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Ornithoscelida

October 16, 2023

Ornithoscelida (/ˌɔːrnɪθəˈsɛlɪdə/[1]) is a proposed clade that includes various major groupings of dinosaurs. An order Ornithoscelida was originally proposed by Thomas Henry Huxley but later abandoned in favor of Harry Govier Seeley's division of Dinosauria into Saurischia and Ornithischia. The term was revived in 2017 after a new cladistic analysis by Baron et al.

Ornithoscelidans
Temporal range:
Late TriassicPresent, 231.4–0 Ma
A Triceratops horridus mounted skeleton (top) and a male house sparrow (Passer domesticus, bottom).
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Ornithoscelida
Huxley, 1870
Subgroups

Huxley's concept Edit

Thomas Henry Huxley originally defined the term in an 1869 lecture as a group comprising two subgroups: the large and heavy-set Dinosauria and the newly discovered Compsognathus, which he placed in a new grouping Compsognatha.[2] The former were defined by their shorter cervical vertebrae, and the femur length exceeding tibia length, and the latter with longer cervical vertebrae, and the femur length shorter than tibia length. He noted that the characteristics of their bones showed many features akin to birds. The dinosaurs Huxley had divided into three families:

S. Williston (1878) included Compsognathus in Dinosauria and divided dinosaurs into Sauropoda and Ornithoscelida, the latter including taxa that would later be considered theropods and ornithischians.[3]

This classification quickly fell out of use, due to the dominant classification system by Harry Govier Seeley that grouped dinosaurs into two main branches: Saurischia and Ornithischia.[4]

Modern theory Edit

In the beginning of the twenty-first century, improved descriptions of the early ornithischians Heterodontosaurus and Lesothosaurus vastly increased the available information on the origins of the Ornithischia. In March 2017, a paper in the journal Nature by Matthew Baron, David Norman, and Paul Barrett, published an analysis in which the theropod dinosaurs — no longer containing the Herrerasauridae — were more closely related to ornithischian dinosaurs than to the Sauropodomorpha, the group to which the sauropod dinosaurs belong. Previous analyses had rather combined the Theropoda with the Sauropodomorpha into the Saurischia, to the exclusion of the Ornithischia. These groups had also been formally defined to reflect this. Using these standard definitions, the new results would have had the effect of bringing the Ornithischia within the Saurischia and indeed the Theropoda; and the Sauropodomorpha outside the Dinosauria. To avoid this, Baron and colleagues redefined all these groups. Proposing that the Ornithischia and Theropoda were sister groups also meant that a new name was needed for the clade combining them. For this clade, they brought back the name Ornithoscelida, defining it as "the least inclusive clade that includes Passer domesticus and Triceratops horridus." This means that this node-based clade consists of the last common ancestor of the extant theropod Passer and the ornithischian Triceratops; and all its descendants. Huxley's old name Ornithoscelida was chosen because its meaning, "bird legs", well fitted the hindlimb traits of the clade. The cladogram below shows the phylogeny from Baron et al. 2017:[5]

A follow-up study, presented by Parry, Baron and Vinther (2017), demonstrated how, if using the same dataset, the Ornithoscelida hypothesis can also be recovered using a range of different phylogenetic analysis methods, including Bayesian maximum-likelihood. The same study, when analysing a modified version of the original Baron et al. (2017) dataset, also found some support for the Phytodinosauria hypothesis when using certain types of analysis.[6]

The Ornithoscelida hypothesis has been challenged by a team of international researchers in November 2017, following a reworking of the original anatomical dataset from Baron et al. (2017). This reworking produced the traditional model, with Ornithischia and Saurischia recovered as sister-taxa. However, this traditional tree was only weakly supported and not statistically significantly different from the alternative Ornithoscelida hypothesis. With only minor adjustments made by Baron and colleagues in response, Ornithoscelida was found to be preferred over the traditional model once more.[7][8]

See also Edit

References Edit

  1. ^ Whitney, William Dwight (1897), The Century Dictionary: An Encyclopedic Lexicon of the English Language, vol. V, New York: The Century Co., p. 4158
  2. ^   Huxley, Thomas H. (1870). "On the Classification of the Dinosauria, with observations on the Dinosauria of the Trias". Quarterly Journal of the Geological Society of London. Vol. 26. pp. 32–51. doi:10.1144/gsl.jgs.1870.026.01-02.09 – via Wikisource.
  3. ^ Carrano, M.; Benson, R.; Sampson, Scott D. (2012). "The phylogeny of Tetanurae (Dinosauria: Theropoda)". Journal of Systematic Palaeontology. 10 (2): 211–300. doi:10.1080/14772019.2011.630927. S2CID 85354215.
  4. ^ Padian, Kevin (2017). "Palaeontology: Dividing the dinosaurs". Nature. 543 (7646): 494–495. Bibcode:2017Natur.543..494P. doi:10.1038/543494a. PMID 28332523.
  5. ^ Baron, Matthew G.; Norman, David B.; Barrett, Paul (2017). "A new hypothesis of dinosaur relationships and early dinosaur evolution" (PDF). Nature. 543 (7646): 501–506. Bibcode:2017Natur.543..501B. doi:10.1038/nature21700. PMID 28332513. S2CID 205254710.
  6. ^ Luke A. Parry; Matthew G. Baron; Jakob Vinther (2017). "Multiple optimality criteria support Ornithoscelida". Royal Society Open Science. 4 (10): 170833. Bibcode:2017RSOS....470833P. doi:10.1098/rsos.170833. PMC 5666269. PMID 29134086.
  7. ^ Max C. Langer; Martín D. Ezcurra; Oliver W. M. Rauhut; Michael J. Benton; Fabien Knoll; Blair W. McPhee; Fernando E. Novas; Diego Pol; Stephen L. Brusatte (2017). "Untangling the dinosaur family tree" (PDF). Nature. 551 (7678): E1–E3. Bibcode:2017Natur.551E...1L. doi:10.1038/nature24011. hdl:1983/d088dae2-c7fa-4d41-9fa2-aeebbfcd2fa3. PMID 29094688. S2CID 205260354.
  8. ^ Matthew G. Baron; David B. Norman; Paul M. Barrett (2017). "Baron et al. reply". Nature. 551 (7678): E4–E5. Bibcode:2017Natur.551E...4B. doi:10.1038/nature24012. PMID 29094705. S2CID 205260360.

October 16, 2023
ornithoscelida, ɔː, proposed, clade, that, includes, various, major, groupings, dinosaurs, order, originally, proposed, thomas, henry, huxley, later, abandoned, favor, harry, govier, seeley, division, dinosauria, into, saurischia, ornithischia, term, revived, . Ornithoscelida ˌ ɔː r n ɪ 8 e ˈ s ɛ l ɪ d e 1 is a proposed clade that includes various major groupings of dinosaurs An order Ornithoscelida was originally proposed by Thomas Henry Huxley but later abandoned in favor of Harry Govier Seeley s division of Dinosauria into Saurischia and Ornithischia The term was revived in 2017 after a new cladistic analysis by Baron et al OrnithoscelidansTemporal range Late Triassic Present 231 4 0 Ma PreꞒ Ꞓ O S D C P T J K Pg NA Triceratops horridus mounted skeleton top and a male house sparrow Passer domesticus bottom Scientific classificationDomain EukaryotaKingdom AnimaliaPhylum ChordataClade DinosauriaClade OrnithoscelidaHuxley 1870Subgroups Ornithischia Theropoda Contents 1 Huxley s concept 2 Modern theory 3 See also 4 ReferencesHuxley s concept EditThomas Henry Huxley originally defined the term in an 1869 lecture as a group comprising two subgroups the large and heavy set Dinosauria and the newly discovered Compsognathus which he placed in a new grouping Compsognatha 2 The former were defined by their shorter cervical vertebrae and the femur length exceeding tibia length and the latter with longer cervical vertebrae and the femur length shorter than tibia length He noted that the characteristics of their bones showed many features akin to birds The dinosaurs Huxley had divided into three families Megalosauridae Teratosaurus Palaeosaurus Megalosaurus Poekilopleuron Laelaps and Euskelosaurus tentatively Scelidosauridae Thecodontosaurus Scelidosaurus Hylaeosaurus Polacanthus tentatively and Acanthopholis Iguanodontidae Cetiosaurus Iguanodon Hypsilophodon Hadrosaurus and Stenopelix tentatively S Williston 1878 included Compsognathus in Dinosauria and divided dinosaurs into Sauropoda and Ornithoscelida the latter including taxa that would later be considered theropods and ornithischians 3 This classification quickly fell out of use due to the dominant classification system by Harry Govier Seeley that grouped dinosaurs into two main branches Saurischia and Ornithischia 4 Modern theory EditIn the beginning of the twenty first century improved descriptions of the early ornithischians Heterodontosaurus and Lesothosaurus vastly increased the available information on the origins of the Ornithischia In March 2017 a paper in the journal Nature by Matthew Baron David Norman and Paul Barrett published an analysis in which the theropod dinosaurs no longer containing the Herrerasauridae were more closely related to ornithischian dinosaurs than to the Sauropodomorpha the group to which the sauropod dinosaurs belong Previous analyses had rather combined the Theropoda with the Sauropodomorpha into the Saurischia to the exclusion of the Ornithischia These groups had also been formally defined to reflect this Using these standard definitions the new results would have had the effect of bringing the Ornithischia within the Saurischia and indeed the Theropoda and the Sauropodomorpha outside the Dinosauria To avoid this Baron and colleagues redefined all these groups Proposing that the Ornithischia and Theropoda were sister groups also meant that a new name was needed for the clade combining them For this clade they brought back the name Ornithoscelida defining it as the least inclusive clade that includes Passer domesticus and Triceratops horridus This means that this node based clade consists of the last common ancestor of the extant theropod Passer and the ornithischian Triceratops and all its descendants Huxley s old name Ornithoscelida was chosen because its meaning bird legs well fitted the hindlimb traits of the clade The cladogram below shows the phylogeny from Baron et al 2017 5 Dinosauromorpha Marasuchus nbsp unnamed Silesauridae nbsp Dinosauria Saurischia Herrerasauridae nbsp Sauropodomorpha nbsp Ornithoscelida Ornithischia nbsp Theropoda nbsp A follow up study presented by Parry Baron and Vinther 2017 demonstrated how if using the same dataset the Ornithoscelida hypothesis can also be recovered using a range of different phylogenetic analysis methods including Bayesian maximum likelihood The same study when analysing a modified version of the original Baron et al 2017 dataset also found some support for the Phytodinosauria hypothesis when using certain types of analysis 6 The Ornithoscelida hypothesis has been challenged by a team of international researchers in November 2017 following a reworking of the original anatomical dataset from Baron et al 2017 This reworking produced the traditional model with Ornithischia and Saurischia recovered as sister taxa However this traditional tree was only weakly supported and not statistically significantly different from the alternative Ornithoscelida hypothesis With only minor adjustments made by Baron and colleagues in response Ornithoscelida was found to be preferred over the traditional model once more 7 8 See also EditPhytodinosauria SaurischiaReferences Edit Whitney William Dwight 1897 The Century Dictionary An Encyclopedic Lexicon of the English Language vol V New York The Century Co p 4158 nbsp Huxley Thomas H 1870 On the Classification of the Dinosauria with observations on the Dinosauria of the Trias Quarterly Journal of the Geological Society of London Vol 26 pp 32 51 doi 10 1144 gsl jgs 1870 026 01 02 09 via Wikisource Carrano M Benson R Sampson Scott D 2012 The phylogeny of Tetanurae Dinosauria Theropoda Journal of Systematic Palaeontology 10 2 211 300 doi 10 1080 14772019 2011 630927 S2CID 85354215 Padian Kevin 2017 Palaeontology Dividing the dinosaurs Nature 543 7646 494 495 Bibcode 2017Natur 543 494P doi 10 1038 543494a PMID 28332523 Baron Matthew G Norman David B Barrett Paul 2017 A new hypothesis of dinosaur relationships and early dinosaur evolution PDF Nature 543 7646 501 506 Bibcode 2017Natur 543 501B doi 10 1038 nature21700 PMID 28332513 S2CID 205254710 Luke A Parry Matthew G Baron Jakob Vinther 2017 Multiple optimality criteria support Ornithoscelida Royal Society Open Science 4 10 170833 Bibcode 2017RSOS 470833P doi 10 1098 rsos 170833 PMC 5666269 PMID 29134086 Max C Langer Martin D Ezcurra Oliver W M Rauhut Michael J Benton Fabien Knoll Blair W McPhee Fernando E Novas Diego Pol Stephen L Brusatte 2017 Untangling the dinosaur family tree PDF Nature 551 7678 E1 E3 Bibcode 2017Natur 551E 1L doi 10 1038 nature24011 hdl 1983 d088dae2 c7fa 4d41 9fa2 aeebbfcd2fa3 PMID 29094688 S2CID 205260354 Matthew G Baron David B Norman Paul M Barrett 2017 Baron et al reply Nature 551 7678 E4 E5 Bibcode 2017Natur 551E 4B doi 10 1038 nature24012 PMID 29094705 S2CID 205260360 Retrieved from https en wikipedia org w index php title Ornithoscelida amp oldid 1166275271, wikipedia, wiki, book, books, library,

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