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Liopleurodon

April 12, 2024

Liopleurodon (/ˌlˈplʊərədɒn/; meaning 'smooth-sided teeth') is an extinct genus of large, carnivorous marine reptile belonging to the Thalassophonea, a clade of short-necked pliosaurid plesiosaurs. Liopleurodon lived from the Callovian Stage of the Middle Jurassic to the Kimmeridgian stage of the Late Jurassic Period (c. 166 to 155 mya). It was the apex predator of the Middle to Late Jurassic seas that covered Europe. The largest species, L. ferox, is estimated to have grown over 6 metres (20 ft) in length based on a large skull.

Liopleurodon
Temporal range: Middle Jurassic to Late Jurassic (Callovian to Kimmeridgian), 166–155 Ma
L. ferox skeleton, Museum of Paleontology, Tübingen
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Superorder: Sauropterygia
Order: Plesiosauria
Family: Pliosauridae
Clade: Thalassophonea
Genus: Liopleurodon
Sauvage, 1873
Species
  • L. ferox Sauvage, 1873 (type)
  • ?L. pachydeirus (Seeley, 1869)
Synonyms
  • Pliosaurus ferox (Sauvage, 1873) Lydekker, 1888
  • Pliosaurus pachydeirus Seeley, 1869
  • ?Pliosaurus giganteus Conybeare, 1824
  • ?Ischyrodon meriani von Meyer, 1838

The name "Liopleurodon" (meaning "smooth-sided tooth") derives from Ancient Greek words: λεῖος leios, "smooth"; πλευρά pleurá, "side" or "rib"; and ὀδόν odṓn, "tooth".

Discovery and species edit

 
NMB L.D.37, the holotype tooth crown of Ischyrodon merino; in (A) mesial, (B) lingual, (C) apical, (D) labial, and (E) distal view

Even before Liopleurodon was named, material likely belonging to it was described.[1] In 1841, Hermann von Meyer named the species Thaumatosaurus oolithicus based on a fragmentary specimen consisting of partial teeth, skull elements, vertebrae, and ribs from deposits in Württemberg, Germany, possibly dating to the Oxfordian. However, this material is nondiagnostic, lacking distinguishing features.[2][3][4][1]: 31  Johann Andreas Wagner published a description of a large plesiosaur tooth from Bavaria, Germany, in 1852, assigning it to a new species that he named Pliosaurus giganteus.[5] However, in 1824, William Conybeare had named a species of Plesiosaurus, Plesiosaurus giganteus,[6] and this species was later viewed as a synonym of either Pliosaurus brachydeirus or P. brachyspondylus by following authors.[4][7] Since the name Pliosaurus giganteus had been used prior to Wagner's publication, Wagner's name is invalid due to preoccupation.[4] In 1838, Hermann von Meyer applied the name Ischyrodon meriani to a large tooth from Oxfordian-aged rocks in Fricktal, Switzerland.[8] This tooth lacks identifying characteristics, and therefore it is not clear what it belonged to, although Lambert Beverly Tarlo noted the possibility of it pertaining to Liopleurodon in 1960.[9][4] A 2022 study by Daniel Madzia and colleagues noted that while the tooth likely came from Liopleurodon or something similar, there was too little information available to make a confident assignment, so they treated Ischyrodon as a nomen dubium.[10] In 1860, Hermann Trautschold assigned the name Pliosaurus giganteus to a small tooth now thought to pertain to Liopleurodon. However, as the name Pliosaurus giganteus had already been used twice by this point, Trautschold's name is also invalid.[4][1]

 
Reconstruction of the skull of L. ferox

The genus name Liopleurodon was coined by Henri Émile Sauvage in 1873. Sauvage named three species which he assigned to this genus, each based on a single tooth. One tooth, its crown[1]: 133  measuring 7.5 centimetres (3.0 in) long, was found near Boulogne-sur-Mer, France, in layers dating from the Callovian,[1]: 32  and was named Liopleurodon ferox. Another from Charly, France, measuring 7 centimetres (2.8 in) long and with a crown length of 5.5 centimetres (2.2 in), was named Liopleurodon grossouvrei. The third, discovered near Caen, France, was originally attributed to Poikilopleuron bucklandi by Eudes Deslongchamps. While the tooth could have come from the megalosaur, Sauvage considered this identity unsubstantiated, and assigned it to the species Liopleurodon bucklandi. Sauvage did not ascribe the genus to any particular group of reptiles in his descriptions.[11]

However, in 1880, Sauvage synonymized Liopleurodon with Polyptychodon, noting that it was similar to this genus, but distinct from Plesiosaurus and Pliosaurus.[12] In 1888, Richard Lydekker, after studying some teeth attributable to Liopleurodon ferox in the Leeds Collection, concluded that they were so similar to those of Pliosaurus that they should be placed in that genus. These teeth had been collected by Alfred Leeds from the Oxford Clay Formation, near Peterborough, England.[13] In 1869, Harry Govier Seeley had applied the name Pliosaurus pachydeirus to a series of cervical (neck) vertebrae representing the first 17 in the neck from the Oxford Clay Formation near Great Gransden.[14] Other than its large size,[14] Seeley provided no distinguishing characteristics. Lydekker stated that this neck probably belonged to Pliosaurus ferox.[13][4] W. Kiprijanoff named Thaumatosaurus mosquensis in 1883 based on remains including teeth, vertebrae, and limb bones from Oxfordian-aged rocks in the Moscow Basin of Russia; however, in 1889, Lydekker considered this species to be a probable junior synonym of P. ferox.[15]: 145 [16][4]

In 1905, John Frederick Blake described two teeth from Rushden, England, similar to those of other Liopleurodon ferox specimens, though from older strata than those from Peterborough. He noted that the teeth were quite different from those of Pliosaurus, while the bones were dissimilar to those of Polyptychodon. Since the species couldn't be assigned to either genus, he recommended reinstating the name Liopleurodon.[17] After considering Liopleurodon to be a subgenus of Pliosaurus, N. Bogolubov also listed the two genera as distinct in 1912.[4]

When Lydekker had first visited the collection of Alfred Leeds (known as the Leeds Collection), the only remains of Liopleurodon in his collection were teeth.[13] However, since then, Alfred Leeds, as well as his brother Charles Edward Leeds, had collected many more specimens of Liopleurodon, including skulls and much of the postcranial skeleton. Charles William Andrews described the anatomy of the marine reptile specimens of the Leeds Collection acquired by the British Museum of Natural History in two volumes, the first published in 1910 and the second in 1913. He described the Liopleurodon specimens in the second volume, though considered them to belong to Pliosaurus.[18]: v [19]: 21–25 

Hermann Linder also described specimens of Liopleurodon ferox in 1913. One of these was a poorly preserved partial skeleton excavated from the Oxford Clay of Fletton, England, housed in Institut für Geowissenschaften, University of Tübingen. The skeleton was mounted and missing regions were restored with material from other Liopleurodon specimens. Like Andrews, Linder also considered L. ferox to be a species of Pliosaurus. Additionally, Linder described some skulls from Fletton housed at both the University of Tübingen and the State Museum of Natural History Stuttgart as specimens of P. grandis. Linder also assigned a nearly complete paddle to Pliosaurus sp.[20] All of these specimens have since been assigned to Liopleurodon with varying degrees of confidence, though the skull Linder attributed to P. grandis that was housed in Stuttgart was destroyed during World War II.[1]: 28, 63, 114  In 1934, Friedrich von Huene described a partial skeleton from Swabia, Germany. He also used Pliosaurus ferox instead of Liopleurodon ferox.[4][1]: 297  In 1939, Alexandre Bigot used Pliosaurus ferox as well, assigning some teeth from France to this species.[4][1]: 32 

Lambert Beverly Halstead, then known as Tarlo, published a review of Upper Jurassic pliosaurid taxonomy in 1960. He considered Liopleurodon to be distinct from Pliosaurus, noting major differences between the mandibles of the two genera. In addition to the type species L. ferox, Tarlo also considered Pliosaurus pachydeirus to be a valid species within Liopleurodon, L. pachydeirus, noting that the two species had differences in their teeth and cervical vertebrae. L. grossouvrei was not considered valid, though it was tentatively retained for teeth from the Kellaways Formation.[4] In 1971, Halstead published another paper about Jurassic pliosaurids, this time focusing on Pliosaurus rossicus, a species he was formerly unwilling to consider valid, due to a lack of information. After reviewing its anatomy, he considered it valid, though assigned it to Liopleurodon instead, based on its short mandibular symphysis. Halstead also considered Pliosaurus macromerus, which he had previously considered to belong to its own genus, Stretosaurus, to instead be a species of Liopleurodon, despite its irregularly-shaped scapula (although this was later discovered to be an ilium).[21][7] In 1992, Martill identified a fragmentary specimen belonging to a young adult individual, PETCM R.296, as cf. Liopleurodon sp.; the specimen was found to have at least 7 gastroliths in its stomach and soft tissues, although the specific features of the latter cannot be observed due to poor preservation.[22]

In a 2001 dissertation, Leslie F. Noè argued that L. pachydeirus was not diagnostic, and that L. ferox was the only valid species of Liopleurodon. The teeth of mounted skeleton in Tübingen, which Tarlo had attributed to L. pachydeirus, showed distinctive characteristics of L. ferox, indicating that cervical vertebrae are not useful for differentiating species, as argued by David S. Brown in 1981.[23] While Tarlo had considered differences in tooth morphology to be diagnostic, Noè instead considered it to be individual variation. Noè also removed L. macromerus and L. rossicus from the genus, citing differences in tooth shape and mandibular symphysis length. The former species was tentatively placed back in Pliosaurus, while the latter was thought to warrant a new genus.[1]: 26, 172–175 

Liopleurodon fossils have been found mainly in England and France. Fossil specimens that are contemporary (Callovian-Kimmeridgian) with those from England and France referrable to Liopleurodon are known from Germany.[24][25] In 2013, Roger Benson and colleagues considered both "L." macromerus and "L." rossicus to belong to Pliosaurus. They also considered Liopleurodon to be restricted to the Middle Jurassic.[26] In 2015, Jair Israel Barrientos-Lara and colleagues described two pliosaurid fossils found near the town of Tlaxiaco in Oaxaca, Mexico. These fossils were extracted from Kimmeridgian deposits in the Sabinal Formation, and one of them, the partial front end of a snout, was attributable to Liopleurodon, though the researchers considered the remains too fragmentary to provide a species-level identification.[27] Liopleurodon grossouvrei, although synonymized with Pliosaurus andrewsi by most authors, was considered to potentially be a distinct genus in its own right by Davide Foffa and colleagues in 2018, given its differences from P. andrewsi and Liopleurodon ferox.[28] Madzia and colleagues in 2022 noted that the fact that Liopleurodon was named based on a single tooth of dubious distinctiveness is problematic, and that a more complete neotype may need to be designated to preserve the stability of L. ferox. They also stated that further study of the taxon was needed to confirm that the supposed differences between L. ferox and L. pachydeirus were indeed due to individual variation.[10]

Description edit

 
Size comparison

Liopleurodon ferox first came to the public attention in 1999 when it was featured in an episode of the BBC television series Walking with Dinosaurs, which depicted it as an enormous 25 m (82 ft) long and 150 t (330,000 lb) predator; this was based on very fragmentary remains, and considered to be an exaggeration for Liopleurodon,[29] with the calculations of 20-metre (66 ft) specimens generally considered dubious.[30]

Estimating the size of pliosaurs is difficult because not much is known of their postcranial anatomy. The palaeontologist L. B. Tarlo suggested that the pliosaurs’ total body length can be estimated from the length of their skull which he claimed was typically one-seventh of the former measurement.[29] Additional Kronosaurus specimens[29] and a skeleton of L. ferox, GPIT 1754/2, show that the pliosaurs’ skulls were actually about one-fifth of their total body length.[31] One large skull specimen of L. ferox, CAMSMJ.27424, has an estimated total body length of 6.39 m (21.0 ft).[31] McHenry estimated that smaller individuals measuring about 4.8–5.7 m (16–19 ft) long would have weighed around 1–1.7 t (2,200–3,700 lb) based on the specimen NHM R2680.[32]

Some researchers propose larger estimates of over 10 m (33 ft). Tarlo applied the aforementioned one-seventh ratio of skull length to body length, estimating that the largest known specimen of L. ferox was a little over 10 m (33 ft), though a more typical size range would be from 5 to 7 m (16 to 23 ft).[29] In the 2023 book Ocean Life in the Time of Dinosaurs, Bardet and colleagues also claimed that some individuals could reach lengths of over 10 m (33 ft).[33]: 158, 160 

Classification edit

 
Teeth
 
Skull lithograph of L. ferox

Liopleurodon belongs to clade Thalassophonea, a short necked clade within the Pliosauridae, a family of plesiosaurs, thalassophoneans ranged from the Middle Jurassic to early Late Cretaceous, and have been found worldwide.[34]

Liopleurodon was one of the basal taxa from the Middle Jurassic. Differences between these taxa and their relatives from the Upper Jurassic include alveoli count, smaller skull and smaller body size.[35]

An analysis in 2013 classifies Liopleurodon, Simolestes, Peloneustes, Pliosaurus, Gallardosaurus, and Brachaucheninae as Thalassophonea.[36]

The cladogram below follows a 2011 analysis by paleontologists Hilary F. Ketchum and Roger B. J. Benson, and reduced to genera only.[37]

Palaeobiology edit

 
Restoration

Four strong paddle-like limbs suggest that Liopleurodon was a powerful swimmer. Its four-flipper mode of propulsion is characteristic of all plesiosaurs. A study involving a swimming robot has demonstrated that although this form of propulsion is not especially efficient, it provides very good acceleration—a desirable trait in an ambush predator.[39][40] Studies of the skull have shown that it could probably scan the water with its nostrils to ascertain the source of certain smells.[41]

A fragmentary specimen possibly belonging to a young adult individual, PETCM R.296, contained numerous hooklets of teuthoid cephalopods, fish bones and a single reptilian tooth in its stomach. Although its exact dietary preference cannot be determined, Martill proposed three suggestions. One possibility is that Liopleurodon could have fed on food supplies that are abundant (i.e. squids), but considering that plesiosaurs and ichthyosaurs were also abundant and that the plesiosaurs' swimming speed is likely very slow compared to squids, this interpretation may be unlikely unless Liopleurodon was an ambush predator. Another possibility is that Liopleurodon may have been an opportunistic feeder, with cephalopod hooklets being representative of the acid resistant residue of its varied diet—skeletal components of various vertebrates that lost to the acid environment of the gut; however, since the thin sections through the gut don't reveal the presence of otoliths (calcium carbonate structure of vertebrates located in the vestibular labyrinth) which are known to occur in the gut of cetaceans, fish may not have been an important part of its diet. The other possibility is that the pliosaur fed on large cephalopod-feeders, with the hooklets representing the residues of the stomach contents of the pliosaur's prey, but there is no firm evidence to this claim. It is also notable that this specimen preserved at least 7 gastroliths, which probably weren't used for grinding based on the well-preserved conditions of the hooklets. It is possible either that the pliosaur accidentally swallowed the stones and they remained in its gut, or that the stones represent the "acid resistant residue from carbonate cemented sandstone."[22]

See also edit

Notes edit

References edit

  1. ^ a b c d e f g h i Noè, L. F. (2001). A taxonomic and functional study of the Callovian (Middle Jurassic) Pliosauroidea (Reptilia, Sauropterygia) (Thesis). Chicago: University of Derby.
  2. ^ Meyer, H. v. (1841). "Thaumatosaurus oolithicus der fossile Wunder-Saurus aus dem Oolith". Neues Jahrbuch für Mineralogie, Geognosie, Geologie und Petrefaktenkunde: 176–184.
  3. ^ Meyer, H. v. (1856). "Thaumatosaurus oolithicus aus dem Oolith von Neuffen". Palaeontographica. 6: 14–18.
  4. ^ a b c d e f g h i j k Tarlo, L. B. (1960). "A review of the Upper Jurassic pliosaurs". Bulletin of the British Museum (Natural History). 4 (5): 145–189.
  5. ^ Wagner, J. A. (1952). "Neu-aufgefundene Saurier-Überreste aus den lithographischen Schiefern und dem obern Jurakalke". Abhandlungen der Bayerischen Akademie der Wissenschaften, München. 6: 663–710.
  6. ^ Conybeare, W. D. (1824). "On the discovery of an almost perfect skeleton of the Plesiosaurus". Transactions of the Geological Society of London. 2 (2): 381–389.
  7. ^ a b Knutsen, E. M. (2012). "A taxonomic revision of the genus Pliosaurus (Owen, 1841a) Owen, 1841b" (PDF). Norwegian Journal of Geology. 92: 259–276.
  8. ^ von Meyer H. (1838).  Neues Jahrbuch für Mineralogie, Geognosie, Geologie und Petrefaktenkunde. Jahrgang 1838:413-418
  9. ^ Meyer, H. v. (1856). "Ischyrodon meriani aus dem Oolith im Frickthale". Palaeontographica. 6: 19–21.
  10. ^ a b Madzia, D.; Sachs, S.; Klug, C. (2022). "Historical significance and taxonomic status of Ischyrodon meriani (Pliosauridae) from the Middle Jurassic of Switzerland". PeerJ. 10: e13244. doi:10.7717/peerj.13244. PMC 8995022. PMID 35415018.
  11. ^ Sauvage, H. E. (1873). "Notes sur les reptiles fossiles". Bulletin de la Société Géologique de France. Series 3. 1: 377–380.
  12. ^ Sauvage, H. E. (1880). "Synopsis des poissons et des reptiles des terrains jurassiques de Boulogne-sur-Mer". Bulletin de la Société Géologique de France. 3 (8): 524–547.
  13. ^ a b c Lydekker, R. (1888). "Notes on the Sauropterygia of the Oxford and Kimeridge Clays, mainly based on the collection of Mr. Leeds at Eyebury". Geological Magazine. 5 (8): 350–356. Bibcode:1888GeoM....5..350L. doi:10.1017/S0016756800182160. S2CID 128811880.
  14. ^ a b Seeley, H. G. (1869). Index to the fossil remains of Aves, Ornithosauria, and Reptilia, from the secondary system of strata arranged in the Woodwardian Museum of the University of Cambridge. Cambridge, Deighton, Bell, and co. p. 118.
  15. ^ Lydekker, R. (1889). Catalogue of the Fossil Reptilia and Amphibia in the British Museum (Natural History). Vol. 2. London: The British Museum (Natural History).
  16. ^ Kiprijanoff, W. (1883). "Studien über die Fossilen Reptilien Russlands. Group Thaumatosauria n. aus der Kreide-Formation und dem Moskauer Jura". Mémoires de l'Académie impériale des sciences de St.-Pétersbourg. 7 (31): 1–57.
  17. ^ Blake, R. J. (1905). "A monograph of the fauna of the Cornbrash. Part I". Monographs of the Palaeontographical Society. 59 (282): 1–100. doi:10.1080/02693445.1905.12035520.
  18. ^ Andrews, C. W. (1910). A descriptive catalogue of the marine reptiles of the Oxford clay. Based on the Leeds Collection in the British Museum (Natural History), London. Vol. 1. London: British Museum.
  19. ^ Andrews, C. W. (1913). A descriptive catalogue of the marine reptiles of the Oxford clay. Based on the Leeds Collection in the British Museum (Natural History), London. Vol. 2. London: British Museum.
  20. ^ Linder, H. (1913). "Beiträge zur Kenntnis der Plesiosaurier-Gattungen Peloneustes und Pliosaurus". Geologische und Palaeontologische Abhandlungen (in German). 11: 339–409.
  21. ^ Halstead, L. B. (1971). "Liopleurodon rossicus (Novozhilov): A pliosaur from the lower Volgian of the Moscow Basin". 14. 14 (4): 566–570.
  22. ^ a b Martill, D.M. (1992). "Pliosaur stomach contents from the Oxford Clay" (PDF). Mercian Geologist. 13 (1): 37–42. ISSN 0025-990X.
  23. ^ Brown, D. S. (1981). "The English Upper Jurassic Plesiosauroidea (Reptilia) and a review of the phylogeny and classification of the Plesiosauria". Bulletin of the British Museum (Natural History) Geology. 35 (4): 253–347.
  24. ^ Sachs, S. (1997). "Mesozoische Reptilien aus Nordrhein-Westfalen." Pp. 22-27 in Sachs, S., Rauhut, O.W.M. and Weigert, A. (eds.), Terra Nostra. 1. Treffen der deutschsprachigen Paläoherpetologen Düsseldorf.
  25. ^ Sachs, Sven; Christian Nyhuis (2015). "Belege für riesige Pliosaurier aus dem Jura Deutschlands" (PDF). Der Steinkern. 21: 74–82.
  26. ^ Benson, R. B. J.; Evans, M.; Smith, A. S.; Sassoon, J.; Moore-Faye, S.; Ketchum, H. F.; Forrest, R. (2013). "A giant pliosaurid skull from the Late Jurassic of England". PLOS ONE. 8 (5): e65989. Bibcode:2013PLoSO...865989B. doi:10.1371/journal.pone.0065989. PMC 3669260. PMID 23741520.
  27. ^ Barrientos-Lara, J. I.; Fernández, M. S.; Alvarado-Ortega, J. (2015). "Kimmeridgian pliosaurids (Sauropterygia, Plesiosauria) from Tlaxiaco, Oaxaca, southern Mexico". Revista Mexicana de Ciencias Geológicas. 32 (2): 293–304.
  28. ^ Foffa, D.; Young, M.T.; Brusatte, S.L. (2018). "Filling the Corallian gap: New information on Late Jurassic marine reptile faunas from England" (PDF). Acta Palaeontologica Polonica. 63 (2): 287–313. doi:10.4202/app.00455.2018. hdl:20.500.11820/729f4cac-6217-4a21-b22c-8683b38c733b. S2CID 52254345.
  29. ^ a b c d Forrest, Richard (20 November 2007). . The Plesiosaur Site. Archived from the original on 15 July 2011. Retrieved 7 June 2009.
  30. ^ . Archived from the original on 25 April 2021. Retrieved 26 October 2014.
  31. ^ a b Noe, Leslie F.; Jeff Liston; Mark Evans (2003). "The first relatively complete exoccipital-opisthotic from the braincase of the Callovian pliosaur, Liopleurodon" (PDF). Geological Magazine. 140 (4). UK: Cambridge University Press: 479–486. Bibcode:2003GeoM..140..479N. doi:10.1017/S0016756803007829. S2CID 22915279.
  32. ^ McHenry, Colin Richard (2009). Devourer of Gods: the palaeoecology of the Cretaceous pliosaur Kronosaurus queenslandicus (PhD thesis). University of Newcastle. pp. 1–460. hdl:1959.13/935911.
  33. ^ Bardet, Nathalie; Houssaye, Alexandra; Jouve, Stéphane; Vincent, Peggy (2023). Ocean Life in the Time of Dinosaurs. Princeton University Press. p. 158. ISBN 9780691243948.
  34. ^ Benson, R. B. J.; Druckenmiller, P. S. (2014) [first published online 2013]. "Faunal turnover of marine tetrapods during the Jurassic-Cretaceous transition". Biological Reviews. 89 (1): 1–23. doi:10.1111/brv.12038. PMID 23581455. S2CID 19710180.
  35. ^ Benson, RBJ; Evans M; Smith AS; Sassoon J; Moore-Faye S; et al. (2013). "A giant pliosaurid skull from the Late Jurassic of England". PLOS ONE. 8 (5): 1–34. Bibcode:2013PLoSO...865989B. doi:10.1371/journal.pone.0065989. PMC 3669260. PMID 23741520.
  36. ^ Benson, RBJ; Druckenmiller PS (2013). "Faunal turnover of marine tetrapods during the Jurassic–Cretaceous transition". Biological Reviews. 89 (1): 1–23. doi:10.1111/brv.12038. PMID 23581455. S2CID 19710180.
  37. ^ Hilary F. Ketchum; Roger B. J. Benson (2011). "A new pliosaurid (Sauropterygia, Plesiosauria) from the Oxford Clay Formation (Middle Jurassic, Callovian) of England: evidence for a gracile, longirostrine grade of Early-Middle Jurassic pliosaurids". Special Papers in Palaeontology. 86: 109–129.
  38. ^ Schumacher, B. A.; Carpenter, K.; Everhart, M. J. (2013). "A new Cretaceous Pliosaurid (Reptilia, Plesiosauria) from the Carlile Shale (middle Turonian) of Russell County, Kansas". Journal of Vertebrate Paleontology. 33 (3): 613–628. Bibcode:2013JVPal..33..613S. doi:10.1080/02724634.2013.722576. S2CID 130165209.
  39. ^ Long Jr, J. H.; Schumacher, J.; Livingston, N.; Kemp, M. (2006). "Four flippers or two? Tetrapodal swimming with an aquatic robot". Bioinspiration & Biomimetics. 1 (1): 20–29. Bibcode:2006BiBi....1...20L. doi:10.1088/1748-3182/1/1/003. PMID 17671301. S2CID 1869747.
  40. ^ "Swimming Robot Tests Theories About Locomotion In Existing And Extinct Animals". ScienceDaily. 30 May 2006. Retrieved 7 June 2009.
  41. ^ Carpenter, K. (1997). "Comparative cranial anatomy of two North American Cretaceous plesiosaurs." Pp. 191–216 in Callaway, J.M. and Nicholls, E.L. (eds.), Ancient Marine Reptiles. Academic Press.

External links edit

 
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April 12, 2024
liopleurodon, ʊər, meaning, smooth, sided, teeth, extinct, genus, large, carnivorous, marine, reptile, belonging, thalassophonea, clade, short, necked, pliosaurid, plesiosaurs, lived, from, callovian, stage, middle, jurassic, kimmeridgian, stage, late, jurassi. Liopleurodon ˌ l aɪ oʊ ˈ p l ʊer e d ɒ n meaning smooth sided teeth is an extinct genus of large carnivorous marine reptile belonging to the Thalassophonea a clade of short necked pliosaurid plesiosaurs Liopleurodon lived from the Callovian Stage of the Middle Jurassic to the Kimmeridgian stage of the Late Jurassic Period c 166 to 155 mya It was the apex predator of the Middle to Late Jurassic seas that covered Europe The largest species L ferox is estimated to have grown over 6 metres 20 ft in length based on a large skull LiopleurodonTemporal range Middle Jurassic to Late Jurassic Callovian to Kimmeridgian 166 155 Ma PreꞒ Ꞓ O S D C P T J K Pg NL ferox skeleton Museum of Paleontology TubingenScientific classificationDomain EukaryotaKingdom AnimaliaPhylum ChordataClass ReptiliaSuperorder SauropterygiaOrder PlesiosauriaFamily PliosauridaeClade ThalassophoneaGenus LiopleurodonSauvage 1873Species L ferox Sauvage 1873 type L pachydeirus Seeley 1869 SynonymsPliosaurus ferox Sauvage 1873 Lydekker 1888 Pliosaurus pachydeirus Seeley 1869 Pliosaurus giganteus Conybeare 1824 Ischyrodon meriani von Meyer 1838The name Liopleurodon meaning smooth sided tooth derives from Ancient Greek words leῖos leios smooth pleyra pleura side or rib and ὀdon odṓn tooth Contents 1 Discovery and species 2 Description 3 Classification 4 Palaeobiology 5 See also 6 Notes 7 References 8 External linksDiscovery and species edit nbsp NMB L D 37 the holotype tooth crown of Ischyrodon merino in A mesial B lingual C apical D labial and E distal viewEven before Liopleurodon was named material likely belonging to it was described 1 In 1841 Hermann von Meyer named the species Thaumatosaurus oolithicus based on a fragmentary specimen consisting of partial teeth skull elements vertebrae and ribs from deposits in Wurttemberg Germany possibly dating to the Oxfordian However this material is nondiagnostic lacking distinguishing features 2 3 4 1 31 Johann Andreas Wagner published a description of a large plesiosaur tooth from Bavaria Germany in 1852 assigning it to a new species that he named Pliosaurus giganteus 5 However in 1824 William Conybeare had named a species of Plesiosaurus Plesiosaurus giganteus 6 and this species was later viewed as a synonym of either Pliosaurus brachydeirus or P brachyspondylus by following authors 4 7 Since the name Pliosaurus giganteus had been used prior to Wagner s publication Wagner s name is invalid due to preoccupation 4 In 1838 Hermann von Meyer applied the name Ischyrodon meriani to a large tooth from Oxfordian aged rocks in Fricktal Switzerland 8 This tooth lacks identifying characteristics and therefore it is not clear what it belonged to although Lambert Beverly Tarlo noted the possibility of it pertaining to Liopleurodon in 1960 9 4 A 2022 study by Daniel Madzia and colleagues noted that while the tooth likely came from Liopleurodon or something similar there was too little information available to make a confident assignment so they treated Ischyrodon as a nomen dubium 10 In 1860 Hermann Trautschold assigned the name Pliosaurus giganteus to a small tooth now thought to pertain to Liopleurodon However as the name Pliosaurus giganteus had already been used twice by this point Trautschold s name is also invalid 4 1 nbsp Reconstruction of the skull of L feroxThe genus name Liopleurodon was coined by Henri Emile Sauvage in 1873 Sauvage named three species which he assigned to this genus each based on a single tooth One tooth its crown 1 133 measuring 7 5 centimetres 3 0 in long was found near Boulogne sur Mer France in layers dating from the Callovian 1 32 and was named Liopleurodon ferox Another from Charly France measuring 7 centimetres 2 8 in long and with a crown length of 5 5 centimetres 2 2 in was named Liopleurodon grossouvrei The third discovered near Caen France was originally attributed to Poikilopleuron bucklandi by Eudes Deslongchamps While the tooth could have come from the megalosaur Sauvage considered this identity unsubstantiated and assigned it to the species Liopleurodon bucklandi Sauvage did not ascribe the genus to any particular group of reptiles in his descriptions 11 However in 1880 Sauvage synonymized Liopleurodon with Polyptychodon noting that it was similar to this genus but distinct from Plesiosaurus and Pliosaurus 12 In 1888 Richard Lydekker after studying some teeth attributable to Liopleurodon ferox in the Leeds Collection concluded that they were so similar to those of Pliosaurus that they should be placed in that genus These teeth had been collected by Alfred Leeds from the Oxford Clay Formation near Peterborough England 13 In 1869 Harry Govier Seeley had applied the name Pliosaurus pachydeirus to a series of cervical neck vertebrae representing the first 17 in the neck from the Oxford Clay Formation near Great Gransden 14 Other than its large size 14 Seeley provided no distinguishing characteristics Lydekker stated that this neck probably belonged to Pliosaurus ferox 13 4 W Kiprijanoff named Thaumatosaurus mosquensis in 1883 based on remains including teeth vertebrae and limb bones from Oxfordian aged rocks in the Moscow Basin of Russia however in 1889 Lydekker considered this species to be a probable junior synonym of P ferox 15 145 16 4 In 1905 John Frederick Blake described two teeth from Rushden England similar to those of other Liopleurodon ferox specimens though from older strata than those from Peterborough He noted that the teeth were quite different from those of Pliosaurus while the bones were dissimilar to those of Polyptychodon Since the species couldn t be assigned to either genus he recommended reinstating the name Liopleurodon 17 After considering Liopleurodon to be a subgenus of Pliosaurus N Bogolubov also listed the two genera as distinct in 1912 4 When Lydekker had first visited the collection of Alfred Leeds known as the Leeds Collection the only remains of Liopleurodon in his collection were teeth 13 However since then Alfred Leeds as well as his brother Charles Edward Leeds had collected many more specimens of Liopleurodon including skulls and much of the postcranial skeleton Charles William Andrews described the anatomy of the marine reptile specimens of the Leeds Collection acquired by the British Museum of Natural History in two volumes the first published in 1910 and the second in 1913 He described the Liopleurodon specimens in the second volume though considered them to belong to Pliosaurus 18 v 19 21 25 Hermann Linder also described specimens of Liopleurodon ferox in 1913 One of these was a poorly preserved partial skeleton excavated from the Oxford Clay of Fletton England housed in Institut fur Geowissenschaften University of Tubingen The skeleton was mounted and missing regions were restored with material from other Liopleurodon specimens Like Andrews Linder also considered L ferox to be a species of Pliosaurus Additionally Linder described some skulls from Fletton housed at both the University of Tubingen and the State Museum of Natural History Stuttgart as specimens of P grandis Linder also assigned a nearly complete paddle to Pliosaurus sp 20 All of these specimens have since been assigned to Liopleurodon with varying degrees of confidence though the skull Linder attributed to P grandis that was housed in Stuttgart was destroyed during World War II 1 28 63 114 In 1934 Friedrich von Huene described a partial skeleton from Swabia Germany He also used Pliosaurus ferox instead of Liopleurodon ferox 4 1 297 In 1939 Alexandre Bigot used Pliosaurus ferox as well assigning some teeth from France to this species 4 1 32 Lambert Beverly Halstead then known as Tarlo published a review of Upper Jurassic pliosaurid taxonomy in 1960 He considered Liopleurodon to be distinct from Pliosaurus noting major differences between the mandibles of the two genera In addition to the type species L ferox Tarlo also considered Pliosaurus pachydeirus to be a valid species within Liopleurodon L pachydeirus noting that the two species had differences in their teeth and cervical vertebrae L grossouvrei was not considered valid though it was tentatively retained for teeth from the Kellaways Formation 4 In 1971 Halstead published another paper about Jurassic pliosaurids this time focusing on Pliosaurus rossicus a species he was formerly unwilling to consider valid due to a lack of information After reviewing its anatomy he considered it valid though assigned it to Liopleurodon instead based on its short mandibular symphysis Halstead also considered Pliosaurus macromerus which he had previously considered to belong to its own genus Stretosaurus to instead be a species of Liopleurodon despite its irregularly shaped scapula although this was later discovered to be an ilium 21 7 In 1992 Martill identified a fragmentary specimen belonging to a young adult individual PETCM R 296 as cf Liopleurodon sp the specimen was found to have at least 7 gastroliths in its stomach and soft tissues although the specific features of the latter cannot be observed due to poor preservation 22 In a 2001 dissertation Leslie F Noe argued that L pachydeirus was not diagnostic and that L ferox was the only valid species of Liopleurodon The teeth of mounted skeleton in Tubingen which Tarlo had attributed to L pachydeirus showed distinctive characteristics of L ferox indicating that cervical vertebrae are not useful for differentiating species as argued by David S Brown in 1981 23 While Tarlo had considered differences in tooth morphology to be diagnostic Noe instead considered it to be individual variation Noe also removed L macromerus and L rossicus from the genus citing differences in tooth shape and mandibular symphysis length The former species was tentatively placed back in Pliosaurus while the latter was thought to warrant a new genus 1 26 172 175 Liopleurodon fossils have been found mainly in England and France Fossil specimens that are contemporary Callovian Kimmeridgian with those from England and France referrable to Liopleurodon are known from Germany 24 25 In 2013 Roger Benson and colleagues considered both L macromerus and L rossicus to belong to Pliosaurus They also considered Liopleurodon to be restricted to the Middle Jurassic 26 In 2015 Jair Israel Barrientos Lara and colleagues described two pliosaurid fossils found near the town of Tlaxiaco in Oaxaca Mexico These fossils were extracted from Kimmeridgian deposits in the Sabinal Formation and one of them the partial front end of a snout was attributable to Liopleurodon though the researchers considered the remains too fragmentary to provide a species level identification 27 Liopleurodon grossouvrei although synonymized with Pliosaurus andrewsi by most authors was considered to potentially be a distinct genus in its own right by Davide Foffa and colleagues in 2018 given its differences from P andrewsi and Liopleurodon ferox 28 Madzia and colleagues in 2022 noted that the fact that Liopleurodon was named based on a single tooth of dubious distinctiveness is problematic and that a more complete neotype may need to be designated to preserve the stability of L ferox They also stated that further study of the taxon was needed to confirm that the supposed differences between L ferox and L pachydeirus were indeed due to individual variation 10 Description edit nbsp Size comparisonLiopleurodon ferox first came to the public attention in 1999 when it was featured in an episode of the BBC television series Walking with Dinosaurs which depicted it as an enormous 25 m 82 ft long and 150 t 330 000 lb predator this was based on very fragmentary remains and considered to be an exaggeration for Liopleurodon 29 with the calculations of 20 metre 66 ft specimens generally considered dubious 30 Estimating the size of pliosaurs is difficult because not much is known of their postcranial anatomy The palaeontologist L B Tarlo suggested that the pliosaurs total body length can be estimated from the length of their skull which he claimed was typically one seventh of the former measurement 29 Additional Kronosaurus specimens 29 and a skeleton of L ferox GPIT 1754 2 show that the pliosaurs skulls were actually about one fifth of their total body length 31 One large skull specimen of L ferox CAMSMJ 27424 has an estimated total body length of 6 39 m 21 0 ft 31 McHenry estimated that smaller individuals measuring about 4 8 5 7 m 16 19 ft long would have weighed around 1 1 7 t 2 200 3 700 lb based on the specimen NHM R2680 32 Some researchers propose larger estimates of over 10 m 33 ft Tarlo applied the aforementioned one seventh ratio of skull length to body length estimating that the largest known specimen of L ferox was a little over 10 m 33 ft though a more typical size range would be from 5 to 7 m 16 to 23 ft 29 In the 2023 book Ocean Life in the Time of Dinosaurs Bardet and colleagues also claimed that some individuals could reach lengths of over 10 m 33 ft 33 158 160 Classification edit nbsp Teeth nbsp Skull lithograph of L feroxLiopleurodon belongs to clade Thalassophonea a short necked clade within the Pliosauridae a family of plesiosaurs thalassophoneans ranged from the Middle Jurassic to early Late Cretaceous and have been found worldwide 34 Liopleurodon was one of the basal taxa from the Middle Jurassic Differences between these taxa and their relatives from the Upper Jurassic include alveoli count smaller skull and smaller body size 35 An analysis in 2013 classifies Liopleurodon Simolestes Peloneustes Pliosaurus Gallardosaurus and Brachaucheninae as Thalassophonea 36 The cladogram below follows a 2011 analysis by paleontologists Hilary F Ketchum and Roger B J Benson and reduced to genera only 37 Pliosauroidea Rhomaleosauridae Anningasaura Plesiosaurus macrocephalusArchaeonectrusMacroplataAtychodraconEurycleidusRhomaleosaurusMeyerasaurusMaresaurusPliosauridae ThalassiodraconHauffiosaurusAttenborosaurusBMNH R2439 Peloneustes Marmornectes Pliosaurus andrewsiEardasaurusPeloneustesSimolestesLiopleurodonPliosaurusMegacephalosaurus 38 BrachaucheniusKronosaurusPalaeobiology edit nbsp RestorationFour strong paddle like limbs suggest that Liopleurodon was a powerful swimmer Its four flipper mode of propulsion is characteristic of all plesiosaurs A study involving a swimming robot has demonstrated that although this form of propulsion is not especially efficient it provides very good acceleration a desirable trait in an ambush predator 39 40 Studies of the skull have shown that it could probably scan the water with its nostrils to ascertain the source of certain smells 41 A fragmentary specimen possibly belonging to a young adult individual PETCM R 296 contained numerous hooklets of teuthoid cephalopods fish bones and a single reptilian tooth in its stomach Although its exact dietary preference cannot be determined Martill proposed three suggestions One possibility is that Liopleurodon could have fed on food supplies that are abundant i e squids but considering that plesiosaurs and ichthyosaurs were also abundant and that the plesiosaurs swimming speed is likely very slow compared to squids this interpretation may be unlikely unless Liopleurodon was an ambush predator Another possibility is that Liopleurodon may have been an opportunistic feeder with cephalopod hooklets being representative of the acid resistant residue of its varied diet skeletal components of various vertebrates that lost to the acid environment of the gut however since the thin sections through the gut don t reveal the presence of otoliths calcium carbonate structure of vertebrates located in the vestibular labyrinth which are known to occur in the gut of cetaceans fish may not have been an important part of its diet The other possibility is that the pliosaur fed on large cephalopod feeders with the hooklets representing the residues of the stomach contents of the pliosaur s prey but there is no firm evidence to this claim It is also notable that this specimen preserved at least 7 gastroliths which probably weren t used for grinding based on the well preserved conditions of the hooklets It is possible either that the pliosaur accidentally swallowed the stones and they remained in its gut or that the stones represent the acid resistant residue from carbonate cemented sandstone 22 See also edit nbsp Paleontology portalList of plesiosaur genera Timeline of plesiosaur researchNotes editReferences edit a b c d e f g h i Noe L F 2001 A taxonomic and functional study of the Callovian Middle Jurassic Pliosauroidea Reptilia Sauropterygia Thesis Chicago University of Derby Meyer H v 1841 Thaumatosaurus oolithicus der fossile Wunder Saurus aus dem Oolith Neues Jahrbuch fur Mineralogie Geognosie Geologie und Petrefaktenkunde 176 184 Meyer H v 1856 Thaumatosaurus oolithicus aus dem Oolith von Neuffen Palaeontographica 6 14 18 a b c d e f g h i j k Tarlo L B 1960 A review of the Upper Jurassic pliosaurs Bulletin of the British Museum Natural History 4 5 145 189 Wagner J A 1952 Neu aufgefundene Saurier Uberreste aus den lithographischen Schiefern und dem obern Jurakalke Abhandlungen der Bayerischen Akademie der Wissenschaften Munchen 6 663 710 Conybeare W D 1824 On the discovery of an almost perfect skeleton of the Plesiosaurus Transactions of the Geological Society of London 2 2 381 389 a b Knutsen E M 2012 A taxonomic revision of the genus Pliosaurus Owen 1841a Owen 1841b PDF Norwegian Journal of Geology 92 259 276 von Meyer H 1838 Neues Jahrbuch fur Mineralogie Geognosie Geologie und Petrefaktenkunde Jahrgang 1838 413 418 Meyer H v 1856 Ischyrodon meriani aus dem Oolith im Frickthale Palaeontographica 6 19 21 a b Madzia D Sachs S Klug C 2022 Historical significance and taxonomic status of Ischyrodon meriani Pliosauridae from the Middle Jurassic of Switzerland PeerJ 10 e13244 doi 10 7717 peerj 13244 PMC 8995022 PMID 35415018 Sauvage H E 1873 Notes sur les reptiles fossiles Bulletin de la Societe Geologique de France Series 3 1 377 380 Sauvage H E 1880 Synopsis des poissons et des reptiles des terrains jurassiques de Boulogne sur Mer Bulletin de la Societe Geologique de France 3 8 524 547 a b c Lydekker R 1888 Notes on the Sauropterygia of the Oxford and Kimeridge Clays mainly based on the collection of Mr Leeds at Eyebury Geological Magazine 5 8 350 356 Bibcode 1888GeoM 5 350L doi 10 1017 S0016756800182160 S2CID 128811880 a b Seeley H G 1869 Index to the fossil remains of Aves Ornithosauria and Reptilia from the secondary system of strata arranged in the Woodwardian Museum of the University of Cambridge Cambridge Deighton Bell and co p 118 Lydekker R 1889 Catalogue of the Fossil Reptilia and Amphibia in the British Museum Natural History Vol 2 London The British Museum Natural History Kiprijanoff W 1883 Studien uber die Fossilen Reptilien Russlands Group Thaumatosauria n aus der Kreide Formation und dem Moskauer Jura Memoires de l Academie imperiale des sciences de St Petersbourg 7 31 1 57 Blake R J 1905 A monograph of the fauna of the Cornbrash Part I Monographs of the Palaeontographical Society 59 282 1 100 doi 10 1080 02693445 1905 12035520 Andrews C W 1910 A descriptive catalogue of the marine reptiles of the Oxford clay Based on the Leeds Collection in the British Museum Natural History London Vol 1 London British Museum Andrews C W 1913 A descriptive catalogue of the marine reptiles of the Oxford clay Based on the Leeds Collection in the British Museum Natural History London Vol 2 London British Museum Linder H 1913 Beitrage zur Kenntnis der Plesiosaurier Gattungen Peloneustes und Pliosaurus Geologische und Palaeontologische Abhandlungen in German 11 339 409 Halstead L B 1971 Liopleurodon rossicus Novozhilov A pliosaur from the lower Volgian of the Moscow Basin 14 14 4 566 570 a b Martill D M 1992 Pliosaur stomach contents from the Oxford Clay PDF Mercian Geologist 13 1 37 42 ISSN 0025 990X Brown D S 1981 The English Upper Jurassic Plesiosauroidea Reptilia and a review of the phylogeny and classification of the Plesiosauria Bulletin of the British Museum Natural History Geology 35 4 253 347 Sachs S 1997 Mesozoische Reptilien aus Nordrhein Westfalen Pp 22 27 in Sachs S Rauhut O W M and Weigert A eds Terra Nostra 1 Treffen der deutschsprachigen Palaoherpetologen Dusseldorf Sachs Sven Christian Nyhuis 2015 Belege fur riesige Pliosaurier aus dem Jura Deutschlands PDF Der Steinkern 21 74 82 Benson R B J Evans M Smith A S Sassoon J Moore Faye S Ketchum H F Forrest R 2013 A giant pliosaurid skull from the Late Jurassic of England PLOS ONE 8 5 e65989 Bibcode 2013PLoSO 865989B doi 10 1371 journal pone 0065989 PMC 3669260 PMID 23741520 Barrientos Lara J I Fernandez M S Alvarado Ortega J 2015 Kimmeridgian pliosaurids Sauropterygia Plesiosauria from Tlaxiaco Oaxaca southern Mexico Revista Mexicana de Ciencias Geologicas 32 2 293 304 Foffa D Young M T Brusatte S L 2018 Filling the Corallian gap New information on Late Jurassic marine reptile faunas from England PDF Acta Palaeontologica Polonica 63 2 287 313 doi 10 4202 app 00455 2018 hdl 20 500 11820 729f4cac 6217 4a21 b22c 8683b38c733b S2CID 52254345 a b c d Forrest Richard 20 November 2007 Liopleurodon The Plesiosaur Site Archived from the original on 15 July 2011 Retrieved 7 June 2009 Re Liopleurodon size Archived from the original on 25 April 2021 Retrieved 26 October 2014 a b Noe Leslie F Jeff Liston Mark Evans 2003 The first relatively complete exoccipital opisthotic from the braincase of the Callovian pliosaur Liopleurodon PDF Geological Magazine 140 4 UK Cambridge University Press 479 486 Bibcode 2003GeoM 140 479N doi 10 1017 S0016756803007829 S2CID 22915279 McHenry Colin Richard 2009 Devourer of Gods the palaeoecology of the Cretaceous pliosaurKronosaurus queenslandicus PhD thesis University of Newcastle pp 1 460 hdl 1959 13 935911 Bardet Nathalie Houssaye Alexandra Jouve Stephane Vincent Peggy 2023 Ocean Life in the Time of Dinosaurs Princeton University Press p 158 ISBN 9780691243948 Benson R B J Druckenmiller P S 2014 first published online 2013 Faunal turnover of marine tetrapods during the Jurassic Cretaceous transition Biological Reviews 89 1 1 23 doi 10 1111 brv 12038 PMID 23581455 S2CID 19710180 Benson RBJ Evans M Smith AS Sassoon J Moore Faye S et al 2013 A giant pliosaurid skull from the Late Jurassic of England PLOS ONE 8 5 1 34 Bibcode 2013PLoSO 865989B doi 10 1371 journal pone 0065989 PMC 3669260 PMID 23741520 Benson RBJ Druckenmiller PS 2013 Faunal turnover of marine tetrapods during the Jurassic Cretaceous transition Biological Reviews 89 1 1 23 doi 10 1111 brv 12038 PMID 23581455 S2CID 19710180 Hilary F Ketchum Roger B J Benson 2011 A new pliosaurid Sauropterygia Plesiosauria from the Oxford Clay Formation Middle Jurassic Callovian of England evidence for a gracile longirostrine grade of Early Middle Jurassic pliosaurids Special Papers in Palaeontology 86 109 129 Schumacher B A Carpenter K Everhart M J 2013 A new Cretaceous Pliosaurid Reptilia Plesiosauria from the Carlile Shale middle Turonian of Russell County Kansas Journal of Vertebrate Paleontology 33 3 613 628 Bibcode 2013JVPal 33 613S doi 10 1080 02724634 2013 722576 S2CID 130165209 Long Jr J H Schumacher J Livingston N Kemp M 2006 Four flippers or two Tetrapodal swimming with an aquatic robot Bioinspiration amp Biomimetics 1 1 20 29 Bibcode 2006BiBi 1 20L doi 10 1088 1748 3182 1 1 003 PMID 17671301 S2CID 1869747 Swimming Robot Tests Theories About Locomotion In Existing And Extinct Animals ScienceDaily 30 May 2006 Retrieved 7 June 2009 Carpenter K 1997 Comparative cranial anatomy of two North American Cretaceous plesiosaurs Pp 191 216 in Callaway J M and Nicholls E L eds Ancient Marine Reptiles Academic Press External links edit nbsp Wikimedia Commons has media related to Liopleurodon Liopleurodon information and photos The Plesiosaur Directory Article on the giant pliosaur skull once assigned to Liopleurodon Tetrapod Zoology Retrieved from https en wikipedia org w 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