Geochronology of granitoids from Psunj and Papuk Mts., Croatia

Horvat, M.; Klötzli, U.; Jamičić, D.; Buda, G.; Klötzli, E.; Hauzenberger, Ch.

doi:10.1515/geochr-2015-0099

Artykuł - szczegóły

Tytuł artykułu

Geochronology of granitoids from Psunj and Papuk Mts., Croatia

Autorzy

Horvat M. , Klötzli U. , Jamičić D. , Buda G. , Klötzli E. , Hauzenberger Ch.

Wybrane pełne teksty z tego czasopisma

Identyfikatory

DOI

10.1515/geochr-2015-0099

Warianty tytułu

Języki publikacji

Abstrakty

Detailed cathodoluminescence (CL) and back scattered electron (BSE) imaging of zircon crystals, coupled with in-situ U-Pb zircon dating by Laser Ablation Multi-Collector Inductively Coupled Plasma Mass Spectrometry (LA-MC-ICP-MS) were used to develop new insights into the evolution of a monzogranite from Omanovac Quarry (Psunj Mt.), and of monzogranites from Šandrovac Quarry and Kišeljevac Creek (Papuk Mt.), both located in the Slavonian Mountains (Croatia). U-Pb isotopic data yielded a concordia age of 380 ± 4 Ma for the monzogranite from Omanovac Quarry, and 382 ± 2 Ma and 383 ± 5 Ma for monzogranites from Šandrovac Quarry and Kišeljevac Creek. The results suggest Late Devonian magmatic activity.

Słowa kluczowe

zircon geochronology monzogranite Late Devonian Psunj Mt Papuk Mt Croatia

Wydawca

De Gruyter

Czasopismo

Geochronometria

Rocznik

2018

Tom

Vol. 45, no. 1

Strony

198--210

Opis fizyczny

Bibliogr. 62 poz., rys., tab.

Twórcy

autor

Horvat M.

mhorvat@hgi-cgs.hr

Croatian Geological Survey, Department of Geology, Sachsova 2, 10000 Zagreb, Croatia

autor

Klötzli U.

University of Vienna, Department of Lithospheric Research, Althanstraße 14, A-1090 Vienna, Austria

autor

Jamičić D.

Svetojanska 21, 10000 Zagreb, Croatia

autor

Buda G.

Eötvös Lóránd University, Institute of Geology, Department of Mineralogy, Pázmány Péter sétány 1/c, H-1117 Budapest, Hungary

autor

Klötzli E.

University of Vienna, Department of Lithospheric Research, Althanstraße 14, A-1090 Vienna, Austria

autor

Hauzenberger Ch.

Karl-Franzens-University, Department of Earth Sciences, Universitätsplatz 2, 8010 Graz, Austria

Bibliografia

1. Balen D, Horváth P, Tomljenović T, Finger F, Humer B, Pamić J and Árkai P, 2006. A record of pre-Variscan Barrovian regional metamorphism in the eastern part of the Slavonian Mountains (NE Croatia). Mineralogy and Petrology87: 143–162.
2. Balen D, Horváth P, Finger F and Starijaš B, 2013. Phase equilibrium, geothermobarometric and xenotime age dating constraints on the Alpine metamorphism recorded in chloritoid schists from the southern part of the Tisia Mega-Unit (Slavonian Mts., NE Croatia). International Journal of Earth Sciences102: 1091–1109.
3. Balen D, Massonne H-J and Petrinec Z, 2015. Collision-related Early Paleozoic evolution of a crustal fragment from the northern Gondwana margin (Slavonian Mountains, Tisia Mega-Unit Croatia): Reconstruction of the P–T path, timing and paleotectonic implications, Lithos 232: 211–228.
4. Balla Z, 1986. Analysis of the anti-clockwise rotation of the Mecsek Mountains (Southwest Hungary) in the Cretaceous: interpretation of paleomagnetic data in the light of the geology. Geophysical Transactions32(2):147–181.
5. Biševac V, Balogh K, Balen D and Tibljaš, D, 2010. Alpine (Cretaceous) very low- to low-grade metamorphism recorded on the illite-muscovite-rich fraction of metasedimentsfrom South Tisia (eastern Mt Papuk, Croatia). Geologica Carpathica 61: 469–481.
6. Biševac V, Krenn E, Finger F, Lužar-Oberiter B and Balen D, 2013. Provenance of Palaeozoic very low- to low-grade metasedimentary rocks of south Tisia (Slavonian Mountains, Radlovac complex, Croatia). Geologica Carpathica64: 3–22.
7. Bleahu M, Mantea G, Bordea S, Panin S, Stephanescu M, Šikić K, Haas J, Kovács S, Péró Cs, Bérczi-Makk Á, Konrád Gy, Nagy E, Rálisch-Felgenhauer E and Török Á, 1996. Triassic facies types, evolutions and paleogeographic relations of Tisza Megaunit. Acta Geologica Hungarica 37(3–4):187–234.
8. Brkić M, Jamičić D and Pantić N, 1974. Karbonske naslage u Papuku (sjeveroistočna Hrvatska) (Carboniferous deposits in Papuk Mountain – Northeastern Croatia). Geološki vjesnik 27: 53–58 (in Croatian).
9. Chappell BW and White AJR, 1974. Two contrasting granite types. Pacific Geology 8: 173–174.
10. Chappell BW and White AJR, 1984. I- and S-type granites in the Lachlan Fold Belt, south-eastern Australia. In: Keqin X and Guangchi T, eds., Geology of granites and their metallogenic relations. Science Press Beijing, 87–101.
11. Chappell BW and White AJR, 2001. Two contrasting granite types: 25 years later. Australian Journal of Earth Sciences 48(4): 489–499.
12. Csontos L, Nagymarosi A, Horváth F and Kováć M, 1992. Tertiary evolution of the Intracarpathian area: model.Tectonophysics 208: 221–241.
13. Debon F and Le Fort P, 1983. A chemical-mineralogical classification of common plutonic rocks and associations.Transactions of the Royal Society of Edinburgh: Earth Sciences 73: 135–149.
14. de la Roche H, Leterrier J, Grandclaude P and Marchal M, 1980. A classification of volcanic and plutonic rocks using R1R2-diagram and major element analyses – its relationships with current nomenclature. Chemical Geology29: 183–210.
15. Ebner F, Vozárová A, Kovács S, Kräutner HG, Krstić B, Szederkényi T, Jamičić D, Balen D, Belak M and Trajanova M, 2008. Devonian-Carboniferous pre-flysch and flysch environments in the Circum Pannonian Region. Review. Geologica Carpathica 59(2): 159–195.
16. Haas J, 2015. Geological and Tectonic Background. In: Lóczy D, ed., Landscapes and Landforms of Hungary, World Geomorphological Landscapes .
17. Haas J and Péró Cs, 2004. Mesozoic evolution of the Tisza Mega-unit. International Journal of Earth Sciences 93: 297–313.
18. Horvat M and Buda Gy, 2004. Geochemistry and Petrology of some Granitoids from Papuk and Psunj Slavonian Mountains (Croatia). Acta Mineralogica-Petrographica 45(1): 93–100.
19. Horvat M, Kovács Kis V and Dódony I, 2002. Crystallization path of K-feldspar megacrysts from Mt. Papuk, Croatia.Geologica Carpathica(special issue) 53: 189–190.
20. Horvat M, Tibljaš D, Buda Gy and Lovas Gy, 2011. X-ray study of potassium feldspars from different granitoid types and gneisses of Papuk Mt. (Slavonia, Croatia). Geologia Croatica 64(2): 153–162.
21. Horvat M, Klötzli U, Klötzli E, Jamičić D and Buda Gy, 2015a. Magmatic formation/intrusion age of monzogranite from Omanovac Quarry, Psunj Mt., Croatia. In: Horvat M and Wacha L, eds., Abstracts Book 4th Croatian Geological Congress, 14–15.10.2010. Šibenik, 111–112.
22. Horvat M, Klötzli U, Klötzli E, Jamičić D and Buda Gy, 2015b. Magmatic formation/intrusion age of monzogranite from Šandrovac Quarry, NW Papuk Mt., Croatia. MinPet 2015, September 10th-13thLeoben, Austria, AbstractsMitteilungen der Österreichischen Mineralogischen Gesellschaft 161: 52–52.
23. Horváth F, 1993. Towards a mechanical model for the formation of the Pannonian Basin. Tectonophysics 226: 333–357.
24. Horváth P, Balen D, Finger F, Tomljenović B and Krenn E, 2010. Contrasting P–T–t paths from the basement of the Tisia Unit (Slavonian Mts., NE Croatia): application of quantitative phase diagrams and monazite age dating. Lithos117: 269–282.
25. IUGS Subcommission on the Systematics of Igneous Rocks, 1973. Classification and Nomenclature of Plutonic Rocks Recommendations. Neues Jahrbuch für Mineralogie Monatshefte 4:149–164.
26. Jamičić D, 1983. Strukturni sklop metamorfnih stijena Krndije i južnih padina Papuka (Structural fabric of the metamorphosed rocks of Mt. Krndija and the eastern part of Mt. Papuk). Geološki vjesnik 36: 51–72 (in Croatian).
27. Jamičić D, 1988. Strukturni sklop slavonskih planina (sjeverni Psunj, Papuk, Krndija) (Structural pattern of the Slavonian Mountains (Northern Psunj, Papuk, and Krndija)). PhD Thesis, University of Zagreb, 152pp (in Croatian).
28. Jamičić D, 1989. Osnovna geološka karta SFRJ 1:100000, list Daruvar, L33–95 (Basic Geological Map of SFRY, 1:100000, Daruvar sheet). Geološki zavod Zagreb, Savezni geološki zavod Beograd (in Croatian).
29. Jamičić D, 2001. Main geological features of the Slavonian Mts. focused to the Našice area. Matica Hrvatska, Našički zbornik6: 29–36 (in Croatian).
30. Jamičić D and Brkić M, 1987. Osnovna geološka karta SFRJ 1:100000, list Orahovica, L33–96 (Basic Geological Map of SFRY 1:100000, Orahovica sheet). Geološki zavod Zagreb, Savezni geološki zavod Beograd (in Croatian).
31. Jamičić D, Brkić M, Crnko J and Vragović M, 1987. Osnovna geološka karta SFRJ 1:100000. Tumač za list Orahovica, L33–96 (Explanatory notes for the Basic Geological Map of SFRY 1:100000, Geology of Orahovica sheet). Geološki zavod Zagreb, Savezni geološki zavod Beograd, 72pp (in Croatian).
32. Jamičić D, Vragović M and Matičec D, 1989. Osnovna geološka karta SFRJ 1:100000. Tumač za list Daruvar, L33–95 (Explanatory notes for the Basic Geological Map of SFRY, 1:100000. Geology of Daruvar sheet). Geološki zavod Zagreb, Savezni geološki zavod Beograd, 55pp (in Croatian).
33. Klötzli U, Klötzli E, Günes Z and Košler J, 2009. External accuracy of laser ablation U-Pb zircon dating: results from a test using five different reference zircons. Geostandards and Geoanalytical Research 33(1): 5–15.
34. Kovács S, Haas J, Császár G, Szederkényi T, Buda Gy and Nagymarosy A, 2000. Tectonostratigraphic terranes in the pre-Neogene basement of the Hungarian part of the Pannonian area. Acta Geologica Hungarica 43(3): 225–328.
35. Kovács Kis V, Horvat M and Dódony I, 2004. Microstructure in Two Alkali Feldspar Megacryst from the Papuk Mt., Croatia.Geologia Croatica 57(2): 149–158.
36. Ludwig KR, 2003. Isoplot/Ex version 3.00. A geochronological toolkit for Microsoft Excel. Berkeley Geochronology Center.Special Publication No. 4
37. Lugović B, 1983. Efuzivne stijene sjeverozapadnog dijela Papuka (Extrusive rocks from the NW part of Mt. Papuk (Croatia, Yugoslavia). Geološki vjesnik36: 131–156 (in Croatian).
38. Marci V, 1965. Petrografija zapadnog dijela Psunja (Petrography of the western part of Psunj Mountain). Acta geologicaIV,Prirodoslovna istraživanjaknjiga 34: 316–322 (in Croatian).
39. Marci V, 1971. Metasomatski procesi u kontaktnim zonama granita i amfibolita na području Donje Rašaške, Psunj (Metasomatic processes in the granite and amphibolite contact zone in the Donja Rašaška territory, Psunj). Geološki vjesnik 24: 123–131 (in Croatian).
40. Marci V, 1973. Geneza granitnih stijena Psunja (Genetic aspects of granitic rocks of Psunj). Acta geologicaVII/5,Prirodoslovna istraživanjaknjiga 40: 195–231 (in Croatian).
41. Pamić J, 1988. Stijene granit – granodioritne asocijacije Krndije u Slavoniji (Sjeverna Hrvatska, Jugoslavija) (Rocks off the granite – granodiorite association from Mt. Krndija in Slavonia (Northern Croatia, Yugoslavia)). Rad JAZU441, Razred za prirodne znanosti 23: 97–114 (in Croatian).
42. Pamić J and Jamičić J, 1986. Metabasic intrusive rocks from the Paleozoic Radlovac complex of Papuk Mt. in Slavonia (northern Croatia, Yugoslavia). Rad JAZU 424:97–127.
43. Pamić J and Marci V, 1990. Petrology of amphibolites from the Slavonian Mountains in Northern Croatia (Yugoslavia).Geološki vjesnik 43:121–133 (in Croatian).
44. Pamić J and Lanphere M, 1991. Hercinske granitne i metamorfne stijene Papuka, Psunja, Krndije i okolne podloge Panonskog bazena u Slavoniji (sjeverna Hrvatska) (Hercynian Granites and Metamorphic Rocks from the Mts. Papuk, Psunj, Krdnija and the Surrounding Basement of the Pannonian Basin in Slavonija (Northern Croatia, Yugoslavia).Geologija 34: 81–253 (in Croatian with English Summary).
45. Pamić J and Jurković I, 2002. Paleozoic tectonostratigraphic units of the northwest and central Dinarides and the adjoining South Tisia. International Journal of Earth Sciences 91(3): 538–554.
46. Pamić J, Jamičić D and Crnko J, 1984a. Bazične i intermedijarne magmatske stijene iz metamorfita središnjih dijelova Psunja u Slavoniji (Basic and Intermediate Igneous Rocks Associated with Metamorphics of the Middle Parts of Mountain Psunj (Northern Croatia)). Geološki vjesnik 37:127–144 (in Croatian).
47. Pamić J, Jamičić D and Crnko J, 1984b. Petrološki prikaz ultramafita iz metamorfnog kompleksa središnjih dijelova Psunja. Rad JAZU141(20): 93–104.
48 Pamić J, Lanphere M and McKee E, 1988a. Radiometric Ages of Metamorphic and Associated Igneous Rocks of the Slavonian Mts. in the Southern Part of the Pannonian Basin, Yugoslavia. Acta Geologica18/2: 13–39.
49. Pamić J, Lelkes-Felvári Gy and Raffaelli P, 1988b. Andalusite-bearing schists from the southwestern parts of Papuk Mt. in Slavonija (northern Croatia). Geološki vjesnik 41: 145–157.
50. Pamić J, Lanphere M and Belak M, 1996. Hercynian I-type and S-type granitoids from the Slavonian Mountains (southern Pannonian Basin, northern Croatia). Neues Jahrbuch fur Mineralogie Abhandlungen171/2: 155–186.
51. Pamić J, Balen D and Tibljaš D, 2002. Petrology and geochemistry of orthoamphibolites from the Variscan metamorphic sequences of the South Tisia in Croatia – an overview with geodynamic implications. International Journal Earth Science91: 787–798, .
52. Raffaelli P, 1964. Metamorfizam paleozojskih pelitskih škriljaca u području Ravne gore (papučko gorje – Slavonija) (Metamorphism of Paleozoic pelitic schists of Ravna gora (Papuk Mountain – Croatia). Geološki vjesnik18(1): 61–111 (in Croatian).
53. Schmid SM, Bernoulli D, Fügenschuh B, Matenco L, Schefer S, Schuster R, Tischler M and Ustaszewski K, 2008. The Alpine– Carpathian–Dinaridic orogenic system: correlation and evolution of tectonic unitsSwiss Journal of Geoscience 101: 139–183.
54. Schmid SM, Bernoulli D, Fügenschuh B, Georgiev N, Kounov A, Matenco L, Oberhänsli R, Pleuger J, Schefer S, Ustaszewski K and van Hinsbergen D, 2016. Map of the Tectonic units of the Alpine collision zone between Eastern Alps and Western Turkey.
55. Shand S, 1927. Eruptive rocks. Their genesis, composition, classification and their relation to ore-deposits, 1rd edition, Thomas Murby & Company, London, 488pp.
56. Sláma J, Košler J, Condon DJ, Crowley JL, Gerdes A, Hanchar JM, Horstwood MSA, Morris GA, Nasdala B, Turbett MN and Whitehouse MJ, 2008. Pleŝovice, a new natural reference material for U–Pb and Hf isotopic analysis. Chemical Geology 249: 1–35.
57. Slovenec Dr and Bermanec V, 2003. Sistematska mineralogija – mineralogija silikata. Manualia Universitatis studiorum Zagrebiensis, Denona Zagreb, 359pp (in Croatian).
58. Stacey JS and Kramers JD, 1975. Approximation of terrestrial lead isotope evolution by a two stage model. Earth and Planetary Science Letters 26: 207–221.
59. Sylvester PJ and Ghaderi M, 1997. Trace element analysis of scheelite by excimer laser ablation–inductively coupled plasma–mass spectrometry (ELA–ICP–MS) using a synthetic silicate glass standard. Chemical Geology 141: 49–65.
60. Szederkényi T, 1996. Metamorphic formations and their correlation in the Hungarian part of Tisia Megaunit (Tisia Megaunit Terrane). Acta Mineralogica-Petrographica XXXVII, 143–160.
61. Tajder M, 1966. Geneza blastoporfirnog epidot-amfibolita na području Omanovca u Psunju (The petrogenesis of blastoporphyritic amphibolite in the region of Omanovac in Psunj). Acta geologica6, Razred za prirodne znanostiknjiga 36: 5–16 (in Croatian).
62. Vragović M, 1965. Graniti i gnajsi Papuka (Granites and gneisses of the Papuk Mountain). Unpublished PhD Thesis. University of Zagreb, 222pp (in Croatian).

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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