Hostname: page-component-77c89778f8-swr86 Total loading time: 0 Render date: 2024-07-17T09:56:10.710Z Has data issue: false hasContentIssue false
  • English
  • Français

A new late Carboniferous coleoid from Oklahoma, USA: implications for the early evolutionary history of the subclass Coleoidea (Cephalopoda)

Published online by Cambridge University Press:  04 December 2017

Larisa A. Doguzhaeva  and
Royal H. Mapes
Larisa A. Doguzhaeva
Affiliation:
Department of Palaeobiology, Swedish Museum of Natural History, P.O. Box 50007, Stockholm SE-104 05, Sweden 〈larisa.doguzhaeva@gmail.com〉
Royal H. Mapes
Affiliation:
American Museum of Natural History, Central Park West at 79th Street, New York City, New York 10024-5100, USA 〈mapes@ohio.edu〉
Get access Rights & Permissions [Opens in a new window]

Abstract

The limited record of the bactritoid-like coleoid cephalopods is here expanded due to discovery of a late Carboniferous (Moscovian) orthocone comprising a phragmocone and a body chamber with a proostracum-like structure, a sheath-like rostrum, an ink sac, and a muscular mantle preserved on top of the conch. The specimen comes from the Wewoka Formation in the vicinity of the city of Okmulgee, Oklahoma, which previously yielded an orthocone indicative of an evolutionary branch of the Carboniferous cephalopods described as the order Donovaniconida Doguzhaeva, Mapes, and Mutvei, 2007a within the subclass Coleoidea Bather, 1888. Here, we describe from that site a bactritoid-like coleoid, Oklaconus okmulgeensis n. gen. n. sp. in Oklaconidae n. fam. A broad lateral lobe of the suture line and a compressed conch with a narrowed dorsal side and a broadly rounded ventral side distinguish this genus from Donovaniconus Doguzhaeva, Mapes, and Mutvei, 2002b. The muscular mantle is preserved as a dense sheet-like structure, with a crisscross pattern and a globular-lamellar ultrastructure. Recent knowledge on the early to late Carboniferous coleoids is discussed. Carboniferous coleoids show a high morphological plasticity with a capacity for being altered to create the diverse combinations of ‘bactritoid’ and ‘coleoid’ structures. This could be the principle evolutionary driver of their radiation in the late Carboniferous.

Type
Articles
Information
Journal of Paleontology , Volume 92 , Issue 2 , March 2018 , pp. 157 - 169
Copyright
Copyright © 2017, The Paleontological Society 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Allison, P.A., 1987, A new cephalopod with soft parts from the upper Carboniferous Francis Creek Shale of Illinois, USA: Lethaia, v. 20, p. 117121.CrossRefGoogle Scholar
Bather, F.A., 1888, Shell-growth in Cephalopoda (Siphonopoda): Annals and Magazine of Natural History, v. 6, p. 298310.CrossRefGoogle Scholar
Boardman, D.R., Work, D.M., Mapes, R.H., and Barrick, J.E., 1994, Part 1. Biostratigraphy of Middle and Late Pennsylvanian (DesmoinesianVirgilian) ammonoids: Kansas Geological Survey Bulletin, v. 232, p. 148.Google Scholar
Brayard, A., Krumenacker, L.J., Botting, J.P., Jenks, J.F., Bylund, K.G., Fara, E., Olivier, N., Vennin, E., Goudemand, N., Saucède, T., Charbonnier, S., Romano, C., Doguzhaeva, L., Thuy, B., Hautmann, M., Stephen, D.A., Thomazo, C., and Escarguel, G., 2017, Unexpected Early Triassic marine ecosystem and the rise of the modern evolutionary fauna: Science Advances, v. 3, e1602159 doi: 10.1126/sciadv.1602159.Google Scholar
Bronn, H.G., 1859, Nachtrag über die Trias-Fauna von Raibl: Neues Jahrbuch für Mineralogie, Geognosie, Geologie und Petrefaktenkunde, v. 1859, p. 3945.Google Scholar
Deslongchamps, E., 1835, Mémoire sur les Teudopsides, animaux fossiles, voisins des Calmars: Bulletin de la Société Linnéenne de Normandie: Mémoire, v. 5, p. 6878.Google Scholar
Doguzhaeva, L.A., 1994, An Early Cretaceous orthocerid cephalopod from north-western Caucasus: Palaeontology, v. 37, p. 887899.Google Scholar
Doguzhaeva, L.A., 1996, Two Early Cretaceous spirulid coleoids of the north-western Caucasus: their shell ultrastructure and evolutionary implication: Palaeontology, v. 39, p. 681707.Google Scholar
Doguzhaeva, L.A., 2002a, Adolescent bactritoid, orthoceroid, ammonoid and coleoid shells from the upper Carboniferous and lower Permian of south Urals: Abhandlungen der Geologischen Bundesanstalt Wien, v. 57, p. 955.Google Scholar
Doguzhaeva, L.A., 2002b, Evolutionary trends of Carboniferous coleoids: the ultrastructural view: Berliner Paläobiologische Abhandlungen, v. 1, p. 2933.Google Scholar
Doguzhaeva, L.A., 2005, A gladius-bearing coleoid cephalopod from the Aptian of central Russia: Mitteilungen aus dem Geologisch-Paläontologischen Institut der Universität Hamburg, v. 89, p. 4148.Google Scholar
Doguzhaeva, L.A., 2008, The skeleton of the Belemnoidea: extraordinary changes from the early Carboniferous Hematites to the Late Cretaceous Belemnitella , in Faber, A., Weis, R., and Fuchs, D., eds., Third International Symposium Coleoid Cephalopods Through Time, Luxembourg, October 811, 2008: Luxembourg, Musée National d’Histoire Naturelle, p. 3739.Google Scholar
Doguzhaeva, L.A., 2012, The original composition of the pro-ostracum of an early Snemurian belemnite from Belgium deduced from mode of fossilization and ultrastructure: Palaeontology, v. 55, p. 249260.Google Scholar
Doguzhaeva, L.A., and Mapes, R. H., 2015, Arm hooks and structural features in the early Permian Glochinomorpha Gordon 1971, indicative of its coleoid affiliation: Lethaia, v. 48, p. 100114.Google Scholar
Doguzhaeva, L.A., and Mapes, R.H., 2017, Beak from the body chamber of an early Carboniferous shelled longiconic coleoid cephalopod from Arkansas, USA: Lethaia, doi: 10.1111/let.12211.CrossRefGoogle Scholar
Doguzhaeva, L.A., and Muvei, H., 2006, Ultrastructural and chemical comparison between gladii in living coleoids and Aptian coleoids from central Russia: Acta Universitatis Carolinae—Geologica, v. 49, p. 8393.Google Scholar
Doguzhaeva, L.A., and Summesberger, H., 2012, Pro-ostraca of Triassic belemnoids (Cephalopoda) from northern Calcareous Alps, with observations on their mode of preservation in an environment of northern Tethys that allowed for carboniferous of non-biomineralized structures: Neues Jahrbuch für Geologie und Paläeontology, v. 266, p. 3138.Google Scholar
Doguzhaeva, L.A., Mapes, R.H., and Mutvei, H., 1996, Ultrastructural comparison of the shell in Carboniferous Bactrites sp. (Russia) and Bactrites postremus (USA), in Oloriz F., and Rodrogez-Tovar, F.J., eds., Fourth International Symposium, Cephalopods Present and Past, Granada, July 15-17: Granada, Servicio de Reprografia Facultad de Ciencias, p. 5152.Google Scholar
Doguzhaeva, L.A., Mapes, R.H., and Mutvei, H., 1999, A late Carboniferous spirulid coleoid from the southern mid-continent (USA), in Oloriz F., and Rodrogez-Tovar, F.J., eds., Advancing Research on Living and Fossil Cephalopods: New York, Kluwer Academic/Plenum Publishers, p. 4757.Google Scholar
Doguzhaeva, L.A., Mapes, R.H., and Mutvei, H., 2002a, Shell morphology and ultrastructure of the early Carboniferous coleoid Hematites Flower and Gordon, 1959 (Hematitida ord. nov.) from midcontinent (USA): Abhandlungen Geologischen Bundesanstalt Wien, v. 57, p. 299320.Google Scholar
Doguzhaeva, L.A., Mapes, R.H., and Mutvei, H., 2002b, The coleoid with an ink sac and a long body chamber from the Upper Pennsylvanian of Oklahoma, USA: Berliner Paläobiologische Abhandlungen, v. 1, p. 3438.Google Scholar
Doguzhaeva, L.A., Mapes, R.H., Mutvei, H., and Pabian, R.K., 2002c, The Late Carboniferous phragmocone-bearing orthoconic coleoids with ink sacs: their environment and mode of life, in Brock, G.A., and Talent, J.A., eds., First International Palaeontological Congress, July 610, 2000, Geological Society of Australia, Abstracts: Sydney, Australia, Macquarie University, p. 200.Google Scholar
Doguzhaeva, L.A., Mutvei, H., and Donovan, D.T., 2002d, Pro-ostracum, muscular mantle and conotheca in the Middle Jurassic belemnite Megateuthis : Abhandlungen Geologischen Bundesanstalt Wien, v. 57, p. 321339.Google Scholar
Doguzhaeva, L.A., Mapes, R.H., and Mutvei, H., 2003, The shell and ink sac morphology and ultrastructure of the Late Pennsylvanian cephalopod Donovaniconus and its phylogenetic significance: Berliner Paläobiologische Abhandlungen, v. 3, p. 6178.Google Scholar
Doguzhaeva, L.A., Mapes, R.H., and Mutvei, H., 2004a, Occurrence of ink in Paleozoic and Mesozoic coleoids (Cephalopoda): Mitteilungen aus dem Geologisch-Paläontologischen Institut der Universität Hamburg, v. 88, p. 145156.Google Scholar
Doguzhaeva, L.A., Mutvei, H., Summesberger, H., and Dunca, E., 2004b, Bituminous soft body tissues in the body chamber of the Late Triassic ceratitid Austrotrachyceras from the Austrian Alps: Mitteilungen aus dem Geologisch-Paläontologischen Institut der Universität Hamburg, v. 88, p. 3750.Google Scholar
Doguzhaeva, L.A., Donovan, D.T., and Mutvei, H., 2006a, Ultrastructure of Belemnotheutis from Oxford Clay (Callovian), England, as a key for elucidating of the origin of the proostracum: Acta Universitatis Carolinae—Geologica, v. 49, p. 95105.Google Scholar
Doguzhaeva, L.A., Mapes, R.H., and Dunca, E., 2006b, A late Carboniferous adolescent cephalopod from Texas (USA), with a short rostrum and a long body chamber: Acta Universitatis Carolinae—Geologica, v. 49, p. 5568.Google Scholar
Doguzhaeva, L.A., Summesberger, H., and Mutvei, H., 2006c, An unique Upper Triassic coleoid from the Austrian Alps reveals pro-ostracum and mandible ultrastructure: Acta Universitatis Carolinae—Geologica, v. 49, p. 6982.Google Scholar
Doguzhaeva, L.A., Mapes, R.H., and Mutvei, H., 2007a, A late Carboniferous coleoid cephalopod from the Mazon Creek Lagerstätte (USA), with a radula, arm hooks, mantle tissues, and ink, in Landman, N.H., Davis, R.A., and Mapes, R.H., eds., Sixth International Symposium, Cephalopods—Present and Past: Dordrecht, The Netherlands, Springer, v. 6, p. 121143.Google Scholar
Doguzhaeva, L.A., Mapes, R.H., Summesberger, H., and Mutvei, H., 2007b, The preservation of body tissues, shell, and mandibles in the ceratitid ammonoid Austrotrachyceras (Late Triassic), Austria, in Landman, N.H., Davis, R.A., and Mapes, R.H., eds., Sixth International Symposium, CephalopodsPresent and Past: Dordrecht, The Netherlands, Springer, v. 6, p. 221238.Google Scholar
Doguzhaeva, L.A., Summesberger, H., Mutvei, H., and Brandstaetter, F., 2007c, The mantle, ink sac, ink, arm hooks and soft body debris associated with the shells in Late Triassic coleoid cephalopod Phragmoteuthis from the Austrian Alps: Palaeoworld, v. 16, p. 272284.Google Scholar
Doguzhaeva, L.A., Mapes, R.H., and Mutvei, H., 2010a, Evolutionary patterns of Carboniferous coleoid cephalopods based on their diversity and morphological plasticity, in Tanabe, K., Shigeta, Y., Sasaki, T., and Hirano, H., eds., Cephalopods—Present and Past: Tokyo, Tokai University Press, p. 171180.Google Scholar
Doguzhaeva, L.A., Mapes, R.H., and Mutvei, H., 2010b, A radula and associated cephalic remains of a Carboniferous coleoid from Oklahoma: USA, Ferrantia, v. 59, p. 3750.Google Scholar
Doguzhaeva, L.A., Weis, R., Delsate, D., and Mariotti, N., 2014, Embryonic shell structure of Early–Middle Jurassic belemnites, and its significance for belemnite expansion and diversification in the Jurassic: Lethaia, v. 47, p. 4965.CrossRefGoogle Scholar
Doguzhaeva, L.A., Bengtson, S., Reguero, M.A., and Mörs, T., 2017, An Eocene orthocone from Antarctica shows convergent evolution of internally-shelled cephalopods: PLoS ONE, v. 12, no. 3, e0172169, doi: 10.1371/journal.pone.0172169.CrossRefGoogle ScholarPubMed
Flower, R.H., and Gordon, M. Jr., 1959, More Mississippian belemnites: Journal of Paleontology, v. 33, p. 809842.Google Scholar
Fox, D.L., 1966, Pigmentation in mollusks, in Wilber, K.M., and Yonge, C.M., eds., Physiology of Mollusca: New York, Academic Press, p. 249274.Google Scholar
Fuchs, D., Iba, Y., Ifrim, C., Nishimura, T., Kennedy, E.J., Keupp, H, Stinnesbeck, W., and Tanabe, K., 2013, Longibelus gen. nov., a new Cretaceous coleoid genus linking Belemnoidea and early Decabranchia: Palaeontology, v. 56, p. 10811106.Google Scholar
Gordon, M. Jr., 1971, Primitive squid from the Permian of Utah: United States Geological Survey Professional Paper, v. 750–C, p. 3438.Google Scholar
Jeletzky, J.A., and Zapfe, H., 1967, Coleoid and orthoceroid cephalopods of the Rhaetian Zlambach Marl from the Fischerwiese near Aussee, Styria (Austria): Annalen des Naturhistorischen Museums Wien, v. 71, p. 69106.Google Scholar
Johnson, R.G., and Richardson, E.S., 1966, A remarkable Pennsylvanian fauna from the Mazon Creek area, Illinois: Journal of Geology, v. 74, p. 626631.Google Scholar
Johnson, R.G., and Richardson, E.S., 1968, A ten-armed fossil cephalopod from the Pennsylvanian in Illinois: Science, v. 159, p. 526528.Google Scholar
Kluessendorf, J., and Doyle, P., 2000, Pohlsepia mazonensis, an early ‘octopus’ from the Carboniferous of Illinois, USA: Palaeontology, v. 43, p. 919926.Google Scholar
Kröger, B., Vinther, J., and Fuchs, D., 2011, Cephalopod origin and evolution: a congruent picture emerging from fossils, development and molecules: BioEssays, v. 33, p. 602613.Google Scholar
Krystyn, L., 1978, Eine neue Zonengliederung im alpin-mediterranen Unterkarn, Schrittenreiche Erdwiss, Komm: Ŏsterreichischen: Akaddemie Wissenschaften, v. 4, p. 3775.Google Scholar
Lamarck, J.B., 1799, Prodrome d’une nouvelle classification des coquilles: Memoires de la Société d’Histoire Naturelle de Paris, v. 1, p. 6391.Google Scholar
Linnaeus, C., 1758, Systema naturae per regna tria nature, secundum classes, ordines, genera, species, cum characteribus, differentiies, synonymis, locis, Tomus I, Editio decima, reformata: Stockholm, Laurentius Salvius, 824 pp. [1965 reprint by the British Museum (Natural History), London].Google Scholar
Mapes, R.H., 1979, Carboniferous and Permian Bactritoidea (Cephalopoda) in North America: University of Kansas Paleontological Contributions, v. 64, p. 175.Google Scholar
Mapes, R.H., and Doguzhaeva, L.A., 2017, New Pennsylvanian coleoids (Cephalopoda) from Nebraska and Iowa, USA. Journal of Paleontology. DOI: 10.1017/jpa.2017.79.Google Scholar
Mapes, R.H., Doguzhaeva, L.A., Mutvei, H., and Pabian, R.K., 2010a, A new late Carboniferous coleoid preserved with an ink sac from Nebraska: USA, Ferrantia, v. 59, p. 126136.Google Scholar
Mapes, R.H., Weller, E.A., and Doguzhaeva, L.A., 2010b, Early Carboniferous (late Namurian) coleoid cephalopods showing a tentacle with arm hooks and an ink sac from Montana, USA, in Tanabe, K., Shigeta, Y., Sasaki, T., and Hirano, H., eds., Cephalopods – Present and Past: Tokyo, Tokai University Press, p. 155170.Google Scholar
Mutvei, H., Mapes, R.H., and Doguzhaeva, L.A., 2012, Shell structures in Carboniferous bactritid-like coleoids (Cephalopoda) from south central USA: GFF, v. 134, p. 201216.Google Scholar
Naef, A., 1922, Die Fossilen Tintenfische: Jena, Germany, Gustav Fischer, 322 p.Google Scholar
Pavlow, A.P., 1914, [Jurassic and Lower Cretaceous Cephalopods of north Siberia]: Zapiski Imperatorskoj Akademii Nauk, Phiziko-Matematicheskoe Otdelenie, v. 21, p. 168.Google Scholar
Pompeckj, J.F., 1912, Cephalopoda, Palaeontologie, in Korschelt, E., ed., Handwörterbuch der Naturwissenschaften, v. Volume 3: Jena, Germany, Gustav Fischer, p. 265296.Google Scholar
Quenstedt, F.A., 1839, Loligo Bollensis ist kein Belemniten-Organ: Neues Jahrbuch für Mineralogie, Geognosie, Geologie und Petrefakten-Kunde, v. 1839, p. 156167.Google Scholar
Saunders, W.B., and Richardson, E.S., 1979, Middle Pennsylvanian (Desmoinesean) Cephalopoda of the Mazon Creek fauna, northeastern Illinois, in Nitecki, M.H., ed., Mazon Creek Fossils: New York, Academic Press, p. 333359.Google Scholar
Schneider, J.C., 1784, Characteristic des ganzen Geschlechts und der einzelnen Arten von Blackfischen, in Schneider, J.C., ed., Sammlung vermischter Abhandlungen zur Aufklärung der Zoologie und der Handlungsgeschichte: Berlin, J.P. Junger, p. 105134.Google Scholar
Smith, J.P., 1903, The Carboniferous ammonoids of America: Monographs of the United States Geological Survey, v. 52, p. 1211.Google Scholar
Stolley, E., 1919, Die Systematik der Belemniten: Jahresberichte des Niedersachsischen geologischen Vereins zu Hannover, v. 11, p. 159.Google Scholar
Suess, E., 1865, Über die Cephalopoden-Sippe Acanthoteuthis R. Wagn.; Sitzungsberichte der Kaiserlich-Königlichen Akademie der Wissenschaften zu Wien: Mathematisch-Naturwissenschaftliche Klasse, v. 51, p. 225244.Google Scholar
Sweet, W.C., 1964, Cephalopoda—general features, in Moore, R.C., ed., Treatise on Invertebrate Paleontology, Part K, Mollusca, v. Volume 3: Boulder, Colorado, and Lawrence, Kansas, Geological Society of America (and University of Kansas Press), p. K4K13.Google Scholar
von Mojsisovics, E., 1882, Die Cephalopoden der mediterranen Triasprovinz, III. Dibranchiata: Abhandlungen der Kaiserlich-Königlichen Geologischen Reichsanstalt, v. 10, p. 295307.Google Scholar