From Wikipedia, the free encyclopedia
  (Redirected from Saurischian)
Jump to: navigation, search
Temporal range:
Late TriassicHolocene, 231.4–0Ma
Eoraptor Japan.jpg
Replica skeleton of an Eoraptor lunensis
Scientific classification e
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Order: Saurischia
Seeley, 1888

Harpagosauria Haeckel, 1866

Saurischia (/sɔːˈrɪskiə/ saw-RIS-kee-ə, from the Greek sauros (σαυρος) meaning 'lizard' and ischion (ισχιον) meaning 'hip joint')[1] is one of the two basic divisions of dinosaurs. In 1888, Harry Seeley classified dinosaurs into two orders, based on their hip structure,[2] though today most paleontologists classify Saurischia as an unranked clade rather than an order.[3] Saurischians ('lizard-hipped') are distinguished from the ornithischians ('bird-hipped') by retaining the ancestral configuration of bones in the hip.

Sauropod and theropod dinosaurs fall under the class Saurischia. Ornithischia (bird hipped dinosaurs) consists of Ceratopsians and dinosaurs such as Parasaurolophus and Corythosaurus.

All carnivorous dinosaurs (the theropods) are saurischians, as are one of the two primary lineages of herbivorous dinosaurs, the sauropodomorphs. At the end of the Cretaceous Period, all saurischians except the birds became extinct. This is referred to as the Cretaceous–Paleogene extinction event. Avians (modern birds), as direct descendants of one group of theropod dinosaurs,[4] are a sub-clade of saurischian dinosaurs in phylogenetic classification.


Saurischians are distinguished from ornithischians by their three-pronged pelvic structure, with the pubis pointed forward. The ornithischians' pelvis is arranged with the pubis rotated backward, parallel with the ischium, often also with a forward-pointing process, giving a four-pronged structure.

The saurischian hip structure led Seeley to name them "lizard-hipped" dinosaurs because they retained the ancestral hip anatomy also found in modern lizards. He termed ornithischians "bird-hipped" dinosaurs as they are superficially similar to that of birds, though he did not propose any specific relationship with birds.

However, as later study revealed, this "bird-hipped" arrangement actually evolved twice independently in dinosaurs, first in the ornithischians and then in the lineage of saurischians including true birds (Avialae). In this example of convergent evolution, birds developed hips oriented similar to the earlier ornithischian hip anatomy, in both cases possibly as an adaptation to a herbivorous or omnivorous diet.


Diagram of saurischian pelvic structure (left side).

In his paper naming the two groups, Seeley reviewed previous classification schemes put forth by other paleontologists to divide up the traditional Order Dinosauria. He preferred one that had been put forward by Othniel Charles Marsh in 1878, which divided dinosaurs into four Orders: Sauropoda, Theropoda, Ornithopoda, and Stegosauria (these names are still used today in much the same way to refer to suborders or clades within Saurischia and Ornithischia).[2]

Seeley, however, wanted to formulate a classification that would take into account a single primary difference between major dinosaurian groups based on a characteristic that also differentiated them from other reptiles. He found this in the configuration of the hip bones, and found that all four of Marsh's orders could be divided neatly into two major groups based on this feature. He placed the Stegosauria and Ornithopoda in the Ornithischia, and the Theropoda and Sauropoda in the Saurischia. Furthermore, Seeley used this major difference in the hip bones, along with many other noted differences between the two groups, to argue that "dinosaurs" were not a natural grouping at all, but rather two distinct orders that had arisen independently from more primitive archosaurs.[2] This concept that "dinosaur" was an outdated term for two distinct orders lasted many decades in the scientific and popular literature, and it was not until the 1960s that scientists began to again consider the possibility that saurischians and ornithischians were more closely related to each other than they were to other archosaurs.

Although his concept of a polyphyletic Dinosauria is no longer accepted by most paleontologists, Seeley's basic division of the two dinosaurian groups has stood the test of time, and has been supported by modern cladistic analysis of relationships among dinosaurs.[5] One alternate hypothesis challenging Seeley's classification was proposed by Robert T. Bakker in his 1986 book The Dinosaur Heresies. Bakker's classification separated the theropods into their own group and placed the two groups of herbivorous dinosaurs (the sauropodomorphs and ornithischians) together in a separate group he named the Phytodinosauria ('plant dinosaurs').[6] The Phytodinosauria hypothesis was based partly on the supposed link between ornithischians and prosauropods, and the idea that the former had evolved directly from the later, possibly by way of an enigmatic family that seemed to possess characters of both groups, the segnosaurs.[7] However, it was later found that segnosaurs were actually an unusual type of herbivorous theropod saurischians closely related to birds, and the Phytodinosauria hypothesis fell out of favor.


The following cladogram is adapted from Weishampel et al., 2004.[5]




 ? †Thecodontosauridae




 †Ceratosauria (incl. †Coelophysoidea)






Additionally, the genera Teyuwasu and Agnosphitys may represent early saurischians, or more primitive non-dinosaurs.


Main article: Theropoda

The most commonly known theropod, indeed the best known dinosaur, is arguably Tyrannosaurus, though other theropods like Allosaurus, Giganotosaurus and Velociraptor are also well known. However, the theropods were a widespread and diverse group. The theropods were with few exceptions bipedal and carnivorous, though some were semi aquatic piscivores, like Spinosaurus, Baryonyx and Suchomimus.[8] Other groups evolved more or less toothless beaks, being omnivores or herbivores, like the "ostrich dinosaur" family Ornithomimidae and the pot-bellied Therizinosauridae.[9][10]


  1. ^ OED
  2. ^ a b c Seeley, H.G. (1888). "On the classification of the fossil animals commonly named Dinosauria." Proceedings of the Royal Society of London, 43: 165-171.
  3. ^ Weishampel, D.B., Dodson, P., and Osmólska, H. (eds.). (2004). The Dinosauria. 2nd edition. University of California Press, Berkeley. 833 pp.
  4. ^ Padian, K. (2004). "Basal Avialae". In Weishampel, David B.; Dodson, Peter; & Osmólska, Halszka (eds.). The Dinosauria (Second ed.). Berkeley: University of California Press. pp. 210–231. ISBN 0-520-24209-2. 
  5. ^ a b Weishampel, David B.; Dodson, Peter; Osmólska, Halszka (eds.) (2004). The Dinosauria, Second Edition. University of California Press., 861 pp.
  6. ^ Bakker, R.T. (1986). The Dinosaur Heresies. New York: William Morrow. p. 203. ISBN 0-14-010055-5.
  7. ^ Paul, G.S. (1988). Predatory Dinosaurs of the World, a Complete Illustrated Guide. New York: Simon and Schuster. 464 p.
  8. ^ Amiot, R.; Buffetaut, E.; Lécuyer, C.; Wang, X.; Boudad, L.; Ding, Z.; Fourel, F.; Hutt, S.; Martineau, F.; Medeiros, A.; Mo, J.; Simon, L.; Suteethorn, V.; Sweetman, S.; Tong, H.; Zhang, F.; and Zhou, Z. (2010). "Oxygen isotope evidence for semi-aquatic habits among spinosaurid theropods". Geology 38 (2): 139–142. doi:10.1130/G30402.1. 
  9. ^ Barret, P.M. (1 March 2005). "The diet of ostrich dinosaurs (Theropoda: Ornithomimosauria)". Palaeontology 48 (2): 347–358. doi:10.1111/j.1475-4983.2005.00448.x. Retrieved 24 July 2013. 
  10. ^ Zanno, L. E.; Gillette, D. D.; Albright, L. B.; Titus, A. L. (15 July 2009). "A new North American therizinosaurid and the role of herbivory in 'predatory' dinosaur evolution". Proceedings of the Royal Society B: Biological Sciences 276 (1672): 3505–3511. doi:10.1098/rspb.2009.1029.