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Microencruster-microbial framework and synsedimentary cements in the Štramberk Limestone (Carpathians, Czech Republic) : Insights into reef zonation

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The Štramberk Limestone (Tithonian–lower Berriasian) was developed on a northerly located, isolated intra-Tethyan carbonate platform. It is composed of various facies that can be observed in olistoliths and blocks embedded in the Cretaceous flysch of the Outer Carpathians in Moravia (Czech Republic). Corals, microbialites, microencrusters and synsedimentary cements contributed on various scales to the reef framework. The importance of corals and some microencrusters to the formation of the Štramberk reef complex is well recognized, while other components received less attention in previous studies. Two end members of boundstone types are described from the Kotouč Quarry, near Štramberk. Boundstone type A is dominated by phaceloid (branching-type) corals, encrusted by microbialites and microencrusters, in particular photophile species (“Lithocodium-Bacinella”, Koskinobullina socialis Cherchi et Schroeder, Iberopora bodeuri Granier et Berthou). Boundstone type B is composed of microencrusters, microbialites and synsedimentary isopachous fibrous cements, while corals are absent or subordinate. Microencrusters [Crescentiella morronensis (Crescenti), Labes atramentosa Eliášová, Perturbatacrusta leini Schlagintweit et Gawlick, Radiomura cautica Senowbari-Daryan et Schäfer, thin encrusting calcified sponges] are main biotic components of the microencruster-cement boundstone. Some identified microencrusters are known only or mostly from intra-Tethyan carbonate platforms. Except for C. morronensis, other common microencrusters in the coral-microbial boundstone (type A) are rare in the microencruster-cement boundstone (type B). The depositional setting of boundstone type A corresponds to a low-energy environment of an inner platform. Boundstone type B, until now not recognized in the Štramberk Limestone, was developed in a high-energy, upper fore-reef slope environment. Other important facies in the Kotouč Quarry are reef-derived breccias: matrix-supported breccia and clast-supported breccia with radiaxial-fibrous cement (showing some similarities to Triassic “evinosponges” cement), interpreted as being dominantly synsedimentary (pre-burial). The preliminary studies by the present authors, supported by observations under cathodoluminescence, highlight the significance of synsedimentary cementation for the formation of a boundstone framework (type B) and the stabilization of fore-reef, slope deposits.
Rocznik
Strony
325--347
Opis fizyczny
Bibliogr. 119 poz., rys., tab.
Twórcy
autor
  • Soletanche Polska, Warszawa, Poland, + deceased 2016
  • Institute of Geological Sciences, Jagiellonian University, ul. Gronostajowa 3a, 30-387 Kraków, Poland
autor
  • Institute of Geological Engineering, VŠB – Technical University of Ostrava, 17. listopadu 15, 708 33 Ostrava-Poruba, Czech Republic
Bibliografia
  • 1. Bachmayer, F. & Flugel, E., 1961a. Die Hydrozoen aus dem Oberjura von Ernstbrunn (Niederosterreich) und Stramberg (ČSR). Palaeontographica, Abteilung A, 116: 122-143.
  • 2. Bachmayer, F. & Flugel, E., 1961b. Die „Chaetetiden“ aus dem Ober-Jura von Ernsbrunn (Niederosterreich) und Stramberg (ČSR). Palaeontographica, Abteilung A, 116: 144-174.
  • 3. Boggs, S. J. & Krinsley, D., 2010. Application of Cathodoluminescence Imaging to the Study of Sedimentary Rocks. Cambridge University Press, Cambridge,165 pp.
  • 4. Bucur, I. I., Hoffmann, M. & Kołodziej, B., 2005. Late Jurassic- lowermost Cretaceous benthic algae from Tethys and European platform: A case study from Poland. Revista Espanola de Micropaleontología, 37: 105-129.
  • 5. Bucur, I. I., Săsăran, E., Balica, C., Beleş, D., Bruchental, C., Chendeş, C., Chendeş, O., Hosu, A., Lazăr, D. F., Lăpădat, A., Marian, A. V, Mircescu, C., Turi, V. & Ungureanu, R., 2010. Mesozoic Carbonate Deposits from Some Areas of the Romanian Carpathians - Case Studies. Presa Universitară Clujeană, Cluj-Napoca, 203 pp.
  • 6. Chatalov, A., Bonev, N. & Ivanova, D., 2015. Depositional characteristics and constraints on the mid-Valanginian demise of a carbonate platform in the intra-Tethyan domain, Circum Rhodope Belt, northern Greece. Cretaceous Research, 78: 55-115.
  • 7. Cherchi, A. & Schroeder, R., 2010. Boring sponges (Entobia) in Mesozoic Lithocodium calcimicrobial crusts. Rivista Italiana di Paleontologia e Stratigrafia, 116: 351-356.
  • 8. Cherchi, A. & Schroeder, R., 2013. Revision of the holotype of Lithocodium aggregatum Elliott, 1956 (Lower Cretaceous, Iraq): new interpretation as sponge-calcimicrobe consortium. Facies, 59: 49-57.
  • 9. Dupraz, C., Reid, R. P., Braissant, O., Decho, A. W., Norman, R. S. & Visscher, P. T., 2009. Processes of carbonate precipitation in modern microbial mats. Earth-Science Reviews, 96: 141-162.
  • 10. Dupraz, C. & Strasser, A., 2002. Nutritional modes in coral-microbialite reefs (Jurassic, Oxfordian, Switzerland): evolution of trophic structure as a response to environmental change. Palaios, 17: 449-471.
  • 11. Eliáš, M., 1970. Lithology and sedimentology of the Silesian Unit in the Moravo-Silesian Beskydy. Sborník Geologických Věd, Geologie, 18: 7-99 [In Czech, with English summary.]
  • 12. Eliáš, M. & Eliášová, H., 1984. Facies and palaeogeography of the Jurassic in the western part of the Outer Flysch Carpathians in Czechoslovakia. Sborník Gelogických Věd, 39: 105-170.
  • 13. Eliáš, M. & Eliášová, H., 1986. Elevation facies of the Malm in Moravia. Geologicky Zbornik, 37: 533-550.
  • 14. Eliáš, M. & Stráník, Z., 1963. A contribution to the interpretation of the origin of the Štramberk Limestones. Věstník Českého Geologického Ústavu, 38: 133-136 [In Czech, with English summary.]
  • 15. Eliášová, H., 1975. Sous ordre Amphiastraeina Alloiteau 1952 (Hexacorallia) des calcaires de Štramberk (Tithonien, Tchécoslovaquie). Čásopis pro Mineralogii a Geologii, 20: 1-23.
  • 16. Eliášová, H., 1978. La redefinition de l’orde Hexanthiniaria Montanaro Gallitelli, 1975 (Zoantharia). Vestník Ústredního Ústavu Geologického, 53: 89-101.
  • 17. Eliášová, H., 1981a. Some binding microorganisms of the Štramberk reef limestones (Tithonian, Czechoslovakia). Vestník Ústredního Ústavu Geologického, 56: 27-32.
  • 18. Eliášová, H., 1981b. The Tithonian reef of Štramberk Limestone (Czechoslovakia, West Carpathians). Čásopis pro Mineralogii a Geologii, 26: 113-124.
  • 19. Eliášová, H., 1986. A new binding microorganism of shallow-water limestones. Vestník Ústredního Ústavu Geologického, 61: 109-111.
  • 20. Eliášová, H., 1990. Coraux des calcaires d’Ernstbrunn (Jurassique supérieur-Crétacé inférieur dans les Carpates externes, zone de Waschenberg, Tchécoslovaquie). Časopis pro Mineralogii a Geologii, 35: 113-133.
  • 21. Eliášová, H., 2008. Corals from the Štramberk Limestone (Silesian Unit, Western Outer Carpathians, Czech Republic). In: Krobicki, M. (ed.), Utwory przełomu jury i kredy w zachodnich Karpatach fliszowych polsko-czeskiego pogranicza. Jurassica VII, Żywiec/Stramberk, 27-29.09.2008. Kwartalnik AGH Geologia, 3: 151-160.
  • 22. Emmerich, A., Zamparelli, V., Bechstädt, T. & Zuhlke, R., 2005. The reefal margin and slope of a Middle Triassic carbonate platform: the Latemar (Dolomites, Italy). Facies, 50: 573-614.
  • 23. Flugel, E., 2010. Microfacies of Carbonate Rocks. Analysis, Interpretation and Application. Springer, Berlin, 984 pp.
  • 24. Flugel, E., Flugel-Kahler, E., Martin, J. M. & Martin-Algarra, A., 1984a. Middle Triassic reefs from southern Spain. Facies, 11: 173-218.
  • 25. Flugel, E., Kochansky-Devidé, V. & Ramovš, A., 1984b. Middle Permian calcisponge/algal/cement reef: Straza near Bled, Slovenia. Facies, 10: 179-256.
  • 26. Frisia-Bruni, S., Jadoul, F. & Weissert, H., 1989. Evinosponges in the Triassic Esino Limestone (Southern Alps): documentation of early lithification and late diagenetic overprint. Sedimentology, 36: 685-699.
  • 27. Geister, J. & Lathuiliere, B., 1991. Jurassic coral reefs of the northeastern Paris basin (Luxembourg Lorraine). 6th International Symposium on Fossil Cnidaria including Archaeocyatha and Porifera Excursion Guidebook. International Association for the Study of Fossil Cnidaria and Porifera, Munster, 112 pp.
  • 28. Grammer, G. M., Ginsburg, R. N., Swart, P. K., McNeill, D. F., Jull, A. J. T. & Prezbindowski, D. R., 1993. Rapid growth rates of syndepositional marine aragonite cements in steep marginal slope deposits, Bahamas and Belize. Journal of Sedimentary Research, 63: 983-989.
  • 29. Gutowski, J., Urbaniec A., Złonkiewicz, Z., Bobrek, L., Świetlik, B. & Gliniak, P., 2007. Upper Jurassic and Lower Cretaceous of the middle Polish Carpathian Foreland. Biuletyn Państwowego Instytutu Geologicznego, 426: 1-26. [In Polish, with English summary.]
  • 30. Harris, M. T., 1993. Reef fabrics, biotic crusts and syndepositional cements of the Latemar reef margin (Middle Triassic), northern Italy. Sedimentology, 40: 383-401.
  • 31. Harris, M. T., 1994. The foreslope and toe-of-slope facies of the Middle Triassic Latemar Buildup (Dolomites, northern Italy). Journal of Sedimentary Research, 64: 132-145.
  • 32. Helm, C. & Schulke, I., 2006. Patch reef development in the florigemma-Bank Member (Oxfordian) from the Deister Mts (NW Germany): a type example for Late Jurassic coral thrombolite thickets. Facies, 52: 441-467.
  • 33. Hoffmann, M., 1992. Deep and shallow water reef-facies pattern of the Late Jurassic from Polish Outer Carpathians. In: Platform Margins. International Symposium, Chichilianne, May 6-8 1992, Abstracts, p. 54.
  • 34. Hoffmann, M. & Kołodziej, B., 2008. Zróżnicowanie facjalne wapieni typu sztramberskiego z polskich Karpat fliszowych. In: Krobicki, M. (ed.), Utwory przełomu jury i kredy w zachodnich Karpatach fliszowych polsko-czeskiego pogranicza, Jurassica VII, Żywiec/Stramberk, 27-29.09.2008. Kwartalnik AGH Geologia, 3: 176-177.
  • 35. Hoffmann, M., Kołodziej, B., Bucur, I. I. & Săsăran, E., 2008. Rola mikrobialitów, mikroinkrusterów oraz synsedymentacyjnych cementów w tworzeniu raf z wapieni typu sztramberskiego z Polski i Rumunii. In: Krobicki, M. (ed.), Utwory przełomu jury i kredy w zachodnich Karpatach fliszowych polsko-czeskiego pogranicza. Jurassica VII, Żywiec/ Štramberk, 27-29.09.2008. Kwartalnik AGH Geologia, 3: 178-179.
  • 36. Houša, V., 1990. Stratigraphy and calpionellid zonation of the Štramberk Limestone and associated Lower Cretaceous beds. In: Pallini, G. (ed.), Atti del Secondo Convegno Internazionale Fossili, Evoluzione, Ambient, Pergola 25-30 ottobre 1987. Pergola, pp. 365-370.
  • 37. Houša, V. & Vašíček, Z., 2005. Ammonoidea of the Lower Cretaceous deposits (Late Berriasian, Valanginian, Early Hauterivian) from Štramberk. Geolines, 18: 7-57.
  • 38. Immenhauser, A., Hillgärtner, H. & van Bentum, E., 2005. Microbial-foraminiferal episodes in the Early Aptian of the southern Tethyan margin: ecological significance and possible relation to oceanic anoxic event 1a. Sedimentology, 52: 77-99.
  • 39. Insalaco, E., Hallam, A. & Rosen, B., 1997. Oxfordian (Upper Jurassic) coral reefs in Western Europe: reef types and conceptual depositional model. Sedimentology, 44: 707-734.
  • 40. Ivanova, D., Kołodziej, B., Koleva-Rekalova, E. & Roniewicz, E., 2008. Oxfordian to Valanginian palaeoenvironmental evolution on the Western Moesian Carbonate Platform: A case study from SW Bulgaria. Annales Societatis Geologorum Poloniae, 78: 65-90.
  • 41. Kaya, M. Y & Altiner, D., 2015. Microencrusters from the Upper Jurassic-Lower Cretaceous Inalti Formation (Central Pontides, Turkey): remarks on the development of reefal/ peri-reefal facies. Facies, 61: 18.
  • 42. Keim, L. & Schlager, W., 2001. Quantitative compositional analysis of a Triassic carbonate platform (Southern Alps, Italy). Sedimentary Geology, 139: 261-283.
  • 43. Kołodziej, B., 1997. Boring Foraminifera from exotics of Štramberk-type limestones (Tithonian-lower Berriasian, Polish Carpathians). Annales Societatis Geologorum Poloniae, 67: 249-256.
  • 44. Kołodziej, B., 2003. Scleractinian corals of suborders Pachythecaliina and Rhipidogyrina (Scleractinia): discussion on similarities and description of species from Štramberk- type limestones, Polish Outer Carpathians. Annales Societatis Geologorum Poloniae, 73: 193-217.
  • 45. Kołodziej, B., 2015 a. Geological context and age of the Štramberk-type limestones from the Polish Outer Carpathians: an overview. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, 276: 173-179.
  • 46. Kołodziej, B., 2015b. Corals of the Štramberk-type limestones from Poland: taxonomic and palaeoecological aspects. Neues Jahrbuch fur Geologie und Paläontologie, Abhandlungen, 276: 181-199.
  • 47. Kołodziej, B., Hoffmann, M. & Ivanova, D., 2015. Contribution of microencruster-cement microframework to development of the Late Jurassic-earliest Cretaceous reefs: examples from Bulgaria and Poland. In: Bucur, I. I., Lazăr, I. & Săsăran, E. (eds), Tenth Romanian Symposium on Paleontology, Cluj- Napoca 16-17 October 2015, Abstracts and Field Trip Guide. Cluj University Press, Cluj, pp. 51-53.
  • 48. Kołodziej, B., Ivanov, M. & Idakieva, V, 2012. Prolific development of pachythecaliines in Late Barremian, Bulgaria: coral taxonomy and sedimentary environment. Annales Societatis Geologorum Poloniae, 82: 291-330.
  • 49. Kowal-Kasprzyk, J., 2018. Calpionellid zones of the Tithonian- -Berriasian exotic limestone clasts from the Outer Carpathians, Poland. Cretaceous Research, 81: 36-50.
  • 50. Krajewski, M., Matyszkiewicz, J., Król, K. & Olszewska, B., 2011. Facies of the Upper Jurassic-Lower Cretaceous deposits from the southern part of the Carpathian Foredeep basement in the Kraków-Rzeszów area (southern Poland). Annales Societatis Geologorum Poloniae, 81: 269-290.
  • 51. Książkiewicz, M., 1971. On origin of the Inwałd Limestones (Outer Carpathian Klippes). Bulletin de l’Academie Polonaise des Sciences, Série des Sciences de la Terre, 19: 91-98.
  • 52. Książkiewicz, M., 1974. Contribution a l’étude de la faune du Tithonique de Woźniki (Carpathes Polonaises Occidentales). Acta Geologica Polonica, 24: 437-456.
  • 53. Lathuiliere, B., Gaillard, C., Habrant. N., Bodeur, Y, Boullier, A., Enay, R., Hanzo, M., Marchand, D., Thierry, J. & Werner, W., Coral zonation of an Oxfordian reef tract in the northern French Jura. Facies, 50: 545-559.
  • 54. Leinfelder, R. R., 2001. Jurassic reef ecosystems. In: Stanley, G. D., Jr. (ed.), The History and Sedimentology of Ancient Reef Systems. Kluwer Academic/Plenum Publishers, New York, pp. 251-302.
  • 55. Leinfelder, R. R., Krautter, M., Laternser, R., Nose, M., Schmid, G., Schweigert, G., Werner, W., Keupp, H., Brugger, H., Herrmann, R., Rehfeld-Kiefer, U., Schroeder, J. H., Reinhold, C., Koch, R., Zeiss, A., Schweizer, V., Christmann, H., Menges, G. & Luterbacher, H., 1994. The origin of Jurassic reefs: current research developments and results. Facies, 31: 1-56.
  • 56. Leinfelder, R. R., Nose, M., Schmid, D. U. & Werner, W., 1993. Microbial crusts of the Late Jurassic: Composition, palaeoecological significance and importance in reef construction. Facies, 29: 195-230.
  • 57. Leinfelder, R. R., Schlagintweit, F., Werner, W., Ebli, O., Nose, M., Schmid, D. U. & Hughes, G. W., 2005. Significance of stromatoporoids in Jurassic reefs and carbonate platforms: concepts and implications. Facies, 51: 287-325.
  • 58. Leinfelder, R. R, Schmid, D. U., Nose, M. & Werner, W., 2002. Jurassic reef patterns - the expression of a changing globe. In: Kiessling, W., Flugel, E. & Golonka, J. (eds), Phanerozoic Reef Patterns. Society of Economic Paleontologist and Mineralogists, Special Publication, 72: 465-520.
  • 59. Machel, H. G., 2000. Application of cathodoluminescence to carbonate diagenesis. In: Pagel, M., Barbin, V., Blanc P. & Ohnenstetter, D. (eds), Cathodoluminescence in Geosciences. Springer Verlag, Berlin, Heidelberg, pp. 271-301.
  • 60. Matyja, B. A., 2009. Development of the Mid-Polish Trough versus Late Jurassic evolution in the Carpathian Foredeep. Geological Quarterly, 53: 49-62.
  • 61. Matyszkiewicz, J., Kochman, A. & Duś, A., 2012. Influence of local sedimentary conditions on development of microbialites in the Oxfordian carbonate buildups from the southern part of the Kraków-Częstochowa Upland (South Poland). Sedimentary Geology, 263-264: 109-132.
  • 62. Matyszkiewicz, J. & Słomka, T., 2004. Reef-microencrusters association Lithocodium aggregatum-Bacinella irregularis from the Cieszyn Limestone (Tithonian-Berriasian) of the Outer Western Carpathians (Poland). Geologica Carpathica, 55: 449-456.
  • 63. Morsilli, M. & Bosellini, A., 1997. Carbonate facies zonation of the Upper Jurassic-Lower Cretaceous Apulia platform margin (Gargano Promontory, southern Italy). Rivista Italiana di Paleontologia e Stratigrafia, 103: 193-206.
  • 64. Morycowa, E., 1964. Polypiers de la klippe de Kruhel Wielki pres de Przemyśl (Tithonique, supérieur, Carpathes polonaises). Rocznik Polskiego Towarzystwa Geologicznego, 34: 489-508.
  • 65. Morycowa, E., 1974. Hexacorallia d’un bloc exotique de calcaire a Woźniki pres Wadowice (Carpathes polonaises occidentals). Acta Geologica Polonica, 24: 457-484.
  • 66. Morycowa, E., 2012. Corals from the Tithonian carbonate complex in the Dąbrowa Tarnowska-Szczucin area (Polish Carpathian Foreland). Annales Societatis Geologorum Poloniae, 82: 1-38.
  • 67. Ogilvie, M. M., 1897. Die Korallen der Stramberger Schichten. Palaeontographica, A, (Suppl. 2), 7: 73-284.
  • 68. Ohga, H., Kołodziej, B., Nose, M., Schmid, D. U., Takayanagi, H. & Iryu, Y, 2013. Sedimentary facies and biofacies of the Torinosu Limestone in the Torinosu area, Kochi Prefecture, Japan. Island Arc, 22: 150-169.
  • 69. Olivier, N., Carpentier, C., Martin-Garin, B., Lathuiliere, B., Gaillard, C., Ferry, S., Hantzpergue, P., Gaillard, C. & Geister, J., 2004. Coral-microbialite reefs in pure carbonate versus mixed carbonate-siliciclastic environments: the example of the Pagny-sur-Meuse section (Upper Jurassic, northeastern France). Facies, 50: 229-255.
  • 70. Olszewska, B. & Wieczorek, J., 2001. Jurassic sediments and microfossils of the Andrychow Klippes (Outer Western Carpathians). Geologica Carpathica, 52: 217-228.
  • 71. Payne, J. L., Lehrmann, D. J., Christensen, S., Wei, J. & Knoll, A. H., Environmental and biological controls on the initiation and growth of a Middle Triassic (Anisian) Reef Complex on the Great Bank of Guizhou, Guizhou Province, China. Palaios, 21: 325-343.
  • 72. Picha, F. J., Stráník, Z. & Krejčí, O., 2006. Geology and hydrocarbon resources of the Outer Western Carpathians and their foreland, Czech Republic. In: Golonka, J. & Picha, F. J. (eds), The Carpathians and their Foreland: Geology and Hydrocarbon resources. AAPGMemoir, 84: 49-175.
  • 73. Pleş, G., Bârtaş, T., Chelaru, R. & Bucur, I. I., 2017. Crescentiella morronensis (Crescenti) (incertae sedis) dominated microencruster association in Lower Cretaceous (lower Aptian) limestones from the Rarău Massif (Eastern Carpathians, Romania. Cretaceous Research, 79: 91-108.
  • 74. Pleş, G., Bucur, I. I. & Säsäran, E., 2016. Depositional environments, facies and diagenesis of the Upper Jurassic-Lower Cretaceous carbonate deposits of the Buila-Vânturariţa Massif, Southern Carpathians (Romania). Annales Societatis Geologorum Poloniae, 86: 165-183.
  • 75. Pleş, G., Mircescu, C. V., Bucur, I. I., Săsăran, E., 2013. Encrusting micro-organisms and microbial structures in Upper Jurassic limestones from the Southern Carpathians (Romania). Facies, 59: 19-48.
  • 76. Pleş, G. & Schlagintweit, F., 2014. New data on Perturbatacrusta leini Schlagintweit & Gawlick, 2011 (calcareous sponge?) from the Late Jurassic (Tithonian) of the Southern Carpathians, Romania. Acta Palaeontologica Romana, 9: 7-13.
  • 77. Podoba, K., 2009. Sclerosponges from exotics of Štramberk- type limestones from the Outer Carpathians. Unpublished MSc. Thesis, Institute of Geological Sciences, Jagiellonian University, 59 pp. [In Polish, with English abstract.]
  • 78. Popa, L., Panaiotu, C. E. & Grădinaru, E., 2014. An early Middle Anisian (Middle Triassic) Tubiphytes and cement crusts-dominated reef from North Dobrogea (Romania): facies, depositional environment and diagenesis. Acta Geologica Polonica, 64: 189-206.
  • 79. Roniewicz, E., 2008. Kimmeridgian-Valanginian reef corals from the Moesian platform from Bulgaria. Annales Societatis Geologorum Poloniae, 78: 91-134.
  • 80. Rusciadelli, G., Ricci, C. & Lathuiliere, B., 2011. The Ellipsactinia Limestones of the Marsica area (Central Apennines): a reference zonation model for Upper Jurassic Intra-Tethys reef complexes. Sedimentary Geology, 233: 69-87.
  • 81. Russo, F., Mastandrea, A., Stefani, M. & Neri, C., 2000. Carbonate facies dominated by syndepositional cements: a key component of Middle Triassic platforms. The Marmolada case history (Dolomites, Italy). Facies, 42: 211-226.
  • 82. Salamon, M. A. & Trzęsiok, D., 2015. The Štramberk-type limestones from Poland - Preface. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, 276: 147-149.
  • 83. Sánchez-Beristain, F. & Reitner, J., 2012. Paleoecology of microencrusters and encrusting “coralline” sponges in Cipit boulders from the Cassian formation (upper Ladinian-lower Carnian, Dolomites, northern Italy). Paläontologische Zeitschrift, 86: 113-133.
  • 84. Săsăran, E., 2006. Calcarele Jurasicului superior-Cretacicului inferior din Munţii Trascău. Presa Universitară Clujeană, Cluj Napoca, 249 pp. [In Romanian.]
  • 85. Săsăran, E., Bucur, I. I., Pleş, G. & Riding, R., 2014. Late Jurassic Epiphyton-like cyanobacteria: Indicators of long-term episodic variation in marine bioinduced microbial calcification? Palaeogeography, Palaeoclimatology, Palaeoecology, 401: 122-131.
  • 86. Schlagintweit, F., 2004a. Iberopora bodeuri Granier & Berthou 2002 (incertae sedis) from the Plassen Formation (Kimmeridgian-Berriasian) of the Tethyan Realm. Geologica Croatica, 57: 1-13.
  • 87. Schlagintweit, F., 2004b. Murania reitneri n.sp.: a new sclerosponge from the Upper Jurassic of the Northern Calcareous Alps (Plassen Formation, Austria and Germany). Austrian Journal of Earth Sciences, 95/96: 37-45.
  • 88. Schlagintweit, F., 2010. Taxonomic revision of Lithocodium ag- gregatum Elliott sensu Schmid & Leinfelder, 1996. Jahrbuch der Geologischen Bundesanstalt, 156: 393-406.
  • 89. Schlagintweit, F., 2012. New insights into Troglotella incrustans Werrnli & Fookes, 1992, a fascinating Upper Jurassic-Upper Cretaceous foraminifer. Studia Universitatis Babeş-Bolyai, Geologia, 57: 17-26.
  • 90. Schlagintweit, F., 2013. Thaumatoporella ladders unraveled. Studia Universitatis Babeş-Bolyai, Geologia, 58: 5-9.
  • 91. Schlagintweit, F. & Bover-Arnal, T., 2012. The morphological adaptation of Lithocodium aggregatum Elliott (calcareous green alga) to cryptic microhabitats (Lower Aptian, Spain): an example of phenotypic plasticity. Facies, 58: 37-55.
  • 92. Schlagintweit, F. & Bover-Arnal, T., 2013. Remarks on Bačinella Radoičić, 1959 (type species B. irregularis) and its representatives. Facies, 59: 59-73.
  • 93. Schlagintweit, F., Bover-Arnal, T. & Salas, R., 2010. New insights into Lithocodium aggregatum Elliott 1956 and Bacinella irregularis Radoičić 1959 (Late Jurassic-Lower Cretaceous): two ulvophycean green algae (?Order Ulotrichales) with a heteromorphic life cycle (epilithic/euendolithic). Facies, 56: 509-547.
  • 94. Schlagintweit, F. & Gawlick, H. J., 2008. The occurrence and role of microencruster frameworks in Late Jurassic to Early Cretaceous platform margin deposits of the Northern Calcareous Alps (Austria). Facies, 54: 207-231.
  • 95. Schlagintweit, F. & Gawlick, H. J., 2009. Enigmatic tube-shaped microfossils associated with microbial crusts from Late Jurassic reefal carbonates of the Northern Calcareous Alps (Austria): a possible mutualistic sponge-epibiont consortium. Lethaia, 42: 452-461.
  • 96. Schlagintweit, F. & Gawlick, H. J., 2011. Perturbatacrusta leini n. gen., n. sp. a new microencruster incertae sedis (? sponge) from Late Jurassic to earliest Cretaceous platform margin carbonates of the Northern Calcareous Alps of Austria. Facies, 57: 123-135.
  • 97. Schlagintweit, F., Gawlick, H. J. & Lein, R., 2005. Mikropaläontologie und Biostratigraphie der Plassen Karbonatplattform der Typlokalität (Ober-Jura bis Unter- Kreide, Salzkammergut, Osterreich). Journal of Alpine Geology (Mitteilungen der Gesellschaft Geologischer Bergbaustudenten Osterreichs), 47: 11-102.
  • 98. Schmid, D. U., 1996. Marine Mikrobolithe und Mikroinkrustierer aus dem Oberjura. Profil, 9: 101-251.
  • 99. Schmid, D. U. & Leinfelder, R. R., 1996. The Jurassic Lithocodium aggregatum-Troglotella incrustans foraminiferal consortium. Palaeontology, 39: 21-52.
  • 100. Schmid, D. U., Leinfelder, R. R. & Nose, M., 2001. Growth dynamics and ecology of Upper Jurassic mounds, with comparisons to Mid-Palaeozoic mounds. Sedimentary Geology, 145: 343-376.
  • 101. Schneider, S., Harzhauser, M., Kroh, A., Lukeneder, A. & Zuschin, M., 2013. Ernstbrunn Limestone and Klentnice beds (Kimmeridgian-Berriasian; Waschberg-Ždánice Unit; NE Austria and SE Czech Republic): state of the art and bibliography. Bulletin of Geosciences, 88: 105-130.
  • 102. Seard, C., Camoin, G. F., Yokoyama, Y., Matsuzaki, H., Durand, N., Bard, E., Sepulcre, S. & Deschamps, P., 2011. Microbialite development patterns in the last deglacial reefs from Tahiti (French Polynesia; IODP expedition #310): implications on reef framework architecture. Marine Geology, 279: 63-86.
  • 103. Seeling, M., Emmerich, A., Bechstädt, T. & Zuhlke, R., 2005. Accommodation/sedimentation development and massive early marine cementation: Latemar vs. Concarena (Middle/ Upper Triassic, Southern Alps). Sedimentary Geology, 175: 439-457.
  • 104. Senowbari-Daryan, B., Bucur, I. I., Schlagintweit, F., Săsăran, E. & Matyszkiewicz, J., 2008. Crescentiella, a new name for ’’Tubiphytes” morronensis Crescenti 1969: an enigmatic Jurassic-Cretaceous microfossil. Geologica Croatica, 61: 185-214.
  • 105. Shiraishi, F. & Kano, A., 2004. Composition and spatial distribution of microencrusters and microbial crusts in upper Jurassic-lowermost Cretaceous reef limestone (Torinosu Limestone, southwest Japan). Facies, 50: 217-227.
  • 106. Steiger, T. & Wurm, D., 1980. Faziesmuster oberjurassischer Plattform-Karbonate (Plassen-Kalke, Nordliche Kalkalpen, Steirisches Salzkammergut, Osterreich). Facies, 2: 241-284.
  • 107. Svobodová, M., Hradecká, L., Skupien, P. & Švábenická, L., 2004. Microfossils of the Albian and Cenomanian shales from the Štranberk area (Silesian unit, Outer Western Carpathians, Czech Republic). Geologica Carpathica, 55: 371-388.
  • 108. Svobodová, M., Švábenická, L., Skupien, P. & Hradecká, L. Biostratigraphy and paleoecology of the Lower Cretaceous sediments in the Outer Western Carpathians (Silesian Unit, Czech Republic). Geologica Carpathica, 62: 309-332.
  • 109. Turnšek, D., Buser, S. & Ogorolec, B., 1981. An upper Jurassic reef complex from Slovenia, Yugoslavia. In: Toomey, D.F. (ed.), European Fossil Reef Models. SEPM Special Publication, 30, pp. 361-369.
  • 110. Van der Kooij, B., Immenhauser, A., Steuber, T., Bahamonde Rionda, J. R. & Merino Tomé, O., 2010. Controlling factors of volumetrically important marine carbonate cementation in deep slope settings. Sedimentology, 57: 1491-1525.
  • 111. Vašíček, Z. & Skupien, P., 2004. The Štramberk fossil site (Uppermost Jurassic/Lower Cretaceous, Outer Western Carpathians) - two centuries of the geological and paleontological research. Sborník Vědeckých Prací Vysoké Školy Báňské - Technické Univerzity Ostrava. Řada Hornicko- Geologická, 50: 83-102. [In Czech, with English summary.]
  • 112. Vašíček, Z. & Skupien, P., 2005. Supplements to history of geological and paleontological research of Štramberk territory. Sborník Vědeckých Prací Vysoké Školy Báňské - Technické Univerzity Ostrava. Řada Hornicko-Geologická, 51: 1-6. [In Czech, with English summary.]
  • 113. Vašíček, Z. & Skupien, P., 2013. Early Berriasian ammonites from the Štramberk Limestone in the Kotouč Quarry (Outer Western Carpathians, Czech Republic). Annales Societatis Geologorum Poloniae, 83: 329-342.
  • 114. Vašíček, Z. & Skupien, P., 2014. Recent discoveries of Tithonian ammonites in the Štramberk Limestone (Kotouč Quarry, Outer Western Carpathians). Annales Societatis Geologorum Poloniae, 84: 131-141.
  • 115. Vašíček, Z. & Skupien, P., 2016. Tithonian-early Berriasian perisphinctoid ammonites from the Štramberk Limestone at Kotouč Quarry near Štramberk, Outer Western Carpathians (Czech Republic). Cretaceous Research, 64: 12-29.
  • 116. Vašíček, Z., Skupien, P. & Jirásek, J., 2013. The northernmost occurrence of the Lower Berriasian ammonite Psudosubplanites grandis (Štramberk Limestone, Outer Western Carpathians, Czech Republic). Geologica Carpathica, 64: 461-466.
  • 117. Weidlich, O., 2002. Middle and Late Permian reefs: distributional patterns and reservoir potential. In: Kiessling, W., Flugel, E. & Golonka, J. (eds), Phanerozoic Reef Patterns. Society of Economic Paleontologist and Mineralogists, Special Publication, 72: 339-390.
  • 118. Wernli, R. & Fookes, E., 1992. Troglotella incrustans n. gen., n. sp., un étrange et nouveau foraminifere calcicavicole du complexe récifal Kimméridgien de Saint-Germain-deJoux (Ain, France). Bolletino della Societa Paleontologica Italiana, 31: 95-103.
  • 119. Wood, R., 1999. Reef Evolution. Oxford University Press, Oxford, 414 pp.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1f804c42-0267-4d54-aab8-ed06b7dec126
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