Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-27T17:00:04.307Z Has data issue: false hasContentIssue false

An Exquisitely Preserved Skeleton Representing a Primitive Sturgeon from the Upper Cretaceous Judith River Formation of Montana (Acipenseriformes: Acipenseridae: N. Gen. and Sp.)

Published online by Cambridge University Press:  11 August 2017

Lance Grande
Affiliation:
Department of Geology, Field Museum of Natural History, Chicago, Illinois 60605
Eric J. Hilton
Affiliation:
Department of Geology, Field Museum of Natural History, Chicago, Illinois 60605

Abstract

A new species of sturgeon (Acipenseridae), †Psammorhynchus longipinnis n. gen. and sp., is described based on a single well-preserved specimen from the Upper Cretaceous Judith River Formation of Montana. Although based on only a single individual, the osteological detail we are able to describe for this species is extensive because of the completeness of the specimen, the relatively three-dimensional preservation, and the soft, loosely consolidated sandstone matrix in which it was contained (allowing some dissection of the specimen to reveal the internal bones of the head region). We prepared the specimen completely out of the matrix, and described the head region in stages of “dissection.” †Psammorhynchus longipinnis is the only fossil sturgeon to date that provides a relatively complete, reliable look at its osteology. Although there have previously been numerous and widespread reports of fossil sturgeons, the material is notoriously fragmentary and poorly preserved, consisting mostly of isolated scutes or pectoral spines (summarized here in an appendix) and it is of very limited use to phylogenetic studies of living sturgeon taxa. The only other described articulated skeleton of a fossil sturgeon is †Protoscaphirhynchus squamosus Wilimovsky from the Upper Cretaceous Hell Creek Formation of Montana. That specimen (the only one known for the species) is a badly preserved, very poorly prepared skeleton showing little detail of the head region. It is interesting to note that the only known articulated fossil sturgeon skeletons (†Psammorhynchus longipinnis n. gen. and sp.; †Protoscaphirhynchus squamosus Wilimovsky; and a third, yet undescribed specimen) were apparently each independently discovered in the abdominal regions of hadrosaurian dinosaurs (as was the Cretaceous paddlefish †Paleopsephurus wilsoni MacAlpin). Perhaps hadrosaur carcasses provided the right combination of taphonomic factors to protect acipenseriform carcasses from damage in high energy aquatic environments predominantly preferred by sturgeons. In any case, based on known specimens, sediments within hadrosaurs appear to have been the main preservational medium for articulated fossil sturgeon skeletons in North America.

Psammorhynchus longipinnis appears to be the sister taxon to the rest of Acipenseridae based on our preliminary analysis here. We will reevaluate this relationship elsewhere in our (Hilton, Grande, and Bemis) ongoing study of fossil and living Acipenseridae.

Type
Research Article
Copyright
Copyright © 2006, 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

Agassiz, L. 1844. Recherches sur les Poissons Fossiles. Tome 2, Pt. 2, p. 280. Paris. Author, printed by Petitpierre: Neuchâtel. (Dates for publication of individual parts are given by W. H. Brown in Woodward and Sherborn [1890:xxv–xxix], 5) Google Scholar
Ancell, C. A., Harmon, R., and Horner, J. R. 1998. Gar in a duckbill: Preservation of a scavenger and its prey. Journal of Vertebrate Paleontology, 18(supplement to 3):24A. (Abstract) Google Scholar
Applegate, S. P. 1970. The vertebrate fauna of the Selma Formation of Alabama, Pt. VIII, The fishes. Fieldiana, Geology Memoirs, 3:385433.Google Scholar
Bell, G. L. Jr. 1986. A pycnodont fish from the Upper Cretaceous of Alabama. Journal of Paleontology, 60:11201126.CrossRefGoogle Scholar
Bemis, W. E., Findeis, E. K., and Grande, L. 1997. An overview of Acipenseriformes. Environmental Biology of Fishes, 48:2571.CrossRefGoogle Scholar
Berg, L. S. 1940. Classification of Fishes Both Recent and Fossil [reprint edition with English translation (1965)]. Thai National Document Center, Bangkok, p. 85517.Google Scholar
Bertin, L. 1958. Système nerveux des poissons, p. 854922. In Grassé, P. P. (ed.), Traité de Zoologie, 13(1). Masson et Cie, Paris.Google Scholar
Boghdanov, M. N. 1874. A report on a newly discovered acipenserid fish at the meeting of Zoological Section. Trudy Sankt-Peterburgskogo Obshchestva Ispytatelei Prirody, 5:48. (In Russian) Google Scholar
Bonaparte, C. L. 1831. Saggio di una distribuzione metodico degli animali vertebrati. Giornale Arcadico di Scienze, Lettere ed Arti, 52:178.Google Scholar
Bonaparte, C. L. 1838. Selachorum tabula analytica. Nouvelles Annales des Sciences Naturelles, 2:195214.Google Scholar
Bonaparte, C. L. 1846. Catalogo Metodico dei Pesci Europi. Atti della Società Italiana di Scienze Naturali, p. 195.Google Scholar
Brandt, J. F. 1869. Einige worte über die europaich-asiatischen Störarten (Sturionides). Mélanges Biologiques, 7:110116.Google Scholar
Bridge, T. W. 1878. On the osteology of Polyodon folium . Philosophical Transactions of the Royal Society of London, 169:683784.Google Scholar
Bryant, L. J. 1989. Non-dinosaurian lower vertebrates across the Cretaceous–Tertiary boundary in northeastern Montana. University of California Publications in Geological Sciences, 134:1107.Google Scholar
Clemens, W. A., and Nelms, L. G. 1993. Paleoecological implications of Alaskan terrestrial vertebrate fauna in latest Cretaceous time at high paleolatitudes. Geology, 21:503506.Google Scholar
Cope, E. D. 1872. Observations on the systematic relations of the fishes. Proceedings of the American Association for the Advancement of Science, 20:317343. (Dated 1871 when paper was read, but published in 1872) Google Scholar
Cope, E. D. 1876. Descriptions of some vertebrate remains from the Fort Union beds of Montana. Proceedings of the Academy of Natural Sciences, Philadelphia, 1876:248261.Google Scholar
Cope, E. D. 1883. A new chondrostean from the Eocene. American Naturalist, 17:11521153.Google Scholar
Cope, E. D. 1887. Zittel's Manual of Palæontology. American Naturalist, 21:10141019. (A review of the above work of Professor Zittel, and containing a classification of the teleostomous fishes) Google Scholar
Daimeries, A. 1892. Notes ichthyologiques. VII. Société Royale Malacologique de Belgique Bulletin, 27:16.Google Scholar
De Beer, G. R. 1937. The Development of the Vertebrate Skull. Clarendon Press, Oxford, 552 p.Google Scholar
Dingerkus, G., and Uhler, L. D. 1977. Enzyme clearing of alcian blue stained whole small vertebrates for demonstration of cartilage. Journal of Stain Technology, 52(4):229232.CrossRefGoogle ScholarPubMed
Egerton, P. de M. G. 1858. On Chondrosteus, an extinct genus of the Sturionidae, found in the Lias Formation at Lyme Regis. Philosophical Transactions of the Royal Society of London, 148:871885.Google Scholar
Estes, R. 1964. Fossil vertebrates from the late Cretaceous Lance Formation, eastern Wyoming. University of California Publications in Geological Sciences, 49:1180.Google Scholar
Estes, R. 1976. Middle Paleocene lower vertebrates from the Tongue River Formation, southeastern Montana. Journal of Paleontology, 50: 500520.Google Scholar
Estes, R., Berberian, P., and Meszoely, C. A. M. 1969. Lower vertebrates from the Late Cretaceous Hell Creek Formation, McCone County, Montana. Breviora, Museum of Comparative Zoology, 337:133.Google Scholar
Farris, J. S. 1988. Hennig86, Version 1.5. Computer Program and Documentation. Port Jefferson Station, New York.Google Scholar
Findeis, E. K. 1993. Skeletal anatomy of the North American shovelnose sturgeon Scaphirhynchus platorynchus (Rafinesque 1820) with comparisons to other Acipenseriformes. Unpublished Ph.D. thesis, University of Massachusetts, Amherst, 444 p.Google Scholar
Findeis, E. K. 1997. Osteology and phylogenetic interrelationships of sturgeons (Acipenseridae). Environmental Biology of Fishes, 48:73126.CrossRefGoogle Scholar
Gardiner, B. G. 1966. Catalogue of Canadian fossil fishes. Contribution, Royal Ontario Muse, Life Sciences Division, 68:1154.Google Scholar
Gardiner, B. G. 1984. Sturgeons as living fossils, p. 148152. In Eldredge, N. and Stanley, S. M. (eds.), Living Fossils. Springer-Verlag, New York.CrossRefGoogle Scholar
Gobalet, K. W., and Fenenga, G. L. 1993. Terminal Pleistocene–early Holocene fishes from Tulare Lake, San Joaquin Valley, California, with comments on the evolution of Sacramento squawfish (Ptychocheilus grandis: Cyprinidae). PaleoBios, 15(1): 18.Google Scholar
Goodrich, E. S. 1930. Studies on the Structure and Development of Vertebrates. Macmillan, London, 837 p.Google Scholar
Goodwin, M. B., and Deino, A. L. 1989. The first radiometric ages from the Judith River Formation (Upper Cretaceous), Hill County, Montana. Canadian Journal of Earth Sciences, 26:13841391.CrossRefGoogle Scholar
Gosline, W. A. 1977. The structure and function of the dermal pectoral girdle in bony fishes with particular reference to ostariophysines. Journal of Zoology, London, 183:329338.CrossRefGoogle Scholar
Grande, L. 2001. An updated review of the fish fauna from the Green River Formation, the world's most productive lagerstätten, p. 138. In Gunnell, G. (ed.), Eocene Vertebrates: Unusual Occurrences and Rarely Sampled Habitats. Plenum, New York.Google Scholar
Grande, L., and Bemis, W. E. 1991. Osteology and phylogenetic relationships of fossil and Recent paddlefishes (Polyodontidae) with comments on the interrelationships of Acipenseriformes. Society of Vertebrate Paleontology Memoir, 1, 121 p., supplement to Journal of Vertebrate Paleontology, 11(1). Google Scholar
Grande, L., and Bemis, W. E. 1996. Interrelationships of Acipenseriformes, with comments on “Chondrostei,” p. 85115. In Stiassny, M., Parenti, L., and Johnson, G. D. (eds.), Interrelationships of Fishes. Academic Press, San Diego, California.Google Scholar
Grande, L., and Bemis, W. E. 1998. A comprehensive phylogenetic study of amiid fishes (Amiidae) based on comparative skeletal anatomy. An empirical search for interconnected patterns of natural history. Society of Vertebrate Paleontology Memoir, 4, 690 p., supplement to Journal of Vertebrate Paleontology, 18(1). Google Scholar
Grande, L., Jin, F., Yabumoto, Y., and Bemis, W. E. 2002. Protopsephurus liui, a well-preserved primitive paddlefish (Acipenseriformes: Polyodontidae) from the Lower Cretaceous of China. Journal of Vertebrate Paleontology, 22:209237.Google Scholar
Gregory, W. K. 1933. Fish skulls: A study of the evolution of natural mechanisms. Transactions of the American Philosophical Society, n. s., 23:75481.Google Scholar
Günther, A. 1873. Report on a collection of fishes from China. Annals and Magazine of Natural History, s. 4, 12:239250.Google Scholar
Heckel, J. J. 1836. Scaphirhynchus, eine neue fischgattung aus der ordnung der Chondropterygier mit freien kiemen. Annalen des Wiener Museums der Naturgeschichte, 1:6878 + 1 pl.Google Scholar
Hilton, E. J. 2004. The caudal skeleton of Acipenseriformes (Actinopterygii: Chondrostei): Recent advances and new observations, p. 599617. In Arratia, G., Wilson, M. V H., and Cloutier, R. (eds.), Recent Advances in the Origin and Early Radiation of Vertebrates. Verlag Dr. Friedrich Pfeil, München, Germany.Google Scholar
Hilton, E. J. 2005. Observations on the skulls of sturgeons (Acipenseridae): Shared similarities of Pseudoscaphirhynchus kaufmanni and juvenile specimens of Acipenser stellatus . Environmental Biology of Fishes, 72:135144.Google Scholar
Hilton, E. J., and Bemis, W. E. 1999. Skeletal variation in shortnose sturgeon (Acipenser brevirostrum) from the Connecticut River: Implications for comparative osteological studies of fossil and living fishes, p. 6994. In Arratia, G. and Schultze, H. P. (eds.), Mesozoic Fishes 2: Systematics and the Fossil Record. Verlag Dr. Friedrich Pfeil, München, Germany.Google Scholar
Hilton, E. J., and Grande, L. 2006. Review of the fossil record of sturgeons, family Acipenseridae (Actinopterygii: Acipenseriformes), from North America. Journal of Paleontology, 80(4):672683.Google Scholar
Holly, M. 1936. Pisces 4. Ganoidei. Das Tierreich Im Auftrage der Preu$Szischen Akademie der Wissenschaften zu Berlin. Schulze, F. E., Kükenthal, W., Heider, K. Walter de Gruyter, Berlin, 65 p.Google Scholar
Holmgren, N., and Stensiö., E. A. 1936. Kranium und Visceralskelett der Akranier, Cyclostomen und Fische, p. 233500. In Bolk, L., Göppert, E., Kallius, E., and Lubosch, W. (eds.), Handbuch der Vergleichenden Anatomie der Wirbeltiere. Vol. 4.Google Scholar
Huxley, T. H. 1880. On the applications of the laws of evolution to the arrangement of the Vertebrata and more particularly of the Mammalia. Proceedings of the Zoological Society of London, 1880:649662.Google Scholar
Iwanzow, N. 1887. Der Scaphirhynchus. Eine Vergleichend-Anatomische Beschreibung. Bulletin of the Society of Science, Moscow, 1887: 141.Google Scholar
Jarvik, E. 1948. On the morphology and taxonomy of the Middle Devonian osteolepid fishes of Scotland. Kungliga Svenska Vetenskapsakademiens Handlingar, Stockholm, (3)25:1301.Google Scholar
Jessen, H. L. 1972. Schultergürtel und Pectoralflosse bei Actinopterygiern. Fossils and Strata, 1:1101.Google Scholar
Jin, F. 1999. Middle and Late Mesozoic acipenseriforms from northern Hebei and western Liaoning, China. Palaeoworld, 11:188261.Google Scholar
Jin, F., Tian, Y.-P., Yang, Y.-S., and Deng, S.-Y. 1995. An early fossil sturgeon (Acipenseriformes, Peipiaosteidae) from Fengning of Hebei, China. Vertebrata PalAsiatica, 33(1):116. (In Chinese with English summary) Google Scholar
Jollie, M. 1962. Chordate Morphology. Reinhold Publishing, New York, 478 p.Google Scholar
Jollie, M. 1980. Development of head and pectoral girdle skeleton and scales in Acipenser . Copeia, 1980:226249.Google Scholar
Lacépède, B. G. E. 1797. Sur la Polyodon Fueille (Spatularia folium). 1. Bulletin de Sciences de la Société Philomatique de Paris, 2:49.Google Scholar
Lambe, L. M. 1902. New genera and species from the Belly River series (Mid-Cretaceous). Contributions to Canadian Palaeontology, Geological Survey of Canada, 3:2581.Google Scholar
Lauginiger, E. M. 1984. An Upper Campanian vertebrate fauna from the Chesapeake and Delaware Canal, Delaware. The Mosasaur, 2:141149.Google Scholar
Leidy, J. 1873. Notice of fossil vertebrates from the Miocene of Virginia. Proceedings of the Academy of Natural Sciences, Philadelphia, 1873: 15.Google Scholar
Lesueur, C. A. 1818. Description of several species of chondropterygious fishes of North America, with their varieties. Transactions of the American Philosophical Society, n. s., 1:383394.Google Scholar
Linnaeus, C. 1758. Systema Naturae (editio X). [Systema naturae per regna tria naturae, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis. Tomus I. Editio decima, reformata.] Holmiae, 824 p.Google Scholar
Liu, H.-T., and Zhou, J. J. 1965. A new sturgeon from the upper Jurassic of Liaoning, north China. Vertebrata PalAsiatica, 9:237248.Google Scholar
Lofgren, D. L. 1995. The Bug Creek problem and the Cretaceous–Tertiary transition at McGuire Creek, Montana. University of California Publications in Geological Sciences, 140:1185.Google Scholar
Lu, L. 1994. A new paddlefish from the Upper Jurassic of northeast China. Vertebrata PalAsiatica, 32(2):134142. (In Chinese with English summary) Google Scholar
MacAlpin, A. 1941. Paleopsephurus wilsoni, a new polyodontid fish from the Upper Cretaceous of Montana, with a discussion of allied fish, living and fossil. Bulletin of the Geological Society of America, 52(Pt. II): 1989. (Abstract) Google Scholar
MacAlpin, A. 1947. Paleopsephurus wilsoni, a new polyodontid fish from the Upper Cretaceous of Montana, with a discussion of allied fish, living and fossil. Contributions from the Museum of Paleontology, University of Michigan, 6:167234.Google Scholar
Martens, E. 1862. Über einen neuen Polyodon (P. gladius) aus dem Yangtsekiang und über die sogenannten Glaspolypen. Monatsberichte der Deutschen Akademie der Wissenschaften zu Berlin, 1861:476480.Google Scholar
McAllister, D. E. 1968. Evolution of branchiostegals and classification of teleostome fishes. National Museum of Canada Bulletin, 221:1239.Google Scholar
McLean, J. R. 1971. Stratigraphy of the Upper Cretaceous Judith River Formation in the Canadian Great Plains. Saskatchewan Research Council, Geology Division Report, 11, 91 p.Google Scholar
Müller, J. 1844. Über den Bau und die Grenzen der Ganoiden und über das natürliche System der Fische. Bericht über die zur Bekanntmachung geeigneten Verhandlungen der Akademie der Wissenschaften, Berlin, 1846:117216. [An 1846 English translation of this paper, translated by J. W. Griffith, can be found in Scientific Memoirs, 4(16):499–558]Google Scholar
Nelson, G. J. 1969. Gill arches and the phylogeny of fishes, with notes on the classification of vertebrates. Bulletin of the American Museum of Natural History, 141:475552.Google Scholar
Nessov, L. A., and Kaznyshkin, M. N. 1983. New sturgeons from the Cretaceous and Paleogene of the USSR, p. 6876. In Menner, V. V. (ed.), Contemporary Problems of Paleoichthyology. Nauka Press, Moscow. (In Russian) Google Scholar
Nessov, L. A., and Verzilin, N. N. 1983. [The remains of acipenserid fish as an indication of the existence of vertical zones in Middle Asia during the Cretaceous Period.] Vestnik Lenningradskogo Universiteta Geologiia Geografiia, 12:510. (In Russian) Google Scholar
Nessov, L. A., Vasil'yevich, F. P., and Udovichenko, N. I. 1990. [Jurassic, Cretaceous and Paleogene vertebrates from NE Fergan and their significance for making more precise the age of the deposits and the environment of the past. II. Late Cretaceous and Paleogene vertebrates. Description of new forms of Jurassic vertebrates.] Vestnik Lenningradskogo Universiteta, seriia 7, Geologiia, Geografiia, 1:818. (In Russian) Google Scholar
Newton, E. T. 1882. The Vertebrata of the Forest Bed Series of Norfolk and Suffolk. Memoirs of the Geological Survey, London, 143 p.Google Scholar
Nikolskii, A. M. 1900. Pseudoscaphirhynchus rossikowi n. gen. et spec. Annuaire du Musée Zoologoique de l'Académie Impériale de Sciences de St. Petersburg, 5:257260. (In Russian) Google Scholar
Nixon, K. C. 1992. CLADOS 1.1 IBM PC Compatible Character Analysis Program. Ithaca, New York.Google Scholar
Pallas, P. S. 1771. Zoographia Rossa-Asiatica, sistens omnium animalium in extenso imperio Rossico et adjacentibus maribus observatorum recensionem, domicilia, mores et descriptiones anatomen atque icones plurimorem, III. Petropoli.Google Scholar
Parker, W. K. 1882. On the structure and development of the skull in sturgeons (Acipenser ruthenus and A. sturio). Philosophical Transactions of the Royal Society of London, 173:139185.Google Scholar
Patterson, C. 1982. Morphology and interrelationships of primitive actinopterygian fishes. American Zoologist, 22:241259.CrossRefGoogle Scholar
Priem, F. 1901. Sur les Poissons de l'Eocène Inférieur des environs de Reims. Bulletin de la Société géologique de France, Paris, (sér. 4) 1: 477504, pls. 10, 11.Google Scholar
Priem, F. 1904. Sur les poissons du Bartonien et les siluridés et acipenséridés de l'Éocène du bassin de Paris. Bulletin de la Sociéte Géologique, France, (sér. 4) 1904:4247.Google Scholar
Priem, F. 1908. Étude des Poissons Fossiles du Bassin Parisien. Publications des Annales de Paléontologie, Paris, 144 p.Google Scholar
Probst, J. 1882. Beiträge zur Kenntnis der fossilen Fische aus der Molasse von Baltringen. V. Fossile Reste von Stören und einigen andern Fischen. Jahreshefte des Vereins für vaterländische Naturkunde iy Württemberg, Stuttgart, 38:116136.Google Scholar
Purdy, R. W., Schneider, V. P., Applegate, S. P., McLellan, J. H., Meyer, R. L., and Slaughter, B. H. 2001. The Neogene sharks, rays, and bony fishes from Lee Creek Mine, Aurora, North Carolina. Smithsonian Contributions to Paleobiology, 90:71202.Google Scholar
Rafinesque, C. S. 1817. Additions to the observations on the sturgeons of North America. American Monthly Magazine, 1:288. Add. 1817.1. [Acipenser fulvescens n. sp.] Reprinted by Hubbs in Copeia, 1917:48. Google Scholar
Rafinesque, C. S. 1820. Ichthyologia Ohiensis, or Natural History of the Fishes Inhabiting the Ohio River and its Tributary Streams, Preceded by a Physical Description of the Ohio, and its Branches. W. G. Hunt, Lexington, Kentucky, 90 p.Google Scholar
Rosen, D. E., Forey, P. L., Gardiner, B. G., and Patterson, C. 1981. Lungfishes, tetrapods, paleontology and plesiomorphy. Bulletin of the American Museum of Natural History, 167:159276.Google Scholar
Sewertzoff, A. N. 1926a. Studies on the bony skull of fishes. Quarterly Journal of Microscopical Science, 11:451540.Google Scholar
Sewertzoff, A. N. 1926b. The development of scales of Acipenser ruthenus . Journal of Morphology and Physiology, 42:523561.Google Scholar
Swift, C., and Wing, E. 1968. Fossil bony fishes from Florida. The Plaster Jacket, 7:212.Google Scholar
Swofford, D. L. 1998. PAUP* 4.0b10. Phylogenetic Analysis Using Parsimony. Sinauer Associates, Sunderland, Massachusetts.Google Scholar
Tatarko, K. 1936. Det Kiemendeckelapparat und seine Verbindung mit dem Hyoid- und Kieferbogen bei den Acipenseriden. Travaux de l'Institut Zoologique et Biologique, 3:567. (In Russian, with German summary) Google Scholar
Tatarko, K. 1937. [The maxillary and the hyoid arch and the apparatus of the operculum in the Polyodontidae.] Travaux de l'Institut Zoologique et Biologique (Kiev) (Akademia Nauk URSR Kiev), 16:4776. (In Russian, with German summary) Google Scholar
Traquair, R. H. 1877. The ganoid fishes of the British Carboniferous Formations, Pt. I, Monographs. Palaeontographical Society, 31:160.Google Scholar
Véran, M. 1988. Les éléments accessoires de l'arc hyoïdien des poissons téléostomes (Acanthodiens et Osteichthyens) fossiles et actuels. Mémoires du Muséum national d'Histoire naturelle, Paris, Sciences de la Terre, 54:198.Google Scholar
Walbaum, J. 1792. [Part 3 of] Petri Artedi renovati, pars i et ii [and iii–v], i.e., Bibliotheca et philosophia ichthyologica, cura Iohannis Iulii Walbaumii edidit. 5 parts in 3 vols. Grypeswaldiae [1788] 1789 [–1793], 4 pls. Part 3 is subtitled “Petri Artedi Sueci Genera piscium in quibus systema totum ichthyologiae proponitur cum classibus, ordinibus, generum characteribus, specierum differentiis, observationibus plurimis. Redactis speciebus 242 ad genera 52. Ichthyologiae, pars iii. Emendata et aucta a Iohanne Iulio Walbaum.” Pars 3, 723 p.Google Scholar
Wilimovsky, N. J. 1956. Protoscaphirhynchus squamosus, a new sturgeon from the Upper Cretaceous of Montana. Journal of Paleontology, 30:12051208.Google Scholar
Woodward, A. S. 1891. On the paleontology of sturgeons. Proceedings of the Geological Association, London, 11:2445.Google Scholar
Woodward, A. S. 1895. Catalogue of the Fossil Fishes in the British Museum (Natural History), Pt. III. British Museum (Natural History), London, XLIII + 544 p.Google Scholar
Woodward, A. S., and Sherborn, C. D. 1890. A Catalogue of British Fossil Vertebrata. London, Dalau, 396 p.Google Scholar
Yabumoto, Y., Hasegawa, Y., Okazaki, Y., Koizumi, A., and Muramatsu, T. 1997. Miocene acipenseriform fish remains from the Tomikusa Group in the southern part of Nagano Prefecture, Central Japan. Bulletin of the Iida City Museum, 7:117122.Google Scholar