Mosasaur: Difference between revisions
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==In popular culture== |
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Mosasaurs are featured in the film ''[[Jurassic World]]''.<ref>[http://nerdist.com/the-best-dinosaur-in-the-jurassic-world-trailer-isnt-actually-a-dinosaur/ "The Best Dinosaur in the JURASSIC WORLD Trailer Isn’t Actually a Dinosaur", by Kyle Hill, Nerdist.com]</ref> |
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==References== |
==References== |
Revision as of 17:34, 14 July 2015
Mosasaurs Temporal range: Late Cretaceous,
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Mounted skeleton of a plioplatecarpine (Plesioplatecarpus planifrons), Rocky Mountain Dinosaur Resource Center | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Class: | Reptilia |
Order: | Squamata |
Clade: | †Mosasauria |
Superfamily: | †Mosasauroidea Gervais, 1853 |
Subgroups | |
|
Mosasaurs (from Latin Mosa meaning the 'Meuse river', and Greek σαύρος sauros meaning 'lizard') are an extinct group of large marine reptiles. Their first fossil remains were discovered in a limestone quarry at Maastricht on the Meuse in 1764. Mosasaurs probably evolved from an extinct group of aquatic lizards known as aigialosaurs in the Early Cretaceous. During the last 20 million years of the Cretaceous period (Turonian-Maastrichtian ages), with the extinction of the ichthyosaurs and decline of plesiosaurs, mosasaurs became the dominant marine predators.
Description
Mosasaurs breathed air, were powerful swimmers, and were well-adapted to living in the warm, shallow inland seas prevalent during the Late Cretaceous Period. Mosasaurs were so well adapted to this environment that they gave birth to live young, rather than returning to the shore to lay eggs as sea turtles do.[1]
The smallest-known mosasaur was Dallasaurus turneri, which was less than 1 metre (3.3 ft) long. Larger mosasaurs were more typical, with many species growing longer than 4 metres (13 ft). Mosasaurus hoffmannii, the largest known species of mosasaur, may have reached up to 18 metres (59 ft) in length.[2] Currently, the largest publicly exhibited mosasaur skeleton in the world is on display at the Canadian Fossil Discovery Centre in Morden, Manitoba. The specimen, nicknamed "Bruce", is approximately 13 metres (43 ft) long.[3]
Mosasaurs had a body shape similar to that of modern-day monitor lizards (varanids), but were more elongated and streamlined for swimming. Their limb bones were reduced in length and their paddles were formed by webbing between their long finger and toe bones. Their tails were broad, and supplied their locomotive power. Until recently, mosasaurs were assumed to have swum in a method similar to the one used today by conger eels and sea snakes, undulating their entire bodies from side to side. However, new evidence suggests that many advanced mosasaurs had large crescent-shaped flukes on the ends of their tails, similar to those of sharks and some ichthyosaurs. Rather than use snake-like undulations, their bodies probably remained stiff to reduce drag through the water, while their tails provided strong propulsion.[4] These animals may have lurked and pounced rapidly and powerfully on passing prey, rather than chasing after it.[5]
Early reconstructions showed mosasaurs with dorsal crests running the length of their bodies, which were based on misidentified remains of tracheal cartilage. By the time this error was discovered, depicting mosasaurs with such crests in artwork had already become a trend.[6][7]
Paleobiology
Mosasaurs had double-hinged jaws and flexible skulls (much like those of snakes), which enabled them to gulp down their prey almost whole. A skeleton of Tylosaurus proriger from South Dakota included remains of the diving seabird Hesperornis, a marine bony fish, a possible shark, and another, smaller mosasaur (Clidastes). Mosasaur bones have also been found with shark teeth embedded in them.
One of the food items of mosasaurs were ammonites, molluscs with shells similar to that of Nautilus, which were abundant in the Cretaceous seas. Round holes have been found in fossil shells of some ammonites, mainly Pachydiscus and Placenticeras. These were once interpreted as a result of limpets attaching themselves to the ammonites, but the triangular shape of the holes, their size, and their presence on both sides of the shells, corresponding to upper and lower jaws, is evidence of the bite of medium-sized mosasaurs. It is not clear whether this behaviour was common across all size classes of mosasaurs.
Virtually all forms were active predators of fish and ammonites; a few, such as Globidens, had blunt spherical teeth, specialized for crushing mollusk shells. The smaller genera, such as Platecarpus and Dallasaurus, which were about 1–6 m (3–20 ft) long, probably fed on fish and other small prey. The smaller mosasaurs may have spent some time in fresh water, hunting for food. The larger mosasaurs, such as Tylosaurus, and Mosasaurus, reached sizes of 10–15 m (33–49 ft) long and were the apex predators of the Late Cretaceous oceans, attacking other marine reptiles as well as preying on large fish and ammonites.
Soft tissue
Despite the many mosasaur remains collected worldwide, knowledge of the nature of their skin coverings remains in its early stages. Few mosasaurid specimens collected from around the world retain fossilized scale imprints. This lack may be due to the delicate nature of the scales, which nearly eliminates the possibility of preservation, in addition to the preservation sediment types and the marine conditions under which the preservation occurred. Until the discovery of several mosasaur specimens with remarkably well-preserved scale imprints from late Maastrichtian deposits of the Muwaqqar Chalk Marl Formation of Harrana[8] in Jordan, knowledge of the nature of mosasaur integument was mainly based on very few accounts describing early mosasaur fossils dating back to the upper Santonian–lower Campanian, such as the famous Tylosaurus specimen (KUVP-1075) from Gove County, Kansas.[9] Material from Jordan has shown that the bodies of mosasaurs, as well as the membranes between their fingers and toes, were covered with small, overlapping, diamond-shaped scales resembling those of snakes. Much like those of modern reptiles, mosasaur scales varied across the body in type and size. In Harrana specimens, two types of scales were observed on a single specimen: keeled scales covering the upper regions of the body and smooth scales covering the lower.[8] As ambush predators, lurking and quickly capturing prey using stealth tactics,[10] they may have benefited from the nonreflective, keeled scales.[8]
More recently, a fossil of Platecarpus tympaniticus has been found that preserved not only skin impressions, but also internal organs. Several reddish areas in the fossil may represent the heart, lungs, and kidneys. The trachea is also preserved, along with part of what may be the retina in the eye. The placement of the kidneys is farther forward in the abdomen than it is in monitor lizards, and is more similar to those of cetaceans. As in cetaceans, the bronchi leading to the lungs run parallel to each other instead of splitting apart from one another as in monitors and other terrestrial reptiles. In mosasaurs, these features may be internal adaptations to fully marine lifestyles.[4]
In 2011, collagen protein was recovered from a Prognathodon humerus dated to the Cretaceous.[11]
Coloration
The coloration of mosasaurs was unknown until 2014, when the findings of Johan Lindgren of Lund University and colleagues revealed the pigment melanin in the fossilized scales of a mosasaur. The studies revealed that mosasaurs were likely countershaded, with black backs and white underbellies, much like a great white shark or leatherback sea turtle, the latter of which had fossilized ancestors for which color was also determined. The findings were described in the journal Nature.[12]
Environment
Sea levels were high during the Cretaceous period, causing marine transgressions in many parts of the world, and a great inland seaway in what is now North America. Mosasaur fossils have been found in the Netherlands, Belgium, Denmark, Portugal, Sweden, Spain, France, Germany, Poland, Czech Republic, Bulgaria, the United Kingdom,[13][14] Russia, Ukraine, Kazakhstan, Azerbaijan,[15] Japan,[16] Egypt, Israel, Jordan, Syria,[17] Turkey,[18] Niger,[19][20] Angola, Morocco, Australia, New Zealand, and on Vega Island off the coast of Antarctica. Tooth taxon Globidens timorensis is known from the island of Timor; however, the phylogenetic placement of this species is uncertain and it might not even be a mosasaur.[21] Mosasaurs have been found in Canada in Manitoba and Saskatchewan[22] and in much of the contiguous United States. Complete or partial specimens have been found in Alabama, Mississippi, Tennessee, and Georgia, as well as in states covered by the Cretaceous seaway: Texas, southwest Arkansas, New Mexico, Kansas,[23] Colorado, Nebraska, South Dakota, Montana, and the Pierre Shale/Fox Hills formations of North Dakota.[24] Lastly, mosasaur bones and teeth are also known from California, Mexico, Colombia,[25] Brazil,[17] Peru, and Chile.[26]
Many of the so-called 'dinosaur' remains found on New Zealand are actually mosasaurs and plesiosaurs, both being Mesozoic predatory marine reptiles.
Discovery
The first publicized discovery of a partial fossil mosasaur skull in 1764 by quarry workers in a subterranean gallery of a limestone quarry in Mount Saint Peter, near the Dutch city of Maastricht, preceded any major dinosaur fossil discoveries, but remained little known. However, a second find of a partial skull drew the Age of Enlightenment's attention to the existence of fossilized animals that were different from any known living creatures. When the specimen was discovered between 1770 and 1774, Johann Leonard Hoffmann, a surgeon and fossil collector, corresponded about it with the most influential scientists of his day, making the fossil famous. The original owner, though, was Godding, a canon of Maastricht cathedral.
When the French revolutionary forces occupied Maastricht in 1794, the carefully hidden fossil was uncovered, after a reward, it is said, of 600 bottles of wine, and transported to Paris. After it had been earlier interpreted as a fish, a crocodile, and a sperm whale, the first to understand its lizard affinities was the Dutch scientist Adriaan Gilles Camper in 1799. In 1808, Georges Cuvier confirmed this conclusion, although le Grand Animal fossile de Maëstricht was not actually named Mosasaurus ('Meuse reptile') until 1822 and not given its full species name, Mosasaurus hoffmannii, until 1829. Several sets of mosasaur remains, that had been discovered earlier at Maastricht but were not identified as mosasaurs until the 19th century, have been on display in the Teylers Museum, Haarlem, procured from 1790.
The Maastricht limestone beds were rendered so famous by the mosasaur discovery, they have given their name to the final six-million-year epoch of the Cretaceous, the Maastrichtian.
Relationships
Cladogram of mosasaurs and related taxa modified from D.V. Grigoriev, 2013:[27]
Mosasauroidea |
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Evolutionary history
Based on features such as the double row of pterygoid ("flanged") teeth on the palate, the loosely hinged jaw, modified/reduced limbs and probable methods of locomotion, many researchers believe that snakes share a common marine ancestry with mosasaurs, a suggestion advanced in 1869, by Edward Drinker Cope, who coined the term Pythonomorpha to unite them. The idea lay dormant for more than a century, to be revived in the 1990s.[28][29] Recently, the discovery of Najash rionegrina, a fossorial snake from South America, cast doubt on the marine origin hypothesis.
The skeleton of Dallasaurus turneri, described by Bell and Polcyn (2005), has a mixture of features present in the skeletons of derived mosasaurs and in the skeletons of mosasaurid ancestors, such as aigialosaurids. Dallasaurus retains facultatively terrestrial limbs similar in their structure to the limbs of aigialosaurids and terrestrial squamates (plesiopedal limb condition), unlike derived mosasaurids, which evolved paddle-like limbs (hydropedal limb condition). However, the skeleton of Dallasaurus simultaneously had several characters that linked it with derived members of the subfamily Mosasaurinae; the authors of its description listed "invasion of the parietal by medial tongues from the frontal, teeth with smooth medial enamel surface, high coronoid buttress on surangular, interdigitate anterior scapulo-coracoid suture, humeral postglenoid process, elongate atlas synapophysis, sharp anterodorsal ridge on synapophyses, vertically oriented vertebral condyles, elongate posterior thoracic vertebrae, and fused haemal arches" as the characters uniting Dallasaurus with Mosasaurinae.[30] The phylogenetic analysis conducted by Bell and Polcyn indicated that hydropedal mosasaurids did not form a clade that wouldn't also include plesiopedal taxa such as Dallasaurus, Yaguarasaurus, Russellosaurus, Tethysaurus, Haasiasaurus and Komensaurus (in 2005 only informally known as "Trieste aigialosaur"); the analysis indicated that hydropedal limb condition evolved independently in three different groups of mosasaurs (Halisaurinae, Mosasaurinae and the group containing the subfamilies Tylosaurinae and Plioplatecarpinae).[30][31] The result of this phylogenetic study was subsequently mostly confirmed by the analyses conducted by Caldwell and Palci (2007) and Leblanc, Caldwell and Bardet (2012);[32][33] the analysis conducted by Makádi, Caldwell and Ősi (2012) indicated that hydropedal limb condition evolved independently in two group of mosasaurs (in Mosasaurinae and in the clade containing Halisaurinae, Tylosaurinae and Plioplatecarpinae).[34] Conrad et al. (2011), on the other hand, recovered hydropedal mosasaurs forming a clade that excluded their plesiopedal relatives.[35] If the hypothesis of Bell and Polcyn (2005) is correct, then mosasaurs in the traditional sense of the word, i.e. "lizards that evolved paddle-like limbs and radiated into aquatic environments in the late Mesozoic, going extinct at the end of that era",[31] are actually polyphyletic; Bell and Polcyn (2005) maintained monophyletic Mosasauridae by including Dallasaurus and other aforementioned plesiopedal taxa in the family as well,[30] while Caldwell (2012) suggested (though explicitly stated that it was not "a formal proposal of new nomenclature") to restrict Mosasauridae only to the genus Mosasaurus and its closest hydropedal relatives.[31]
The exact phylogenetic position of the clade containing mosasaurids and their closest relatives (aigialosaurids and dolichosaurs) within Squamata remains uncertain. Some cladistic analyses recovered them as the closest relatives of snakes,[36][37] taking into account similarities in jaw and skull anatomies;[36] however, this has been disputed[38][39][40] and the morphological analysis conducted by Conrad (2008) recovered them as varanoids closely related to terrestrial monitor lizards instead.[38] Subsequent analysis of anguimorph relationships conducted by Conrad et al. (2011) based on morphology alone recovered mosasaurids, aigialosaurids and dolichosaurs as anguimorphs lying outside the least inclusive clade containing monitor lizards and helodermatids; the analysis based on combined datasets of morphological and molecular data, on the other hand, found them more closely related to monitor lizards and the earless monitor lizard than helodermatids and the Chinese crocodile lizard were.[35] The large morphological analysis conducted by Gauthier et al. (2012) recovered mosasaurids, aigialosaurids and dolichosaurids in an unexpected position as basal members of the clade Scincogekkonomorpha (containing all taxa sharing a more recent common ancestor with Gekko gecko and Scincus scincus than with Iguana iguana[38]) that didn't belong to the clade Scleroglossa. The phylogenetic position of these taxa turned out to be highly dependent on which taxa were included in or excluded from the analysis. When mosasaurids were excluded from the analysis, dolichosaurs and aigialosaurids were recovered within Scleroglossa, forming a sister group to the clade containing snakes, amphisbaenians, dibamids and the American legless lizard. When mosasaurids were included in the analysis, and various taxa with reduced or absent limbs other than snakes (such as dibamids or amphisbaenians) were excluded, mosasaurids, aigialosaurids and dolichosaurs were recovered inside Scleroglossa forming the sister group to snakes.[41] Longrich, Bhullar and Gauthier (2012) conducted a morphological analysis of squamate relationships using a modified version of the matrix from the analysis of Gauthier et al. (2012); they found the phylogenetic position of the clade containing mosasaurs and their closest relatives within Squamata to be highly unstable, with the clade "variously being recovered outside Scleroglossa (as in Gauthier et al., 2012) or alongside the limbless forms".[42]
Distribution
The following is a list of geologic formations that have produced mosasaur fossils.
Name | Age | Location | Notes |
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Mount Saint Peter | Cretaceous | Maastricht | Limestone deposits since 1764 |
Fox Hills Formation | Cretaceous | North Dakota | Estuarine deposits |
Moreno Formation | |||
Niobrara Formation | |||
Pierre Shale Formation | Cretaceous | North Dakota, Manitoba | Oceanic deposits |
Mooreville Chalk Formation | Cretaceous | Alabama, Mississippi | Oceanic deposits |
Demopolis Chalk Formation | Cretaceous | Alabama | Oceanic deposits |
Eutaw Formation | Cretaceous | Georgia, Alabama, Mississippi | Oceanic deposits |
Prairie Bluff Chalk Formation | Cretaceous | Alabama, Mississippi | Oceanic deposits |
Ripley Formation | Cretaceous | Alabama | Oceanic deposits |
Navarro Formation | Cretaceous | Texas | |
Maastrichtian | Cretaceous | Bentiaba River |
References
- ^ Field, Daniel J.; LeBlanc, Aaron; Gau1, Adrienne; Behlke, Adam D. (10 Apr 2015). "Pelagic neonatal fossils support viviparity and precocial life history of Cretaceous mosasaurs". Palaeontology. doi:10.1111/pala.12165.
{{cite journal}}
: CS1 maint: numeric names: authors list (link) - ^ Mulder, E.W.A. (1999). "Transatlantic latest Cretaceous mosasaurs (Reptilia, Lacertilia) from the Maastrichtian type area and New Jersey." Geologie en Mijnbouw, 78: 281–300. doi:10.1023/A:1003838929257
- ^ "All About Bruce". Canadian Fossil Discovery Centre. 2014. Retrieved 25 November 2014.
- ^ a b Lindgren, J.; Caldwell, M.W.; Konishi, T.; Chiappe, L.M. (2010). Farke, Andrew Allen (ed.). "Convergent Evolution in Aquatic Tetrapods: Insights from an Exceptional Fossil Mosasaur". PLoS ONE. 5 (8): e11998. doi:10.1371/journal.pone.0011998. PMC 2918493. PMID 20711249.
{{cite journal}}
: CS1 maint: unflagged free DOI (link) - ^ Attention: This template ({{cite doi}}) is deprecated. To cite the publication identified by doi:10.1038/ncomms3423, please use {{cite journal}} (if it was published in a bona fide academic journal, otherwise {{cite report}} with
|doi=10.1038/ncomms3423
instead. - ^ Osborn, Henry Fairfield (1899). "A Complete Mosasaur Skeleton, Osseous and Cartilaginous". Memoirs of the American Museum of Natural History. 1 (4): 167–188. Retrieved 25 November 2014.
- ^ Everhart, Mike (13 January 2013). "Origin of the Dorsal Fringe on Mosasaurs". Oceans of Kansas. Retrieved 25 November 2014.
- ^ a b c Kaddumi, H.F. (2009). "On the latest scale coverings of mosasaurs (Squamata: Mosasauridae) from the Harrana Fauna in addition to the description of s new species of Mosasaurus". Fossils of the Harrana Fauna and the Adjacent Areas. Amman: Eternal River Museum of Natural History. pp. 80–94.
- ^ Snow, F. H. (1878). "On the dermal covering of a mosasauroid reptile". Transactions of the Kansas Academy of Science. 6: 54–58.
- ^ Massare, J. A. (1987). "Tooth morphology and prey preference of Mesozoic marine reptiles". Journal of Vertebrate Paleontology. 7 (2): 121–137. doi:10.1080/02724634.1987.10011647.
- ^ Lindgren J., Uvdal P., Engdahl A., Lee A.H., Alwmark C.; et al. (29 April 2011). "Microspectroscopic Evidence of Cretaceous Bone Proteins". PLoS ONE. 6 (4). doi:10.1371/journal.pone.0019445. Retrieved 25 November 2014.
{{cite journal}}
: Explicit use of et al. in:|author=
(help)CS1 maint: multiple names: authors list (link) CS1 maint: unflagged free DOI (link) - ^ Attention: This template ({{cite doi}}) is deprecated. To cite the publication identified by doi:10.1038/nature12899, please use {{cite journal}} (if it was published in a bona fide academic journal, otherwise {{cite report}} with
|doi=10.1038/nature12899
instead. - ^ "St. James' Pit, Norwich (SSSI)" (PDF). Natural England. 2014. Retrieved 25 November 2014.
- ^ John W.M. Jagt, Neda Motchurova-Dekova, Plamen Ivanov, Henri Cappetta and Anne S. Schulp (2006). "Latest Cretaceous mosasaurs and lamniform sharks from Labirinta cave, Vratsa District (northwest Bulgaria): A preliminary note". Geoloski anali Balkanskoga poluostrva. 67: 51–63. doi:10.2298/gabp0667051j.
{{cite journal}}
: CS1 maint: multiple names: authors list (link) - ^ Glenn W. Storrs, Maxim S. Arkhangelskii and Vladimir M. Efimov (2000). "Mesozoic marine reptiles of Russia and other former Soviet republics". The age of dinosaurs in Russia and Mongolia. Cambridge: Cambridge University Press. pp. 187–210. ISBN 0521554764.
{{cite book}}
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suggested) (help) - ^ Takuya Konishi, Masahiro Tanimoto, Satoshi Utsunomiya, Masahiro Sato and Katsunori Watanabe (2012). "A Large Mosasaurine (Squamata: Mosasauridae) from the Latest Cretaceous of Osaka Prefecture (Sw Japan)". Paleontological Research. 16 (2): 79–87. doi:10.2517/1342-8144-16.2.079.
{{cite journal}}
: CS1 maint: multiple names: authors list (link) - ^ a b N. Bardet, X. Pereda Suberbiola, M. Iarochène, M. Amalik and B. Bouya (2005). "Durophagous Mosasauridae (Squamata) from the Upper Cretaceous phosphates of Morocco, with description of a new species of Globidens" (PDF). Netherlands Journal of Geosciences. 84 (3): 167–175.
{{cite journal}}
: CS1 maint: multiple names: authors list (link) - ^ Nathalie Bardet and Cemal Tunoğlu (2002). "The first mosasaur (Squamata) from the Late Cretaceous of Turkey". Journal of Vertebrate Paleontology. 22 (3): 712–715. doi:10.1671/0272-4634(2002)022[0712:TFMSFT]2.0.CO;2.
- ^ Theagarten Lingham-Soliar (1991). "Mosasaurs from the upper Cretaceous of Niger" (PDF). Palaeontology. 34 (3): 653–670.
- ^ Theagarten Lingham-Soliar (1998). "A new mosasaur Pluridens walkeri from the Upper Cretaceous, Maastrichtian of the Iullemmeden Basin, southwest Niger". Journal of Vertebrate Paleontology. 18 (4): 709–717. doi:10.1080/02724634.1998.10011100.
- ^ James E. Martin (2007). "A new species of the durophagous mosasaur, Globidens (Squamata: Mosasauridae) from the Late Cretaceous Pierre Shale Group of central South Dakota, USA". In James E. Martin and David C. Parris (eds) (ed.). The Geology and Paleontology of the Late Cretaceous Marine Deposits of the Dakotas. The Geological Society of America. pp. 177–198. doi:10.1130/2007.2427(13).
{{cite book}}
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has generic name (help) - ^ "General Information". Canadian Fossil Discovery Centre. 2014. Retrieved 25 November 2014.
- ^ Michael J. Everhart (2005). "Chapter 9: Enter the Mosasaurs". Oceans of Kansas: a natural history of the western interior sea. Bloomington: Indiana University Press. ISBN 0-253-34547-2.
- ^ Getman, Myron RC (1994). "Occurrences of Mosasaur and other reptilian fossil remains from the Fox Hills Formation (Maastrichtian: late Cretaceous) of North Dakota". St. Lawrence University Dept. of Geology theses.
{{cite journal}}
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(help) - ^ Páramo-Fonseca, M. 2012. Mosasauroids from Colombia. Bulletin de la Societe Geologique de France, v. 183, p. 83
- ^ Rodrigo A. Otero, James F. Parham, Sergio Soto-Acuña, Paulina Jimenez-Huidobro and David Rubilar-Rogers (2012). "Marine reptiles from Late Cretaceous (early Maastrichtian) deposits in Algarrobo, central Chile". Cretaceous Research. 35: 124–132. doi:10.1016/j.cretres.2011.12.003.
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: CS1 maint: multiple names: authors list (link) - ^ Grigoriev, D. V. (2013). Redescription of Prognathodon lutugini (Squamata, Mosasauridae). Proceedings of the Zoological Institute RAS, 317(3): 246-261.
- ^ "Palaeos Vertebrates Squamata: Pythonomorpha". palaeos.com. 2012. Retrieved 25 November 2014.
- ^ Everhart, M. J. (2000). "Mosasaurs: Last of the Great Marine Reptiles". Prehistoric Times (44): 29–31. Retrieved 25 November 2014.
- ^ a b c G.L. Bell Jr. and M.J. Polcyn (2005). "Dallasaurus turneri, a new primitive mosasauroid from the Middle Turonian of Texas and comments on the phylogeny of Mosasauridae (Squamata)" (PDF). Netherlands Journal of Geosciences. 84 (3): 177–194.
- ^ a b c Michael W. Caldwell (2012). "A challenge to categories: "What, if anything, is a mosasaur?"". Bulletin de la Société Géologique de France. 183 (1): 7–34. doi:10.2113/gssgfbull.183.1.7.
- ^ Aaron R. H. Leblanc, Michael W. Caldwell and Nathalie Bardet (2012). "A new mosasaurine from the Maastrichtian (Upper Cretaceous) phosphates of Morocco and its implications for mosasaurine systematics". Journal of Vertebrate Paleontology. 32 (1): 82–104. doi:10.1080/02724634.2012.624145.
- ^ Michael W. Caldwell and Alessandro Palci (2007). "A new basal mosasauroid from the Cenomanian (U. Cretaceous) of Slovenia with a review of mosasauroid phylogeny and evolution". Journal of Vertebrate Paleontology. 27 (4): 863–880. doi:10.1671/0272-4634(2007)27[863:ANBMFT]2.0.CO;2.
- ^ Attention: This template ({{cite doi}}) is deprecated. To cite the publication identified by doi:10.1371/journal.pone.0051781, please use {{cite journal}} (if it was published in a bona fide academic journal, otherwise {{cite report}} with
|doi=10.1371/journal.pone.0051781
instead. - ^ a b Jack L. Conrad, Jennifer C. Ast, Shaena Montanari, Mark A. Norel (2011). "A combined evidence phylogenetic analysis of Anguimorpha (Reptilia: Squamata)". Cladistics. 27 (3): 230–277. doi:10.1111/j.1096-0031.2010.00330.x.
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: CS1 maint: multiple names: authors list (link) - ^ a b Lee MSY (1997-01-29). "The phylogeny of varanoid lizards and the affinities of snakes". Philos Trans R Soc Lond B Biol Sci. 352 (1349): 53–91. doi:10.1098/rstb.1997.0005. PMC 1691912.
- ^ Michael S.Y Lee (2005). "Molecular evidence and marine snake origins". Biology Letters. 1 (2): 227–230. doi:10.1098/rsbl.2004.0282. PMC 1626205. PMID 17148173.
- ^ a b c Conrad J (2008). "Phylogeny and systematics of Squamata (Reptilia) based on morphology". Bulletin of the American Museum of Natural History. 310: 1–182. doi:10.1206/310.1.
- ^ Vidal N, Hedges SB (2004). "Molecular evidence for a terrestrial origin of snakes". Philos Trans R Soc Lond B Biol Sci. 271: S226–S229. doi:10.1098/rsbl.2003.0151.
- ^ Apesteguía S, Zaher H (2006-05-20). "A Cretaceous terrestrial snake with robust hindlimbs and a sacrum". Nature. 440 (7087): 1037–1040. doi:10.1038/nature04413. PMID 16625194.
- ^ Jacques A. Gauthier, Maureen Kearney, Jessica Anderson Maisano, Olivier Rieppel, Adam D.B. Behlke (2012). "Assembling the Squamate Tree of Life: Perspectives from the Phenotype and the Fossil Record". Bulletin of the Peabody Museum of Natural History. 53 (1): 3–308. doi:10.3374/014.053.0101.
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: CS1 maint: multiple names: authors list (link) - ^ Nicholas R. Longrich, Bhart-Anjan S. Bhullar and Jacques A. Gauthier (2012). "Mass extinction of lizards and snakes at the Cretaceous–Paleogene boundary". Proceedings of the National Academy of Sciences of the United States of America. 109 (52): 21396–21401. doi:10.1073/pnas.1211526110. PMC 3535637. PMID 23236177.
External links
- Palaeos: Vertebrates: Mosasaurs
- BBC Science and Nature: Mosasaurs
- Mike Everhart and David Lewis, "Mesozoic marine monsters of the Mangahouanga": New Zealand fossil fauna
- Mike Everhart, "A day in the life of a Mosasaur": life in the Sea of Kansas, illus. by Carl Buell
- Mike Everhart, "Mosasaurus hoffmani" until 1829.
- Mosasaurus maximus mounted skeleton at University of Texas Memorial Museum
- Canadian Fossil Discovery Centre
- "The Mosasaur of Maastricht" by Hennie Reuvers in Crossroads web magazine
- "Mosasaurs terrorized Cretaceous rivers" Planet Earth online
- Georgia Southern University Museum Mosasaur Exhibit
- Kansas Geological Survey Vol IV (1899), containing the famous summary of American mosasaurs by Samuel Williston.
- William R. Wahl * MOSASAUR BITE MARKS ON AN AMMONITE. PRESERVATION OF AN ABORTED ATTACK?
- Mosasaur diet