Journal of

GEOsciences

  (Formerly Journal of the Czech Geological Society)

Original Paper

Antonin Laurent, Vojtěch Janoušek, Tomáš Magna, Karel Schulmann, Jitka Míková

Petrogenesis and geochronology of a post-orogenic calc-alkaline magmatic association: the Žulová Pluton, Bohemian Massif

Journal of Geosciences, volume 59 (2014), issue 4, 415 - 440

DOI: http://doi.org/10.3190/jgeosci.176



Aleksandrowski P, Kryza R, Mazur S, Źaba J (1997) Kinematic data on major Variscan strike-slip faults and shear zones in the Polish Sudetes, northeast Bohemian Massif. Geol Mag 134: 727-739
http://doi.org/10.1017/S0016756897007590

Annen C, Blundy JD, Sparks RSJ (2006) The genesis of intermediate and silicic magmas in deep crustal hot zones. J Petrol 47: 505-539
http://doi.org/10.1093/petrology/egi084

Awdankiewicz M (2004) Sedimentation, volcanism and subvolcanic intrusions in a late Palaeozoic intramontane trough (the Intra-Sudetic Basin, SW Poland). In: Breitkreuz C, Petford N (eds) Physical Geology of High-Level Magmatic Systems. Geological Society London Special Publications 234: 5-11
http://doi.org/10.1144/GSL.SP.2004.234.01.02

Awdankiewicz M (2007) Late Palaeozoic lamprophyres and associated mafic subvolcanic rocks of the Sudetes (SW Poland): petrology, geochemistry and petrogenesis. Geol Sudetica 39: 11-97

Awdankiewicz M, Awdankiewicz H, Kryza R, Rodionov N (2010) SHRIMP zircon study of a micromonzodiorite dyke in the Karkonosze Granite, Sudetes (SW Poland): age constraints for late Variscan magmatism in Central Europe. Geol Mag 147: 77-85
http://doi.org/10.1017/S001675680999015X

Baratoux L, Lexa O, Cosgrove JW, Schulmann K (2005) The quantitative link between fold geometry, mineral fabric and mechanical anisotropy: as exemplified by the deformation of amphibolites across a regional metamorphic gradient. J Struct Geol 27: 707-730
http://doi.org/10.1016/j.jsg.2005.01.001

Barbarin B, Didier J (1992) Genesis and evolution of mafic microgranular enclaves through various types of interaction between coexisting felsic and mafic magmas. Trans Roy Soc Edinb, Earth Sci 83: 145-153
http://doi.org/10.1017/S0263593300007835

Bea F (2012) The sources of energy for crustal melting and the geochemistry of heat-producing elements. Lithos 153: 278-291
http://doi.org/10.1016/j.lithos.2012.01.017

Blundy JD, Shimizu N (1991) Trace element evidence for plagioclase recycling in calc-alkaline magmas. Earth Planet Sci Lett 102: 178-197
http://doi.org/10.1016/0012-821X(91)90007-5

Bonin B (2004) Do coeval mafic and felsic magmas in post-collisional to within-plate regimes necessarily imply two contrasting, mantle and crustal, sources? A review. Lithos 78: 1-24
http://doi.org/10.1016/j.lithos.2004.04.042

Bonin B, Azzouni-Sekkal A, Bussy F, Ferrag S (1998) Alkali-calcic and alkaline post-orogenic (PO) granite magmatism: petrologic constraints and geodynamic settings. Lithos 45: 45-70
http://doi.org/10.1016/S0024-4937(98)00025-5

Boynton WV (1984) Cosmochemistry of the rare earth elements: meteorite studies. In: Henderson P (ed) Rare Earth Element Geochemistry. Elsevier, Amsterdam, pp 63-114
http://doi.org/10.1016/B978-0-444-42148-7.50008-3

Cháb J, Žáček V (1994) Geology of the Žulová pluton mantle (Bohemian Massif, Central Europe). Věst Čes Geol Úst 69: 1-12

Cháb J, Mixa P, Vaněček M, Žáček V (1994) Evidence of an extensional tectonics in the NW of the Hrubý Jeseník Mts (the Bohemian Massif, Central Europe). Věst Čes Geol Úst 69: 7-16

Chopin F, Schulmann K, Skrzypek E, Lehmann J, Dujardin JR, Martelat JE, Lexa O, Corsini M, Edel JB, Štípská P (2012) Crustal influx, indentation, ductile thinning and gravity redistribution in a continental wedge: building a Moldanubian mantled gneiss dome with underthrust Saxothuringian material (European Variscan belt). Tectonics 31: TC1013. doi: 10.1029/2011TC002951
http://doi.org/10.1029/2011TC002951

Cohen KM, Finney SM, Gibbard PL, Fan J-X (2013) The ICS International Chronostratigraphic Chart. Episodes 36: 199-204
http://doi.org/10.18814/epiiugs/2013/v36i3/002

Collins AS, Kryza R, Zalasiewicz J (2000) Macrofabric fingerprints of Late Devonian-Early Carboniferous subduction in the Polish Variscides, the Kaczawa Complex, Sudetes. J Geol Soc, London 157: 283-288
http://doi.org/10.1144/jgs.157.2.283

Conticelli S, Guarnieri L, Farinelli A, Mattei M, Avanzinelli R, Bianchini G, Boari E, Tommasini S, Tiepolo M, Prelević D (2009) Trace elements and Sr-Nd-Pb isotopes of K-rich, shoshonitic, and calc-alkaline magmatism of the Western Mediterranean Region: genesis of ultrapotassic to calc-alkaline magmatic associations in a post-collisional geodynamic setting. Lithos 107: 68-92
http://doi.org/10.1016/j.lithos.2008.07.016

Corfu F, Hanchar JM, Hoskin PW, Kinny P (2003) Atlas of zircon textures. In: Hanchar JM, Hoskin PWO (eds) Zircon. Mineralogical Society of America and Geochemical Society Reviews in Mineralogy and Geochemistry 53: 469-500
http://doi.org/10.2113/0530469

Cox KG, Bell JD, Pankhurst RJ (1979) The Interpretation of Igneous Rocks. Allen & Unwin, London, pp 1-450
http://doi.org/10.1007/978-94-017-3373-1

Čadková Z, Jakeš P, Haková M, Mrázek P (1985) Geochemical catalogue of the basic network. Unpublished manuscript, Czech Geological Survey, Prague. In: Lithogeochemical database of the Czech Geological Survey (in Czech)

Debon F, Le Fort P (1983) A chemical-mineralogical classification of common plutonic rocks and associations. Trans Roy Soc Edinb, Earth Sci 73: 135-149
http://doi.org/10.1017/S0263593300010117

De Paolo DJ (1981) Trace-element and isotopic effects of combined wallrock assimilation and fractional crystallization. Earth Planet Sci Lett 53: 189-202
http://doi.org/10.1016/0012-821X(81)90153-9

Domańska-Siuda J (2007) The granitoid Strzegom-Sobótka Massif. In: Kozlowski A, Wiszniewska J (eds) Granitoids in Poland. Arch Miner Monogr 1, Warsaw, pp 179-191

Don J, Skácel J, Gotowała R (2003) The boundary zone of the East and West Sudetes on the 1: 50 000 scale geological map of the Velké Vrbno, Staré Město and Śnieżnik metamorphic units. Geol Sudetica 35: 25-59

Dörr W, Żelaźniewicz A, Bylina P, Schastok J, Franke W, Haack U, Kulicki C (2006) Tournaisian age of granitoids from the Odra Fault Zone (southwestern Poland): equivalent of the Mid-German Crystalline High? Int J Earth Sci 95: 341-349
http://doi.org/10.1007/s00531-005-0044-8

Dudek A (1980) The crystalline basement block of the Outer Carpathians in Moravia: BrunoVistulicum. Rozpr Čs Akad Věd, ř mat přír Věd 90: 3-85

Dziedzic K, Teisseyre AK (1990) The Hercynian molasse and younger deposits in the Intra-Sudetic Depression, SW Poland. Neu Jb Geol Paläont, Abh 179: 285-305

Edel JB, Schulmann K, Skrzypek E, Cocherie A (2013) Tectonic evolution of the European Variscan belt constrained by palaeomagnetic, structural and anisotropy of magnetic susceptibility data from the Northern Vosges magmatic arc (eastern France). J Geol Soc, London 170: 785-804
http://doi.org/10.1144/jgs2011-138

Faryad SW, Kachlík V (2013) New evidence of blueschist facies rocks and their geotectonic implication for Variscan suture(s) in the Bohemian Massif. J Metamorph Geol 31: 63-82
http://doi.org/10.1111/jmg.12009

Finger F, Roberts MP, Haunschmid B, Schermaier A, Steyrer HP (1997) Variscan granitoids of central Europe: their typology, potential sources and tectonothermal relations. Mineral Petrol 61: 67-96
http://doi.org/10.1007/BF01172478

Finger F, Gerdes A, René M, Riegler G (2009) The Saxo-Danubian Granite Belt: magmatic response to post-collisional delamination of mantle lithosphere below the southwestern sector of the Bohemian Massif (Variscan orogen). Geol Carpath 60: 205-212
http://doi.org/10.2478/v10096-009-0014-3

Förster HJ, Romer RL (2010) Carboniferous magmatism. In: Linnemann U, Romer RL (eds) The pre-Mesozoic Geology of Saxo-Thuringia (NW Bohemian Massif) - From the Cadomian Active Margin to the Variscan Orogen. Schweizerbart Science Publishers, Stuttgart, pp 287-308

Franke W (2000) The mid-European segment of the Variscides: tectonostratigraphic units, terrane boundaries and plate tectonic evolution. In: Franke W, Haak V, Oncken O, Tanner D (eds) Orogenic Processes: Quantification and Modelling in the Variscan Belt. Geological Society London Special Publications 179: pp 35-61
http://doi.org/10.1144/GSL.SP.2000.179.01.05

Goldstein SL, O’Nions RK, Hamilton PJ (1984) A Sm-Nd isotopic study of atmospheric dusts and particulates from major river systems. Earth Planet Sci Lett 70: 221-236
http://doi.org/10.1016/0012-821X(84)90007-4

Hanchar JM, Watson EB (2003) Zircon saturation thermometry. In: Hanchar JM, Hoskin PWO (eds) Zircon. Mineralogical Society of America and Geochemical Society Reviews in Mineralogy and Geochemistry 53: 89-112
http://doi.org/10.2113/0530089

Hanson GN, Langmuir CH (1978) Modelling of major elements in mantle-melt systems using trace element approaches. Geochim Cosmochim Acta 42: 725-741
http://doi.org/10.1016/0016-7037(78)90090-X

Hanžl P, Janoušek V, Žáček V, Wilimský D, Aichler J, Erban V, Pudilová M, Chlupáčová M, Buriánková K, Mixa P (2007) Magmatic history of granite-derived mylonites from the southern Desná Unit (Silesicum, Czech Republic). Mineral Petrol 89: 45-75
http://doi.org/10.1007/s00710-006-0137-5

Harris NBW, Pearce JA, Tindle AG (1986) Geochemical characteristics of collision-zone magmatism. In: Coward MP, Alison C (eds) Collision Tectonics. Geological Society London Special Publications 19: 67-81
http://doi.org/10.1144/GSL.SP.1986.019.01.04

Hegner E, Kröner A (2000) Review of Nd isotopic data and xenocrystic and detrital zircon ages from the pre-Variscan basement in the eastern Bohemian Massif: speculations on palinspastic reconstructions. In: Franke W, Haak V, Oncken O, Tanner D (eds) Orogenic processes: quantification and modelling in the Variscan Fold Belt. Geological Society London Special Publications 179: 113-129
http://doi.org/10.1144/GSL.SP.2000.179.01.09

Icenhower J, London D (1996) Experimental partitioning of Rb, Cs, Sr, and Ba between alkali feldspar and peraluminous melt. Amer Miner 81: 719-734
http://doi.org/10.2138/am-1996-5-619

Irvine T, Baragar W (1971) A guide to the chemical classification of the common volcanic rocks. Can J Earth Sci 8: 523-548
http://doi.org/10.1139/e71-055

Ishihara S (1981) The granitoid series and mineralization. Econ Geol 75th Anniversary Volume: 458-484

Jacobsen SB, Wasserburg GJ (1980) Sm-Nd isotopic evolution of chondrites. Earth Planet Sci Lett 50: 139-155
http://doi.org/10.1016/0012-821X(80)90125-9

Janoušek V (2006) Saturnin, R language script for application of accessory-mineral saturation models in igneous geochemistry. Geol Carpath 57: 131-142

Janoušek V, Holub FV (2007) The causal link between HP-HT metamorphism and ultrapotassic magmatism in collisional orogens: case study from the Moldanubian Zone of the Bohemian Massif. Proc Geol Assoc 118: 75-86
http://doi.org/10.1016/S0016-7878(07)80049-6

Janoušek V, Rogers G, Bowes DR (1995) Sr-Nd isotopic constraints on the petrogenesis of the Central Bohemian Pluton, Czech Republic. Geol Rundsch 84: 520-534
http://doi.org/10.1007/BF00284518

Janoušek V, Aichler J, Hanžl P, Gerdes A, Erban V, Žáček V, Pecina V, Pudilová M, Hrdličková K, Mixa P, Žáčková E (2014) Constraining genesis and geotectonic setting of metavolcanic complexes: a multidisciplinary study of the Devonian Vrbno Group (Hrubý Jeseník Mts., Czech Republic). Int J Earth Sci 103: 455-483
http://doi.org/10.1007/s00531-013-0975-4

Jung S, Masberg P, Mihm D, Hoernes S (2009) Partial melting of diverse crustal sources - constraints from Sr-Nd-O isotope compositions of quartz diorite-granodiorite-leucogranite associations (Kaoko Belt, Namibia). Lithos 111: 236-251
http://doi.org/10.1016/j.lithos.2008.10.010

Kalvoda J, Bábek O, Fatka O, Leichmann J, Melichar R, Nehyba S, Špaček P (2008) Brunovistulian Terrane (Bohemian Massif, Central Europe) from late Proterozoic to late Paleozoic: a review. Int J Earth Sci 97: 497-518
http://doi.org/10.1007/s00531-007-0183-1

Kemp AIS, Hawkesworth CJ, Foster GL, Paterson BA, Woodheah JD, Hergt JM, Gray CM, Whitehouse MJ (2007) Magmatic and crustal differentiation history of granitic rocks from Hf-O isotopes in zircon. Science 315: 980-983
http://doi.org/10.1126/science.1136154

Klomínský J, Jarchovský T, Rajpoot G (2010) Atlas of Plutonic rocks and Orthogneisses in the Bohemian Massif: Brunovistulicum and Moravosilesicum. Czech Geological Survey, Prague, pp 40-45

Košuličová M, Štípská P (2007) Variations in the transient prograde geothermal gradient from chloritoid-staurolite equilibria: a case study from the Barrovian and Buchan-type domains in the Bohemian Massif. J Metamorph Geol 25: 19-35
http://doi.org/10.1111/j.1525-1314.2006.00674.x

Kroner U, Romer RL (2013) Two plates - many subduction zones: the Variscan orogeny reconsidered. Gondwana Res 24: 298-329
http://doi.org/10.1016/j.gr.2013.03.001

Kröner A, Hegner E, Hammer J, Haase G, Bielicki K-H, Krauss M, Eidam J (1994) Geochronology and Nd-Sr systematics of Lusatian granitoids: significance for the evolution of the Variscan orogen in east-central Europe. Geol Rundsch 83: 357-376
http://doi.org/10.1007/BF01083223

Kröner A, Štípská P, Schulmann K, Jaeckel P (2000) Chronological constraints on the pre-Variscan evolution of the northeastern margin of the Bohemian Massif, Czech Republic. In: Franke W, Haak V, Oncken O, Tanner D (eds) Orogenic Processes: Quantification and Modelling in the Variscan Fold Belt. Geological Society London Special Publications 179: 175-197
http://doi.org/10.1144/GSL.SP.2000.179.01.12

Kryza R, Awdankiewicz M (2012) Ambiguous geological position of Carboniferous rhyodacites in the Intra-Sudetic Basin (SW Poland) clarified by SHRIMP zircon ages. Geol Quart 56: 55-66

Kryza R, Pin C (2010) The Central-Sudetic ophiolites (SW Poland): petrogenetic issues, geochronology and palaeotectonic implications. Gondwana Res 17: 292-305
http://doi.org/10.1016/j.gr.2009.11.001

Kryza R, Zalasiewicz J, Mazur S, Aleksandrowski P, Sergeev S, Larionov A (2007) Precambrian crustal contribution to the Variscan accretionary prism of the Kaczawa Mountains (Sudetes, SW Poland): evidence from SHRIMP dating of detrital zircons. Int J Earth Sci 96: 1153-1162
http://doi.org/10.1007/s00531-006-0147-x

Kryza R, Crowley QG, Larionov A, Pin C, Oberc-Dziedzic T, Mochnacka K (2012) Chemical abrasion applied to SHRIMP zircon geochronology: an example from the Variscan Karkonosze Granite (Sudetes, SW Poland). Gondwana Res 21: 757-767
http://doi.org/10.1016/j.gr.2011.07.007

Kryza R, Schaltegger U, Oberc-Dziedzic T, Pin C, Ovtcharova M (2014a) Geochronology of a composite granitoid pluton: a high-precision ID-TIMS U-Pb zircon study of the Variscan Karkonosze Granite (SW Poland). Int J Earth Sci 103: 683-696
http://doi.org/10.1007/s00531-013-0995-0

Kryza R, Pin C, Oberc-Dziedzic T, Crowley QG, Larionov A (2014b) Deciphering the geochronology of a large granitoid pluton (Karkonosze Granite, SW Poland): an assessment of U-Pb zircon SIMS and Rb-Sr whole-rock dates relative to U-Pb zircon CA-ID-TIMS. Int Geol Rev 56: 756-782
http://doi.org/10.1080/00206814.2014.886364

Kusiak MA, Dunkley DJ, Słaby E, Martin H, Budzyń B (2009) Sensitive high-resolution ion microprobe analysis of zircon reequilibrated by late magmatic fluids in a hybridized pluton. Geology 37: 1063-1066
http://doi.org/10.1130/G30048A.1

Kusiak MA, Williams IS, Dunkley DJ, Konečný P, Słaby E, Martin H (2014) Monazite to the rescue: U-Th-Pb dating of the intrusive history of the composite Karkonosze Pluton, Bohemian Massif. Chem Geol 364: 76-92
http://doi.org/10.1016/j.chemgeo.2013.11.016

Lardeaux JM, Schulmann K, Faure M, Janoušek V, Lexa O, Skrzypek E, Edel JB, Štípská P (2014) The Moldanubian Zone in French Massif Central, Vosges/Schwarzwald and Bohemian Massif revisited: differences and similarities. In: Schulmann K, Martínez Catalán JR, Lardeaux JM, Janoušek V, Oggiano G (eds) The Variscan Orogeny: Extent, Timescale and the Formation of the European Crust. Geological Society London Special Publications 405: pp 7-44
http://doi.org/10.1144/SP405.14

Laurent A (2013) Géochimie et géochronologie du magmatisme de type-I tardi-Carbonifère de la marge Nord-est du Massif de Bohême: implications géodynamiques. Unpublished MSci Thesis, Université de Strasbourg, pp 1-32

Liégeois J-P, Navez J, Hertogen J, Black R (1998) Contrasting origin of post-collisional high-K calc-alkaline and shoshonitic versus alkaline and peralkaline granitoids. The use of sliding normalization. Lithos 45: 1-28
http://doi.org/10.1016/S0024-4937(98)00023-1

Liew TC, Hofmann AW (1988) Precambrian crustal components, plutonic associations, plate environment of the Hercynian Fold Belt of central Europe: indications from a Nd and Sr isotopic study. Contrib Mineral Petrol 98: 129-138
http://doi.org/10.1007/BF00402106

Machowiak K, Armstrong R (2007) SHRIMP U-Pb zircon age from the Karkonosze granite. Miner Pol Spec Pap 31: 193-196

Machowiak K, Armstrong R, Kryza R, Muszyński A (2008) Late-orogenic magmatism in the central European Variscides: SHRIMP U-Pb zircon age constraints from the Zelaźniak Intrusion, Kaczawa Mountains, West Sudetes. Geol Sudetica 40: 1-18

Maluski H, Patočka F (1997) Geochemistry and 40Ar/39Ar geochronology of the mafic metavolcanic rocks from the Rýchory Mountains complex (west Sudetes, Bohemian Massif): palaeotectonic significance. Geol Mag 134: 703-716
http://doi.org/10.1017/S0016756897007498

Maluski H, Rajlich P, Souček J (1995) Pre-Variscan, Variscan and Early Alpine thermo-tectonic history of the north-eastern Bohemian Massif: an 40Ar/39Ar study. Geol Rundsch 84: 345-358
http://doi.org/10.1007/s005310050010

Marheine D, Kachlík V, Maluski H, Patočka F, Żelaźniewicz A (2002) The 40Ar/39Ar ages from the West Sudetes (NE Bohemian Massif): constraints on the Variscan polyphase tectonothermal development. In Winchester JA, Pharaoh TC, Verniers J (eds) Palaeozoic Amalgamation of Central Europe. Geological Society of London Special Publications 201: 133-155
http://doi.org/10.1144/GSL.SP.2002.201.01.07

Matte P (1991) Accretionary history and crustal evolution of the Variscan belt in western Europe. Tectonophysics 196: 309-337
http://doi.org/10.1016/0040-1951(91)90328-P

Mazur S, Aleksandrowski P, Kryza R, Oberc-Dziedzic T (2006) The Variscan Orogen in Poland. Geol Q 50: 89-118

Mazur S, Szczepański J, Turniak K, McNaughton NJ (2012) Location of the Rheic suture in the eastern Bohemian Massif: evidence from detrital zircon data. Terra Nova 24: 199-206
http://doi.org/10.1111/j.1365-3121.2011.01053.x

Míková J, Denková P (2007) Modified chromatographic separation scheme for Sr and Nd isotope analysis in geological silicate samples. J Geosci 52: 221-226
http://doi.org/10.3190/jgeosci.015

Mikulski SZ, Williams IS, Bagiński B (2013) Early Carboniferous (Viséan) emplacement of the collisional Kłodzko-Złoty Stok granitoids (Sudetes, SW Poland): constraints from geochemical data and zircon U-Pb ages. Int J Earth Sci 102: 1007-1027
http://doi.org/10.1007/s00531-012-0852-6

Miller C, Schuster R, Klötzli U, Frank W, Purtscheller F (1999) Post-collisional potassic and ultrapotassic magmatism in SW Tibet: geochemical and Sr-Nd-Pb-O isotopic constraints for mantle source characteristics and petrogenesis. J Petrol 40: 1399-1424
http://doi.org/10.1093/petroj/40.9.1399

Miller CF, McDowell SM, Mapes RW (2003) Hot and cold granites? Implications of zircon saturation temperatures and preservation of inheritance. Geology 31: 529-532
http://doi.org/10.1130/0091-7613(2003)031<0529:HACGIO>2.0.CO;2

Miller JS, Matzel JE, Miller CF, Burgess SD, Miller RB (2007) Zircon growth and recycling during the assembly of large, composite arc plutons. J Volcanol Geotherm Res 167: 282-299
http://doi.org/10.1016/j.jvolgeores.2007.04.019

Oberc-Dziedzic T (1999) The geology of the Strzelin granitoids (Fore-Sudetic Block, SW Poland). Miner Pol Spec Pap 14: 22-32

Oberc-Dziedzic T, Kryza R (2012) Late stage Variscan magmatism in the Strzelin Massif (SW Poland): SHRIMP zircon ages of tonalite and Bt-Ms granite of the Gęsiniec intrusion. Geol Quart 56: 225-236
http://doi.org/10.7306/gq.1017

Oberc-Dziedzic T, Pin C, Duthou JL, Couturie JP (1996) Age and origin of the Strzelin granitoids (Fore-Sudetic Block, Poland): 87Rb-87/Sr data. Neu Jb Mineral, Abh 171: 187-198
http://doi.org/10.1127/njma/171/1996/187

Oberc-Dziedzic T, Kryza R, Klimas K, Fanning M, Madej S (2005) Gneiss protolith ages and tectonic boundaries in the NE part of the Bohemian Massif (Fore-Sudetic Block, SW Poland). Geol Quart 49: 363-378

Oberc-Dziedzic T, Kryza R, Bialek J (2010) Variscan multistage granitoid magmatism in Brunovistulicum: petrological and SHRIMP U-Pb zircon geochronological evidence from the southern part of the Strzelin Massif, SW Poland. Geol Quart 54: 301-324

Oberc-Dziedzic T, Kryza R, Pin C, Madej S (2013) Variscan granitoid plutonism in the Strzelin Massif (SW Poland): petrology and age of the composite Strzelin granite intrusion. Geol Quart 57: 269-288
http://doi.org/10.7306/gq.1083

Oliver GJH, Corfu F, Krogh TE (1993) U-Pb ages from SW Poland: evidence for a Caledonian suture zone between Baltica and Gondwana. J Geol Soc, London 150: 355-369
http://doi.org/10.1144/gsjgs.150.2.0355

Parry M, Štípská P, Schulmann K, Hrouda F, Ježek J, Kröner A (1997) Tonalite sill emplacement at an oblique plate boundary: northeastern margin of the Bohemian Massif. Tectonophysics 280: 61-81
http://doi.org/10.1016/S0040-1951(97)00146-7

Patiño Douce AE (1997) Generation of metaluminous A-type granites by low-pressure melting of calc-alkaline granitoids. Geology 25: 743-746
http://doi.org/10.1130/0091-7613(1997)025<0743:GOMATG>2.3.CO;2

Patiño Douce AE (1999) What do experiments tell us about the relative contributions of crust and mantle to the origin of granitic magmas? In: Castro A, Fernandez C, Vigneresse JL (eds) Understanding Granites: Integrating New and Classical Techniques. Geological Society of London Special Publications 168: 55-75
http://doi.org/10.1144/GSL.SP.1999.168.01.05

Pearce JA, Peate DW (1995) Tectonic implications of the composition of volcanic arc magmas. Ann Rev Earth Planet Sci 23: 251-286
http://doi.org/10.1146/annurev.ea.23.050195.001343

Pearce JA, Harris NB, Tindle AG (1984) Trace element discrimination diagrams for the tectonic interpretation of granitic rocks. J Petrol 25: 956-983
http://doi.org/10.1093/petrology/25.4.956

Peccerillo A, Taylor SR (1976) Geochemistry of Eocene calc-alkaline volcanic rocks from the Kastamonu area, northern Turkey. Contrib Mineral Petrol 58: 63-81
http://doi.org/10.1007/BF00384745

Pecina V, Čurda J, Hanáček M, Kočandrle J, Nývlt D, Opletal M, Skácelová D, Skácelová Z, Večeřa J, Žáček V (2006) Explanations to the basic geological map of the Czech Republic 1:25 000, sheet 14-221 Žulová. Unpublished manuscript, Czech Geological Survey, Prague, pp 1-108 (in Czech)

Pietranik A, Koepke J (2009) Interactions between dioritic and granodioritic magmas in mingling zones: plagioclase record of mixing, mingling and subsolidus interactions in the Gęsiniec Intrusion, NE Bohemian Massif, SW Poland. Contrib Mineral Petrol 158: 17-36
http://doi.org/10.1007/s00410-008-0368-z

Pietranik A, Waight TE (2008) Processes and sources during Late Variscan dioritic-tonalitic magmatism: insights from plagioclase chemistry (Gęsiniec Intrusion, NE Bohemian Massif, Poland). J Petrol 49: 1619-1645
http://doi.org/10.1093/petrology/egn040

Pietranik A, Koepke J, Puziewicz J (2006) Crystallization and resorption in plutonic plagioclase: implications on the evolution of granodiorite magma (Gęsiniec granodiorite, Strzelin Crystalline Massif, SW Poland). Lithos 86: 260-280
http://doi.org/10.1016/j.lithos.2005.05.008

Pietranik A, Storey C, Dhuime B, Tyszka R, Whitehouse M (2011) Decoding whole rock, plagioclase, zircon and apatite isotopic and geochemical signatures from variably contaminated dioritic magmas. Lithos 127: 455-467
http://doi.org/10.1016/j.lithos.2011.10.002

Pietranik A, Storey C, Kierczak J (2013) Niemcza diorites and monzodiorites (Sudetes, SW Poland): a record of changing geotectonic setting at ca. 340 Ma. Geol Quart 57: 325-334

Pin C, Puziewicz J, Duthou JL (1989) Ages and origins of a composite granitic massif in the Variscan Belt - a Rb-Sr study of the Strzegom-Sobotka Massif, W Sudetes (Poland). Neu Jb Mineral, Abh 160: 71-82

Ridolfi F, Renzulli A (2012) Calcic amphiboles in calc-alkaline and alkaline magmas: thermobarometric and chemometric empirical equations valid up to 1,130°C and 2.2 GPa. Contrib Mineral Petrol 163: 877-895
http://doi.org/10.1007/s00410-011-0704-6

Schandl ES, Gorton MP (2002) Application of high field strength elements to discriminate tectonic settings in VMS environments. Econ Geol 97: 629-642
http://doi.org/10.2113/gsecongeo.97.3.629

Scharff P (1920) Petrographische Studien im Granito-dioritischen Eruptivgebiet von Friedberg in Österr. Schlesien. V Grass & Comp, Breslau, pp 1-55

Schoene B, Schaltegger U, Brack P, Latkoczy C, Stracke A, Günther D (2012) Rates of magma differentiation and emplacement in a ballooning pluton recorded by U-Pb TIMS-TEA, Adamello Batholith, Italy. Earth Planet Sci Lett 355: 162-173
http://doi.org/10.1016/j.epsl.2012.08.019

Schulmann K, Gayer R (2000) A model for a continental accretionary wedge developed by oblique collision: the NE Bohemian Massif. J Geol Soc, London 157: 401-416
http://doi.org/10.1144/jgs.157.2.401

Schulmann K, Konopásek J, Janoušek V, Lexa O, Lardeaux JM, Edel JB, Štípská P, Ulrich S (2009) An Andean type Palaeozoic convergence in the Bohemian Massif. C R Geosci 341: 266-286
http://doi.org/10.1016/j.crte.2008.12.006

Schulmann K, Martínez Catalán JR, Lardeaux JM, Janoušek V, Oggiano G (eds) (2014a) The Variscan orogeny: extent, timescale and the formation of the European crust (Introduction). Geological Society of London Special Publications 405: 1-6
http://doi.org/10.1144/SP405.15

Schulmann K, Lexa O, Janoušek V, Lardeaux JM, Edel JB (2014b) Anatomy of a diffuse cryptic suture zone: an example from the Bohemian Massif, European Variscides. Geology 42: 275-278
http://doi.org/10.1130/G35290.1

Schulmann K, Oliot E, Košuličová M, Montigny R, Štípská P, Kröner A (2014) Variscan thermal overprints exemplified by Th-U-Pb monazite and K-Ar mica dating at the eastern margin of the Bohemian Massif (West Sudetes, Czech Republic). J Geosci 59: 389-413
http://doi.org/10.3190/jgeosci.180

Siebel W, Chen F, Satir M (2003) Late-Variscan magmatism revisited: new implications from Pb-evaporation zircon ages on the emplacement of redwitzites and granites in NE Bavaria. Int J Earth Sci 92: 36-53
http://doi.org/10.1007/s00531-003-0348-5

Skrzypek E, Tabaud AS, Edel JB, Schulmann K, Cocherie A, Guerrot C, Rossi P (2012) The significance of Late Devonian ophiolites in the Variscan orogen: a record from the Vosges Klippen Belt. Int J Earth Sci 101: 951-972
http://doi.org/10.1007/s00531-011-0709-4

Słaby E, Martin H (2008) Mafic and felsic magma interaction in granites: the Hercynian Karkonosze Pluton (Sudetes, Bohemian Massif). J Petrol 49: 353-391
http://doi.org/10.1093/petrology/egm085

Stacey JT, Kramers JD (1975) Approximation of terrestrial lead isotope evolution by a two-stage model. Earth Planet Sci Lett 26: 207-221
http://doi.org/10.1016/0012-821X(75)90088-6

Sun SS, McDonough W (1989) Chemical and isotopic systematics of oceanic basalts: implications for mantle composition and processes. In: Saunders AD, Norry M (eds) Magmatism in the Ocean Basins. Geological Society of London Special Publications 42: 313-345
http://doi.org/10.1144/GSL.SP.1989.042.01.19

Sylvester PJ (1989) Post-collisional alkaline granites. J Geol 97: 261-280
http://doi.org/10.1086/629302

Sylvester PJ (1998) Post-collisional strongly peraluminous granites. Lithos 45: 29-44
http://doi.org/10.1016/S0024-4937(98)00024-3

Szczepański J (2007) A vestige of an Early Devonian active continental margin in the East Sudetes (SW Poland) - evidence from geochemistry of the Jegłowa Beds, Strzelin Massif. Geol Quart 51: 271-284

Štípská P, Pitra P, Powell R (2006) Separate or shared metamorphic histories of eclogites and surrounding rocks? An example from the Bohemian Massif. J Metamorph Geol 24: 219-240
http://doi.org/10.1111/j.1525-1314.2006.00634.x

Takagi T (2004) Origin of magnetite- and ilmenite-series granitic rocks in the Japan arc. Amer J Sci 304: 169-202
http://doi.org/10.2475/ajs.304.2.169

Tera F, Wasserburg GJ (1972) U-Th-Pb systematics in three Apollo 14 basalts and the problem of initial Pb in lunar rocks. Earth Planet Sci Lett 14: 281-304
http://doi.org/10.1016/0012-821X(72)90128-8

Turner S, Sandiford M, Foden J (1992) Some geodynamic and compositional constraints on postorogenic magmatism. Geology 20: 931-934
http://doi.org/10.1130/0091-7613(1992)020<0931:SGACCO>2.3.CO;2

Turniak K, Bröcker M (2002) Age of the two-mica granite from the Strzegom-Sobótka Massif: new data from U/Pb monazite and xenotime study. Miner Pol Spec Pap 20: 211-213

Turniak K, Tichomirowa M, Bombach K (2005a) Pb-evaporation zircon ages of post-tectonic granitoids from the Strzelin Massif (SW Poland). Miner Pol Spec Pap 29: 212-215

Turniak K, Tichomirowa M, Bombach K (2005b) Zircon Pb-evaporation ages of granitoids from the Strzegom-Sobótka Massif (SW Poland). Miner Pol Spec Pap 29: 241-245

Turniak K, Halas S, Wójtowicz A (2007) New K-Ar cooling ages of granitoids from the Strzegom-Sobotka Massif, SW Poland. Geochronometria 27: 5-9
http://doi.org/10.2478/v10003-007-0019-9

Van Breemen O, Aftalion M, Bowes DR, Dudek A, Mísař Z, Povondra P, Vrána S (1982) Geochronological studies of the Bohemian Massif, Czechoslovakia, and their significance in the evolution of Central Europe. Trans Roy Soc Edinb, Earth Sci 73: 89-108
http://doi.org/10.1017/S0263593300009639

Vegas N, Rodriguez J, Cuevas J, Siebel W, Esteban JJ, Tubía JM, Basei M (2011) The sphene-centered ocellar texture: an effect of grain-supported flow and melt migration in a hyperdense magma mush. J Geol 119: 143-157
http://doi.org/10.1086/658200

Watson EB, Harrison TM (1983) Zircon saturation revisited: temperature and composition effects in a variety of crustal magma types. Earth Planet Sci Lett 64: 295-304
http://doi.org/10.1016/0012-821X(83)90211-X

Wiebe RA, Collins WJ (1998) Depositional features and stratigraphic sections in granitic plutons: implications for the emplacement and crystallization of granitic magma. J Struct Geol 20: 1273-1289
http://doi.org/10.1016/S0191-8141(98)00059-5

Willbold M, Stracke A (2010) Formation of enriched mantle components by recycling of upper and lower continental crust. Chem Geol 276: 188-197
http://doi.org/10.1016/j.chemgeo.2010.06.005

Wood DA (1980) The application of a Th-Hf-Ta diagram to problems of tectonomagmatic classification and to establishing the nature of crustal contamination of basaltic lavas of the British Tertiary Volcanic Province. Earth Planet Sci Lett 50: 11-30
http://doi.org/10.1016/0012-821X(80)90116-8

Zachovalová K, Leichmann J, Švancara J (2002) Žulová Batholith: a post-orogenic, fractionated ilmenite-allanite I-type granite. J Geosci 47: 35-44
http://doi.org/10.3190/JCGS.849

Žáček V, Čurda J, Kočandrle J, Nekovařík Č, Nývlt D, Pecina V, Skácelová D, Skácelová Z, Večeřa J (2004a) Basic map of the Czech Republic 1: 25 000, sheet 14-222 Vidnava. Czech Geological Survey, Prague (in Czech)

Žáček V, Čurda J, Kočandrle J, Nývlt D, Pecina V, Nekovařík Č, Skácelová D, Skácelová Z, Večeřa J (2004b) Explanations to the basic map of the Czech Republic 1: 25 000, sheet 14-222 Vidnava. Czech Geological Survey, Prague, pp 1-45 (in Czech)

Žáček V, Nývlt D, Mixa P (2005a) Basic geological map of the Czech Republic 1:25 000, sheet 14-223 Lipová Lázně. Czech Geological Survey, Prague (in Czech)

Žáček V, Čurda J, Kočandrle J, Nývlt D, Pecina V, Skácelová D, Skácelová Z, Sulovský P, Večeřa J (2005b) Explanations to the basic geological map of the Czech Republic 1:25 000, sheet 14-223 Lipová Lázně. Czech Geological Survey, Prague, pp 1-108 (in Czech)

Žáčková E, Konopásek J, Jeřábek P, Finger F, Košler J (2010) Early Carboniferous blueschist facies metamorphism in metapelites of the West Sudetes (Northern Saxothuringian Domain, Bohemian Massif). J Metamorph Geol 28: 361-379
http://doi.org/10.1111/j.1525-1314.2010.00869.x

Žák J, Verner K, Sláma J, Kachlík V, Chlupáčová M (2013) Multistage magma emplacement and progressive strain accumulation in the shallow-level Krkonoše-Jizera Plutonic Complex, Bohemian Massif. Tectonics 32: 1493-1512
http://doi.org/10.1002/tect.20088

Žák J, Verner K, Janoušek V, Holub FV, Kachlík V, Finger F, Hajná J, Tomek F, Vondrovic L, Trubač J (2014) A plate-kinematic model for the assembly of the Bohemian Massif constrained by structural relationships around granitoid plutons. In: Schulmann K, Martínez Catalán JR, Lardeaux JM, Janoušek V, Oggiano G (eds) The Variscan orogeny: Extent, Timescale and the Formation of the European Crust. Geological Society of London Special Publications 405: 169-196
http://doi.org/10.1144/SP405.9

Żelaźniewicz A, Nowak I, Bachliński R, Larionov AN, Sergeev SA (2005) Cadomian versus younger deformations in the basement of the Moravo-Silesian Variscides, East Sudetes, SW Poland: U-Pb SHRIMP and Rb-Sr age data. Geol Sudetica 37: 35-51

Journal of Geosciences, Published by © Czech Geological Society, with support from the Czech Geological Survey.
Webdesign inspired by aTeo. Hosted at the server of the Institute of Petrology and Structural Geology, Charles University, Prague.
ISSN: 1803-1943 (online), 1802-6222 (print)
email: jgeosci(at)jgeosci.org
cover_rotated.gif, 15kB

SNIP (Scopus, 2022): 0.826

IF (WoS, 2022): 1.4

5 YEAR IF (WoS, 2022): 1.8

Policy: Open Access

ISSN: 1802-6222

E-ISSN: 1803-1943