Dicynodont

Dicynodont; Temporal range: Middle Permian to Late Triassic PreꞒ Ꞓ O S D C P T J K Pg N
	Skeleton of Diictodon
	Skeleton of Placerias
Scientific classification
Kingdom:	Animalia
Phylum:	Chordata
Clade:	Therapsida
Suborder:	†Anomodontia
Clade:	†Chainosauria
Clade:	†Dicynodontia; Owen, 1860
Clades & genera
	see "Taxonomy"

Dicynodontia is an extinct clade of anomodont therapsids. Dicynodonts were herbivorous animals with a pair of tusks, hence their name, which means 'two dog tooth'. Members of the group possessed a horny, typically toothless beak, unique amongst synapsids. Dicynodonts first appeared during the mid-Permian, and became dominant in the Late Permian, they were devastated by the end-Permian Extinction that wiped out most other therapsids, before rebounding during the Triassic, dying out towards the end of the period. They were the most successful and diverse of the non-mammalian therapsids, with over 70 genera known, varying from rat- to elephant-sized.

Characteristics[]

Dicynodont fossils

Diictodon life-sized model

The dicynodont skull is highly specialised, light but strong, with the synapsid temporal openings at the rear of the skull greatly enlarged to accommodate larger jaw muscles. The front of the skull and the lower jaw are generally narrow and, in all but a number of primitive forms, toothless. Instead, the front of the mouth is equipped with a horny beak, as in turtles and ceratopsian dinosaurs. Food was processed by the retraction of the lower jaw when the mouth closed, producing a powerful shearing action,^[2] which would have enabled dicynodonts to cope with tough plant material. Many genera also have a pair of tusks, which it is thought may have been an example of sexual dimorphism.^[3]^: 137 Several genera, such as Placerias that lacked true tusks instead bore tusk-like extensions on the side of the beak.^[3]^: 139

The body is short, strong and barrel-shaped, with strong limbs. In large genera (such as Dinodontosaurus) the hindlimbs were held erect, but the forelimbs bent at the elbow. Both the pectoral girdle and the ilium are large and strong. The tail is short.^{[citation needed]}

Endothermy and hair[]

Dicynodonts have long been suspected of being warm-blooded animals. Their bones are highly vascularised and possess Haversian canals, and their bodily proportions are conducive to heat preservation.^[4] In young specimens, the bones are so highly vascularised that they exhibit higher channel densities than most other therapsids.^[5] Yet, studies on Late Triassic dicynodont coprolites paradoxically showcase digestive patterns more typical of animals with slow metabolisms.^[6]

More recently, the discovery of hair remnants in Permian coprolites possibly vindicates the status of dicynodonts as endothermic animals. As these coprolites come from carnivorous species and digested dicynodont bones are abundant, it has been suggested that at least some of these hair remnants come from dicynodont prey.^[7]A new study using chemical analysis seemed to suggest that cynodonts and dicynodonts both developed warm blood independently before the Permian extinction. However, the development of warm-bloodedd^[8]

Feet[]

dicynodont tracks suggest that dicynodonts had fleshy pads on their feet.^[9]

History[]

An illustration of the skull of Dicynodon lacerticeps, first published in an 1845 description by Richard Owen

Dicynodonts have been known since the mid-1800s. The South African geologist Andrew Geddes Bain gave the first description of dicynodonts in 1845. At the time, Bain was a supervisor for the construction of military roads under the Corps of Royal Engineers and had found many reptilian fossils during his surveys of South Africa. Bain described these fossils in an 1845 letter published in Transactions of the Geological Society of London, calling them "bidentals" for their two prominent tusks.^[10] In that same year, the English paleontologist Richard Owen named two species of dicynodonts from South Africa: Dicynodon lacerticeps and Dicynodon bainii. Since Bain was preoccupied with the Corps of Royal Engineers, he wanted Owen to describe his fossils more extensively. Owen did not publish a description until 1876 in his Descriptive and Illustrated Catalogue of the Fossil Reptilia of South Africa in the Collection of the British Museum.^[11] By this time, many more dicynodonts had been described. In 1859, another important species called was named from South Africa. A year later, in 1860, Owen named the group Dicynodontia.^[12] In his Descriptive and Illustrated Catalogue, Owen honored Bain by erecting Bidentalia as a replacement name for his Dicynodontia.^[11] The name Bidentalia quickly fell out of use in the following years, replaced by popularity of Owen's Dicynodontia.^[13]

Evolutionary history[]

Dicynodonts first appeared during the Middle Permian in the Southern Hemisphere, with South Africa being the centre of their known diversity, and underwent a rapid evolutionary radiation, becoming globally distributed and amongst the most successful and abundant land vertebrates during the Late Permian.^[14]^[15] During this time, they included a large variety of ecotypes, including large, medium-sized, and small herbivores and short-limbed mole-like burrowers.^{[citation needed]}

Lisowicia, a giant dicynodont from Late Triassic Poland

Eodicynodon, a primitive dicynodont from the middle Permian of South Africa

Only four lineages are known to have survived the Great Dying; the first three represented with a single genus each: Myosaurus, Kombuisia, and Lystrosaurus, the latter being the most common and widespread herbivores of the Induan (earliest Triassic). None of these survived long into the Triassic. The fourth group was the Kannemeyeriiformes, the only dicynodonts who diversified during the Triassic.^[16] These stocky, pig- to ox-sized animals were the most abundant herbivores worldwide from the Olenekian to the Ladinian age. By the Carnian they had been supplanted by traversodont cynodonts and rhynchosaur reptiles. During the Norian (middle of the Late Triassic), perhaps due to increasing aridity, they drastically declined, and the role of large herbivores was taken over by sauropodomorph dinosaurs.^{[citation needed]}

Fossils of an Asian elephant-sized dicynodont Lisowicia bojani discovered in Poland indicate that dicynodonts survived at least until the late Norian or earliest Rhaetian (latest Triassic); this animal was also the largest known dicynodont species.^[17]^[18]

Six fragments of fossil bone discovered in Queensland, Australia, were interpreted as remains of a skull in 2003. This suggested to indicate that dicynodonts survived into the Cretaceous in southern Gondwana.^[19] The dicynodont affinity of these specimens was questioned (including a proposal that they belonged to a baurusuchian crocodyliform by Agnolin et al. in 2010),^[20] and in 2019 Knutsen and Oerlemans considered this fossil to be of Plio-Pleistocene age, and reinterpreted it as a fossil of a large mammal, probably a diprotodontid.^[21]

Fossil humerus of a giant Polish dicynodont (Lisowice)

With the decline and extinction of the kannemeyerids, there were to be no more dominant large synapsid herbivores until the middle Paleocene epoch (60 Ma) when mammals, distant descendants of cynodonts, began to diversify after the extinction of the non-avian dinosaurs.

Systematics[]

Taxonomy[]

Dicynodontia was originally named by the English paleontologist Richard Owen. It was erected as a family of the order Anomodontia and included the genera Dicynodon and . Other groups of Anomodontia included , which included Rhynchosaurus (now known to be an archosauromorph) and Cryptodontia, which included Oudenodon. Cryptodonts were distinguished from dicynodonts from their absence of tusks. Although it lacks tusks, Oudenodon is now classified as a dicynodont, and the name Cryptodontia is no longer used. Thomas Henry Huxley revised Owen's Dicynodontia as an order that included Dicynodon and Oudenodon.^[22] Dicynodontia was later ranked as a suborder or infraorder with the larger group Anomodontia, which is classified as an order. The ranking of Dicynodontia has varied in recent studies, with Ivakhnenko (2008) considering it a suborder, Ivanchnenko (2008) considering it an infraorder, and Kurkin (2010) considering it an order.^[23]

Many higher taxa, including infraorders and families, have been erected as a means of classifying the large number of dicynodont species. Cluver and King (1983) recognised several main groups within Dicynodontia, including Diictodontia, Endothiodontia, Eodicynodontia, Kingoriamorpha, Pristerodontia, and Venyukoviamorpha.^[24] Many families have been proposed, including Cistecephalidae, Diictodontidae, Dicynodontae, Emydopidae, Endothiodontidae, Kannemeyeriidae, Kingoriidae, Lystrosauridae, Myosauridae, , , and Robertiidae. However, with the rise of phylogenetics, most of these taxa are no longer considered valid. Kammerer and Angielczyk (2009) suggested that the problematic taxonomy and nomenclature of Dicynodontia and other groups results from the large number of conflicting studies and the tendency for invalid names to be mistakenly established.^[13]

Wadiasaurus

Kingoria, a small dicynodont from Africa's Upper Permian

Placerias

Moghreberia

Myosaurus

Current classification[]

Dicynodontia
- Colobodectes
- Eodicynodon
- Endothiodontia
  - Endothiodon
  - Lanthanostegus
  - Niassodon
- - Emyduranus?
  - Eurychororhinus?
  - Pristerodon
  - Synostocephalus?
- Therochelonia

Phylogeny[]

Below is a cladogram modified from Angielczyk and Rubidge (2010) showing the phylogenetic relationships of Dicynodontia:^[25]

Dicynodontia

Eodicynodon

Colobodectes

Lanthanostegus

Pylaecephalidae

	Robertia

	Diictodon

	Prosictodon

Chelydontops

Endothiodon

Pristerodon

Emydopoidea

Emydops

Myosaurus

Kingoriidae

	Dicynodontoides

	Kombuisia

Cistecephalidae

Cistecephalus

	Cistecephaloides

	Kawingasaurus

Pristerodontia

Interpresosaurus

Elph

Rhachiocephalus

Cryptodontidae

Oudenodon

	Tropidostoma

	Australobarbarus

Geikiidae

Odontocyclops

Idelesaurus

Aulacephalodon

	Geikia

	Pelanomodon

Dicynodontoidea

	Kannemeyeriiformes

	Vivaxosaurus

Below is a cladogram from Kammerer et al. (2013).^[26] The data matrix of Kammerer et al. (2013), a list of characteristics that was used in the analysis, was based on that of Kammerer et al. (2011), which followed a comprehensive taxonomic revision of Dicynodon.^[27] Because of this, many of the relationships found by Kammerer et al. (2013) are the same as those found by Kammerer et al. (2011). However, several taxa were added to the analysis, including Tiarajudens Eubrachiosaurus, Shaanbeikannemeyeria, Zambiasaurus and many "outgroup" taxa (positioned outside Anomodontia), while other taxa were re-coded. As in Kammerer et al. (2011), the interrelationships of non-kannemeyeriiform dicynodontoids are weakly supported and thus vary between the analyses.^[26]

1

Biseridens

	Anomocephalus

	Tiarajudens

Patranomodon

2

Suminia

	Otsheria

	Ulemica

3

	Galepus

	Galechirus

Galeops

4

"Eodicynodon" oelofseni

	Eodicynodon oosthuizeni

	Colobodectes

Lanthanostegus

Chelydontops

Endothiodon

Pristerodon

5

6

7

Diictodon

Eosimops

	Prosictodon

	Robertia

8

Emydops

9

10

	Dicynodontoides

	Kombuisia

Myosaurus

11

Cistecephalus

	Cistecephaloides

	Kawingasaurus

12

1 Anomodontia, 2 Venyukovioidea, 3 Chainosauria, 4 Dicynodontia, 5 Therochelonia, 6 Diictodontia, 7 Pylaecephalidae, 8 Emydopoidea, 9 Kistecephalia, 10 Kingoriidae, 11 Cistecephalidae, 12 Bidentalia

12

13

Keyseria

Daqingshanodon

14

Oudenodon

	Tropidostoma

	Australobarbarus

	Odontocyclops

	Idelesaurus

15

	Rhachiocephalus

	Kitchinganomodon

16

Syops

17

Aulacocephalodon

Pelanomodon

	Geikia elginensis

	Geikia locusticeps

18

Interpresosaurus

	Elph

	Katumbia

Gordonia

	Basilodon

	Sintocephalus

Dicynodon lacerticeps

"Dicynodon" huenei

	Delectosaurus

	Vivaxosaurus

Daptocephalus

	Dinanomodon

	Peramodon

Jimusaria

Turfanodon

19

Euptychognathus

Lystrosaurus murrayi

"Lystrosaurus" declivus

"Lystrosaurus" curvatus

"Lystrosaurus" maccaigi

"Lystrosaurus" hedini

	TSK 2

	Kwazulusaurus

20

12 Bidentalia, 13 Cryptodontia, 14 , 15 Rhachiocephalidae, 16 Geikiidae, 17 Geikiinae, 18 Dicynodontoidea, 19 Lystrosauridae, 20 Kannemeyeriiformes

20

Angonisaurus

21

	Tetragonias

	Vinceria

	Shansiodon

	Rhinodicynodon

Dinodontosaurus

Shaanbeikannemeyeria

	Kannemeyeria lophorhinus

	Kannemeyeria simocephalus

	Parakannemeyeria

	Xiyukannemeyeria

Dolichuranus

	Rechnisaurus

	Uralokannemeyeria

Rabidosaurus

Sinokannemeyeria

	Rhadiodromus

	Wadiasaurus

22

23

Zambiasaurus

	Moghreberia

	Placerias

24

Stahleckeria

	Eubrachiosaurus

	Sangusaurus

	Jachaleria

	Ischigualastia

20 Kannemeyeriiformes, 21 Shansiodontidae, 22 Stahleckeriidae, 23 Placeriinae, 24 Stahleckeriinae

References[]

^ Racki, Grzegorz; Lucas, Spencer G. (2018). "Timing of dicynodont extinction in light of an unusual Late Triassic Polish fauna and Cuvier's approach to extinction". Historical Biology. 32 (4): 1–11. doi:10.1080/08912963.2018.1499734. S2CID 91926999.
^ Crompton, A. W.; Hotton, N. (1967). "Functional morphology of the masticatory apparatus of two dicynodonts (Reptilia, Therapsida)". Postilla. 109: 1–51.
^ Jump up to: ^a ^b Colbert, E. H., (1969), Evolution of the Vertebrates, John Wiley & Sons Inc (2nd ed.)
^ Bakker, Robert T. (April 1975). "Dinosaur renaissance". Scientific American. 232 (4): 58–79. Bibcode:1975SciAm.232d..58B. doi:10.1038/scientificamerican0475-58.
^ Botha-Brink, Jennifer; Angielczyk, Kenneth D. (2010). "Do extraordinarily high growth rates in Permo-Triassic dicynodonts (Therapsida, Anomodontia) explain their success before and after the end-Permian extinction?". Zoological Journal of the Linnean Society. 160 (2): 341–365. doi:10.1111/j.1096-3642.2009.00601.x.
^ Bajdek, Piotr; Owocki, Krzysztof; Niedźwiedzki, Grzegorz (2014). "Putative dicynodont coprolites from the Upper Triassic of Poland". Palaeogeography, Palaeoclimatology, Palaeoecology. 411: 1–17. Bibcode:2014PPP...411....1B. doi:10.1016/j.palaeo.2014.06.013.
^ Bajdek, Piotr; Qvarnström, Martin; Owocki, Krzysztof; Sulej, Tomasz; Sennikov, Andrey G.; Golubev, Valeriy K.; Niedźwiedzki, Grzegorz (2016). "Microbiota and food residues including possible evidence of pre-mammalian hair in Upper Permian coprolites from Russia". Lethaia. 49 (4): 455–477. doi:10.1111/let.12156.
^ Rey, Kévin; Amiot, Romain; Fourel, François; Abdala, Fernando; Fluteau, Frédéric; Jalil, Nour-Eddine; Liu, Jun; Rubidge, Bruce S.; Smith, Roger MH; Steyer, J. Sébastien; Viglietti, Pia A; Wang, Xu; Lécuyer, Christophe (2017). "Oxygen isotopes suggest elevated thermometabolism within multiple Permo-Triassic therapsid clades". eLife. 6: e28589. doi:10.7554/eLife.28589. PMC 5515572. PMID 28716184.
^ Citton, Paolo; Díaz-Martínez, Ignacio; de Valais, Silvina; Cónsole-Gonella, Carlos (7 August 2018). "Triassic pentadactyl tracks from the Los Menucos Group (Río Negro province, Patagonia Argentina): possible constraints on the autopodial posture of Gondwanan trackmakers". PeerJ. 6: e5358. doi:10.7717/peerj.5358. PMC 6086091. PMID 30123702.
^ Bain, A.G. (1845). "On the discovery of fossil remains of bidental and other reptiles in South Africa". Transactions of the Geological Society of London. 1: 53–59. doi:10.1144/GSL.JGS.1845.001.01.72. hdl:2027/uc1.c034667778. S2CID 128602890.
^ Jump up to: ^a ^b Owen, R. (1876). Descriptive and Illustrated Catalogue of the Fossil Reptilia of South Africa in the Collection of the British Museum. London: British Museum. p. 88.
^ Owen, R. (1860). "On the orders of fossil and recent Reptilia, and their distribution in time". Report of the Twenty-Ninth Meeting of the British Association for the Advancement of Science. 1859: 153–166.
^ Jump up to: ^a ^b Kammerer, C.F.; Angielczyk, K.D. (2009). "A proposed higher taxonomy of anomodont therapsids" (PDF). Zootaxa. 2018: 1–24.
^ Kurkin, A. A. (July 2011). "Permian anomodonts: Paleobiogeography and distribution of the group". Paleontological Journal. 45 (4): 432–444. doi:10.1134/S0031030111030075. ISSN 0031-0301. S2CID 129331000.
^ Olroyd, Savannah L.; Sidor, Christian A. (August 2017). "A review of the Guadalupian (middle Permian) global tetrapod fossil record". Earth-Science Reviews. 171: 583–597. Bibcode:2017ESRv..171..583O. doi:10.1016/j.earscirev.2017.07.001. ISSN 0012-8252.
^ Kammerer, Christian F.; Fröbisch, Jörg; Angielczyk, Kenneth D. (31 May 2013). "On the validity and phylogenetic position of Eubrachiosaurus browni, a kannemeyeriiform dicynodont (Anomodontia) from Triassic North America". PLOS ONE. 8 (5): e64203. Bibcode:2013PLoSO...864203K. doi:10.1371/journal.pone.0064203. PMC 3669350. PMID 23741307.
^ Tomasz Sulej; Grzegorz Niedźwiedzki (2019). "An elephant-sized Late Triassic synapsid with erect limbs". Science. 363 (6422): 78–80. Bibcode:2019Sci...363...78S. doi:10.1126/science.aal4853. PMID 30467179.
^ St. Fleur, Nicholas (4 January 2019). "An Elephant-Size Relative of Mammals That Grazed Alongside Dinosaurs". The New York Times. Retrieved 6 January 2019.
^ Thulborn, T.; Turner, S. (2003). "The last dicynodont: an Australian Cretaceous relict". Proceedings of the Royal Society B: Biological Sciences. 270 (1518): 985–993. doi:10.1098/rspb.2002.2296. JSTOR 3558635. PMC 1691326. PMID 12803915.
^ Agnolin, F. L.; Ezcurra, M. D.; Pais, D. F.; Salisbury, S. W. (2010). "A reappraisal of the Cretaceous non-avian dinosaur faunas from Australia and New Zealand: Evidence for their Gondwanan affinities" (PDF). Journal of Systematic Palaeontology. 8 (2): 257–300. doi:10.1080/14772011003594870. S2CID 130568551.
^ Espen M. Knutsen; Emma Oerlemans (2019). "The last dicynodont? Re-assessing the taxonomic and temporal relationships of a contentious Australian fossil". Gondwana Research. 77: 184–203. doi:10.1016/j.gr.2019.07.011.
^ Osborn, H.F. (1904). "Reclassification of the Reptilia". The American Naturalist. 38 (446): 93–115. doi:10.1086/278383. S2CID 84492986.
^ Kurkin, A.A. (2010). "Late Permian dicynodonts of Eastern Europe". Paleontological Journal. 44 (6): 72–80. doi:10.1134/S0031030110060092. S2CID 131459807.
^ Cluver, M.A.; King, G.M. (1983). "A reassessment of the relationships of Permian Dicynodontia (Reptilia, Therapsida) and a new classification of dicynodont". Annals of the South African Museum. 91: 195–273.
^ Kenneth D. Angielczyk; Bruce S. Rubidge (2010). "A new pylaecephalid dicynodont (Therapsida, Anomodontia) from the Tapinocephalus Assemblage Zone, Karoo Basin, Middle Permian of South Africa". Journal of Vertebrate Paleontology. 30 (5): 1396–1409. doi:10.1080/02724634.2010.501447. S2CID 129846697.
^ Jump up to: ^a ^b Kammerer, C. F.; Fröbisch, J. R.; Angielczyk, K. D. (2013). Farke, Andrew A (ed.). "On the Validity and Phylogenetic Position of Eubrachiosaurus browni, a Kannemeyeriiform Dicynodont (Anomodontia) from Triassic North America". PLOS ONE. 8 (5): e64203. Bibcode:2013PLoSO...864203K. doi:10.1371/journal.pone.0064203. PMC 3669350. PMID 23741307.
^ Kammerer, C.F.; Angielczyk, K.D.; Fröbisch, J. (2011). "A comprehensive taxonomic revision of Dicynodon (Therapsida, Anomodontia) and its implications for dicynodont phylogeny, biogeography, and biostratigraphy". Journal of Vertebrate Paleontology. 31 (Suppl. 1): 1–158. doi:10.1080/02724634.2011.627074. S2CID 84987497.

External links[]

Therapsida : Neotherapsida : Dicynodontia - Palaeos

[1] Racki, Grzegorz; Lucas, Spencer G. (2018). "Timing of dicynodont extinction in light of an unusual Late Triassic Polish fauna and Cuvier's approach to extinction". Historical Biology. 32 (4): 1–11. doi:10.1080/08912963.2018.1499734. S2CID 91926999.

[Crompton-2] Crompton, A. W.; Hotton, N. (1967). "Functional morphology of the masticatory apparatus of two dicynodonts (Reptilia, Therapsida)". Postilla. 109: 1–51.

[Colbert-3] Jump up to: ^a ^b Colbert, E. H., (1969), Evolution of the Vertebrates, John Wiley & Sons Inc (2nd ed.)

[4] Bakker, Robert T. (April 1975). "Dinosaur renaissance". Scientific American. 232 (4): 58–79. Bibcode:1975SciAm.232d..58B. doi:10.1038/scientificamerican0475-58.

[5] Botha-Brink, Jennifer; Angielczyk, Kenneth D. (2010). "Do extraordinarily high growth rates in Permo-Triassic dicynodonts (Therapsida, Anomodontia) explain their success before and after the end-Permian extinction?". Zoological Journal of the Linnean Society. 160 (2): 341–365. doi:10.1111/j.1096-3642.2009.00601.x.

[6] Bajdek, Piotr; Owocki, Krzysztof; Niedźwiedzki, Grzegorz (2014). "Putative dicynodont coprolites from the Upper Triassic of Poland". Palaeogeography, Palaeoclimatology, Palaeoecology. 411: 1–17. Bibcode:2014PPP...411....1B. doi:10.1016/j.palaeo.2014.06.013.

[7] Bajdek, Piotr; Qvarnström, Martin; Owocki, Krzysztof; Sulej, Tomasz; Sennikov, Andrey G.; Golubev, Valeriy K.; Niedźwiedzki, Grzegorz (2016). "Microbiota and food residues including possible evidence of pre-mammalian hair in Upper Permian coprolites from Russia". Lethaia. 49 (4): 455–477. doi:10.1111/let.12156.

[8] Rey, Kévin; Amiot, Romain; Fourel, François; Abdala, Fernando; Fluteau, Frédéric; Jalil, Nour-Eddine; Liu, Jun; Rubidge, Bruce S.; Smith, Roger MH; Steyer, J. Sébastien; Viglietti, Pia A; Wang, Xu; Lécuyer, Christophe (2017). "Oxygen isotopes suggest elevated thermometabolism within multiple Permo-Triassic therapsid clades". eLife. 6: e28589. doi:10.7554/eLife.28589. PMC 5515572. PMID 28716184.

[9] Citton, Paolo; Díaz-Martínez, Ignacio; de Valais, Silvina; Cónsole-Gonella, Carlos (7 August 2018). "Triassic pentadactyl tracks from the Los Menucos Group (Río Negro province, Patagonia Argentina): possible constraints on the autopodial posture of Gondwanan trackmakers". PeerJ. 6: e5358. doi:10.7717/peerj.5358. PMC 6086091. PMID 30123702.

[BAG45-10] Bain, A.G. (1845). "On the discovery of fossil remains of bidental and other reptiles in South Africa". Transactions of the Geological Society of London. 1: 53–59. doi:10.1144/GSL.JGS.1845.001.01.72. hdl:2027/uc1.c034667778. S2CID 128602890.

[OR76-11] Jump up to: ^a ^b Owen, R. (1876). Descriptive and Illustrated Catalogue of the Fossil Reptilia of South Africa in the Collection of the British Museum. London: British Museum. p. 88.

[OR60-12] Owen, R. (1860). "On the orders of fossil and recent Reptilia, and their distribution in time". Report of the Twenty-Ninth Meeting of the British Association for the Advancement of Science. 1859: 153–166.

[KA09-13] Jump up to: ^a ^b Kammerer, C.F.; Angielczyk, K.D. (2009). "A proposed higher taxonomy of anomodont therapsids" (PDF). Zootaxa. 2018: 1–24.

[14] Kurkin, A. A. (July 2011). "Permian anomodonts: Paleobiogeography and distribution of the group". Paleontological Journal. 45 (4): 432–444. doi:10.1134/S0031030111030075. ISSN 0031-0301. S2CID 129331000.

[15] Olroyd, Savannah L.; Sidor, Christian A. (August 2017). "A review of the Guadalupian (middle Permian) global tetrapod fossil record". Earth-Science Reviews. 171: 583–597. Bibcode:2017ESRv..171..583O. doi:10.1016/j.earscirev.2017.07.001. ISSN 0012-8252.

[16] Kammerer, Christian F.; Fröbisch, Jörg; Angielczyk, Kenneth D. (31 May 2013). "On the validity and phylogenetic position of Eubrachiosaurus browni, a kannemeyeriiform dicynodont (Anomodontia) from Triassic North America". PLOS ONE. 8 (5): e64203. Bibcode:2013PLoSO...864203K. doi:10.1371/journal.pone.0064203. PMC 3669350. PMID 23741307.

[17] Tomasz Sulej; Grzegorz Niedźwiedzki (2019). "An elephant-sized Late Triassic synapsid with erect limbs". Science. 363 (6422): 78–80. Bibcode:2019Sci...363...78S. doi:10.1126/science.aal4853. PMID 30467179.

[NYT-20190104-18] St. Fleur, Nicholas (4 January 2019). "An Elephant-Size Relative of Mammals That Grazed Alongside Dinosaurs". The New York Times. Retrieved 6 January 2019.

[Thulborn-19] Thulborn, T.; Turner, S. (2003). "The last dicynodont: an Australian Cretaceous relict". Proceedings of the Royal Society B: Biological Sciences. 270 (1518): 985–993. doi:10.1098/rspb.2002.2296. JSTOR 3558635. PMC 1691326. PMID 12803915.

[agnolinetal2010-20] Agnolin, F. L.; Ezcurra, M. D.; Pais, D. F.; Salisbury, S. W. (2010). "A reappraisal of the Cretaceous non-avian dinosaur faunas from Australia and New Zealand: Evidence for their Gondwanan affinities" (PDF). Journal of Systematic Palaeontology. 8 (2): 257–300. doi:10.1080/14772011003594870. S2CID 130568551.

[21] Espen M. Knutsen; Emma Oerlemans (2019). "The last dicynodont? Re-assessing the taxonomic and temporal relationships of a contentious Australian fossil". Gondwana Research. 77: 184–203. doi:10.1016/j.gr.2019.07.011.

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Dicynodont

Contents

Characteristics[]

Endothermy and hair[]

Feet[]

History[]

Evolutionary history[]

Systematics[]

Taxonomy[]

Current classification[]

Phylogeny[]

See also[]

References[]

Further reading[]

External links[]

Dicynodont Temporal range: Middle Permian to Late Triassic^[1] PreꞒ Ꞓ O S D C P T J K Pg N

Skeleton of Diictodon

Skeleton of Placerias
Scientific classification
Kingdom:	Animalia
Phylum:	Chordata
Clade:	Therapsida
Suborder:	†Anomodontia
Clade:	†Chainosauria
Clade:	†Dicynodontia Owen, 1860
Clades & genera
see "Taxonomy"