On some Turonian and Coniacian ammonites from the Czech Republic

Kennedy, William James; Summesberger, Herbert

doi:10.24425/agp.2024.150002

Artykuł - szczegóły

Tytuł artykułu

On some Turonian and Coniacian ammonites from the Czech Republic

Autorzy

Kennedy William James , Summesberger Herbert

Treść / Zawartość

Pełne teksty:

Pobierz

Identyfikatory

DOI

10.24425/agp.2024.150002

Warianty tytułu

Języki publikacji

Abstrakty

Ammonites, chiefly from the Upper Turonian Prionocyclus germari Zone, the Lower Coniacian part of the Forresteria (Harleites) petrocoriensis Zone, and the Lower Coniacan Peroniceras (Peroniceras) tridorsatum Zone from the Czech Republic are figured and described, including classic material originally described by Fritsch (1872–1898) and Jahn (1892, 1896). In all, 25 species are recognised, including two, Pseudojacobites sp. and Muniericeras sp., that represent genera previously not known from the area.

Słowa kluczowe

cretaceous turonian coniacian ammonites Czech Republic

kreda turon koniak amonity Czechy

Wydawca

Faculty of Geology of the University of Warsaw
Komitet Nauk Geologicznych PAN

Czasopismo

Acta Geologica Polonica

Rocznik

2024

Tom

Vol. 74, no. 2

Strony

art. no. e10

Opis fizyczny

Bibliogr. 144 poz., rys., tab.

Twórcy

autor

Kennedy William James

jim.kennedy@oum.ox.ac.uk

Oxford University Museum of Natural History, Parks Road, Oxford, OX13PW and Department of Earth Sciences, South Parks Road, OX13AN UK

autor

Summesberger Herbert

Bibliografia

1. Anderson, F.M. 1902. Cretaceous deposits of the Pacific Coast. Proceedings of the California Academy of Sciences (3) Geology, 2, 1–154.
2. Arkell, W.J. 1950. A classification of the Jurassic ammonites. Journal of Paleontology, 24, 354–364.
3. Bardhan, S., Gangopadhyay, T.K. and Mandel, U. 2002. How far did India drift in the Late Cretaceous? – Placenticeras kaffrarium Etheridge, 1904 (Ammonoidea) used as a measuring tape. Sedimentary Geology, 147, 193–217.
4. Basse, E. 1947. Les peuplements Malagaches de Barroisiceras (Révision du genre Barroisiceras De Gross.). Paléontologie de Madagascar 26. Annales de Paléontologie, 22, 97–190.
5. Baudouin, C., Delanoy, G., Ifrim, C. and Moreno-Bedmar, J.A. 2018. The ammonoid fauna of the Prionocyclus germari Zone (upper Turonian, upper Cretaceous) from Rochefort-en-Valdaine (Drôme, France). Carnets de Géologie, 18, 313–351.
6. Bayle, E. 1849. Sur quelques fossiles de la Province de Constantine. In: Fournel, H. (Ed.), Richesse Minerale d’Algérie accompagnée d’Eclaircissements historiques et géographiques sur cette partie de l’Afrique Septrionale, 1, 476 pp. Imprimèrie Nationale; Paris.
7. Boule, M., Lemoine, P. and Thévenin, A. 1906–1907. Paléontologie de Madagascar III Céphalopodes crétacés des environs de Diego-Suarez. Annales de Paléontologie, 1, 173–192; 2, 1–56.
8. Breistroffer, M. 1947. Notes de nomenclature paléozoologiques. Proces- verbaux mensuels de la Société Scientifique du Dauphiné, 26 (195), 5 pp. [unpaginated]
9. Čech, S. 1989. Upper Cretaceous Didymotis Events from Bohemia. In: Wiedmann, J. (Ed.), Cretaceous of the Western Tethys. Proceedings 3 rd International Cretaceous Symposium, Tübingen, 1987, 657–676. E. Schweizerbart’sche Verlagsbuchhandlungen; Stuttgart.
10. Čech, S. 2011. Palaeogeography and stratigraphy of the Bohemian Cretaceous Basin (Czech Republic) – an overview. Geologické výzkumy na Moravé a ve Slezskua, 2011/1, 18–21.
11. Čech, S., Klein, V., Kříź, J. and Valečka, J. 1980. Revision of the Upper Cretaceous stratigraphy of the Bohemian Cretaceous Basin. Věstnik Ústředního ústavu geologického, 55, 277–276.
12. Collignon, M. 1965a. Atlas des fossiles caractéristiques de Madagascar (Ammonites), XIII (Coniacien), 88 pp. Service Géologique; Tananarive.
13. Collignon, M. 1965b. Atlas des fossiles caractéristiques de Madagascar (Ammonites). XII (Turonien), 82 pp. Service Géologique; Tananarive.
14. Coquand, H. 1859. Synopsis des animaux et des végétaux fossiles observés dans la formation crétacée du Sud-Ouest de la France. Bulletin de la Société Géologique de France, (2), 16, 945–1023.
15. Crick, G.C. 1910. Note on two cephalopods (Pachydiscus farmeryi n. sp., and Heteroceras reussianum [d’Orbigny] ) from the Chalk of Lincolnshire. Geological Magazine, (5), 7, 345–348.
16. DeKay, J.E. 1828. Report on several fossil multilocular shells from the state of Delaware: with observations on a second specimen of the new fossil genus EURYPTERUS. Annals of the Lyceum of Natural History, 2, 273–278.
17. Diebold, F., Bengtson, P., Baudouin, C., Lees, J. and Bert, D. 2018. Voconticoceras vocontiense nov. gen. et sp. (Collignoniceratidae, Ammonoidea) from the upper Turonian (Cretaceous) Prionocyclus germari zone of the Vocontian Basin, France. Cretaceous Research, 88, 375–383.
18. Diener, C. 1925. Ammonoidea neocretacea. Fossilium Catalogus (1: Animalia), 29, 1–244.
19. Douvillé, H. 1890. Sur la classification des Cératites de la Craie. Bulletin de la Société Géologique de France (3), 18, 275–292.
20. Drescher, R. 1863. Uber die Kreidebildungen der Gegend von Löwenberg. Zeitschrift der deutschen geologischen Gesellschaft, 15, 291–367.
21. Dujardin, F. 1837. Mémoire sur les couches du sol en Touraine et description des coquilles de la craie et des Faluns. Mémoire de la Société Géologique de France, 2, 211–311.
22. Etheridge, R. 1904. Cretaceous fossils of Natal. 1. The Umkwelane Hill Deposit. Report of the Geological Survey of Natal and Zululand, 1, 71–93.
23. Fritsch [Frič], A. 1872. Cephalopoden der böhmischen Kreideformationen, 52 pp. Rivnac; Prague.
24. Fritsch [Frič], A. 1877. Studien im Gebiete der böhmischen Kreideformation. II. Die Weissenberger und Malnitzer Schichten. Archiv der Naturwissenschaftliche Landesdurchforschung von Böhmen, 4, (1), 1–151.
25. Fritsch [Frič], A. 1879. Studie v oborn křídového útvaru v čechách. Palaeontologíké prozkoumání jednotlivých vrsev. II belhorske a Malnike vrstvy, 142 pp. Fr. Rivnac; Prague.
26. Fritsch [Frič], A. 1883. Studien im Gebiete der böhmischen Kreideformation. Paläontologische Untersuchungen der einzelnen Schichten. III. Die Iserschichten. Archiv der Naturwissenschaftlichen Landesdurchforschung von Böhmen, 5, (2), 1–137.
27. Fritsch [Frič], A. 1889a. Studien im Gebiete der böhmischen Kreideformation. Paläontologische Untersuchungen der einzelnen Schichten. IV. Die Teplitzer Schichten. Archiv der Naturwissenschaftlichen Landesdurchforschung von Böhmen, 7, (2), 1–119.
28. Fritsch [Frič], A. 1889b. Studie v obornu Křídoveho útvaru v Čechách. Palaeontologiké prozkoumáni jednotlivých vstev. IV. Teplickévrstev. Archiv pro Přírodovédecký Vyzkum Čech, 7, (2), 1–113.
29. Fritsch [Frič], A. 1893. Studien im Gebiete der Böhmischen Kreideformation. Paläontologische Untersuchungen der einzelnen Schichten. V. Priesener Schichten. Archiv der Naturwissenschaftlichen Landesdurchforschung von Böhmen, 9, (1), 1–134.
30. Fritsch [Frič], A. 1895. Studie v obornu Křídoveho útvaru v Čechách. Palaeontologiké prozkoumáni jednotlivých vstev V. Březenské vrstev. Archiv pro Přírodovédecký Vyzkum Čech, 9, (1), 1–130.
31. Fritsch [Frič], A. 1897. Studien im Gebiete der Böhmischen Kreideformation. Paläontologische Untersuchungen der einzelnen Schichten. VI. Chlomeker Schichten. Archiv der Naturwissenschaftlichen Landesdurchforschung von Böhmen, 10, (4), 1–83.
32. Fritsch [Frič], A. 1898. Studie v obornu Křídoveho útvaru v Čechách. Palaeontologiké prozkoumáni jednotlivých vstev Studie v oboru Ceskeho utvaru Kridoveho. VI. Chlomecke vrstvy. Archiv pro Přírodovédecký Vyzkum Čech, 10, (4), 1–80.
33. Gangopadhyay, T.K. and Bardhan, S. 2007. Ornamental polymorphism in Placenticeras kaffrarium (Ammonoidea: Upper Cretaceous of India): Evolutionary implications. In: Landman, N.H., Davis, R.A. and Mapes, R.H. (Eds), Cephalopods present and past: new insights and fresh perspectives, 97–120. Springer; Dordrecht.
34. Gauthier, H. 2006. Révision Critique de la Paléontologie Française d’Alcide d’Orbigny, 6, Céphalopodes Crétacés, 1–292 +1–662. Backhuys; Leiden.
35. Geinitz, H.B. 1840. Charakteristik der Schichten und Petrafakten des sächsischen Kreidegebirges, 31–62. Arnoldischen Buchhandlung; Dresden und Leipzig.
36. Geinitz, H.B.1843. Die Versteinerungen von Kieslingwalda und Nachtrag zur Charakteristik des Sächsisch-Böhmischen Kreidegebirges, 23 pp. Arnoldischen Buchhandlung; Dresden und Leipzig.
37. Geinitz, H.B. 1849. Das Quadersandsteingebirge oder Kreidegebirge in Deutschland, 293 pp. Craz und Gerlach; Freiberg.
38. Geinitz, H.B. 1871–1875. Das Elbthalgebirge in Sachsen. Palaeontographica, 20, 1–319 [1–94 (1871); 95–207 (1872); 207–236 (1873); 237–276 (1874); 277–319 (1875)].
39. Gill, T. 1871. Arrangement of the Families of Mollusks. Smithsonian Miscellaneous Collections, 227, 1–49.
40. Grossouvre, A. de 1894. Recherches sur la craie supérieure, 2, Paléontologie. Les ammonites de la craie supérieure. Mémoires pour servir à l’explication de la Carte Géologique détaillée de la France. 264 pp. [misdated 1893]
41. Hauer, F. von 1866. Neue Cephalopoden aus der Gosaugebilden der Alpen. Sitzungsberichte der Akademie der Wissenschaften Mathematisch-Naturwissenschaftliche Classe in Wien, 53, 1–92.
42. Hibsch, J.E. 1917.Geologische Karten des Böhmischen Mittelgebirges 1: 25 000, Blatt VIII – (Umgebung von Salesel) nebst Erläuterungen, 129 pp. Hölder; Vienna.
43. Hibsch, J.E. 1929. Mortoniceras texanum (Ferd. Roemer sp.) A. de Grossouvre aus dem Böhmischen Mittelgebirge. Lotos, 77, 115–116.
44. Hoepen, E.C.N. 1965. The Peroniceratinae and allied forms of Zululand. Memoir of the Geological Survey of the Republic of South Africa, 55, 1–70.
45. Houša, V. 1967. Lewesiceras Spath (Pachydiscidae, Ammonoidea) from the Turonian of Bohemia. Sborník Geologických Vĕd Paleontologie řada P. svazek, 9, 7–50.
46. Hyatt, A. 1889. Genesis of the Arietidae. Smithsonian Contributions to Knowledge, 673, 1–239.
47. Hyatt, A. 1894. Phylogeny of an Acquired Characteristic. Proceedings of the American Philosophical Society, 32, 349–647.
48. Hyatt, A. 1900. Cephalopoda, 502–604. In: Zittel, K.A. von 1896–1900, Textbook of Palaeontology, transl. Eastman, C.R. Macmillan; London and New York.
49. Ifrim, C., Múzquiz, H.P. and Stinnisbeck, W. 2019. Ammonoids, their biozonation and their palaeobiogeographic relation across the Turonian–Coniacian boundary in northern Coahuila, Mexico. Cretaceous Research, 102, 170–195.
50. Jahn, J.J. 1892. Ein Beitrag zur Kenntnis der Fauna der Priesener Schichten der böhmischen Kreideformation: Ueber die Ausbildung der Rückenlippe bei einem Scaphiten. Jahrbuch der Kaiserlich-Königlichen Geologischen Reichsanstalt, 41, 179–184.
51. Jahn, J.J. 1896. Einige Beiträge zur Kenntniss der böhmischen Kreideformation. Jahrbuch der Kaiserlich-Königlichen Geologischen Reichsanstalt, 45, 125–218.
52. Joly, B. 1993. Les Phyllocerataceae malgaches au Crétacé (Phylloceratina, Ammonoidea). Documents des Laboratoires de Géologie de la Faculté des Sciences de Lyon, 127, 1–171.
53. Kaplan, U. and Kennedy, W.J. 1994. Ammoniten des Westfälischen Coniac. Geologie und Paläontologie in Westfalen, 31, 1–155.
54. Kaplan, U. and Kennedy, W.J. 1996. Upper Turonian and Coniacian ammonite stratigraphy of Westphalia, NW Germany. Acta Geologica Polonica, 46, 305–352.
55. Kaplan, U., Kennedy, W.J. and Wright, C.W. 1987. Turonian and Coniacian Scaphitidae from England and North-West Germany. Geologisches Jahrbuch, A103, 5–39.
56. Kaplan, U. and Schmid, F. 1988. Die heteromorphen Ammoniten der Gattung Eubostrychoceras und Hyphantoceras aus dem Turon NW Deutschlands. Geologie und Paläontologie in Westfalen, 12, 47–87.
57. Kauffman, E. G., Kennedy, W.J. and Wood, C.J. 1996. The Coniacian stage and substage boundaries. Bulletin de l’Institut Royal des Sciences Naturelles de Belgique, Sciences de la Terre, 66 (supplement), 81–94.
58. Kennedy, W.J. 1984. Systematic palaeontology and stratigraphic distribution of the ammonite faunas of the French Coniacian. Special Papers in Palaeontology, 31, 1–160.
59. Kennedy, W.J. 1988. Late Cenomanian and Turonian ammonite faunas from north-east and central Texas. Special Papers in Palaeontology, 39, 1–129.
60. Kennedy, W.J. 2019. The Ammonoidea of the Upper Chalk. Part 1. Monograph of the Palaeontographical Society, London, 1–112 (publication no. 654, part of volume 173 for 2019).
61. Kennedy, W.J. 2020. The Ammonoidea of the Upper Chalk. Part 2. Monograph of the Palaeontographical Society, London, 113–222 (publication no. 656, part of volume 174 for 2020).
62. Kennedy, W.J., Bilotte, M. and Melchior, P. 1995. Ammonite faunas, biostratigraphy and sequence stratigraphy of the Coniacian–Santonian of the Corbières (N.E. Pyrénées). Bulletin des Centres de Recherches, Exploration-Production Elf-Aquitaine, 19, 377–449.
63. Kennedy, W.J. and Cobban, W.A. 1991. Coniacian ammonite faunas from the United States Western Interior. Special Papers in Palaeontology, 45, 1–96.
64. Kennedy, W.J., Cobban, W.A. and Landman, N.L. 2001. A revision of the Turonian members of the ammonite subfamily Collignoniceratinae from the United States Western Interior and Gulf Coast. Bulletin of the American Museum of natural History, 267, 1–148.
65. Kennedy, W.J., Hansotte, M., Bilotte, M. and Burnett, J.A. 1992. Ammonites and nannofossils from the Campanian of Nalzen (Ariège, France). Géobios, 25, 263–278.
66. Kennedy, W.J. and Kaplan, U. 2000. Ammoniten faunen des Hohen Oberconiac und Santon in Westfalen. Geologie und Paläontologie in Westfalen, 57, 1–131.
67. Kennedy, W.J. and Kaplan, U. 2019. Ammoniten aus dem Turonium des Münsterlander Kreidebeckens. Geologie und Paläontologie in Westfalen, 92, 1–223.
68. Kennedy, W.J. and Klinger, H.C. 2013. Scaphitid ammonites from the Upper Cretaceous of KwaZulu-Natal and Eastern Cape Province, South Africa. Acta Geologica Polonica, 63, 527–543.
69. Kennedy, W.J. and Summesberger, H. 1979. A revision of Ammonites mitis Hauer and Ammonites glaneggensis Redtenbacher from the Gosau Beds (Upper Cretaceous) of Austria. Beiträge zur Paläontologie von Österreich, 6, 71–87.
70. Kennedy. W.J. and Walaszczyk, I. 2004. Forresteria (Harleites) petrocoriensis (Coquand, 1859), From the Upper Turonian Mytiloides scupini Zone of Słupia Nadbrzeżna, Poland. Acta Geologica Polonica, 54, 55–59.
71. Kennedy, W.J. and Walaszczyk, I. 2023. The Upper Turonian– Lower Coniacian (Upper Cretaceous) ammonites from the condensed phosphate beds of Mangyschlak, NW Kazakhstan. Acta Geologica Polonica, 73, 635–660.
72. Kennedy, W.J., Wright, C.W. and Klinger, H.C. 1983. Cretaceous faunas from Zululand and Natal, South Africa. The ammonite subfamily Barroisiceratinae Basse, 1947. Annals of the South African Museum, 90, 241–324.
73. Klein, J. 2016a. Lower Cretaceous Ammonites IX Turrilitoidea 2 – Baculitidae, including Upper Cretaceous representatives. Fossilium Catalogus I: Animalia, 155 (pars), 1–140.
74. Klein, J. 2016b. Lower Cretaceous Ammonites X Scaphitoidea, including Upper Cretaceous representatives. Fossilium Catalogus I: Animalia, 157 (pars), 1–203.
75. Klein, J., Hoffmann, R., Joly, B., Shigeta, Y. and Vašiček, Z. 2009. Lower Cretaceous Ammonites IV Boreophylloceratoidea, Phylloceratoidea, Lytoceratoidea, Tetragonitoidea, Haploceratoidea including the Upper Cretaceous representatives. Fossilium Catalogus (1: Animalia), 146, 1–416.
76. Klinger, H.C. and Kennedy, W.J. 1984. Cretaceous faunas from Zululand and Natal, South Africa. The ammonite subfamily Peroniceratinae Hyatt, 1900. Annals of the South African Museum, 92, 113–294.
77. Klinger, H.C. and Kennedy, W.J. 1989. Cretaceous faunas from Zululand and Natal, South Africa. The ammonite family Placenticeratidae Hyatt, 1900; with comments on the systematic position of the genus Hypengonoceras Spath, 1924. Annals of the South African Museum, 98, 241–408.
78. Korn, D., Ebbighausen, V., Bockwinkel, J. and Klug, C. 2003. The A-mode ontogeny in prolecanitid ammonites. Palaeontology, 46, 1123–1132.
79. Kossmat, F. 1895–1898. Untersuchungen über die Südindische Kreideformation. Beiträge zur Paläontologie Österreich– Ungarns und des Orients, 9 (1895): 97–203; 11 (1897): 1–46; 11 (1898): 89–152.
80. Košt’ák, M., Čech, S., Uličný, D.M., Sklenár, J., Ekrt, B. and Mazuch, M. 2018. Ammonites, inoceramids and stable carbon isotopes of the Cenomanian–Turonian OAE2 interval in central Europe: Pećinov quarry, Bohemian Cretaceous basin (Czech Republic). Cretaceous Research, 87, 150–173.
81. Košt’ák, M., Wiese, F., Kozlová, Z., Culka, A., Mazuch, M. and Souček, M. 2024. In-situ-preservation of jaws in the upper Turonian acanthoceratid ammonite Prionocyclus germari (Reuss, 1845): Palaeobiological and taphonomic aspects. Cretaceous Research, 154, 105683.
82. Langenhan, A. and Grundey, M. 1891. Das Kieslingswalder Gestein und seine Versteinerungen. Jahresbericht des Glatzer Gebirgs-Vereins, 10, 1–12.
83. Laube, G.C. and Bruder, G. 1887. Ammoniten der böhmischen Kreide. Palaeontographica, 33, 271–239.
84. Mantell, G.A. 1822. The fossils of the South Downs; or illustrations of the geology of Sussex, 327 pp. Lupton Relfe; London.
85. Meek, F.B. 1871. Preliminary paleontological report, consisting of lists of fossils, with descriptions of some new types etc. Preliminary Report of the United States Geological Survey of Wyoming and portions of contiguous Territories, 4, 287–318.
86. Meek, F.B. 1876. A report on the invertebrate Cretaceous and Tertiary fossils of the upper Missouri country. In: Hayden, F.V. (Ed.), Report of the United States Geological Survey of the Territories, 9, 1–629.
87. Meek, F.B. 1877. Palaeontology. United States Geological Survey Exploration of the Fortieth Parallel, 4, 1–197.
88. Orbigny, A. d’ 1840–1842. Paléontologie française: Terrains crétacés. 1. Céphalopodes, 1–120 (1840); 121 –430 (1841); 431 –662 (1842). Masson; Paris.
89. Orbigny, A. d’. 1850. Prodrome de Paléontologie stratigraphique universelle des animaux Mollusques et rayonnés faisant suite au cours élémentaire de Paléontologie et de Géologie stratigraphiques, 2, 427 pp. Masson; Paris.
90. Parkinson, J. 1811. Organic remains of a former world, 3, 479 pp. Sherwood, Neely and Jones; London.
91. Rawson, P.F., Dhondt, A.V., Kennedy, W.J. and Hancock, J.M. (Eds) 1996. Proceedings of the Second International Symposium on International Stage Boundaries. Bulletin de l’Institut Royal des Sciences naturelles de Belgique, 66 (Supplement), 1–117.
92. Reeside, J.B. Jr. 1932. The Upper Cretaceous ammonite genus Barroisiceras in the United States. Second International Symposium on Cretaceous Stage Boundaries. Bulletin de l’Institut Royal des Sciences Naturelles de Belgique, 66 (Supplement), 1–117. United States Geological Survey Professional Paper, 170-B, 9–29.
93. Redtenbacher, A. 1873. Die Cephalopodenfauna der Gosauschichten in den nordöstlichen Alpen. Abhandlungen der Kaiserlich-Königlichen Geologischen Reichsanstalt, 5, 91–140.
94. Reuss, A.E. 1845. Die Versteinerungen der bömischen Kreideformation, 58 pp. E. Schweizerbart’sche Verlagsbuchhandlung; Stuttgart.
95. Reyment, R.A. 1958. Neubeschreibung der Redtenbacher’schen Ammoniten-Originale aus den Gosauschichten. Stockholm Contributions to Geology, 2, 31–49.
96. Roemer, C.F. 1870. Geologie von Oberschlesien, 436 pp. Nischkowsky; Breslau.
97. Roman, F. 1938. Les ammonites jurassiques et crétacées. Essai de genera, 554 pp. Masson; Paris.
98. Salfeld, H. [J.C.A.] 1924. Die Bedeutung der Konservativstämme für die Stammesentwicklung der Ammonoideen, 16 pp. Verlag Max Weg; Leipzig.
99. Schlüter, C. 1867. Beitrag zur Kenntniss der jüngsten Ammoneen Norddeutschlands, 36 pp. A. Henry; Bonn.
100. Schlüter, C. 1871–1876. Cephalopoden der oberen deutschen Kreide. Palaeontographica, 21, 1–24 (1871); 21, 25–120 (1872); 24, 1–144 (1876).
101. Schlüter, C. 1887. Kreide-Bivalvien. Zur Gattung Inoceramus. Palaeontographica, 24, 250–288.
102. Scupin, H. 1907. Die stratigraphischen Beziehungen der obersten Kreideschichten in Sachsen, Schlesien und Böhmen. Neues Jahrbuch für Mineralogie, Geologie und Paläontologie, Beilage-Band 24, 676–715.
103. Scupin, H. 1913. Die Löwenberger Kreide und ihre Fauna. Palaeontographica, Supplement 6, 1–276.
104. Shimizu, S. 1932. On a new type of Senonian ammonite, Pseudobarroisiceras nagaoi Shimizu gen. et sp. nov. from Teshio Province, Hokkaido. Japanese Journal of Geology and Geography, 10, 1–4.
105. Soukup, J. 1956. Výskyt inoceramů ze skupiny subcardissoides v české křídé. Sbornik Ústředního Ústavu geologickeho, Oddíl paleontologický, 22, 103–122.
106. Sowerby, J. 1812–1822. The Mineral Conchology of Great Britain. 1, pls. 1–9 (1812), pls. 10–44 (1813), pls. 45–78 (1814), pls. 79–102 (1815); 2, pls. 103–114 (1815), pls. 115–150 (1816), pls. 151–186 (1817), pls. 187–203 (1818); 3, pls. 204–221 (1818), pls. 222–253 (1819), pls. 254–271 (1820), pls. 272–306 (1821); 4, pls. 307–318 (1821), pls. 319–383 (1822). The Author; London.
107. Sowerby, J. de C. 1850. In: Dixon, F. (Ed.), The Geology and Fossils of the Tertiary and Cretaceous Formations of Sussex, 1 st Edn., 423 pp. W.J. Smith; Brighton.
108. Spath, L.F. 1922. On the Senonian ammonite fauna of Pondoland. Transactions of the Royal Society of South Africa, 10, 113–147.
109. Spath, L.F. 1925. On Senonian Ammonoidea from Jamaica. Geological Magazine, 62, 28–32.
110. Spath, L.F.1926. On new ammonites from the English Chalk. Geological Magazine, 63, 77–83.
111. Spath, L.F. 1927. Revision of the Jurassic fauna of Kach (Cutch). Memoirs of the Geological Survey of India, Palaeontologica Indica, n. s., 9, memoir 2(1), 1–71.
112. Spath, L.F. 1939. A monograph of the Ammonoidea of the Gault, part 13. Monograph of the Palaeontographical Society, 541–608.
113. Stanton, T.W. 1894. The Colorado Formation and its invertebrate fauna. United States Geological Survey Bulletin, 106, 1–288.
114. Stanton, T.W. 1895. Contributions to the Cretaceous Palaeontology of the Pacific Coast. The fauna of the Knoxville Beds. Bulletin of the United States Geological Survey, 133, 1–132.
115. Stoliczka, F. 1863–1866. The fossil cephalopoda of the Cretaceous rocks of Southern India. Ammonitidae with revision of the Nautilidae etc. Memoirs of the Geological Survey of India. Palaeontologica Indica, 3 (1), 41–56 (1863); (2–5), 57–106 (1864); (6–9), 107–154 (1865); (10–13), 155–216 (1866).
116. Sturm, F. 1901. Der Sandstein von Kieslingswalda in der Grafschaft Glatz und seine fauna. Jahrbuch der königlich preussichen geologischen Landesanstalt, 21, 39–98.
117. Suess, E. 1865. Über Ammoniten. Sitzungsberichte der Akademie der Wissenschaften, Mathematische–Naturwissen-schaftliche Classe, Wien, 52 (for 1865), Abteilung 1, 71–89.
118. Summesberger, H., Kennedy, W.J. and Skoumal, P. 2017. Early and Middle Santonian Cephalopods from the Gosau Group (Upper Cretaceous, Austria) 1. Nautiloidea and non-heteromorph Ammonoidea. Abhandlungen der Geologischen Bundesanstalt in Wien, 71, 54–99.
119. Summesberger, H., Kennedy, W.J., Wagreich, M., Skoumal, P., Schwaighofer, N. and Leiblfinger, A. 2022. The ammonite Forresteria (Harleites) from the Santonian Gosau Group of the Randograben (Russbach am Pass Gschûtt, Salzburg), Austria. Abhandlungen der Geologischen Bundesanstalt, 75, 5–13.
120. Svobodová, A., Košt’ák, M., Čech, S. and Švábenická, L. 2014. New biostratigraphic evidence (texanitid ammonites and calcareous nannofossils) for the Upper and uppermost Coniacian in the Bohemian Cretaceous Basin. Zeitschrift der Deutschen Gesellschaft für Geowissenschaften, 165, 577–589.
121. Szász, L. and Ion, J. 1988. Crétacé supérieur du Bassin de Babadag (Roumanie). Biostratigraphie intégrée (ammonites, inocérames, foraminifères planktoniques). Mémoires de l’Institut de Géologie et de Géophysique, Bucarest, 33, 91–149.
122. Vašíček, Z. 1992. Coniacian ammonites from Štity in Moravia (Czechoslovakia). Sbornik geologických vĕd, Paleontologie, 32, 163–195.
123. Walaszczyk, I., Čech, S., Crampton, J.S., Dubicka, Z., Ifrim, C., Jarvis, I., Kennedy, W.J., Lees, J.A., Lodowski, D., Pearce, M., Peryt, D., Sageman, B.B., Schiøler, P., Todes, J., Uličný, D., Voigt, S. and Wiese, F., with contributions by Linnert, C., Puttmann, T. and Toshimitsu, S. 2022. The Global Boundary Stratotype Section and Point (GSSP) for the base of the Coniacian Stage (Salzgitter-Salder, Germany) and its auxiliary sections (Słupia Nadbrzeżna, central Poland; Střeleč, Czech Republic; and El Rosario, NE Mexico). Episodes, 45, 181–220.
124. Walaszczyk, I. and Cobban, W.A. 2001. Inoceramid faunas and biostratigraphy of the Upper Turonian–Lower Coniacian of the Western Interior of the United States. Special Papers in Palaeontology, 64, 1–118.
125. Walaszczyk, I. and Wood, C.J. 1999. Inoceramids and biostratigraphy at the Turonian/Coniacian boundary, based on the SalzgitterSalder Quarry, Lower Saxony, and the Słupia Nadbrzeżna section, central Poland. Acta Geologica Polonica, 48, 395–434.
126. Wiedmann, J. 1965. Origin, limits, and systematic position of Scaphites. Palaeontology, 8, 397–453.
127. Wiedmann, J. 1966. Stammesgeschichte und System der posttriadischen Ammonoideen; Ein Überblick. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, 125, 49–79; 127, 13–81.
128. Wiese, F. 2000a. Coniacian (Upper Cretaceous) ammonites from the North Cantabrian Basin (Cantabria, northern Spain). Acta Palaeontologica Polonica, 50, 125–141.
129. Wiese, F. 2000b. On some Late Turonian and Early Coniacian (Upper Cretaceous) heteromorph ammonites from Germany. Acta Geologica Polonica, 50, 407–419.
130. Wiese, F., Čech, S., Ekrt, B., Košt’ák, M., Mazuch, M. and Voigt, S. 2004. The Upper Turonian of the Bohemian Cretaceous Basin (Czech Republic) exemplified by the Úpohlavy working quarry: integrated stratigraphy and palaeogeography of a gateway to the Tethys. Cretaceous Research, 25, 329–352.
131. Wilmsen, M. and Nagm, E. 2014. Ammoniten. Geologica Saxonica, 60, 201–240.
132. Windmöler, T. 1882. Die entwickelung des Pläners im nordwestlichen Theile des Teutoburger Waldes bei Lengerich. Jahrbuch der Königlich Preussichen Geologischen Landesanstalt und Bergakademie zu Berlin, 2 (for 1881), 3–54.
133. Wood, C.J., Ernst, G. and Racemann, G. 1984. The Turonian–Coniacian stage boundary in Lower Saxony (Germany) and adjacent areas. The Salzgitter-Salder Quarry as a proposed international standard section. Bulletin of the Geological Society of Denmark, 33, 225 ̶ 228.
134. Woods, H. 1896. The Mollusca of the Chalk Rock: Part 1. Quarterly Journal of the Geological Society of London, 52, 68–98.
135. Wright, C.W. 1953. Notes on Cretaceous ammonites. I, Scaphitidae. Annals and Magazine of Natural History (12), 6, 473–476.
136. Wright, C.W. 1957a. Cretaceous Ammonoidea. In: Moore, R.C. (Ed). Treatise on Invertebrate Paleontology. Part L, Mollusca 4, Cephalopoda Ammonoidea, 490 pp. Geological Society of America and University of Kansas Press; New York and Lawrence.
137. Wright, C.W. 1957b. Some Cretaceous ammonites from New Zealand. Transactions of the Royal Society of New Zealand, 84, 805–809.
138. Wright, C.W. 1979. The ammonites of the English Chalk Rock. Bulletin of the British Museum (Natural History) Geology, 31, 281–332.
139. Wright, C.W. and Matsumoto, T. 1954. Some doubtful Cretaceous ammonite genera from Japan and Saghalien. Memoirs of the Faculty of Science, Kyushu University, Series D, Geology, 4, 107–134.
140. Wright, C.W. and Wright, E.V. 1951. A survey of the fossil Cephalopoda of the Chalk of Great Britain. Monograph of the Palaeontographical Society, 1–40.
141. Yabe, H. 1904. Cretaceous Cephalopoda from the Hokkaido. 2. Turrilites, Helicoceras, Heteroceras, Nipponites, Olcostephanus, Desmoceras, Hauericeras, and an undetermined genus. Journal of the College of Science, Imperial University of Tokyo, 20, 1–45.
142. Yabe, H. 1910. Die Scaphiten aus der Oberkreide von Hokkaido. Beiträge zur Paläontologie und Geologie Österreich-Ungarns und des Orients, 23, 159–174.
143. Zittel, K.A. von 1884. Handbuch der Palaeontologie. 1, Abt. 2; Lief 3, Cephalopoda, 329–522. R. Oldenbourg; Münich and Leipzig.
144. Zittel, K.A. von 1895. Grundzüge der Palaeontologie (Palaeo- zoologie), 972 pp. R. Oldenbourg; Munich and Leipzig.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa nr POPUL/SP/0154/2024/02 w ramach programu "Społeczna odpowiedzialność nauki II" - moduł: Popularyzacja nauki (2026).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-e0c5d0d7-3707-498c-9a99-fe06075a745c