46.7km (29.0 miles) | ⓘŠtěpánovice, Výčapy, Třebíč District, Vysočina Region, Czech Republic |
References |
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Doležalová, H., Houzar, S., Škoda, R.: Minerální asociace forsteritových mramorů s Ba-flogopitem a klinoshitalitem na uranovém ložisku Rožná, moldanubikum, západní Morava. Acta Musei Moraviae, Scientiae geologicae, 2005, roč. 90, s. 75 - 88. Doležalová, H., Houzar, S., Losos, Z., & ŠKoda, R. (2006). Kinoshitalite with a high magnesium content in sulphide-rich marbles from the Rožná uranium deposit, Western Moravia, Czech Republic. Neues Jahrbuch für Mineralogie-Abhandlungen: Journal of Mineralogy and Geochemistry, 182(2), 165-171. |
Reference Search (possible matching items) |
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| Hazen, R. M., Golden, J., Downs, R. T., Hystad, G., Grew, E. S., Azzolini, D., Sverjensky, D. A. (2012) Mercury (Hg) mineral evolution: A mineralogical record of supercontinent assembly, changing ocean geochemistry, and the emerging terrestrial biosphere. American Mineralogist, 97 (7) 1013-1042 doi:10.2138/am.2012.3922 | Journal (article/letter/editorial) | (Rytuba 2005). The world’s largest Hg deposit, the Almadén district of central Spain, is representative...reworking of the mercury-hosting rocks of the Almadén district (primary mineralization 427–380 Ma) led to at...associated with one larger contemporaneous mineralized region. Most notably, mindat.org records more than 300...west-central California. This important mining district, including the New Almadén mine in Santa Clara... and at Serra Pelada (Serra Leste) Au-(Pd-Pt) deposit, Pará, Brazil (Bindi 2010). However, we have not | | | Book (edition) | gangue mineral may be considered as waste in one deposit and as ore mineral in another (e.g., hedenbergite)...particular sample derives from the stockwork of such a deposit, it will normally contain amorphous silica/opal...in modern hydrothermal equivalents (e.g., JADE deposit, Okinawa Trough, Japan). Thus, metasomatic/metamorphic...mineral inventory available elsewhere. Further deposit descriptions originated from: binn.strahlen.org...chalcopyrite (yellow) from a fossil Kuroko-type deposit, as seen on the left; colloform amorphous silica |
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