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Received: 16 October 2013
Accepted: 25 November 2014
Online: 15 January 2015
H. Editor: M. Novák
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Original Paper

Adam Włodek, Anna Grochowina, Bożena Gołębiowska, Adam Pieczka

A phosphate-bearing pegmatite from Lutomia and its relationships to other pegmatites of the Góry Sowie Block, southwestern Poland

Journal of Geosciences, volume 60 (2015), issue 1, 45 - 72


Aftalion M, Bowes DR (2002) U-Pb zircon isotopic evidence for Mid-Devonian migmatite formation in the Góry Sowie domain of the Bohemian Massif, Sudeten Mountains, SW Poland. Neu Jb Mineral, Mh 4: 182-192

Bea F, Fershater G, Corretgé LG (1992) The geochemistry of phosphorus in granite rocks and the effect of aluminium. Lithos 29: 43-56

Bröcker M, Żelaźniewicz A, Enders M (1998) Rb-Sr and U-Pb geochronology of migmatitic gneisses from the Góry Sowie (West Sudetes, Poland): the importance of Mid-Late Devonian metamorphism. J Geol 155: 1025-1036

Brueckner HK, Blusztajn J, Bakun-Czubarow N (1996) Trace element and Sm-Nd “age” zoning in garnets from peridotites of the Caledonian and Variscan mountains and tectonic implications. J Metamorph Geol 14: 61-73

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

Čech F, Paděra K, Povondra P (1962) The sarcopside problem. Acta Univ Carol, Geol 3: 145-157

Černý P, Ercit TS (2005) The classification of granitic pegmatites revisited. Canad Mineral 43: 2005-2026

Černý P, Selway JB, Ercit TS, Anderson AJ, Anderson SD (1998) Graftonite-beusite in granitic pegmatites of the Superior Province: a study in contrast. Canad Mineral 36: 367-376

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

Ercit TS (2005) Identification and alteration trends of granitic-pegmatite-hosted (Y,REE,U,Th)-(Nb,Ta,Ti) oxide minerals: a statistical approach. Canad Mineral 43: 1291-1303

Fiedler H (1863) Die Mineralien Schlesiens mit Berücksichtigung der angrenzenden Länder. F. E. C. Leuckart, Breslau, pp 1-100

Fransolet AM (2007) Phosphate associations in the granitic pegmatites: the relevant significance of these accessory minerals. In: Martins T, Vieira R (eds) Granitic Pegmatites: the State of Art - International Symposium, 6-12th May, Porto, Portugal. Universidade do Porto, Departemento de Geologia, Memorias 8: 102-103

Gadas P, Novák M, Stanĕk J, Filip J, Vašinová Galiová M (2012) Compositional evolution of zoned tourmaline crystals from pockets in common pegmatites of the Moldanubian Zone, Czech Republic. Canad Mineral 50: 895-912

Gordon SM, Schneider DA, Manecki M, Holm DK (2005) Exhumation and metamorphism of an ultrahigh-grade terrane: geochronometric investigations of the Sudetes Mountains (Bohemia), Poland and Czech Republic. J Geol Soc, London 162: 841-855

Grocholski W (1967) Structure of the Sowie Mts. Geol Sudetica 3: 181-249 (in Polish, English summary)

Guastoni A, nestola F, Mazzoleni G, Vignola P (2007) Mn-rich graftonite, ferrisicklerite, stanĕkite and Mn-rich vivianite in a granitic pegmatite at Soè Valley, central Alps, Italy. Mineral Mag 71: 579-585

Gunia P (1997) Petrology of ultrabasic rocks from the Góry Sowie Block. Prace Geol Miner 65: 1-78 (in Polish, English summary)

Gunia T (1985) Geological position of the Sowie Góry Block and its influence on the paleogeography of the Paleozoic of Central Sudetes. Geol Sudetica 20: 83-119 (in Polish, English summary)

Hatert F, Fransolet AM, Maresh W (2006) The stability of primary alluaudites in granitic pegmatites: an experimental investigation of the Na2(Mn2-2xFe1+2x)(PO4)3 system. Contrib Mineral Petrol 152: 399-419

Huvelin P, Orliac M, Permingeat F (1972) Ferri-alluaudite calcifére de Sidi-bou-Othmane (Jebilet, Maroc). Notes Serv Géol Maroc 32-241: 35-49

Ilnicki S, Nejbert K, Pieczka A, Szełęg E, Turniak K, Szuszkiewicz A, Łodziński M, Banach M, Michałowski P, Różniak R (2010) Eclogites from the Piława Górna quarry (Dolnośląskie Surowce Skalne S.A.), Góry Sowie Block, SW Poland: a preliminary report. Miner Spec Papers 37: 81

Ilnicki S, Nejbert K, Pieczka A, Szełęg E, Turniak K, Szuszkiewicz A, Łodziński M, Banach M, Michałowski P, Różniak R (2011) Metamorphic record of retrogressed eclogites from the Piława Górna (Sowie Góry Block, SW Poland). Miner Spec Papers 38: 103-104

Ilnicki S, Nejbert K, Pieczka A, Szełęg E, Turniak K, Szuszkiewicz A (2012) Geochemical and petrological features of eclogites from Piława Górna (Góry Sowie Block, SW Poland). Miner Spec Papers 40: 78-79

Keller F, Fontan F, Velasco-Roland F, Melgarejo i, Draper JC (1997) Stanĕkite Fe3+(Mn,Fe2+,Mg)(PO4)O: a new phosphate mineral in pegmatites at Karibib (Namibia) and French Pyrénées (France). Eur J Mineral 9: 475-482

Kröner A, Hegner E (1998) Geochemistry, single zircon ages and Sm-Nd systematics of granitoid rocks from the Góry Sowie (Owl Mts.), Polish West Sudetes: evidence for early Palaeozoic arc-related plutonism. J Geol Soc, London 155: 711-724

Kryza R (1981) Migmatization in gneisses of the northern part of the Sowie Góry, Sudetes. Geol Sudetica 16: 7-91 (in Polish, English summary)

Kryza R, Fanning CM (2007) Devonian deep-crustal metamorphism and exhumation in the Variscan Orogen: evidence from SHRIMP zircon ages from the HT-HP granulites and migmatites of the Góry Sowie (Polish Sudetes). Geodin Acta 20: 159-176

London D (1992) The application of experimental petrology to the genesis and crystallization of granitic pegmatites. Canad Mineral 30: 499-540

Łodziński M (2007) Mineralogical study of beryls from Polish and Czech Sudetes. Prace Mineral, PAN Kraków 93: 5-179 (in Polish, English summary)

Łodziński M, Sitarz (2009) Chemical and spectroscopic characterization of some phosphate accessory minerals from pegmatites of the Sowie Góry Mts, SW Poland. J Mol Struct 924-926: 442-447

Majerowicz A, Pin C (1986) Preliminary trace element evidence for an oceanic depleted mantle origin of the Ślęża ophiolitic complex, SW Poland. Mineral Pol 17: 12-22.

Martin RF, De Vito C (2005) The patterns of enrichment in felsic pegmatites ultimately deepend on tectonic setting. Canad Mineral 43: 2027-2048

Masau M, StanĕK J, Černý P, Chapman R (2000) Metasomatic wolfeite and associated phosphates from the Otov I granitic pegmatite, western Bohemia. J Czech Geol Soc 45: 159-173

Mason B (1941) Minerals of the Varaträsk pegmatite. XXIII. Some iron-manganese phosphate minerals and their alteration products, with special reference to material from Varaträsk. Geol Fören Förh 63: 117-175

Moore PB (1971) Crystal chemistry of the alluaudite structure type: contribution to the paragenesis of pegmatite phosphate giant crystals. Amer Miner 54: 1955-1975

Moore PB (1974) Complete mixed valence solid solution series in Fe2+3(H2O)3(PO4)2 (phosphoferrite) Fe3+3(OH)3(PO4)2 (kryzhanovskite). Nature 251: 305-306

Moore PB, Araki T (1976) Mixed-valence solid-solution series. Crystal structures of phosphoferrite, Fe2+3(H2O)3[PO4]2, and kryzhanovskite, Fe3+3(OH)3[PO4]2. Inorg Chem 15: 316-321

Moore PB, Ito J (1979) Alluaudites, wyllieites, arrojadites: crystal chemistry and nomenclature. Mineral Mag 43: 227-235

Moore PB, Araki T, Kampf A R (1980) Nomenclature of the phosphoferrite structure type: refinements of landesite and kryzhanovskite. Mineral Mag 43: 789-795

Morawski T (1973) The Sowie Góry area and its petrological problems. In: Smulikowski K (ed) Revue des Problèms Géologiques des Zones Profondes de l’Ecorce Terrestre en Basse Silesie. Wydawnictwa Geologiczne, Warszawa, pp 44-58

Novák M (2005) Granitic pegmatites of the Bohemian Massif (Czech Republic); mineralogical, geochemical and regional classification and geological significance Acta Mus Moraviae, Sci Geol 90: 3-75 (in Czech, English summary)

O’Brien PJ, Kröner A, Jaeckel P, Hegner E, Żelaźniewicz A, Kryza R (1997) Petrological and isotope studies on Palaeozoic high-pressure granulites. Góry Sowie Mts, Polish Sudetes. J Petrol 38: 433-456

Pieczka A (2007) Beusite and unusual Mn-rich apatite from the Szklary granitic pegmatite, Lower Silesia, Poland. Canad Mineral 45: 901-914

Pieczka A, Gołębiowska B, Kraczka J (1997) Mn-garnets from the Sowie Mts metamorphic pegmatites. Mineral Pol 28: 81-88

Pieczka A, Gołębiowska B, Skowroński A (2003) Ferrisicklerite and other phosphate minerals from the Lutomia pegmatite (SW Poland, Lower Silesia, Góry Sowie Mts). In: Cempírek J (ed) International Symposium on Light Elements in Rock-Forming Minerals, Nové Město na Moravě, Czech Republic, June 20-25, 2003, Book of Abstracts. Masaryk University & Moravian Museum, Brno, pp 63-64

Pieczka A, Łobos K, Sachanbiński M (2004) The first occurrence of elbaite in Poland. Mineral Pol 35: 3-14

Pieczka A, Szuszkiewicz A, Szełęg E, Nejbert K, Łodziński M, Ilnicki S, Turniak K, Banach M, Hołub W, Michałowski P, Różniak R (2013) (Fe,Mn)-(Ti,Sn)-(Nb,Ta) oxide assemblage in a little fractionated portion of a mixed (NYF + LCT) pegmatite from Piława Górna, the Sowie Mts. block, SW Poland. J Geosci 58: 91-112

Pieczka A, Szuszkiewicz A, Szełęg E, Ilnicki S, Nejbert K, Turniak K (2014) Samarskite-group minerals and alteration products: an example from the Julianna pegmatitic system, Piława Górna, SW Poland. Canad Mineral 52: 303-319

Polański A (1955) On the metamorphism of crystalline formations of the Sowie Mts (Middle Sudeten) (in Polish, English summary). Arch Mineral 18: 211-284

Quensel P (1937) Minerals of the Varuträsk pegmatite. I. The lithium-manganese phosphates. Geol Fören Förh 62: 297-302

Roda E, Pesquera A, Fontan F, Keller P (2004) Phosphate minerals associations in the Cañada pegmatite (Salamanca, Spain): paragenetic relationships, chemical compositions, and implications for pegmatite evolutions. Amer Miner 89: 110-125

Simmons WB, Webber K (2008) Pegmatite genesis: state of art. Eur J Mineral 20: 421-438

Škoda R, Staněk J, Čopjaková R (2007) Mineral assemblages of the phosphate nodules from the granitic pegmatite at Cyrilov near Velké Meziříčí, Moldanubicum; part 1 - primary and exsolution phases. Acta Mus Moraviae, Sci Geol 92: 59-74 (in Czech, English summary)

Smeds SA, Uher P, Černý P, Wise MA, Gustafsson L, Penner P (1998) Graftonite-beusite in Sweden: primary phases, products of exsolution, and distribution in zoned populations of granitic pegmatites. Canad Mineral 36: 377-394

Stanĕk J (1955) On paragenesis of phosphates from Cyrilov near Vel. Meziříčí. Čas Morav Muz (Brno) 40: 69-80 (in Czech)

Stanĕk J (1967) Trifylite, sarkopside and alluaudite from pegmatite near Dolní Bory on western Moravia. Čas Morav Muz (Brno) 52: 35-42 (in Czech, English summary)

Stanĕk J (1971) Study of secondary phosphates of iron and manganese from pegmatite at Cyrilov. Folia Fac Sci Nat Univ Purk Brun 22: 25-48 (in Czech, English summary)

Stanĕk J (1991) Paragenesis of minerals from pegmatite dikes at Hatě near Dolní Bory on western Moravia. Acta Mus Moraviae, Sci Nat 76: 19-49 (in Czech, English summary)

Stanĕk J (2008) Die Mineralien aus den Pegmatitgängen von Dolní Bory-Hatě, Tschechische Republik. Aufschluss 59: 81-102 (in German)

Stelle IM, Olsen E, Pluth J, Davis AM (1991) Occurrence and crystal structure of Ca-free beusite in the El Sampal IIIA iron meteorite. Amer Miner 76: 1985-1989

Szuszkiewicz A, Szełęg E, Pieczka A, Ilnicki S, Nejbert K, Turniak K, Banach M, Łodziński M, Różniak R, Michałowski P (2013) The Julianna pegmatite vein system at the Piława Górna mine, Góry Sowie Block, SW Poland - preliminary data on geology and descriptive mineralogy. Geol Q 57: 467-484

Tait KT, Hawthorne FC, Wise MA (2013) The crystal chemistry of the graftonite-beusite minerals. Canad Mineral 51: 653-662

Thomas R, Davidson P (2013) The missing link between granites and granitic pegmatites. J Geosci 58: 183-200

Thomas R, Webster JD, Davidson P (2006) Understanding pegmatite formation: the melt and fluid inclusion approach. In: Webster JD (ed) MeltIinclusions in Plutonic Rocks. Mineralogical Association of Canada Short Courses 36: 189-210

Timmermann H, Parrish RR, Noble SR, Kryza R (2000) New U-Pb monazite and zircon data from the Sudetes Mountains in SW Poland; evidence for a single-cycle Variscan Orogeny. J Geol Soc, London 157: 265-268

van Breemen O, Bowes DR, Aftalion M, Żelaźniewicz A (1988) Devonian tectonothermal activity in the Sowie Góry gneissic block, Sudetes, southwestern Poland: evidence from Rb-Sr and U-Pb isotopic studies. Ann Soc Geol Pol 58: 3-10

Veksler IV, Thomas R (2002) An experimental study of B-, P- and F-rich synthetic granite pegmatite at 0.1 and 0.2 GPa. Contrib Mineral Petrol 143: 673-683

Vignola P, Diella V, Oppizzi P, Tiepolo M, Weiss S (2008) Phosphate assemblages from the Brissago granitic pegmatite, Western Southern Alps, switzerland. Canad Mineral 46: 635-650

Websky M (1868) Über Sarkopsid und Kochelite, zwei neue Minerale aus Schlesien. Z Dtsch Geol Gesell 20: 245-257

Wise MA, Černý P (1990) Beusite-triphylite intergrowths from the Yellowknife pegmatite field, Northwest Territories. Canad Mineral 28: 133-139

Żelaźniewicz A (1987) Tectonic and metamorphic evolution of the Góry Sowie, Sudetes Mts, SW Poland. Ann Soc Geol Pol 57: 203-348

Żelaźniewicz A (1990) Deformation and metamorphism in the Góry Sowie gneiss complex, Sudetes, SW Poland. Neu Jb Geol Paläont, Abh 179: 129-157

Żelaźniewicz A (1997) The Sudetes as a Paleozoic orogen in central Europe. Geol Mag 134: 691-70

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