Detrital zircons from the Hronicum Carboniferous–Permian sandstones (Western Carpathians, Slovakia): depositional age and provenance (original) (raw)
References
Andrusov D (1936) Les nappes subtatriques des Carpathes occidentales. Carpatica 1:3–50 (Czech with French summary) Google Scholar
Andrusov D (1968) Grundriss der Tektonik der Nördlichen Karpaten. Slovak Academy of Sciences Publ House, Bratislava, p 188 Google Scholar
Andrusov D, Bystrický J, Fusán O (1973) Outline of the structure of the West Carpathians—guide book for geological excursion Xth congress of Carpathian–Balkan Association. Dionýz Štúr Geological Institute, Bratislava, pp 1–44 Google Scholar
Bibikova EV, Cambel B, Korikovsky SP, Broska I, Gracheva TV, Makarov VA, Arakeliants MM (1988) U-Pb and K-Ar isotopic dating of Sinec (Rimavica) granites (Kohút zone of Veporides). Geol Zborn Geol Carpath 39(2):147–157 Google Scholar
Biely A (ed) (1992) Geological map of the Nízke Tatry Mountains 1:50,000. D Štúr Inst Geol, Bratislava Google Scholar
Biely A, Bezák V (eds) (1997) Explanation to geological map of the Nízke Tatry Mts, 1:50,000. Geological survey of Slovak Republic, Bratislava, p 232 (in Slovak with English summary)
Biely A, Fusán O (1967) Zum Problem der Wurzelzonen der subtatrischen Decken. Geol Práce Spr 42:51–64 Google Scholar
Biely A, Bezák V, Elečko M, Gross P, Kaličiak M, Konečný V, Lexa J, Mello J, Nemčok J, Potfaj M, Rakús M, Vass D, Vozár J, Vozárová A (1996a) Explanation to geological map of Slovakia, 1:500,000. Dionýz Štúr Publishers, Bratislava, p 76 Google Scholar
Biely A, Bezák V, Elečko M, Gross P, Kaličiak M, Konečný V, Lexa J, Mello J, Nemčok J, Potfaj M, Rakús M, Vass D, Vozár J, Vozárová A (1996b) Geological map of Slovakia: ministry of the environment of Slovak Republic. Geological Survey of Slovak Republic, Bratislava Google Scholar
Birkenmajer K (1985) Major strike-slip faults of the Pieniny Klippen Belt and the Tertiary rotation of the Carpathians. Publ Inst Geophys Pol Acad Sci A16(175):101–115 Google Scholar
Broska I, Petrík I, Beeri-Shlevin Y, Majka J, Bezák V (2013) Devonian/Mississippian I-type granitoids in the Western Carpathians: a subduction-related hybrid magmatism. Lithos 162–163:27–36 Article Google Scholar
Broutin J, Chateauneuf JJ, Galtier J, Ronchi A (1999) LʼAutunien dʼAutun reste-t-il une référence pour les dépôts continentaux du Permien inférieur dʼEurope? Apport des données paléobotaniques. Géol France 2:17–31 Google Scholar
Burda J, Gawęda A, Klötzli U (2011) Magma hybridization in the Western Tatra Mts. granitoid intrusion (S-Poland, Western Carpathians). Miner Petrol 103(1):19–36 Article Google Scholar
Demko R, Olšavský M (2007) The question of rhyolite detritus in the Malužiná formation. Miner Slovaca (Geovestník) 39(4):8–9 (Slovak) Google Scholar
Deroin JP, Bonin B (2003) Late Variscan tectonomagmatic activity in Western Europe and surrounding areas: The mid-Permian Episode. Boll Soc Geol It Spec Vol 2:169–184 Google Scholar
Dickinson WR (1985) Interpreting provenance relations from detrital modes of sandstones. In: Zuffa GG (ed) Provenance of Arenites. D Reidel Publ Comp, Dordrecht, pp 333–361 Chapter Google Scholar
Dickinson WR (1988) Provenance and sediment dispersal in relation to paleotectonics and paleogeography of sedimentary basins. In: Kleinspehn KL, Paola C (eds) New perspectives in basin analysis. Springer, New York, pp 3–25 Chapter Google Scholar
Dickinson WR, Gehrels GE (2009) Use of U-Pb ages of detrital zircons to infer maximum depositional ages of strata: a test against a Colorado Plateau Mesozoic database. Earth Planet Sci Lett 288(1–2):115–125. https://doi.org/10.1016/j.epsl.2009.09.013 Article Google Scholar
Dickinson WR, Suczek CA (1979) Plate tectonics and sandstone compositions. Am Assoc Pet Geol Bull 63(12):2164–2182 Google Scholar
Dostal J, Vozár J, Keppie JD, Hovorka D (2003) Permian volcanism in the Central Western Carpathians (Slovakia): basin-and-range type rifting in the southern Laurussian margin. Int J Earth Sci (Geol Rundsch) 92:27–35. https://doi.org/10.1007/s00531-002-0307-6 Google Scholar
Drost K, Gerdes A, Jeffries T, Linnemann U, Storey C (2011) Provenance of Neoproterozoic and early Paleozoic siliciclastic rocks of the Teplá-Barrandian unit (Bohemian Massif): evidence from U-Pb detrital zircon ages. Gondwana Res 19(1):213–231 Article Google Scholar
Ďurovič V (1971) Sedimentary-petrographical investigation of the volcano sedimentary (melaphyre) series of the Central Western Carpathians. Acta Geol Geogr Univ Comen 23:5–114 (Slovak with English summary) Google Scholar
Ebner F, Vozárová A, Kovács S, Kräutner H-G, Krstić B, Szederkényi T, Jamićić D, Balen D, Belak M, Trajanova M (2008) Devonian–Carboniferous pre-flysch and flysch environments in the Circum Pannonian Region. Geol Carpath 59(2):159–195 Google Scholar
Fernández-Suárez J, Gutiérrez-Alonso G, Jeffries TE (2002) The importance of along-margin terrane transport in northern Gondwana: insights from detrital zircon parentage in Neoproterozoic rocks from Iberia and Brittany. Earth Planet Sci Lett 204:75–88 Article Google Scholar
Fernández-Suárez J, Gutiérrez-Alonso G, Pastor-Galán D, Hofmann M, Murphy JB, Linnemann U (2014) The Ediacaran–Early Cambrian detrital zircon record of NW Iberia: possible sources and paleogeographic constraints. Int J Earth Sci (Geol Rundsch) 103(5):1335–1357. https://doi.org/10.1007/s00531-013-0923-3 Article Google Scholar
Finger F, Broska I, Haunschmid B, Hrasko L, Kohút M, Krenn E, Petrík I, Riegler G, Uher P (2003) Electron-microprobe dating of monazites from Western Carpathian basement granitoids: plutonic evidence for an important Permian rifting event subsequent to Variscan crustal anatexis. Int J Earth Sci (Geol Rundsch) 92:86–98. https://doi.org/10.1007/s00531-002-0300-0 Google Scholar
Flügel HW (1990) Das voralpine Basement im Alpin-Mediterranen Belt—Überblick und Problematik. Jb Geol B A 133(2):181–221 Google Scholar
Gaab AS, Poller U, Janák M, Kohút M, Todt W (2005) Zircon U-Pb geochronology and isotopic characterization for the pre-Mesozoic basement of the Northern Veporic Unit (Central Western Carpathians Slovakia). Schweiz Mineral Petrogr Mitt 85:69–88 Google Scholar
Havrila M (2011) The Hronicum: paleogeography and stratigraphy (Upper Pelsonian–Tuvalian), structuring and fabric. Geol Práce—Správy, Dionýz Štúr, vol 117. Dionýz Štúr Publishers, Bratislava, pp 7–107 (Slovak with English summary)
Henderson BJ, Collins WJ, Murphy JB, Gutiérrez-Alonso G, Hand M (2016) Gondwanan basement terranes of the Variscan Appalachian orogen: Baltican, Saharan and West African hafnium isotopic fingerprints in Avalonia, Iberia and the Armorican Terranes. Tectonophysics 681:278–304 Article Google Scholar
Hók J, Šujan M, Šipka F (2014) Tectonic division of the Western Carpathians: an overview and a new approach. Acta Geol Slovaca 6(2):135–143 (Slovak with English summary) Google Scholar
Ingersoll RV (1990) Actualistic sandstone petrofacies: discriminating modern and ancient source rocks. Geology 18(8):733–736 Article Google Scholar
Izart A, Vaslet D, Briand C et al (1998) Stratigraphic correlations between the continental and marine Tethyan and Peri-Tethyan basins during the Late Carboniferous and the Early Permian. In: Crasquin-Soleau S, Izart A, Vaslet D, De Wever P (eds) Peri-Tethys: stratigraphic correlation 2. Edition scientifiques du Muséum, Paris, Geodiversitas, vol 20, pp 521–595
Janák M, Finger F, Plašienka D, Petrík I, Humer B, Méres Š, Lupták B (2002) Variscan high P-T recrystallization of Ordovician granitoids in the Veporic unit (Nízke Tatry Mountains, Western Carpathians): new petrological and geochronological data. Geolines 14:38–39 Google Scholar
Kohút M, Todt W, Janák M, Poller U (1997) Thermochronometry of the Variscan basement exhumation in the Velká Fatra Mts. (Western Carpathians, Slovakia). Terra Abstr 9:494 Google Scholar
Kohút M, Poller U, Gurk C, Todt W (2008) Geochemistry and U-Pb detrital zircon ages of metasedimentary rocks of the Lower Unit, Western Tatra Mountains (Slovakia). Acta Geol Pol 58(4):371–384 Google Scholar
Kohút M, Uher P, Putiš M, Ondrejka M, Sergeev S, Larionov A, Paderin I (2009) SHRIMP U-Th-Pb zircon dating of the granitoid massifs in the Malé Karpaty Mountains (Western Carpathians): evidence of Meso-Hercynian successive S- to I-type granitic magmatism. Geol Carpath 60(5):345–350 Article Google Scholar
Kohút M, Uher P, Putiš M, Broska I, Siman P, Rodionov N, Sergeev S (2010) Are there any differences in age of the two principal Hercynian (I- & S-) granite types from the Western Carpathians?—a SHRIMP approach. In: Kohút M (ed) Dating of minerals and rocks, metamorphic, magmatic and metallogenetic processes, as well as tectonic events. Dionýz Štúr State Geological Institute, Bratislava, pp 17–18 Google Scholar
Kráľ J, Hess JC, Kober B, Lippolt HJ (1997) 207Pb/206Pb and 40Ar/39Ar age data from plutonic rocks of the Strážovské vrchy Mts. basement, Western Carpathians. In: Grecula P, Hovorka D, Putiš M (eds) Geological evolution of the Western Carpathians. Mineralia Slovaca, Bratislava, pp 253–260 Google Scholar
Larionov AN, Andreichev VA, Gee DG (2004) The Vendian alkaline igneous suite of northern Timan: ion microprobe U-Pb zircon ages of gabbros and syenite. In: Gee DG, Pease V (eds) The Neoproterozoic Timanide Orogen of Eastern Baltica. Mem Geol Soc Lond, vol 30, London, pp 69–74
Linnemann U, Pereira F, Jeffries TE, Drost K, Gerdes A (2008) The Cadomian Orogeny and the opening of the Rheic Ocean: the diacrony of geotectonic processes constrained by LA-ICP-MS U-Pb zircon dating (Ossa-Morena and Saxo-Thuringian Zones, Iberian and Bohemian Massifs). Tectonophysics 461:21–43 Article Google Scholar
Linnemann U, Gerdes A, Hofmann M, Marko L (2014) The Cadomian Orogen: Neoproterozoic to Early Cambrian crustal growth and orogenic zoning along the periphery of the West African Craton—Constraints from U-Pb zircon ages and Hf isotopes (Schwarzburg Antiform, Germany). Precambrian Res 244:236–278 Article Google Scholar
Ludwig KR (2005а) SQUID 1.12 A userʼs manual. A geochronological toolkit for microsoft excel. Berkeley Geochronology Center Special Publication, pp 1–22 http://www.bgca.org/klprogrammenu.html
Ludwig KR (2005b) User’s manual for ISOPLOT/Ex 3.22. A geochronological toolkit for microsoft excel. Berkeley Geochronology Center Special Publication, pp 1–71 http://www.bgca.org/klprogrammenu.html
Ludwig KR (2012) User’s manual for isoplot 3.75. A geochronological toolkit for microsoft excel. Berkeley Geochronology Center Special Publication, pp 1–75, http://www.bgc.org/isoplot.html
Maheľ M (1986) Geological structure of the Czechoslovak Carpathians, Part 1: paleoalpine units. Veda Publ House, Bratislava, p 503 (Slovak) Google Scholar
Menning M (1995) A numerical time scale for the Permian and Triassic periods: an integrated time analysis. In: Scholle PA, Peryt TM, Ulmer-Sholle DS (eds) The Permian of Northern Pangea, paleogeography, paleoclimates, stratigraphy, vol 1. Springer, Berlin, pp 77–97 Chapter Google Scholar
Menning M (2001) A Permian Time Scale 2000 and correlation of marine and continental sequences using the Illawarra reversal (265 Ma). In: Cassinis G (ed) Permian continental deposits of Europe and other areas. In: Proc Int Field Conf on “the continental permian of the Southern Alps and Sardinia (Italy). Regional reports and general correlations”, 15–25 Sept 1999, Brescia, Italy, pp 355–362
Menning M, Hendrich A (eds) (2012) Stratigraphic table of Germany compact 2012 (STDKe 2012). Deutsche Stratigraphische Komission, Potsdam Google Scholar
Neubauer F, Vozárová A (1990) The Noetsch-Veitsch-Northgemeric Zone of Alps and Carpathians: correlation, paleogeography and significance for Variscan orogeny. In: Minaříková D, Lobitzer H (eds) Thirty years of geological cooperation between Austria and Czechoslovakia. Federal Geol Surv, Vienna, pp 167–171 Google Scholar
Olšavský M (2008) Facial analysis of depositional sequences of the Malužiná Formation and its geological setting at northeastern slopes of the Nízke Tatry Mts. Dissertation, Comenius University in Bratislava, pp 1–194 (in Slovak)
Petrík I, Konečný P (2009) Metasomatic replacement of inherited metamorphic monazite in a biotite–garnet granite from the Nízke Tatry Mountains, Western Carpathians, Slovakia: chemical dating and evidence for disequilibrium melting. Am Miner 94:957–974 Article Google Scholar
Planderová E (1973) Palynological research in the melaphyre series of the Choč unit in the NE part of Nízke Tatry between Spišský Štiavnik and Vikartovce. Geol Práce Spr 60:143–168 Google Scholar
Planderová E (1979) Biostratigraphical valuation of the Carboniferous of the Choč nappe, based on palynology. Geol Práce Spr 72:31–59 (Slovak with English summary) Google Scholar
Planderová E, Vozárová A (1982) Biostratigraphical correlation of Late Paleozoic formations in the West Carpathians. In: Sassi FP, Varga I (eds): Correlation of Prevariscan and Variscan events of the Alpine-Mediterranean mountain belt. Newsletter 4, IGCP Pr. No. 5, Košice, Padova. Dionýz Štúr Geological Institute, Bratislava, pp 67–71
Plašienka D, Janák M, Hacura A, Vrbatovič P (1989) First illite crystallinity data from Alpine metamorphosed rocks of the Veporicum, Central West—Carpathians. Miner Slovaca 21:43–51 (Slovak with English summary) Google Scholar
Plašienka D, Grecula P, Putiš M, Kováč M, Hovorka D (1997) Evolution and structure of the Western Carpathians: an overview. In: Grecula P, Hovorka D, Putiš M (eds) Geological evolution of the Western Carpathians. Miner Slovaca, Monograph. Geocomplex publishers, Bratislava, pp 1–24
Poller U, Todt W (2000) U-Pb single zircon data of granitoids from the High Tatra Mountains (Slovakia): implications for the geodynamic evolution. Geol Soc Am Spec Pap 350:235–243 Google Scholar
Poller U, Janák M, Kohút M, Todt W (2000) Early Variscan magmatism in the Western Carpathians: U-Pb zircon data from granitoids and orthogneisses of the Tatra Mountains (Slovakia). Int J Earth Sci (Geol Rundsch) 89(2):336–349. https://doi.org/10.1007/s005310000082 Article Google Scholar
Putiš M, Sergeev S, Ondrejka M, Larionov A, Siman P, Spišiak J, Uher P, Paderin I (2008) Cambrian-Ordovician metaigneous rocks associated with Cadomian fragments in the West-Carpathian basement dated by SHRIMP on zircons: a record from the Gondwana active margin setting. Geol Carpath 59(1):3–18 Google Scholar
Putiš M, Ivan P, Kohút M, Spišiak J, Siman P, Radvanec M, Uher P, Sergeev S, Larionov A, Méreš Š, Demko R, Ondrejka M (2009) Meta-igneous rocks of the West-Carpathian basement, Slovakia: indicators of Early Paleozoic extension and shortening events. Bull Soc Géol Fr 180(6):461–471 Article Google Scholar
Rakús M, Potfaj M, Vozárová A (1998) Basic paleogeographic and paleotectonic units of the Western Carpathians. In: Rakús M (ed) Geodynamic development of the Western Carpathians. D Štúr Publ, Monograph, Bratislava, pp 15–26 Google Scholar
Rojkovič I (1997) Uranium mineralization in Slovakia. Acta Geol Univers Comen, Monogr, Bratislava, p. 117 Google Scholar
Roscher M, Schneider JW (2006) Permo-Carboniferous climate: Early Pennsylvanian to Late Permian climate development of central Europe in a regional and global context. In: Lucas SG, Cassinis G, Schneider JW (eds) Non-marine permian biostratigraphy and biochronology. Geol Soc London Spec Publ, vol 265, London, pp 95–136
Shcherbak NP, Cambel B, Bartnitsky EN, Stepanyuk LM (1990) U-Pb age of granitoid rock from the quarry Dubná Skala–Malá Fatra Mts. Geol Zborn Geol Carpath 41:407–414 Google Scholar
Sitár V, Vozár J (1973) Die ersten Makrofloren-Funde in dem Karbon der Choč-Einheit in der Niederen Tatra (Westkarpaten). Geol Zborn Geol Carpath 24(2):441–448 Google Scholar
Spencer CJ, Kirkland CL, Taylor RJM (2016) Strategies towards statistically robust interpretations of in situ U-Pb zircon geochronology. Geosci Front 7:581–589 Article Google Scholar
Stampfli GM (2012) The Geodynamics of Pangea Formation. Géol Fr 1:208–211 Google Scholar
Stampfli GM, von Raumer J, Wilhem C (2011) The distribution of Gondwana-derived terranes in the Early Paleozoic. In: Gutiérrez-Marco JC, Rábano I, García-Bellido D (eds) Ordovician of the world. Cuadernos del Museo Geominero, 14. Instituto Geológico y Minero de España, Madrid, pp 567–574 Google Scholar
Stampfli GM, Hochard C, Vérard C, Wilhem C, von Raumer J (2013) The formation of Pangea. Tectonophysics 593:1–19 Article Google Scholar
Steiger RH, Jäger E (1977) Subcommission on geochronology: convention on the use of decay constants in geo- and cosmochronology. Earth Planet Sci Lett 36:359–362 Article Google Scholar
Šucha V, Eberl DD (1992) Burial metamorphism of Permian sediments in the Northern Gemeric and Hronic units, West Carpathians. Miner Slovaca 24(5–6):399–405 (Slovak with English summary) Google Scholar
Vďačný M, Bačík P (2015) Provenance of the Permian Malužiná formation sandstones (Malé Karpaty Mts, Western Carpathians): evidence of garnet tourmaline mineral chemistry. Geol Carpath 66(2):83–97. https://doi.org/10.1515/geoca-2015-0012 Google Scholar
Vďačný M, Vozárová A, Vozár J (2013) Geochemistry of the Permian sandstones from the Malužiná Formation in the Malé Karpaty Mts (Hronic Unit, Western Carpathians, Slovakia): implications for source-area weathering, provenance and tectonic setting. Geol Carpath 64(1):23–38. https://doi.org/10.2478/geoca-2013-0002 Google Scholar
von Raumer JF, Stampfli GM, Bussy F (2003) Gondwana-derived microcontinents—the constituents of the Variscan and Alpine collisional orogens. Tectonophysics 365:7–22 Article Google Scholar
von Raumer JF, Bussy F, Stampfli GM (2009) The Variscan evolution in the External massifs of the Alps and place in their Variscan framework. C R Geosci 341:239–252 Article Google Scholar
von Raumer JF, Bussy F, Schaltegger U, Schulz B, Stampfli GM (2013) Pre-Mesozoic Alpine basements—their place in the European Paleozoic framework. Geol Soc Am Bull 125:89–108 Article Google Scholar
Vozár J (1977) Magmatic rocks of the tholeiite series in the Permian of the Choč nappe in the West Carpathians. Miner Slovaca 9(4):241–258 (Slovak with English summary) Google Scholar
Vozár J (1997) Rift-related volcanism in the Permian of the Western Carpathians. In: Grecula P, Hovorka D, Putiš M (eds) Geological evolution of the Western Carpathians. Miner Slovaca, Monogr, Bratislava, pp 225–234 Google Scholar
Vozár J, Spišiak J, Vozárová A, Bazarnik J, Kráľ J (2015) Geochemistry and Sr, Nd isotopic composition of the Hronic Upper Paleozoic basic rocks (Western Carpathians, Slovakia). Geol Carpath 66(1):3–17. https://doi.org/10.1515/geoca-2015-0007 Article Google Scholar
Vozárová A (1981) Lithology and Petrography of the Nižná Boca formation (Upper Carboniferous; West Carpathians). Záp Karpaty sér miner Petrogr Geoch Metal 8:143–199 (in Slovak with English summary) Google Scholar
Vozárová A (1990) Significance of clastic petrofacies for reconstruction of paleotectonic development of the Late Paleozoic in the Western Carpathians. In: Sýkora M, Jablonský J, Samueal O (eds) Sedimentological problems of the West Carpathians. D Štúr Inst Geol, Bratislava, pp 69–78 (Slovak with English summary) Google Scholar
Vozárová A (1996) Tectono-sedimentary evolution of Late Paleozoic Basins based on interpretation of Lithostratigraphic Data (Western Carpathians; Slovakia). Slovak Geol Mag 2(3–4):251–271 Google Scholar
Vozárová A (1998) Late Carboniferous to Early Permian time interval in the Western Carpathians: Northern Tethys Margin. In: Crasquin-Soleau S, Izart A, Vaslet D, De Wever P (eds) Peri-Tethys: stratigraphic correlations 2. Geodiversitas, vol 20. Edition scientifiques du Muséum, Paris, pp 621–641 Google Scholar
Vozárová A, Túnyi I (2003) Evidence of the Illawarra Reversal in the Permian sequence of the Hronic Nappe (Western Carpathians, Slovakia). Geol Carpath 54(4):229–236 Google Scholar
Vozárová A, Vozár J (1979) Crystalline complex in the basal part of Choč nappe. Geol Práce Spr 72:195–197 (Slovak with English summary) Google Scholar
Vozárová A, Vozár J (1981) Lithostratigraphical subdivision of Late Paleozoic sequences of the Hronic unit. Miner Slovaca 13:385–403 (Slovak with English summary) Google Scholar
Vozárová A, Vozár J (1988) Late Paleozoic in West Carpathians. Monogr, D Štúr Inst Geol, Bratislava, pp 1–314 Google Scholar
Vozárová A, Frank W, Kráľ J, Vozár J (2005) 40Ar/39Ar dating of detrital mica from the Upper Paleozoic sandstones in the Western Carpathians (Slovakia). Geol Carpath 56(6):463–472 Google Scholar
Vozárová A, Kráľ J, Vozár J (2007) Sr isotopic composition in basalts of the Hronicum. PETROS, petrological symposium Bratislava, abstracts, Comenius University Bratislava, p 22 (in Slovak)
Vozárová A, Ebner F, Kovács S, Kräutner H-G, Szederkenyi T, Krstić B, Sremac J, Aljinovič D, Novak M, Skaberne D (2009) Late Variscan (Carboniferous to Permian) environments in the Circum Pannonian Region. Geol Carpath 60(1):71–104. https://doi.org/10.2478/v10096-009-0002-7 Article Google Scholar
Vozárová A, Šarinová K, Larionov A, Presnyakov S, Sergeev S (2010) Late Cambrian/Ordovician magmatic arc type volcanism in the Southern Gemericum basement, Western Carpathians, Slovakia: U-Pb (SHRIMP) data from zircons. Int J Earth Sci (Geol Rundsch) 99(Suppl 1):S17–S37. https://doi.org/10.1007/s00531-009-0454-0 Article Google Scholar
Vozárová A, Šarinová K, Rodionov N, Laurinc D, Paderin I, Sergeev S, Lepekhina E (2012) U-Pb ages of detrital zircons from Paleozoic metasandstones of the Gelnica Terrane (Southern Gemeric Unit, Western Carpathians, Slovakia): evidence for Avalonian–Amazonian provenance. Int J Earth Sci (Geol Rundsch) 101:919–936. https://doi.org/10.1007/s00531-011-0705-8 Article Google Scholar
Vozárová A, Laurinc D, Šarinová K, Larionov A, Presnyakov S, Rodionov N, Paderin I (2013) Pb ages of detrital zircons in relation to geodynamic evolution: Paleozoic of the Northern Gemericum (Western Carpathians, Slovakia). J Sediment Res 83:915–927. https://doi.org/10.2110/jsr.2013.66 Article Google Scholar
Vozárová A, Konečný P, Vďačný M, Vozár J, Šarinová K (2014) Provenance of Permian Malužiná Formation sandstones (Hronicum, Western Carpathians): evidence from monazite geochronology. Geol Carpath 65(5):329–338. https://doi.org/10.2478/geoca-2014-0023 Article Google Scholar
Vozárová A, Rodionov N, Šarinová K, Presnyakov S (2016) New zircon ages on the Cambrian–Ordovician volcanism of the Southern Gemericum basement (Western Carpathians, Slovakia): SHRIMP dating, geochemistry and provenance. Int J Earth Sci (Geol Rundsch). https://doi.org/10.1007/s00531-016-1420-2 Google Scholar
Vrána S, Vozár J (1969) Über die Mineralgemeinschaft der Pumpellyit-Prehnit-Quarzfazies in der Niederen Tatra. Geol Práce Spr 49:91–99 (Slovak with German summary) Google Scholar
Wardlaw BR, Davydov V, Gradstein FM (2004) The Permian Period. In: Gradstein FM, Ogg JG, Smith AG (eds) Geologic timescale 2004. Cambridge University Press, Cambridge, pp 249–270 Google Scholar
Wiedenbeck M, Allé P, Corfu F, Griffin WL, Meier M, Oberli F, von Quadt A, Roddick JC, Spiegel W (1995) Three natural zircon standards for U-Th-Pb, Lu-Hf, trace element and REE analyses. Geostandard Newslett 19:1–23 Article Google Scholar
Williams IS (1998) U-Th-Pb geochronology by ion microprobe. In: McKissen MA, Shanks WC III, Ridley WS (eds) Applications of microanalytical techniques to understanding mineralizing processes. Rev Econ Geol, vol 7, pp 1–35
Yerino LN, Maynard JB (1984) Petrography of modern marine sands from the Peru-Chile Trench and adjacent areas. Sedimentology 31(1):83–89 Article Google Scholar
Zeh A, Gerdes A (2010) Baltica and Gondwana-derived sediments in the Mid-German Crystalline Rise (Central Europe): implications for the closure of the Rheic Ocean. Gondwana Res 17(2–3):254–263 Article Google Scholar
Ziegler PA, Stampfli GM (2001) Late Palaeozoic-Early Mesozoic plate boundary reorganization: collapse of the Variscan orogen and opening of Neotethys. In: Cassinis G (ed) Permian continental deposits of Europe and other areas. Regional reports and correlations. Proc Int Field Conf on The continental Permian of the Southern Alps and Sardinia (Italy).ˮ 15–25 September 1999, Brescia. Natura Bresciana, Ann Mus Civ Sci Nat, Brescia Monografia N 25:17–34