Allosaurus

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Allosaurus
Temporal range: U.J.-L.K. 155–120 Ma
Replica of Allosaurus skull (San Diego Natural History Museum).
Scientific classification
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Allosaurus

Marsh, 1877
The skeletal mount of AMNH 5753, posed as scavenging an Apatosaurus, based on Charles R. Knight's life restoration.
AMNH 5753 in a Charles R. Knight life restoration.

Allosaurus was a large theropod dinosaur from the Jurassic period, a predatory carnivore.

Allosaurus averaged 8.5 metres (28 ft) in length, though some remains suggest it could reach over 12 meters (39 ft). Its three-fingered forelimbs were smaller than its large hind legs, and the body was balanced by a long, heavy tail.[1] It weighed 2.3 tons.

It is the most common large predator found in the Morrison Formation of North America. This formation was laid down 155 to 145 million years ago, in the Jurassic.

Allosaurus was at the top of the food chain. It probably preyed on large herbivorous dinosaurs and perhaps even other predators (e.g. Ceratosaurus). Potential prey included ornithopods, stegosaurs, and sauropods.

Some paleontologists think Allosaurus had cooperative behavior, and hunted in packs. Others believe they may have been aggressive toward each other.

Groups have been found together in the fossil record. This might be evidence of pack behavior, or just the result of lone individuals feeding on the same carcass.

Remains of many individuals have been found, including some which are almost complete. Over sixty-nine individuals from one species have been found.[2]

Feeding[change | change source]

Allosaurus and Stegosaurus skeletons, Denver Museum of Nature and Science

Sauropods, live or dead, seem to be likely candidates as prey. Sauropod bones with holes fitting allosaur teeth, and the presence of shed allosaur teeth with sauropod bones have been found.[3]

There is dramatic evidence for allosaur attacks on Stegosaurus. An Allosaurus tail vertebra has been found with a partially healed puncture which fits a Stegosaurus thagomizer. Also, there is a Stegosaurus neck plate with a U-shaped wound that correlates well with an Allosaurus snout.[4]

Allosaurus was probably not a predator of fully grown sauropods, unless it hunted in packs. It had a modestly sized skull and relatively small teeth, and was greatly outweighed by adult sauropods. Another possibility is that it preferred to hunt juveniles instead of fully grown adults.

Researchers have made other suggestions. Robert T. Bakker compared the short teeth to serrations on a saw. This saw-like cutting edge runs the length of the upper jaw, and could have been driven into prey. This type of jaw would permit slashing attacks against much larger prey, with the goal of weakening the victim.[5]

Another study showed the skull was very strong but had a relatively small bite force. The authors suggested that Allosaurus used its skull like a hatchet against prey, attacking open-mouthed, slashing flesh with its teeth, and tearing it away without splintering bones, but this is disputed by other scientists.

Different strategies could be used against different prey. The skull was light enough to allow attacks on smaller and more agile ornithopods, but strong enough for high-impact ambush attacks against larger prey like stegosaurs and sauropods.[6]

Their ideas were challenged by other researchers, who found no modern examples of a hatchet attack. They thought it more likely that the skull was strong to absorb stresses from struggling prey.[7]

The original authors noted that Allosaurus itself has no modern equivalent, so the absence of a modern 'hatchet attacker' was not significant. They thought the tooth row was well-suited to such an attack, and that articulations (joints) in the skull helped to lessen stress.[8]

Another possibility for handling large prey is that theropods like Allosaurus were 'flesh grazers' which could take bites of flesh out of living sauropods, sufficient to sustain the predator so it did not need to kill the prey outright. This strategy might have allowed the prey to recover and be fed upon again later.[2]

Allosaurus skull cast in front view at the Museum für Naturkunde, Berlin

Another idea is that ornithopods, the most common available prey, could be subdued by Allosaurus grasping the prey with their forelimbs, and then making bites on the throat to crush the trachea.[9] The forelimbs were strong and capable of restraining prey,[10] and the articulation of the claws suggests that they could have been used to hook things.[11]

The shape of the Allosaurus skull limited binocular vision to 20° of width, slightly less than that of modern crocodilians. As with crocodiles, this may have been enough to judge prey distance and time attacks.[12] The similar width of their field of view suggests that allosaurs, like modern crocodiles, were ambush hunters.[13]

Finally, the top speed of Allosaurus has been estimated at 30 to 55 kilometers per hour (19 to 34 miles per hour).[14]

Cleveland-Lloyd discoveries[change | change source]

The fossil site known as the Cleveland-Lloyd Dinosaur Quarry in Emery County, Utah was known in 1927, but major operations did not begin there until 1960.[15] An effort from nearly 40 institutions got thousands of bones between 1960 and 1965.[1] The quarry is notable for the many Allosaurus remains, the condition of the specimens, and our ignorance of its ancient origin. It is estimated that the remains of at least 46 A. fragilis have been found there, out of at least 73 dinosaurs. The fossils found there are disarticulated (separate) and well-mixed.

Suggestions as to how it arose include animals getting stuck in a bog, to becoming trapped in deep mud, to falling victim to drought-induced mortality around a waterhole, to getting trapped in a spring-fed pond or seep.[16] Regardless of the cause, the great quantity of well-preserved Allosaurus remains means the animal is one of the best-known theropods. Individuals of almost all ages and sizes are found, from less than 1 meter (3.3 ft)[17] to 12 meters (39 ft) long.

Species[change | change source]

There are five recognised species of Allosaurus:

  • A. fragilis
  • A. tendagurensis (?)
  • A. atrox (?)
  • A. europaeus
  • A. jimmadseni

Media[change | change source]

Allosaurus model in Bałtów, Poland.

Allosaurus, like Tyrannosaurus, has come to represent the quintessential large, carnivorous dinosaur in popular culture.

It is a common dinosaur in museums. A number of museums cooperated in excavations at the Cleveland Lloyd Dinosaur Quarry. By 1976, museums in eight countries on three continents had Cleveland-Lloyd allosaur material or casts.[1] Allosaurus is the official 'state fossil' of Utah.[18]

Allosaurus is top predator in both Arthur Conan Doyle's 1912 novel, The Lost World, and its 1925 film adaptation, the first full-length motion picture to feature dinosaurs.[19]

Allosaurus was used as the starring dinosaur of the 1956 film The Beast of Hollow Mountain,[20] and the 1969 film The Valley of Gwangi. Gwangi is billed as an Allosaurus, though Ray Harryhausen based his model for the creature on Charles R. Knight's depiction of a Tyrannosaurus.[21] Allosaurus appeared in the second episode of the 1999 BBC television series Walking with Dinosaurs and the follow-up special The Ballad of Big Al, which speculated on the life of the 'Big Al' specimen, as revealed by the numerous injuries and pathologies in its skeleton.[22]

References[change | change source]

  1. 1.0 1.1 1.2 Madsen, James H, Jr. 1993 [1976]. Allosaurus fragilis: a revised osteology. 2nd ed, Utah Geological Survey Bulletin 109. Salt Lake City: Utah Geological Survey.
  2. 2.0 2.1 Holtz, Thomas R., Jr.; Molnar, Ralph E.; and Currie, Philip J. 2004. Weishampel, David B.; Dodson, Peter; and Osmólska, Halszka (eds) The Dinosauria. 2nd ed, Berkeley: University of California Press. pp. 71–110. ISBN 0-520-24209-2
  3. Fastovsky, David E.; and Smith, Joshua B. 2004. "Dinosaur Paleoecology", in The Dinosauria, 2nd ed. 614–626.
  4. Carpenter, Kenneth (2005). "Evidence for predator-prey relationships: examples for Allosaurus and Stegosaurus". In Carpenter, Kenneth (ed.). The carnivorous dinosaurs. Bloomington and Indianapolis: Indiana University Press. pp. 325–350. ISBN 0-253-34539-1.
  5. Bakker, Robert T. (1998). "Brontosaur killers: Late Jurassic allosaurids as sabre-tooth cat analogues" (PDF). Gaia. 15: 145–158. ISSN 0871-5424. Archived from the original (PDF) on 2007-10-31. Retrieved 2010-12-22.
  6. Rayfield, Emily J.; Norman, DB; Horner, CC; Horner, JR; Smith, PM; Thomason, JJ; Upchurch, P (2001). "Cranial design and function in a large theropod dinosaur". Nature. 409 (6823): 1033–1037. Bibcode:2001Natur.409.1033R. doi:10.1038/35059070. PMID 11234010. S2CID 4396729.
  7. Frazzetta, T.H.; Kardong, KV (2002). "Prey attack by a large theropod dinosaur". Nature. 416 (6879): 387–388. doi:10.1038/416387a. PMID 11919619. S2CID 4388901.
  8. Rayfield, Emily J.; Norman, D. B.; Upchurch, P. (2002). "Prey attack by a large theropod dinosaur: Response to Frazzetta and Kardong, 2002". Nature. 416: 388. doi:10.1038/416388a. S2CID 4392259.
  9. Foster, John 2007. "Allosaurus fragilis". Jurassic West: the dinosaurs of the Morrison Formation and their world. Bloomington, Indiana: Indiana University Press. pp. 170–176. ISBN 978-0-253-34870-8 OCLC 77830875
  10. Carpenter, Kenneth 2002. "Forelimb biomechanics of nonavian theropod dinosaurs in predation". Senckebergiana lethaea 82 (1): 59–76. doi:10.1007/BF03043773
  11. Gilmore, Charles W. 1920. "Osteology of the carnivorous dinosauria in the United States National Museum, with special reference to the genera Antrodemus (Allosaurus) and Ceratosaurus". Bulletin of the United States National Museum 110: 1–159.
  12. Stevens, Kent A. (2006). "Binocular vision in theropod dinosaurs". Journal of Vertebrate Paleontology. 26 (2): 321–330. doi:10.1671/0272-4634(2006)26[321:BVITD]2.0.CO;2. S2CID 85694979.
  13. "Evolve: Eyes". History channel Evolve. Archived from the original on 2009-06-28. Retrieved 2010-12-22.
  14. Christiansen, Per (1998). "Strength indicator values of theropod long bones, with comments on limb proportions and cursorial potential" (PDF). Gaia. 15: 241–255. ISSN 0871-5424. Archived from the original (PDF) on 2008-10-31. Retrieved 2010-12-22.
  15. Stokes, William J. (1945). "A new quarry for Jurassic dinosaurs". Science. 101 (2614): 115–117. Bibcode:1945Sci...101..115S. doi:10.1126/science.101.2614.115-a. PMID 17799203. S2CID 13589884.
  16. Foster, John R.; Lucas, Spencer G.; Hunt, Adrian P, eds. (2006). "The taphonomy of the Cleveland-Lloyd Dinosaur Quarry, Upper Jurassic Morrison Formation, Utah: a re-evaluation". Paleontology and Geology of the Upper Jurassic Morrison Formation. New Mexico Museum of Natural History and Science Bulletin, 36. Albuquerque, New Mexico: New Mexico Museum of Natural History and Science. pp. 57–65.
  17. Loewen, Mark A. (2003). "Morphology, taxonomy, and stratigraphy of Allosaurus from the Upper Jurassic Morrison Formation". Journal of Vertebrate Paleontology. 23 (3, Suppl): 72A.
  18. "Utah Symbols – State Fossil". Pioneer: Utah's Online Library, State of Utah. Archived from the original on 2010-06-17. Retrieved 2010-06-16.
  19. Glut, Donald F.; Brett-Surman, Michael K. 1997. "Dinosaurs and the media", in Farlow, James; and Brett-Surman, Michael K. (eds): The Complete Dinosaur. Bloomington and Indianapolis: Indiana University Press, 675–706. ISBN 0-253-33349-0
  20. Lambert, Dinosaur Data Book, p. 299.
  21. Return to the Valley, a documentary on the Region 1 Valley of Gwangi DVD.
  22. Benton, M.J. (2001). "The science of 'Walking with Dinosaurs'". Teaching Earth Sciences, 24: 371-400.