Journal of

GEOsciences

  (Formerly Journal of the Czech Geological Society)

Original paper

Martin Števko, Pavel Uher, Jiří Sejkora, Malíková Radana, Radek Škoda, Tomáš Vaculovič

Phosphate minerals from the hydrothermal quartz veins in specialized S-type granites, Gemerská Poloma (Western Carpathians, Slovakia)

Journal of Geosciences, volume 60 (2015), issue 4, 237 - 249

DOI: http://dx.doi.org/10.3190/jgeosci.202


  Abstract References Map Affiliations

Baijot M, Hatert F, Philippo S (2012) Mineralogy and geochemistry of phosphates and silicates in the Sapucaia pegmatite, Minas Gerais, Brazil: genetic implications. Canad Mineral 50: 1531-1554
http://doi.org/10.3749/canmin.50.6.1531

Bajaník Š, Ivanička J, Mello J, Pristaš J, Reichwalder P, Snopko L, Vozár J, Vozárová A (1984) Geological map of the Slovenské Rudohorie Mts. - eastern part 1: 50 000. Dionýz Štúr Institute of Geology, Bratislava

Breiter K, Frýda J, Seltmann R, Thomas R (1997) Mineralogical evidence for two magmatic stages in the evolution of an extremely fractionated P-rich rare-metal granite: the Podlesí stock, Krušné Hory, Czech Republic. J Petrol 38: 1723-1739
http://doi.org/10.1093/petroj/38.12.1723

Breiter K, Müller A, Leichmann J, Gabašová A (2005) Textural and chemical evolution of a fractionated granitic system: the Podlesí stock, Czech Republic. Lithos 80: 323-345
http://doi.org/10.1016/j.lithos.2003.11.004

Breiter K, Broska I, Uher P (2015) Intensive low-temperature tectono-hydrothermal overprint of peraluminous rare-metal granite: a case study from the Dlhá dolina Valley (Gemericum, Slovakia). Geol Carpath 66: 19-36
http://doi.org/10.1515/geoca-2015-0008

Broska I, Williams CT, Uher P, Konečný P, Leichmann J (2004) The geochemistry of phosphorus in different granite suites of the Western Carpathians, Slovakia: the role of apatite and P-bearing feldspar. Chem Geol 205: 1-15
http://doi.org/10.1016/j.chemgeo.2003.09.004

Cámara F, Oberti R, Chopin C, Medenbach O (2006) The arrojadite enigma: I. A new formula and a new model for the arrojadite structure. Amer Miner 91: 1249-1259
http://doi.org/10.2138/am.2006.2189

Chopin C, Oberti R, Cámara F (2006) The arrojadite enigma: II. Compositional space, new members, and nomenclature of the group. Amer Miner 91: 1260-1270
http://doi.org/10.2138/am.2006.2190

Della Ventura G, Bellatreccia F, Radica F, Chopin C, Oberti R (2014) The arrojadite enigma III. The incorporation of volatiles: a polarised FTIR spectroscopy study. Eur J Mineral 26: 679-688
http://doi.org/10.1127/0935-1221/2014/0026-2397

Dianiška I, Breiter K, Broska I, Kubiš M, Malachovský P (2002) First phosphorous-rich Nb-Ta-Sn-specialised granite from the Carpathians - Dlhá dolina Valley granite pluton, Gemeric Superunit. Geol Carpath 53: Special Issue (CD-ROM).

Dianiška I, Uher P, Hurai V, Huraiová M, Frank W, Konečný P, Kráľ J (2007) Mineralization of rare-metal granites. In: Hurai V (ed) Sources of Fluids and Origin of Mineralizations in the Gemeric Unit. Open file report, Dionýz Štúr Institute of Geology, Bratislava, pp 254-330 (in Slovak)

Downs RT (2006) The RRUFF Project: an integrated study of the chemistry, crystallography, Raman and infrared spectroscopy of minerals. Program and Abstracts of the 19th General Meeting of the International Mineralogical Association in Kobe, Japan, O03-13

Frýda J, Breiter K (1995) Alkali feldspars as a main phosphorus reservoirs in rare-metal granites: three examples from the Bohemian Massif (Czech Republic). Terra Nova 7: 315-320
http://doi.org/10.1111/j.1365-3121.1995.tb00800.x

Gaab AS, Todt W, Poller U (2006) CLEO: Common lead evaluation using Octave. Comput Geosci 32: 993-1003
http://doi.org/10.1016/j.cageo.2005.10.014

Gonevchuk VG, Korostelev PG, Semenyak BI (2005) Genesis of the Tigrinoe tin deposit (Russia). Geol Ore Deposits 47: 223-237

Isaacs AM, Peacor DR (1981) Panasqueiraite, a new mineral: The OH-equivalent of isokite. Canad Mineral 19: 389-392

Kilík J (1997) Geological characteristic of the talc deposit in Gemerská Poloma-Dlhá dolina. Acta Montan Slovaca 2: 71-80 (in Slovak)

Kohút M, Stein H (2005) Re-Os molybdenite dating of granite-related Sn-W-Mo mineralisation at Hnilec, Gemeric Superunit, Slovakia. Miner Petrol 85: 117-129
http://doi.org/10.1007/s00710-005-0082-8

Kubiš M, Broska I (2005) The role of boron and fluorine in evolved granitic rock systems (on the example of the Hnilec area, Western Carpathians). Geol Carpath 56: 193-204

Kubiš M, Broska I (2010) The granite system near Betliar village (Gemeric Superunit, Western Carpathians): evolution of a composite silicic reservoir. J Geosci 55: 131-148

Lahti SI (1981) On the granitic pegmatites of the Eräjärvi area in Orivesi, southern Finland. Geol Surv Finland Bull 314: 1-82

Laugier J, Bochu B (2011) LMGP-Suite of Programs for the Interpretation of X-ray Experiments. Accessed on December 2, 2015, at http://www.ccp14.ac.uk/tutorial/lmgp

Lazic B, Armbruster T, Chopin C, Grew ES, Baronnet A, Palatinus L (2014) Superspace description of wagnerite-group minerals (Mg,Fe,Mn)2(PO4)(F,OH). Acta Cryst B70: 243-258
http://doi.org/10.1107/S2052520613031247

Llorens T, Moro MC (2012) Fe-Mn phosphate associations as indicators of the magmatic-hydrothermal and supergene evolution of the Jálama Batholith in the Navasfrías Sn-W District, Salamanca, Spain. Mineral Mag 76: 1-24
http://doi.org/10.1180/minmag.2012.076.1.1

London D (1992) Phosphorus in S-type magmas: the P2O5 content of feldspars from peraluminous granites, pegmatites and rhyolites. Amer Miner 77: 126-145

London D (1997) Estimating abundances of volatile and other mobile components in evolved silicic melts through mineral-melt equilibria. J Petrol 38: 1691-1706
http://doi.org/10.1093/petroj/38.12.1691

Milá CC, Fabre J (2014) The Panasqueira mines, Castelo Branco district, Portugal. Mineral Rec 45: 11-55

Petrasová K, Faryad SW, Jeřábek P, Žáčková E (2007) Origin and metamorphic evolution of magnesite-talc and adjacent rocks near Gemerská Poloma, Slovak Republic. J Geosci 52: 125-132

Petrík I, Kohút M (1997) The evolution of granitoid magmatism during the Hercynian orogen in the Western Carpathians. In: Grecula P, Hovorka D, Putiš M (eds) Geological Evolution of the Western Carpathians. Miner Slov, Monogr, 235-252

Petrík I, Kubiš M, Konečný P, Broska I, Malachovský P (2011) Rare phosphates from the Surovec topaz-Li mica microgranite, Gemeric Unit, Western Carpathians, Slovak Republic: Role of F/H2O of the melt. Canad Mineral 49: 521-540
http://doi.org/10.3749/canmin.49.2.521

Petrík I, Čík Š, Miglierini M, Vaculovič T, Dianiška I, Ozdín D (2014) Alpine oxidation of lithium micas in Permian S-type granites (Gemeric unit, Western Carpathians, Slovakia). Mineral Mag 78: 507-533
http://doi.org/10.1180/minmag.2014.078.3.03

Piccoli PM, Candela PA (2002) Apatite in igneous systems. In: Kohn MJ, Rakovan J, Hughes JM (eds) Phosphates: Geochemical, Geobiological, and Materials Importance. Mineralogical Society of America, Reviews in Mineralogy & Geochemistry 48, Washington, pp 256-292

Pouchou JL, Pichoir F (1985) “PAP” (φρZ) procedure for improved quantitative microanalysis. In: Armstrong JT (ed) Microbeam Analysis. San Francisco Press, pp 104-106

Poller U, Uher P, Broska I, Plašienka D, Janák M (2002) First Permian-Early Triassic zircon ages for tin-bearing granites from the Gemeric Unit (Western Carpathians, Slovakia): connection to the post-collisional extension of the Variscan orogen and S-type granite magmatism. Terra Nova 14: 41-48
http://doi.org/10.1046/j.1365-3121.2002.00385.x

Ramik RA, Sturman BD, Roberts AC, Dunn PJ (1983) Viitaniemiite from the Francon quarry, Montreal, Quebec. Can Mineral 21: 499-502

Roda-Robles E, Pesquera A, Gil-Crespo P, Torres-Ruiz J (2012) The Puentemocha beryl-phosphate granitic pegmatite, Salamanca, Spain: internal structure, petrography and mineralogy. Canad Mineral 50: 1573-1597
http://doi.org/10.3749/canmin.50.6.1573

Sejkora J, Škoda R, Ondruš P, Beran P, Süsser C (2006) Mineralogy of phosphate accumulations in the Huber stock, Krásno ore district, Slavkovský les area, Czech Republic. J Czech Geol Soc 51: 103-147

Uher P, Broska I (1996) Post-orogenic Permian granitic rocks in the Western Carpathian-Pannonian area: geochemistry, mineralogy and evolution. Geol Carpath 47: 311-321

Waldrop L (1969) The crystal structure of triplite, (Mn,Fe)2FPO4. Z Kristallogr 130: 1-14
http://doi.org/10.1524/zkri.1969.130.1-6.1

Webster JD, Thomas R, Veksler I, Rhede D, Seltmann R, Förster H-J (1998) Late-stage processes in P- or F-rich granitic magmas. Acta Univ Carol, Geol 42: 181-188

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