Tytuł artykułu
Treść / Zawartość
Pełne teksty:
Identyfikatory
DOI
Warianty tytułu
Języki publikacji
Abstrakty
The Frasnian carbonate-siliciclastic deposits of the Stipinai Formation exposed in two quarries at Petrašiūnai and Klovainiai (northern Lithuania) show considerable vertical facies changes. The lower part of this succession is dominated by argillaceous dolomitic facies with subordinate fine siliciclastic deposits. They display haloturbation and bioturbation structures, represent a hypersaline lagoonal environment, and record the beginning of the transgression. The middle part of the succession consists of secondary dolostones containing moulds of brachiopods, tetracorals, stromatoporoids and trace fossils of deposit feeders; these were deposited in a shallow subtidal marine environment and represent the deepest sedimentary environment of this succession. This was followed by a lagoonal environment (episodic hypersaline), represented by dolomudstones and marly dolomudstones. The upper part of the succession is built of bedded dolostones which document a shallowing trend. Intercalations of clays and palaeosol horizons record emergence events. Palynostratigraphic data tentatively indicate that the Stipinai Formation represents the Upper Frasnian. The succession can be interpreted as a record of the upper part of a T-R cycle (related to the semichatovae transgression) in the Main Devonian Field of the East European Platform. The Stipinai Formation is distributed across western and central Latvia and has a correlative in the Pomerania Basin (northern Poland).
Czasopismo
Rocznik
Tom
Strony
art. no. 52
Opis fizyczny
Bibliogr. 54 poz., fot., rys., wykr.
Twórcy
autor
- Jagiellonian University in Kraków, Faculty of Geography and Geology, Institute of Geological Sciences, Gronostajowa 3a, 30-387 Kraków, Poland
autor
- Jagiellonian University in Kraków, Faculty of Geography and Geology, Institute of Geological Sciences, Gronostajowa 3a, 30-387 Kraków, Poland
autor
- University of Silesia in Katowice, Faculty of Natural Sciences, Institute of Earth Sciences, Będzińska 60, 41-200 Sosnowiec, Poland
autor
- Jagiellonian University in Kraków, Faculty of Geography and Geology, Institute of Geological Sciences, Gronostajowa 3a, 30-387 Kraków, Poland
autor
- Šiauliai Aušros Museum, Vilni aus St. 74, LT-76283 Šiauliai, Lithuania
Bibliografia
- 1. Alekseev, A.S., Kononova, L.I., Nikishin, A.M., 1996. The Devonian and Carboniferous of the Moscow Syneclise (Russian Platform): stratigraphy and sea-level changes. Tectonophysics, 268: 149-168.
- 2. Avkhimovitch, V.I., Tchibrikova, E.V., Obukhovskaya, T.G., Nazarenko, A.M., Umnova, V.T., Raskatova, L.G., Mantsurova, V.N., Loboziak, S., Streel, M., 1993. Middle and Upper Devonian miospore zonation of Eastern Europe. Bulletin des Centres de Recherches Exploration-Production Elf Aquitaine, 17: 79-147.
- 3. Bachtadse, V., Torsvik, T.H., Tait, J.A., Soffle, H.C., 1995. Paleomagnetic constraints on the paleogeographic evolution of Europe during the Paleozoic. In: Pre-Permian Geology of Central and Eastern Europe (eds. R.D. Dallmeyer, W. Franke and K. Weber): 567-578. Springer, Berlin.
- 4. Bełka, Z., Narkiewicz, M., 2008. Devonian. In: The Geology of Central Europe, 1: Precambrian and Palaeozoic (ed. T. McCann): 383-410. Geological Society, London.
- 5. Bełka, Z., Devleeschouwer, X., Narkiewicz, M., Piecha, M., Reijers, T.J.A., Ribbert, K.-H., Smith, N.J.P., 2010. Devonian. In: Petroleum Geological Atlas of the Southern Permian Basin Area (eds. J.C. Doornenbal and A.G. Stevenson): 71-79. EAGE Publications b.v, Houten.
- 6. Bičkauskas, G., Radzevičius, S., 2014. The Stipinai regional stage (Upper Devonian) in Petrašiūnai quarry. Geologija (Vilnius), 56: 53-56.
- 7. de Gibert, J.M., Ekdale, A.A., 1999. Trace fossil assemblages refecting stressed environments in the Middle Jurassic Carmel Seaway of central Utah. Journal of Paleontology, 73: 711-720.
- 8. de Gibert, J.M., Ekdale, A.A., 2002. Ichnology of a restricted epicontinental sea, Arpien Shale, Middle Jurassic, Utah, USA. Palaeogeography, Palaeoclimatology, Palaeoecology, 183: 275-286.
- 9. Dickson, J.A.D., 1966. Carbonate identification and genesis as revealed by staining. Journal of Sedimentary Petrology, 36: 491-505.
- 10. Dopieralska, J., Bełka, Z., Walczak, A., 2016. Nd isotope composition of conodonts: An accurate proxy of sea-level fluctuations. Gondwana Research, 34: 284-295.
- 11. Dunham, R.J., 1962. Classification of carbonate rocks according to depositional texture. AAPG Memoir, 1: 108-121.
- 12. Eliassen, A., Talbot, M. R., 2005. Solution-collapse breccias of the Minkinfjellet and Wordiekammen Formations, Central Spitsbergen, Svalbard: a large gypsum palaeokarst system. Sedimentology, 52: 775-794.
- 13. Embry, A.F., Klovan, J.E., 1971. A Late Devonian reef tract on Northeastern Banks Island, NWT. Canadian Petroleum Geology Bulletin, 19: 730-781.
- 14. Filipiak, P., 2011. Palynology of the Lower and Middle Devonian deposits in southern and central Poland. Review of Palaeobotany and Palynology, 166: 213-252.
- 15. Filipiak, P., 2014. Palynology of the Lower and Middle Devonian clastic rocks from the Trojanowice 2 borehole (southern Poland) (in Polish with English summary). Biuletyn Państwowego Instytutu Geologicznego, 459: 7-32.
- 16. Jaglarz, P., Rychliński, T., 2018. Solution-collapse breccias in the upper Olenekian-Ladinian succession, Tatra Mts, Poland. Annales Societatis Geologorum Poloniae, 88: 303-319.
- 17. Jaglarz, P., Uchman, A., 2010. A hypersaline ichnoassemblage from the Middle Triassic carbonate ramp of the Tatricum domain in the Tatra Mountains, Southern Poland. Palaeogeography, Palaeoclimatology, Palaeoec ol ogy, 292: 71-81.
- 18. Jeppsson, L., Anehus, R., 1995. A buffered formic acid technique for conodont extraction. Journal of Paleontology, 69: 790-794.
- 19. Kaufmann, B., 2006. Calibrating the Devonian Time Scale: a synthesis of U-Pb ID-TIMS ages and conodont stratigraphy. Earth-Science Reviews, 76: 175-190.
- 20. Lukševičs, E., Ahlberg, P. E., Stinkulis, Ģ., Vasijkova, J., Zupinš, I., 2011. Frasnian vertebrate taphonomy and sedimentology of macrofossil concentrations from the Langsěde Cliff, Latvia. Lethaia, 45: 356-370.
- 21. Lukševičs, E., Stinkulis, Ģ., Mūrnieks, A., Popovs, K., 2012. Geological evolution of the Baltic Artesian Basin. In: Highlights of Groundwater Research in the Baltic Artesian Basin (eds. A. Děliga, et al.): 7-52. University of Latvia, Riga.
- 22. MacEachern, J.A., Bann, K.L., Gingras, M.K., Zonneveld, J.-P., Dashtgard, S.E., Pemberton, S.G., 2012. The ichnofacies paradigm. Developments in Sedimentology, 64: 103-138. Elsevier, Amsterdam.
- 23. Mercedes-Martin, R., Buatois, L.A., 2021. Microbialites and trace fossils from a Middle Triassic restricted carbonate ramp in the Catalan Basin, Spain: evaluating environmental and evolution - ary controls in an epicontinental setting. Lethaia, 54: 4-25.
- 24. Matyja, H., 1993. Upper Devonian of Western Pomerania. Acta Geologica Polonica, 43: 27-94.
- 25. Matyja, H., 2006. Stratigraphy and facies development of Devonian and Carboniferous deposits in the Pomeranian Basin and in the western part of the Baltic Basin and palaeogeography of the northern TESZ during late Paleozoic times (in Polish with English summary). Prace Państwowego Instytutu Geologicznego, 186: 79-122.
- 26. Middleton, G.V., 1961. Evaporite solution breccias from the Mississippian of Southwest Montana. Journal of Sedimentary Petrology, 31: 189-195.
- 27. Morrow, D.W., 1982. Descriptive field classification of sedimentary and diagenetic breccia fabrics in carbonate rocks. Bulletin of Canadian Petroleum Geology, 30: 227-229.
- 28. Narbutas, V., 2005. Sedimentological-palaeogeographical maps for Stipinai age of the Middle Devonian. In: Evolution of Geological Environment in Lithuania (ed. A. Zuzevicius): 308. Institute of Geology and Geography, Vilnius University, Vilnius.
- 29. Ogg, J.G., Ogg, G.M., Gradstein, F.M., 2016. A Concise Geologic Time Scale: 2016. Elsevier, Amsterdam.
- 30. Paškevičius, J., 1997. The Geology of the Baltic Republics. Geological Survey of Lithuania, Vilnius.
- 31. Pemberton, S.G., Spila, M., Pulham, A. J., Saunders, T., MacEachern, J.A., Robbins, D., Sinclair, I.K., 2001. Ichnology and sedimentology of shallow to marginal marine systems: Ben Nevis and Avalon Reservoirs, Jeanne d'Arc Basin. Geological Association of Canada, Short Course Notes, 15: 1-343.
- 32. Pontén, A., Plink-Björklund, P., 2009. Regressive to transgressive transits reflected in tidal bars, Middle Devonian Bal tic Basin. Sedimentary Geology, 218: 48-60.
- 33. Poprawa, P., Šliaupa, S., Stephenson, R., Lazauskienė, J., 1999. Late Vendian-Early Palaeozoic tectonic evolution of the Baltic Basin: regional tectonic implications from subsidence analysis. Tectonophysics, 314: 219-239.
- 34. Raskatova, M., Jurina, A., 2012. Frasnian miospore assemblages and zones of Southern Latvia and North-Western Russia (Pskov Region). Scientific Papers University of Latvia - Earth and Environmental Sciences, 783: 24-36.
- 35. Richardson, J.B., McGregor, D.C., 1986. Silurian and Devonian spore zones of the Old Red Sandstone Continent and adjacent regions. Geological Survey of Canada Bulletin, 364: 1-79.
- 36. Rychliński, T., Jaglarz, P., Uchman, A., Vainorius, J., 2014. Unusually well preserved casts of halite crystals: a case from the Upper Frasnian of northern Lithuania. Sedimentary Geology, 308: 44-52.
- 37. Sibley, D.F., Gregg, J.M., 1987. Classification of dolomite rock textures. Journal of Sedimentary Petrology, 57: 967-975.
- 38. Sorokin, V.S., 1978. Etapy razvitiya Severo-zapada Russkoy platformy vo franskom veke (in Russian). Zinatne, Riga.
- 39. Stinkulis, Ģ., Lukševičs, E., Reke, T., 2020. Sedimentology and vertebrate fossils of the Frasnian Ogre Formation, Gurova outcrops, eastern Latvia. Estonian Journal of Earth Sciences, 69: 248-261.
- 40. Streel, M., Higgs, K., Loboziak, S., Riegel, W., Steemans, P., 1987. Spore stratigraphy and correlation with faunas and floras in the type marine Devonian of the Ardenne-Rhenish regions. Review Palaeobotany and Palynology, 50: 211-229.
- 41. Streel, M., Boulvain, F., Dusar, M., Loboziak, S., Steemans, P., 2021. Updating Frasnian miospore zonation from the Boulonnais (Northern France) and comparison with new data from the Upper Palaeozoic cover on the Brabant Massif (Western Belgium). Geologica Belgica, 24: 69-84.
- 42. Strother, P.K., 1996. Acritarchs. In: Palynology: Principles and Applications 1 (eds. J. Jansonius and D.C. McGregor): 81-106. American Association of Stratigraphic Palynologists Foundation, Publishers Press, Salt Lake City, Utah.
- 43. Sweet, W.C., 1988. The Conodonta: Morphology, Taxonomy, Palaeoecology, and Evolutionary History of a Long-Extinct Animal Phylum. Oxford Monographs on Geology and Geophysics, 10, Clarendon Press, Oxford.
- 44. Swennen, R., Viaene, W., Cornelissen, C., 1990.Petrographyand geochemis try of the Belle Roche breccia (lower Visean, Belgium): evidence for brecciation by evaporite dissolution. Sedimentology, 37: 859-878.
- 45. Tänavsuu-Milkeviciene, K., Plink-Björklund, P., Kirsimäe, K., 2008. Synsedimentary brecciation in the Eifelian (Middle Devonian) Baltic Basin: sudden catastrophe or diagenetic collapse? Terra Nova, 20: 449-454.
- 46. Tänavsuu-Milkeviciene, K., Plink-Björklund, P., Kirsimäe, K., Ainsaar, L., 2009. Coeval versus reciprocal mixed carbonate-siliciclastic deposition, Middle Devonian Baltic Basin, Eastern Europe: implications from the regional tectonic development. Sedimentology, 56: 1250-1274.
- 47. Ūsaitytė, D., 2000. The geology of the southeastern Baltic Sea: a review. Earth-Science Reviews, 50: 137-225.
- 48. Vodzinskas, E., Kadūnas, V., 1969. Carbonaceous raw material of the Lithuanian SSR (dolomites and limestones) (in Russian with English summary). Publishing Office “Minitis”, Vilnius.
- 49. Wood, G.D., Turnau, E., 2001. New Devonian Cenobial Chlorococcales (Hydrodictyaceae) from the Holy Cross mountains and Radom-Lublin region of Poland: Their paleoenvironmental and sequence stratigraphic implications. In: Proceedings of the IX International Palynological Congress, Houston, Texas, U.S.A., 1996 (eds. D.K. Goodman and R.T. Clark): 53-63. American Association of Stratigraphic Palynologists Foundation, Dallas, Texas.
- 50. Wood, G.D., Gabriel, A.M., Lawson, J.C., 1996. Palynological techniques - processing and microscopy. In: Palynology: Principles and Applications (eds. J. Jansonius and D.C. McGregor), 1: 29-50. American Association of Stratigraphic Palynologists Foundation, Dallas, Texas.
- 51. Wright, V.P., 1990. A micromorphological classification of fossil and recent calcic and petrocalcic microstructures. In: Soil Micromorphology: a Basic and Applied Science (ed. L.A. Douglas): 401-407. Developments in Soil Science, Elsevier, Amsterdam.
- 52. Zatoń, M., Borszcz, T., Berkowski, B., Rakociński, M., Zapalski, M.K., Zhuravlev, A.V., 2015. Paleoecology and sedimentary environment of the Late Devonian coral biostrome from the Central Devonian Field, Russia. Palaeogeography, Palaeoclimatology, Palaeoecology, 424:61-75.
- 53. Ziegler, P.A., 1988. Evo lution of the Arctic-North-Atlantic and the Western Tethys. AAPG Memoir, 43: 198.
- 54. Ziegler, W., Sandberg, C.A., 1990. The late Devonian standard conodont zonation. Courier Forschungsinstitut Senckenberg, 121: 1-115.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8f0b788e-33a9-4cc2-bd2b-a3aec2634b54