New Advances in Biostratigraphy of the Lower/Middle Norian Transition: Conodonts of the Dovško Section, Slovenia

Viktor Karádi; Tea Kolar-Jurkovšek; Luka Gale; Bogdan Jurkovšek

doi:10.1007/s12583-020-1382-y

Journal of Earth Science ›› 2021, Vol. 32 ›› Issue (3) : 677 -699. DOI: 10.1007/s12583-020-1382-y

Article

New Advances in Biostratigraphy of the Lower/Middle Norian Transition: Conodonts of the Dovško Section, Slovenia

Author information +

History +

PDF

Abstract

This study presents the results of the conodont biostratigraphy and microfacies analysis carried out on the pelagic limestones of the Upper Triassic Dovško Section in Slovenia, which represents the eastern part of the Slovenian Basin. The age of the section ranges from the Lacian 1 to the Alaunian 1. The Lacian part of the succession is predominantly characterized by the representatives of the genus Ancyrogondolella. Transitional morphologies towards Alaunian faunas first appear in the Lacian 3 and become common during the Lacian-Alaunian transition. This evolutionary development coincides with a shift in microfacies from a dominantly radiolarian-bearing mudstone-wackestone-packstone to a filament- dominated wackestone-packstone, and the formation of small neptunian dykes, which may reflect environmental perturbations and/or a change in basin geometry. The proliferation of the genera Epigondolella and Mockina is observed in the Alaunian part of the section, though the genus Ancyrogondolella is still present in this interval. Systematic description of the conodont taxa is provided, and seven new species and two new subspecies are established. The new advances will be of great value in further biostratigraphic studies, especially in areas without ammonoid faunas, and in the reconstruction of the paleogeography of the Slovenian Basin.

Keywords

conodonts / microfacies / Late Triassic / Norian / Lacian / Alaunian / Slovenian Basin / cherty limestone

Cite this article

Download citation ▾

Viktor Karádi, Tea Kolar-Jurkovšek, Luka Gale, Bogdan Jurkovšek. New Advances in Biostratigraphy of the Lower/Middle Norian Transition: Conodonts of the Dovško Section, Slovenia. Journal of Earth Science, 2021, 32(3): 677-699 DOI:10.1007/s12583-020-1382-y

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Balini M, Bertinelli A, Di Stefano P, . The Late Carnian-Rhaetian Succession at Pizzo Mondello (Sicani Mountains). Albertiana, 2010, 39: 36-57.

[2]	Budurov K. Ancyrogondolella triangularis gen. et sp. n. (Conodonta). Mitteilungen der Gesellschaft der Geologie-und Bergbaustudenten, 1972, 21: 853-860.

[3]	Buser S. Basic Geological Map SFRY, Sheet 33–67, Celje, 1978, Beograd: Federal Geological Survey

[4]	Buser S. Explanatory Book to Basic Geological Map SFRY, Sheet Tolmin and Videm (Udine), 1986, Beograd: Federal Geological Survey, 103

[5]	Buser S. Development of the Dinaric and the Julian Carbonate Platforms and of the Intermediate Slovenian Basin (NW Yugoslavia). Bollettino della Società Geologica Italiana, 1989, 40: 313-320.

[6]	Buser S. Geological Map of Slovenia, Scale 1: 250 000, 2009, Ljubljana: Geological Survey of Slovenia

[7]	Buser S, Kolar-Jurkovšek T, Jurkovšek B. The Slovenian Basin during the Triassic in the Light of Conodont Data. Bollettino della Società Geologica Italiana, 2008, 127: 257-263.

[8]	Celarc B, Kolar-Jurkovšek T. The Carnian-Norian Basin-Platform System of the Martuljek Mountain Group (Julian Alps, Slovenia): Progradation of the Dachstein Carbonate Platform. Geologica Carpathica, 2008, 59(3): 211-224

[9]	Channell J E T, Kozur H W, Sievers T, . Carnian-Norian Biomagnetostratigraphy at Silická Brezová (Slovakia): Correlation to Other Tethyan Sections and to the Newark Basin. Palaeogeography, Palaeoclimatology, Palaeoecology, 2003, 191: 65-109.

[10]	Cousin M. Les Rapports Alpes-Dinarides; Les Confins de l’Italie et de Yougoslavie. Société Géologique du Nord, 1981, 5: 1-521.

[11]	Dunham, R. J., 1962. Classification of Carbonate Rocks according to Depositional Texture. In: Ham, W. E., ed., Classification of Carbonate Rocks, a Symposium. American Association of Petroleum Geology Memoirs, 1: 108–121. https://doi.org/10.1306/m1357

[12]	Dzik J. Remarks on the Evolution of Ordovician Conodonts. Acta Palaeontologica Polonica, 1976, 21: 395-455.

[13]	Embry A F, Klovan J E. A Late Devonian Reef Tract on Northeastern Banks Island, N.W.T. Bulletin of Canadian Petroleum Geology, 1971, 19: 730-781.

[14]	Flügel E. Microfacies of Carbonate Rocks: Analysis, Interpretation and Application, 2004, Berlin Heidelberg: Springer-Verlag, 976

[15]	Gale L. Microfacies Analysis of the Upper Triassic (Norian) “Baca Dolomite”: Early Evolution of the Western Slovenian Basin (Eastern Southern Alps, Western Slovenia). Geologica Carpathica, 2010, 61: 293-308.

[16]	Gale L, Kolar-Jurkovšek T, Šmuc A, . Integrated Rhaetian Foraminiferal and Conodont Biostratigraphy from the Slovenian Basin, Eastern Southern Alps. Swiss Journal of Geosciences, 2012, 105: 435-462.

[17]	Gale L, Celarc B, Caggiati M, . Paleogeographic Significance of Upper Triassic Basinal Succession of the Tamar Valley, Northern Julian Alps (Slovenia). Goelogica Carpathica, 2015, 66(4): 269-283.

[18]	Gale L, Kolar-Jurkovšek T, Karničnik B, . Triassic Deep-Water Sedimentation in the Bled Basin, Eastern Julian Alps, Slovenia. Geologija, 2019, 62: 153-173.

[19]	Gawlick H-J, Böhm F. Sequence and Isotope Stratigraphy of Late Triassic Distal Periplatform Limestones from the Northern Calcareous Alps (Kälberstein Quarry, Berchtesgaden Hallstatt Zone). International Journal of Earth Sciences, 2000, 89: 108-129.

[20]	Hayashi S. The Permian Conodonts in Chert of the Adoyama Formation, Ashio Mountains, Central Japan. Earth Science, 1968, 22: 63-77.

[21]	Huckriede R. Die Conodonten der Mediterranen Trias und ihr Stratigraphischer Wert. Paläontologische Zeitschrift, 1958, 32(3): 141-175.

[22]	Ishida K, Hirsch F. Taxonomy and Faunal Affinity of Late Carnian-Rhaetian Conodonts in the Southern Chichibu Belt, Shikoku, SW Japan. Rivista Italiana di Paleontologia e Stratigrafia, 2001, 107(2): 227-250

[23]	Jarc S, Jerina S, Miler M, . Mineralogical and Geochemical Characteristics of Mudstones in the Jersovec Chert Deposit. Geologija, 2017, 60: 223-234.

[24]	Ji Z-S, Yao J-X, Yang X-D, . Conodont Zonations of Norian in Lhasa Area, Xizang (Tibet) and Their Global Correlation. Acta Palaeontologica Sinica, 2003, 42(3): 382-392. (in Chinese with English Abstract)

[25]	Karádi V. Middle Norian Conodonts from the Buda Hills, Hungary: An Exceptional Record from the Western Tethys. Journal of Iberian Geology, 2018, 44: 155-174.

[26]	Karádi V. Evolutionary Trends of the Genus Ancyrogondolella (Conodonta) and Related Taxa in the Norian (Late Triassic). Journal of Earth Science, 2021, 32(3): xxx-xxx.

[27]

Karádi, V., Kozur, H. W., Görög, Á., 2013. Stratigraphically Important Lower Norian Conodonts from the Csővár Borehole (Csv-1), Hungary—Comparison with the Conodont Succession of the Norian GSSP Candidate Pizzo Mondello (Sicily, Italy). In: Tanner, L. H., Spielmann, J. A., Lucas, S. G., eds., The Triassic System. New Mexico Museum of Natural History and Science Bulletin, 61: 284–295

[28]	Karádi V, Pelikán P, Haas J. Conodont Biostratigraphy of Upper Triassic Dolomites of the Buda Hills (Transdanubian Range, Hungary). Bulletin of the Hungarian Geological Society, 2016, 146(4): 371-386. (in Hungarian with English Abstract)

[29]

Karádi, V., Kolar-Jurkovšek, T., Jurkovšek, B., 2019. The Lower/Middle Norian (Upper Triassic) Transition: Conodonts of the Dovško Succession, Slovenia. 3rd International Congress on Stratigraphy, July 2–5, 2019, Milano, Italy. Abstract Book. Società Geologica Italiana. 53. https://doi.org/10.3301/absgi.2019.04

[30]	Karádi V, Virág A, Kolar-Jurkovšek T, . Guex J, Torday J S, Miller W B Jr., . Stress-Related Evolution in Triassic Conodonts and the Middle Norian Juvenile Mortality. Morphogenesis, Environmental Stress and Reverse Evolution, 2020, Cham: Springer, 37-58.

[31]	Kolar-Jurkovšek T. Conodonts from Amphiclina Beds and Baca Dolomite. Geologija, 1982, 25: 167-188.

[32]	Kolar-Jurkovšek T, Jurkovšek B. Conodonts of Slovenia, 2019, Ljubljana: Geological Survey of Slovenia, 259

[33]	Kovács S, Kozur H. Stratigraphische Reichweite der Wichtigsten Conodonten (ohne Zahnreihenconodonten) der Mittel-und Obertrias. Geologisch-Paläontologische Mitteilungen Innsbruck, 1980, 10(2): 47-78

[34]	Kozur H. Significance of Events in Conodont Evolution for the Permian and Triassic Stratigraphy. Courier Forschungsinstitut Senckenberg, 1989, 117: 385-408.

[35]	Kozur H. The Taxonomy of the Gondolellid Conodonts in the Permian and Triassic. Courier Forschungsinstitut Senckenberg, 1989, 117: 409-469.

[36]	Kozur H. Norigondolella n. gen., eine neue Obertriassische Conodontengattung. Paläontologische Zeitschrift, 1990, 64(1): 125-132.

[37]	Kozur H. Integrated Ammonoid-, Conodont and Radiolarian Zonation of the Triassic. Hallesches Jahrbuch für Geowissenschaften, 2003, B25: 49-79.

[38]	Kozur H, Mostler H. Probleme der Conodontenforschung in der Trias. Geologisch-Paläontologische Mitteilungen Innsbruck, 1971, 1(4): 1-19

[39]	Krystyn, L., 1980. Triassic Conodont Localities of the Salzkammergut Region (Northern Calcareous Alps). Abhandlungen des Geologischen Bundesanstalt, Second European Conodont Symposium, Guidebook and Abstracts. 61–98

[40]	Krystyn, L., 2003. Upper Triassic Substage Boundaries and Their Ammonoid Record: Divided between Gradation, Faunal Turnover and Extinction. Joint Annual Meeting GAC-MAC-SEG, Vancouver

[41]	Krystyn, L., 2008. Excursion 1: The Hallstatt Pelagics—Norian and Rhaetian Fossillagerstaetten of Hallstatt. In: Krystyn, L., Mandl, G. W., eds., Upper Triassic Subdivisions, Zonations and Events. Berichte der Geologischen Bundesanstalt, 76: 81–98

[42]	Krystyn L, Mandl G W, Schauer M. Growth and Termination of the Upper Triassic Platform Margin of the Dachstein Area (Northern Calcareous Alps, Austria). Austrian Journal of Earth Sciences, 2009, 102: 23-33.

[43]	Lindström M. A Suprageneric Taxonomy of the Conodonts. Lethaia, 1970, 3: 427-445.

[44]	Mao L, Tian C. Late Triassic Conodonts from the Uppermost Mailonggang Formation in Mailonggang Village of Lhünzhub County, Xizang (Tibet), China. Bulletin of the Chinese Academy of Geological Sciences, 1987, 17: 159-168. (in Chinese with English Abstract)

[45]	Mazza M, Rigo M, Gullo M. Taxonomy and Biostratigraphic Record of the Upper Triassic Conodonts of the Pizzo Mondello Section (Western Sicily, Italy), GSSP Candidate for the Base of the Norian. Rivista Italiana di Paleontologia e Stratigrafia, 2012, 118(1): 85-130

[46]

Moix, P., Kozur, H. W., Stampfli, G. M., et al., 2007. New Paleontological, Biostratigraphic and Paleogeographic Results from the Triassic of the Mersin Mélange, SE Turkey. In: Lucas, S. G., Spielmann J. A., eds., The Global Triassic. New Mexico Museum of Natural History and Science Bulletin, 41: 282–311

[47]	Mosher L C. Triassic Conodonts from Western North America and Europe and Their Correlation. Journal of Paleontology, 1968, 42(4): 895-946

[48]	Muttoni G, Mazza M, Mosher D, . A Middle-Late Triassic (Ladinian-Rhaetian) Carbon and Oxygen Isotope Record from the Tethyan Ocean. Palaeogeography, Palaeoclimatology, Palaeoecology, 2014, 399: 246-259.

[49]	Noyan Ö, Kozur H. Revision of the Late Carnian-Early Norian Conodonts from the Stefanion Section (Argolis, Greece) and Their Paleobiogeographic Implications. Neues Jahrbuch für Geologie und Paläontologie Abhandlungen, 2007, 245(2): 159-178.

[50]	Ogorelec B, Dozet S. Upper Triassic, Jurassic and Lower Cretaceous Beds in Eastern Sava Folds—Section Laze at Boštanj (Slovenia). Mining and Metallurgy Quarterly, 1997, 44: 223-235.

[51]	Orchard, M. J., 1991a. Upper Triassic Conodont Biochronology and New Index Species from the Canadian Cordillera. In: Orchard, M. J., McCracken A. D., eds., Ordovician to Triassic Conodont Paleontology of the Canadian Cordillera. Geological Survey of Canada Bulletin, 417: 299–335

[52]

Orchard, M. J., 1991b. Late Triassic Conodont Biochronology and Biostratigraphy of the Kunga Group, Queen Charlotte Islands, British Columbia. In: Woodsworth, G. W., ed., Evolution and Hydrocarbon Potential of the Queen Charlotte Basin, British Columbia. Geological Survey of Canada, Paper 90–10: 173–193

[53]

Orchard, M. J., 2006. Late Paleozoic and Triassic Conodont Faunas of Yukon and Northern British Columbia and Implications for the Evolution of the Yukon-Tanana Terrane. In: Colpron, M., Nelson, J. L., eds., Paleozoic Evolution and Metallogeny of Pericratonic Terranes at the Ancient Pacific Margin of North America, Canadian and Alaskan Cordillera. Geological Association of Canada Special Paper, 45: 229–260

[54]	Orchard M J. Conodonts from the Carnian-Norian Boundary (Upper Triassic) of Black Bear Ridge. New Mexico Museum of Natural History and Science Bulletin, 2014, 64: 1-139.

[55]

Orchard, M. J., 2018. The Lower-Middle Norian (Upper Triassic) Boundary: New Conodont Taxa and a Refined Biozonation. In: Over, D. J., Henderson, C. M., eds., Conodont Studies Dedicated to the Careers and Contributions of Anita Harris, Glen Merrill, Carl Rexroad, Walter Sweet, and Bruce Wardlaw. Bulletins of American Paleontology, 395/396: 165–193

[56]	Orchard M J, Whalen P A, Carter E S, . Latest Triassic Conodonts and Radiolarian-Bearing Successions in Baja California Sur. In: Lucas, S. G., Spielmann, J. A., eds., The Global Triassic. New Mexico Museum of Natural History and Science Bulletin, 2007, 41: 355-365.

[57]	Pálfy J, Demény A, Haas J, . Triassic-Jurassic Boundary Events Inferred from Integrated Stratigraphy of the Csővár Section, Hungary. Palaeogeography, Palaeoclimatology, Palaeoecology, 2007, 244: 11-33.

[58]	Placer L. Contribution to the Macrotectonic Subdivision of the Border Region between Southern Alps and External Dinarides. Geologija, 1999, 41: 223-255.

[59]	Placer L. Structural Meaning of the Sava folds. Geologija, 1999, 41: 191-221.

[60]	Poljak M. Structural-Tectonic Map of Slovenia in Scale 1: 250 000, 2007, Ljubljana: Geological Survey of Slovenia, 52

[61]	Rigo M, Mazza M, Karádi V, . New Upper Triassic Conodont Biozonation of the Tethyan Realm. In: Tanner, L. H., ed., The Late Triassic World: Earth in a Time of Transition. Topics in Geobiology, 2018, 46: 189-235.

[62]	Roniewicz E. Early Norian (Triassic) Corals from the Northern Calcareous Alps, Austria, and the Intra-Norian Faunal Turnover. Acta Palaeontologica Polonica, 2011, 56(2): 401-428.

[63]	Rožič B. Novak M, Rman N. Paleogeographic Units. Geological Atlas of Slovenia, 2016, Ljubljana: Geological Survey of Slovenia, 14-15

[64]	Rožič B, Kolar-Jurkovšek T, Šmuc A. Late Triassic Sedimentary Evolution of Slovenian Basin (Eastern Southern Alps): Description and Correlation of the Slatnik Formation. Facies, 2009, 55: 137-155.

[65]	Rožič B, Gale L, Kolar-Jurkovšek T. Extent of the Upper Norian—Rhaetian Slatnik Formation in the Tolmin Nappe, eastern Southern Alps. Geologija, 2013, 56: 175-186.

[66]	Spatzenegger, A., 2011. Ammonites from the Zone of Cyrtopleurites Bicrenatus, Nor/Alaunium1 of the Hallstatt limestone. The Fossil Forum. http://www.thefossilforum.com/index.php?/blogs/entry/115-ammonites-from-the-zone-of-cyrtopleurites-bicrenatus/

[67]	Trotter J A, Williams I A, Nicora A, . Long-Term Cycles of Triassic Climate Change: A New δ¹⁸O Record from Conodont Apatite. Earth and Planetary Science Letters, 2015, 415: 165-174.

[68]

Vrabec, M., Fodor, L., 2006. Late Cenozoic Tectonics of Slovenia: Structural Styles at the Northeastern Corner of the Adriatic Microplate. In: Pinter, N., Grenerczy, G., Weber, J., et al., eds., The Adria Microplate: GPS Geodesy, Tectonics and Hazards. NATO Science Series, IV, Earth and Environmental Sciences, 61: 151–168