full text (PDF, 1.46 MB)
Export to RIS
Export to BibTeX
Export to MendeleyMore articles on Granitic magmatism in collisional orogens
Original paper
Geochemical characteristics of the Late Proterozoic Spitz granodiorite gneiss in the Drosendorf Unit (Southern Bohemian Massif, Austria) and implications for regional tectonic interpretations
Journal of Geosciences, volume 63 (2018), issue 4, 345 - 362
DOI: http://doi.org/10.3190/jgeosci.271
Anderson JL (1996) Status of thermobarometry in granitic batholiths. Trans Roy Soc Edinb, Earth Sci 87: 125-138
Anderson JL, Smith DR (1995) The effects of temperature and fO2 on the Al-in-hornblende barometer. Amer Miner 80: 549-559
Bayliss P (1975) Nomenclature of the trioctahedral chlorites. Canad Mineral 13: 178-180
Becke F (1917) Granodioritgneis im Waldviertel. Tschermaks mineral petrogr Mitt 34: 70
Boynton W V (1984) Cosmochemistry of the rare earth elements: meteorite studies. In: Henderson P (ed) Rare Earth Element Geochemistry. Elsevier, Amsterdam, pp 63-114
Breiter K (2010) Geochemical classification of Variscan granitoids in the Moldanubicum (Czech Republic, Austria). Abh Geol B -A 65:19-25
Breiter K, Scharbert S (2006) Two-mica and biotite granites in the Weitra-Nové Hrady area, Austria-Czech Republic. J Czech Geol Soc 51: 217-230
Breiter K, Čopjaková R, Gabašová A, Škoda R (2005) Chemistry and mineralogy of orthogneisses in the northeastern part of the Moldanubicum. J Czech Geol Soc 50: 81-94
Buriánek D, Verner K, Hanžl P, Krumlová H (2009) Ordovician metagranites and migmatites of the Svratka and Orlice-Sněžník units, northeastern Bohemian Massif. J Geosci 54: 181-200
Cathelineau M (1988) Cation site occupancy in chlorites and illites as a function of temperature. Clay Miner 23: 471-485
Chappell B, Bryant CJ, Wyborn D, White AJR, Williams IS (1998) High- and low-temperature I-type granites. Resour Geol 48: 225-235
Chappell BW, White AJR (1974) Two contrasting granite types. Pacif Geol 8: 173-174
Cooke RA, O’Brien PJ, Carswell DA (2000) Garnet zoning and the identification of equilibrium mineral compositions in high-pressure-temperature granulites from the Moldanubian Zone, Austria. J Metamorph Geol 18: 551-569
Dallmeyer RD, Neubauer F, Höck V (1992) Chronology of late Paleozoic tectonothermal activity in the southeastern Bohemian Massif, Austria (Moldanubian and Moravo-Silesian zones): 40Ar/39Ar mineral age controls. Tectonophysics 210: 135-153
Desphande GG, Özpeker I (1965) Petrology and structure of the Spitzer Gneiss from Dobra area in the Bohemian Massif of Austria. Verh Geol B-A A77
Dörr W, Zulauf G, Fiala J, Franke W, Vejnar Z (2002) Neoproterozoic to Early Cambrian history of an active plate margin in the Teplá-Barrandian Unit - a correlation of U-Pb isotopic-dilution-TIMS ages (Bohemia, Czech Republic). Tectonophysics 352: 65-85
Dudek A (1980) The crystalline basement block of the outer Carpathians in Moravia. Rozpr Čs Akad Věd 90: 1-85
Faryad SW, Racek M, Lexa O (2011) Eclogite, Garnet Peridotite, Garnet Pyroxenite and HP Granulite in the Gföhl Unit. Geolines 23: 106-111
Finger F (1990) Geochemie und primäres tektonisches Environment der granitoiden Gneise des Waldviertler Moldanubikums. In: Neubauer F, Hoinkes G, Wallbrecher E, Fritz H, Unzog W (eds) TSK III 3. Symposium für Tektonik, Struktur- und Kristallingeologie. Zentralbl. Geol. Paläont. Teil I, Graz, pp 58-60
Finger F, Riegler G (2006) Bericht 2005 über petrographische und geochemische Untersuchungen an Metagranitoiden und Orthogneisen des Moravikums auf Blatt 21 Horn. Jb Geol B-A 146: 123-126
Finger F, Riegler G (2009) Bericht 2008 über petrographische und geochemische Untersuchungen an Metagranitoiden und Orthogneisen des Moravikums auf Blatt 21 Horn. Jb Geol B-A 149: 509-512
Finger F, Riegler G (2012a) Bericht 2009 über petrografische und geochemische Untersuchungen an Metagranitoiden und Orthogneisen des Moravikums auf Blatt 21 Horn. Jb Geol B-A 152: 213-216
Finger F, Riegler G (2012b) Bericht 2010 über petrografische und geochemische Untersuchungen an Metagranitoiden und Orthogneisen des Moravikums auf Blatt 21 Horn. Jb Geol B-A 152: 216-218
Finger F, Riegler G (2012c) Bericht 2011 über petrografische und geochemische Untersuchungen an Metagranitoiden und Granitgneisen des Moravikums auf Blatt 21 Horn. Jb Geol B-A 152: 218-220
Finger F, Riegler G (2013) Bericht 2012 über petrographische und geochemische Untersuchungen an Graniten und Orthogneisen des Moravikums auf Blatt 21 Horn. Jb Geol B-A 153: 361-364
Finger F, Riegler G (2014) Bericht 2013 über petrografische und geochemische Untersuchungen an Orthogneisen des Moravikums auf Blatt 21 Horn. Jb Geol B-A 154: 255-258
Finger F, Steyrer HP (1995) A tectonic model for the Eastern Variscides - indications from a chemical study of amphibolites in the south-eastern Bohemian Massif. Geol Carpath 46: 137-150
Finger F, Frasl G, Höck V, Steyrer HP (1989) The granitoids of the Moravian Zone of northeast Austria: products of a Cadomian active continental margin? Precambr Res 45: 235-245
Finger F, Frasl G, Dudek A, Jelínek E, Thöni M (1995) Cadomian plutonism in the Moravo-Silesian basement. In: Dallmeyer, R.D., Franke, W., Weber, K. (eds) Tectonostratigraphic Evolution of the Central and Eastern European Orogens. Springer, Berlin, pp 495-507
Finger F, Roberts M, Haunschmid B, Schermaier A, Steyrer HP (1997) Variscan granitoids of central Europe : their typology, potential sources and tectonothermal relations. Mineral Petrol 61: 67-96
Finger F, Hanžl P, Pin C, von Quadt A, Steyer HP (2000) The Brunovistulian: Avalonian Precambrian sequence at the eastern end of the Central European Variscides? In: Franke W, Haak V, Oncken O, Tanner D (eds) Orogenic Processes: Quantification and Modelling in the Variscan Belt. Geological Society of London, Special Publications 179: pp 103-112
Finger F, Gerdes A, Knop E (2007a) Constraints on the sedimentation age of the Monotonous Series in the Austrian part of the Bohemian Massif from U-Pb Laser ICP-MS zircon dating. Mitt Österr Mineral Gesell 153: 43
Finger F, Gerdes A, Janoušek V, René M, Riegler G (2007b) Resolving the Variscan evolution of the Moldanubian sector of the Bohemian Massif: the significance of the Bavarian and the Moravo-Moldanubian tectonometamorphic phases. J Geosci 52: 9-28
Franke W (1989) Variscan plate tectonics in Central Europe - current ideas and open questions. Tectonophysics 169: 221-228
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 Special Publications 179: pp 35-61
Franke W, Źelażniewicz A (2000) The eastern termination of the Variscides: terrane correlation and kinematic evolution. In: Franke W, Haak V, Oncken O, Tanner D (eds) Orogenic Processes: Quantification and Modelling in the Variscan Belt. Geological Society Special Publications 179: pp 63-86
Frasl G (1970) Zur Metamorphose und Abgrenzung der Moravischen Zone im niederösterreichischen Waldviertel. Nachr Dtsch geol Gesell 2: 55-61
Frasl G (1991) Das Moravikum der Thaya-Kuppel als Teil der variszisch deformierten Randzone des Bruno-Vistulikums - eine Einführung. In: Gattinger ET, Roetzel R (eds) Geologie am Ostrand der Böhmischen Masse in Niederösterreich, Schwerpunkt Blatt 21 Horn. Geologische Bundesanstalt, Vienna, pp 49-62
Friedl G, Finger F, McNaughton NJ, Fletcher IR (2000) Deducing the ancestry of terranes: SHRIMP evidence for South America-derived Gondwana fragments in central Europe. Geology 28: 1035-1038
Friedl G, Finger F, Paquette JL, von Quadt A, McNaughton NJ, Fletcher IR (2004) Pre-Variscan geological events in the Austrian part of the Bohemian Massif deduced from U-Pb zircon ages. Int J Earth Sci 93: 802-823
Fritz H (1995) The Raabs Series: a probable Variscan suture in the SE Bohemian Massif. Jb Geol B-A 138: 639-653
Fritz H, Neubauer F (1993) Kinematics of crustal stacking and dispersion in the south-eastern Bohemian Massif. Geol Rundsch 82: 556-565
Frost BR, Barnes CG, Collins WJ, Arculus RJ, Ellis DJ, Frost CD (2001) A geochemical classification for granitic rocks. J Petrol 42: 2033-2048
Fuchs G (1976) Zur Entwicklung der Böhmischen Masse. Jb Geol B-A 119: 45-61
Fuchs G, Matura A (1976) Zur Geologie des Kristallins der südlichen Böhmischen Masse. Jb Jb Geol B-A 119: 1-43
Gebauer D, Friedl G (1994) A 1.38 Ga protolith age for the Dobra orthogneiss (Moldanubian Zone of the southern Bohemian Massif, NE-Austria): evidence from ion-microprobe (SHRIMP) dating of zircon. J Czech Geol Soc 39: 34-35
Gerdes A, Friedl G, Parrish RR, Finger F (2003) High-resolution geochronology of Variscan granite emplacement the South Bohemian Batholith. J Czech Geol Soc 48: 53-54
Hanžl P, Melichar R (1997) The Brno Massif: A section through the active continental margin or a composed terrane? Krystalinikum 23: 33-58
Hasalová P, Janoušek V, Schulmann K, Štípská P, Erban V (2008) From orthogneiss to migmatite: geochemical assessment of the melt infiltration model in the Gföhl Unit (Moldanubian Zone, Bohemian Massif). Lithos 102: 508-537
Henry DJ, Guidotti C V., Thomson JA (2005) The Ti-saturation surface for low-to-medium pressure metapelitic biotites: implications for geothermometry and Ti-substitution mechanisms. Amer Miner 90: 316-328
Höck V, Marschallinger M, Topa D (1990) Granat-Biotit-Geothermometrie in Metapeliten der Moravischen Zone in Österreich. Österr Beitr Met Geoph 3: 149-167
Högelsberger H (1989) Die Marmore und Kalksilikatgesteine der Bunten Serie - petrologische Untersuchungen und geologische Konsequenzen. Jb Geol B-A 132: 213-230
Holland TJB, Blundy J (1994) Non-ideal interactions in calcic amphiboles and their bearing on amphibole-plagioclase thermometry. Contrib Mineral Petrol 116: 433-447
Imai N, Terashima S, Itoh S, Ando A (1995) 1994 compilation values for GSJ reference samples, “Igneous rock series.” Geochem J 29: 91-95
Irvine TN, Baragar WRA (1971) A Guide to the chemical classification of the common volcanic rocks. Canad J Earth Sci 8: 523-548
Janoušek V, Bowes DR, Rogers G, Farrow CM, Jelínek E (2000) Modelling diverse processes in the petrogenesis of a composite batholith: the Central Bohemian Pluton, Central European Hercynides. J Petrol 41: 511-543
Janoušek V, Farrow CM, Erban V (2006) Interpretation of whole-rock geochemical data in igneous geochemistry: introducing Geochemical Data Toolkit (GCDkit). J Petrol 47: 1255-1259
Jawecki C (1996) Fluid regime in the Austrian Moldanubian Zone as indicated by fluid inclusions. Mineral Petrol 58: 235-252
Jelínek E, Dudek A (1993) Geochemistry of subsurface Precambrian plutonic rocks from the Brunovistulian Complex in the Bohemian Massif, Czechoslovakia. Precambr Res 62: 103-125
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
Košler J, Konopásek J, Sláma J, Vrána S (2014) U-Pb zircon provenance of Moldanubian metasediments in the Bohemian Massif. J Geol Soc, London 171: 83-95
Kossmat F (1927) Gliederung des varistischen Gebirgsbaues. Abh Sächs Geol Landesamt 1: 1-39
Kroner U, Romer RL (2013) Two plates - many subduction zones: the Variscan Orogeny reconsidered. Gondwana Res 24: 298-329
Lanari P, Wagner T, Vidal O (2014) A thermodynamic model for di-trioctahedral chlorite from experimental and natural data in the system MgO-FeO-Al2O3-SiO2-H2O: applications to P-T sections and geothermometry. Contrib Mineral Petrol 167: 1-19
Laurent A, Janoušek V, Magna T, Schulmann K, Míková J (2014) Petrogenesis and geochronology of a post-orogenic calc-alkaline magmatic association: the Žulová Pluton, Bohemian Massif. J Geosci 59: 415-440
Lardeaux JM, Schulmann K, Faure M, Janoušek V, Lexa O, Skrzypek E, Edel JB, Štípská P (2014) The Moldanubian Zone in the 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
Leake BE, Woolley AR, Arps CES, Birch WD, Gilbert MC, Grice JD, Hawthorne FC, Kato A, Kisch HJ, Krivovichev VG, Linthout K, Laird J, Mandarino JA, Maresch W V., Nickel EH, Rock NMS, Schumacher JC, Smith DC, Stephenson NCN, Ungaretti L, Whittacker EJW, Youzhi G (1997) Nomenclature of amphiboles: report of the Subcommittee on Amphiboles of the International Mineralogical Association Commission on New Minerals and Mineral Names. Mineral Mag 61: 295-321
Leichmann J, Höck V (2008) The Brno Batholith: an insight into the magmatic and metamorphic evolution of the Cadomian Brunovistulian Unit, eastern margin of the Bohemian Massif. J Geosci 53: 281-305
Lindner M (2016) Geochemische Charakterisierung von Spitzer und Dobra Gneis im Waldviertler Moldanubikum. Unpublished MSci Thesis, University of Salzburg, pp 1-107
Lindner M, Finger F (2016) A geochemical study of the Dobra Gneiss in the Austrian part of the Moldanubian Zone. In: Finger F, Verner K, Žák J, Zulauf G (eds) Proceedings of the 2nd Workshop on Orogenic Processes in the Bohemian Massif. Czech Geological Survey, Prague, pp 30
Linnemann U, Romer RL, Pin C, Aleksandrowski P, Buła Z, Geisler T, Kachlík V, Krzemińska E, Mazur S, Motuza G, Murphy JB, Nance RD, Pisarevsky SA, Schulz B, Ulrich J, Wiszniewska J, Żaba J, Zeh A (2008) The Precambrian. In: McCann T (ed) The Geology of Central Europe. Volume 1: Precambrian and Palaeozoic. Geological Society, London, pp 21-102
Linner M (1992) Metamorphose der Paragneise in der Monotonen Serie (SE Moldanubikum). Unpublished MSci. Thesis, University of Vienna, pp 1-125
Linner M (1996) Metamorphism and partial melting of paragneisses of the Monotonous Group, SE Moldanubicum (Austria). Mineral Petrol 58: 215-234
Matte P, Maluski H, Rajlich P, Franke W (1990) Terrane boundaries in the Bohemian Massif: result of large-scale Variscan shearing. Tectonophysics 177: 151-170
Matura A (1976) Hypothesen zum Bau und zur geologischen Geschichte des kristallinen Grundgebirges von Südwestmähren und dem niederösterreichischen Waldviertel. Jb Geol B-A 119: 63-75
Matura A (2003) Zur tektonischen Gliederung der variszischen Metamorphite im Waldviertel Niederösterreichs. Jb Geol B-A 143: 221-225
Matzinger M, Finger F (2017) Bericht 2016 über geochemische und petrografische Untersuchungen an Orthogesteinen aus dem Nationalpark Thayatal-Podyjí auf Blatt 9 Retz. Jb Geol B-A 157: 301-306
Mielke P, Winkler HGF (1979) Eine bessere Berechnung der Mesonorm für granitische Gesteine. Neu Jb Mineral Mh 471-480
Miller CF, McDowell SM, Mapes RW (2003) Hot and cold granites: implications of zircon saturation temperatures and preservation of inheritance. Geology 31: 529-532
Nance RD, Murphy JB, Strachan RA, Keppie JD, Gutiérrez-Alonso G, Fernández-Suárez J, Quesada C, Linnemann U, D’Lemos RS, Pisarevsky SA (2008) Neoproterozoic-early Palaeozoic tectonostratigraphy and palaeogeography of the peri-Gondwanan terranes: Amazonian v. West African connections. In: Ennih N, Liégois JP (eds) The Boundaries of the West African Craton. Geological Society of London, Special Publications 297: pp 345-383
O’Brien PJ, Carswell DA (1993) Tectonometamorphic evolution of the Bohemian Massif: evidence from high pressure metamorphic rocks. Geol Rundsch 82: 531-555
O’Brien PJ, Vrána S (1995) Eclogites with a short-lived granulite-facies overprint in the Moldanubian Zone, Czech Republic - petrology, geochemistry and diffusion modeling of garnet zoning. Geol Rundsch 84: 473-488
Otten MT (1984) The origin of brown hornblende in the Artfjället gabbro and dolerites. Contrib Mineral Petrol 86: 189-199
Pearce JA, Harris NBW, Tindle AG (1984) Trace element distribution diagrams for the tectonic interpretation of granitic rocks. J Petrol 25: 956-983
Peccerillo A, Taylor SR (1976) Geochemistry of Eocene calc-alkaline volcanic rocks from the Kastamonu area, Northern Turkey. Contrib Mineral Petrol 58: 63-81
Petrakakis K (1997) Evolution of Moldanubian rocks in Austria: review and synthesis. J Metamorph Geol 15: 203-222
Racek M, Štípská P, Pitra P, Schulmann K, Lexa O (2006) Metamorphic record of burial and exhumation of orogenic lower and middle crust: a new tectonothermal model for the Drosendorf Window (Bohemian Massif, Austria). Mineral Petrol 86: 221-251
Racek M, Lexa O, Schulmann K, Corsini M, Štípská P, Maierová P (2017) Re-evaluation of polyphase kinematic and 40Ar/39Ar cooling history of Moldanubian hot nappe at the eastern margin of the Bohemian Massif. Int J Earth Sci 106: 397-420
René M, Finger F (2016) The Blaník Gneiss in the southern Bohemian Massif (Czech Republic): a rare rock composition among the early Palaeozoic granites of Variscan Central Europe. Mineral Petrol 110: 503-514
Rieder M, Cavazzini G, D’yakonov YS, Frank-Kamenetskii VA, Gottardi G, Guggenheim S, Koval P V, Mueller G, Neiva AMR, Radoslovich EW, Robert JL, Sassi FP, Takeda H, Weiss Z, Wones DR (1999) Nomenclature of the Micas. Mineral Mag 63: 267-279
Rudnick RL, Gao S (2003) Composition of the Continental Crust. In: Holland HD, Turekian KK (eds) Treatise on Geochemistry3, The Crust. Elsevier, Amsterdam, pp 1-64
Schmidt MW (1992) Amphibole composition in tonalite as a function of pressure: an experimental calibration of the Al-in-hornblende barometer. Contrib Mineral Petrol 110: 304-310
Schulmann K, Kröner A, Hegner E, Wendt I, Konopásek J, Lexa O, Štípská P (2005) Chronological constraints on the pre-orogenic history, burial and exhumation of deep-seated rocks along the eastern margin of the Variscan Orogen, Bohemian Massif, Czech Republic. Amer J Sci 305: 407-448
Scott JM, Konrad-Schmolke M, O’Brien PJ, Günter C (2013) High-T, low-P formation of rare olivine-bearing symplectites in Variscan eclogite. J Petrol 54: 1375-1398
Soejono I, Janoušek V, Žáčková E, Sláma J, Konopásek J, Machek M, Hanžl P (2017) Long-lasting Cadomian magmatic activity along an active northern Gondwana margin: U-Pb zircon and Sr-Nd isotopic evidence from the Brunovistulian Domain, eastern Bohemian Massif. Int J Earth Sci 106: 2109-2129
Souček J, Jelínek E, Bowes DR (1992) Geochemistry of gneisses of the eastern margin of the Bohemian Massif. In: Kukal Z (ed) Proceedings of the 1st International Conference on the Bohemian Massif. Czech Geological Survey, Prague, pp 269-285
Starijaš Mayer B, Krenn E, Finger F (2014) Microcrystals of Th-rich monazite (La) with a negative Ce anomaly in metadiorite and their role for documenting Cretaceous metamorphism in the Slavonian Mountains (Croatia). Mineral Petrol 108: 231-243
Štelcl J, Weiss J (1986) The Brno Massif. University of J. E. Purkyně, Brno, pp 1-255 (in Czech)
Streckeisen AL (1974) Classification and nomenclature of plutonic rocks. Recommendations of the IUGS Subcommission on the Systematics of Igneous Rocks. Geol Rundsch 63: 773-786
Suess FE (1926) Intrusionstektonik und Wandertektonik im variszischen Grundgebirge. Gebrüder Bornträger, Berlin, pp 1--268
Sun S -s., McDonough WF (1989) Chemical and isotopic systematics of oceanic basalts: implications for mantle composition and processes. In: Saunders AD, Norry MJ (eds) Magmatism in the Ocean Basins. Geological Society of London, Special Publications 42: pp 313-345
Svojtka M, Breiter K, Durišová J, Ackerman L, Veselovský F, Šmerda J (2017) Geochemistry and U-Pb zircon ages of Derflice granodiorite from the Thaya (Dyje) Massif. Geosci Res Rep 50: 17-24 (in Czech)
Tait JA, Bachtadse V, Franke W, Soffel H (1997) Geodynamic evolution of the European Variscan fold belt: palaeomagnetic and geological constraints. Geol Rundsch 86: 585
Taylor SR (1968) Geochemistry of andesites. In: Ahrens LH (ed) Origin and Distribution of the Elements. Elsevier, Amsterdam, pp 559-583
Thiele O (1984) Zum Deckenbau und Achsenplan des Moldanubikums der südlichen Böhmischen Masse (Österreich). Jb Geol B-A 126: 513-523
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
Vellmer C (1992) Stoffbestand und Petrogenese von Granuliten und granitischen Gesteinen der südlichen Böhmischen Masse in Niederösterreich. Unpublished PhD Thesis, University of Göttingen, pp 1-111
Venables WN, Ripley BD (2002) Modern Applied Statistics with S, 4th ed. Springer, New York, pp 1-498
Waldmann L (1938) Bericht über die geologischen Aufnahmen im Raume des Blattes “Horn (4555)” erstattet vom Privatdozenten Dr. Leo Waldmann. Verh Geol B-A 42-45
Waldmann L (1951) Das außeralpine Grundgebirge Österreichs. In: Schaffer FX (ed) Geologie von Österreich. Deuticke, Vienna, pp 1-105
Walter F, Auer C, Bernhard F, Bojar H, Brandstätter F, Gröbner J, Jakely D, Kolitsch U, Postl W, Prayer A, Schachinger T, Schillhammer H, Slama M, Steck C, Weiss J, Zeug M (2017) Neue Mineralfunde aus Österreich LXVI. Carinthia II 207/127: 217-284
Whitney DL, Evans BW (2010) Abbreviations for names of rock-forming minerals. Amer Miner 95: 185-187
Winchester J, PACE TMR Network Team (2002) Palaeozoic amalgamation of Central Europe: new results from recent geological and geophysical investigations. Tectonophysics 360: 5-21
Xie X, Byerly GR, Ferrell Jr. RE (1997) IIb trioctahedral chlorite from the Barberton greenstone belt: crystal structure and rock composition constraints with implications to geothermometry. Contrib Mineral Petrol 126: 275-291
Žák J, Verner K, Janoušek V, Holub F V., 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: pp 169-196
-
- Home
- Forthcoming papers
- Browse by:
- Table of Contents
- Virtual Volumes
- Authors
- Keywords
- Journal info:
- Scope
- Editorial Board
- Publisher
- How to order
- For authors:
- Submit a manuscript
- Instructions to Authors
- Services:
- E-mail alerts
-
Latest issue (RSS) - Follow us on Twitter
- Other
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
IF (WoS, 2022): 1.4
5 YEAR IF (WoS, 2022): 1.8
Policy: Open Access
ISSN: 1802-6222
E-ISSN: 1803-1943