Tarchia

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Tarchia
Temporal range: Late Cretaceous, 75–70 Ma
A cast of specimen PIN 3142/250, the holotype of T. teresae.
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Ornithischia
Clade: Thyreophora
Clade: Ankylosauria
Family: Ankylosauridae
Subfamily: Ankylosaurinae
Genus: Tarchia
Maryanska, 1977
Type species
Tarchia kielanae
Maryanska, 1977
Other species
  • T. teresae
    Penkalski & Tumanova, 2016
  • T. tumanovae
    Park et al., 2021
Synonyms

Tarchia (meaning "brainy one") is a genus of herbivorous ankylosaurid dinosaur from the late Cretaceous of Mongolia.

Discovery and naming

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Barun Goyot Formation in Mongolia

In 1970, a Polish-Mongolian expedition discovered an ankylosaurian skull near Khulsan. In 1977, Teresa Maryańska named and described the type species Tarchia kielanae. The generic name is derived from Mongolian тархи (tarkhi, "brain") and Latin ~ia, in reference to a brain size presumed larger than that of the related form Saichania. The specific name honours Professor Zofia Kielan-Jaworowska, the leader of the expedition.

The holotype, ZPal MgD-I/111, was discovered in the Upper Cretaceous (possibly Campanian-Maastrichtian) Barun Goyot Formation (previously known as the 'Lower Nemegt Beds') of the Nemegt Basin of Mongolia. It consists of a skull roof, braincase and rear skull elements.[1] Maryańska referred three additional specimens: ZPAL MgDI/43, a large postcranial skeleton containing three "free" tail vertebrae, twelve tail vertebrae of the "handle" of the tail club and a scute; ZPAL MgDI/49, a right humerus; and PIN 3142/251, a skeleton with skull, that as yet remains undescribed.

Tarchia is the geologically youngest of all known Asian ankylosaurid dinosaurs. In 1977, Tatyana Tumanova named a second species: Tarchia gigantea. This was a renaming of Dyoplosaurus giganteus Maleev 1956, which had been based on specimen PIN 551/29.[2] In 1987, Tumanova concluded that both species were identical. This would make Dyoplosaurus giganteus the senior synonym of Tarchia kielanae.[3] This was generally accepted and Tarchia gigantea became the usual species name, as a combinatio nova replacing Tarchia kielanae. However, recent study by Victoria Megan Arbour indicates that D. giganteus is indistinguishable from other ankylosaurs from the late Campanian-Maastrichtian of Mongolia, and hence a nomen dubium; the study revived the name Tarchia kielanae.[4]

Skeletal diagram of T. tumanovae holotype

A rump with tail and club, specimen ZPAL MgD I/113, once referred to Dyoplosaurus giganteus and subsequently to Tarchia gigantea, was by Arbour seen as different from the D. giganteus holotype.[5] The study by Arbour also concluded that specimen PIN 3142/250, in 1977 referred to Tarchia by Tumanova, probably belonged to Saichania instead. This would radically change the common image of Tarchia as this exemplar had been by far the best preserved and most illustrations, museum mounts and indeed scientific research had been based on it. Arbour discovered that the holotype of Tarchia shared distinguishing traits with that of Minotaurasaurus Miles & Miles 2009, concluding that the latter is a junior synonym of Tarchia.[6]

Subsequently, in 2016, a study conducted by Paul Penkalski and Tatiana Tumanova indicated that PIN 3142/250 is not referable to Saichania due to significant anatomical differences, but instead represents a new species of Tarchia, T. teresae. The study also recognized Minotaurasaurus as a distinct genus.[7] In 2021, Jin-Young Park and team named a new species of Tarchia, T. tumanovae, known from the holotype MPC-D 100/1353 which consists of a partial skeleton with associated skull. It was found in the Nemegt Formation at the Hermiin Tsav locality, making it coeval with T. teresae.[8]

Description

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Tarchia was a medium-sized ankylosaur, measuring around 5.5–6 metres (18–20 ft) long and weighing up to 2.5–3 metric tons (2.8–3.3 short tons).[9][10] If ZPAL MgD I/113 indeed belongs to the genus, it would have belonged to an individual measuring 5.8–6.7 metres (19–22 ft) long.[11]

As an ankylosaurid, Tarchia would have had a broad, low-slung body, positioned on strong short legs. The body would have been protected by skin ossifications, named osteoderms. It probably had a bony tail club, for active defence against predators.

Tarchia had previously been distinguished from Saichania on the basis of its relatively larger basicranium, an unfused paroccipital process-quadrate contact and, based on PIN 3142/250, the fact that the premaxillary rostrum is wider than the maximum distance between the tooth rows in the maxillaries. In 2014, Arbour reported two distinguishing traits apart from those known exclusively from the holotype of Minotaurasaurus; the back of the head is visible in top view; and a deep groove runs along the front and outer side of the squamosal horn, and at the front it surrounds around an accessory osteoderm placed on the rear supraorbital, forming a deep furrow.[4]

T. teresae skull
T. tumanovae skull

The 2016 redescription of Tarchia notes that it differs from Saichania in having a postorbital fossa (which separates the squamosal horn from the supraorbital) and an accessory osteoderm; the occiput being visible in dorsal view; the large, deep braincase; the foramen magnum being higher than it is wide; and the nuchal osteoderms being taller laterally than medially. In addition, it differs from both Saichania and Minotaurasaurus in that it lacks postocular caputegulae (or small, polygonal bony plates behind the orbit) and has a proportionally high occiput in caudal view.[7] The study additionally found that PIN 3142/250 (i.e. T. teresae) can be distinguished from T. kielanae in that the accessory osteoderm is not fused to the roof of the skull, the quadrate and paroccipital process are not fused, the back of the skull roof is strongly sculptured, and the openings for the fourth to twelfth cranial nerves is bifurcated.[7]

Much information given about Tarchia in older work refers to PIN 3142/250 (which was briefly referred to Saichania until it was named as T. teresae in 2016). In 2001, it was stated that, in Tarchia, wear facets indicative of tooth-to-tooth occlusion are present;[12] this likely does not refer to the holotype specimen, since in the holotype no teeth are preserved.

Phylogeny

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Vickaryous et al. in 2004 stated that Tarchia was basal to two distinct clades of Late Cretaceous ankylosaurids: one comprising North American taxa (Ankylosaurus, Euoplocephalus) and the other comprising Asian taxa (Pinacosaurus spp., Saichania, Tianzhenosaurus, Talarurus).[13] However, this was again based on PIN 3142/250, the characters of which usually defined the operational taxonomic unit named Tarchia in the various cladistic analyses. Remarkably, Tarchia and Saichania nevertheless in these analyses often occupied very different positions.

The following cladogram is based on a 2015 phylogenetic analysis of the Ankylosaurinae conducted by Arbour and Currie:[14]

Ankylosaurinae

A limited phylogenetic analysis conducted in the 2016 redescription of Tarchia, focusing on the interrelationships between Tarchia, Saichania, and Minotaurasaurus, is reproduced below.[7]

Palaeobiology

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The rocks in which Tarchia fossils were found likely represent eolian dunes and interdune environments, with small intermittent lakes and seasonal streams.[8]

Feeding

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Tarchia was, like other Mongolian ankylosaurines, herbivorous and a low-level bulk feeder based on its sub-rectangular broad muzzle.[8] Instead of oral processing, ankylosaurids living in dry environments such as Tarchia may have relied more on hindgut fermentation for digestion or, alternatively, consumed succulent plants that did not require complex chewing. These ankylosaurids may have also been restricted to simple orthal pulping and might have had to deal with more grit during feeding compared to ankylosaurs that lived in tropical to subtropical climates, as indicated by the microwear pits.[15] Park et al. (2021) suggested that there was a shift from bulk feeding to selective feeding in Mongolian ankylosaurines during the Campanian and Maastrichtian stages which may have either been caused by the change in habitat, as the climate changed from semi-arid and arid to humid, or interspecific competition with saurolophine hadrosaurids that immigrated from North America to Central Asia during the Campanian stage.[8]

Pathology

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One skull of Tarchia shows tooth marks identified as belonging to the tyrannosaurid, Tarbosaurus, indicating the theropod hunted the ankylosaurid.[16][17]

See also

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References

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  1. ^ Maryańska, T. 1977. "Ankylosauridae (Dinosauria) from Mongolia". Palaeontologia Polonica 37: 85-151
  2. ^ Tumanova, T. A. 1977. "New data on the ankylosaur Tarchia gigantea", Paleontological Journal 11: 480-486
  3. ^ T.A. Tumanova, 1987, Pantsirnyye dinozavry Mongolii, Trudy Sovmestnaya Sovetsko-Mongol'skaya Paleontologicheskaya Ekspeditsiya 32, 80 pp
  4. ^ a b Arbour, Victoria Megan, 2014. Systematics, evolution, and biogeography of the ankylosaurid dinosaurs. Ph.D thesis, University of Alberta. https://era.library.ualberta.ca/public/.../Arbour_Victoria_Spring2014.pdf[permanent dead link]
  5. ^ Victoria M. Arbour, Nicolai L. Lech-Hernes, Tom E. Guldberg, Jørn H. Hurum, and Philip J. Currie, 2013, "An ankylosaurid dinosaur from Mongolia with in situ armour and keratinous scale impressions", Acta Palaeontologica Polonica 58(1): 55-64
  6. ^ Victoria M. Arbour, Philip J. Currie and Demchig Badamgarav, 2014, "The ankylosaurid dinosaurs of the Upper Cretaceous Baruungoyot and Nemegt formations of Mongolia", Zoological Journal of the Linnean Society 172(3): 631–652
  7. ^ a b c d Paul Penkalski; Tatiana Tumanova (2016). "The cranial morphology and taxonomic status of Tarchia (Dinosauria: Ankylosauridae) from the Upper Cretaceous of Mongolia". Cretaceous Research. 70: 117–127. doi:10.1016/j.cretres.2016.10.004.
  8. ^ a b c d Park JY, Lee YN, Kobayashi Y, Jacobs LL, Barsbold R, Lee HJ, Kim N, Song KY, Polcyn MJ (2021). "A new ankylosaurid from the Upper Cretaceous Nemegt Formation of Mongolia and implications for paleoecology of armoured dinosaurs". Scientific Reports. 11 (1): Article number 22928. Bibcode:2021NatSR..1122928P. doi:10.1038/s41598-021-02273-4. PMC 8616956. PMID 34824329.
  9. ^ Paul, Gregory S. (2016). The Princeton Field Guide to Dinosaurs. Princeton University Press. p. 261. ISBN 978-1-78684-190-2. OCLC 985402380.
  10. ^ Paul, Gregory S. (2024). The Princeton Field Guide to Dinosaurs (3rd ed.). Princeton, New Jersey: Princeton University Press. p. 284. ISBN 9780691231570.
  11. ^ Arbour, V.M.; Mallon, J.C. (2017). "Unusual cranial and postcranial anatomy in the archetypal ankylosaur Ankylosaurus magniventris". FACETS. 2 (2): 764–794. doi:10.1139/facets-2017-0063.
  12. ^ Barrett, P.M. 2001. "Tooth wear and possible jaw action in Scelidosaurus harrisonii and a review of feeding mechanisms in other thyreophoran dinosaurs", in Carpenter, K. (ed.) The Armored Dinosaurs. Indiana University Press, Bloomington. pp. 25–52
  13. ^ Vickaryous, Maryańska, and Weishampel, 2004, Chapter Seventeen: "Ankylosauria", in: The Dinosauria (2nd edition), Weishampel, D. B., Dodson, P., and Osmólska, H., editors. University of California Press.
  14. ^ Arbour, V. M.; Currie, P. J. (2015). "Systematics, phylogeny and palaeobiogeography of the ankylosaurid dinosaurs". Journal of Systematic Palaeontology. 14 (5): 1–60. Bibcode:2016JSPal..14..385A. doi:10.1080/14772019.2015.1059985. S2CID 214625754.
  15. ^ Ősi, Attila; Prondvai, Edina; Mallon, Jordan; Bodor, Emese Réka (2016-07-20). "Diversity and convergences in the evolution of feeding adaptations in ankylosaurs (Dinosauria: Ornithischia)". Historical Biology. 29 (4): 539–570. doi:10.1080/08912963.2016.1208194. ISSN 0891-2963. S2CID 55372674.
  16. ^ Holtz, Jr., Thomas (2007). Dinosaurs: the most complete, up-to-date encyclopedia for dinosaur lovers of all ages. New York, New York: Random House, Inc. p. 241. ISBN 9780375824197.
  17. ^ Gallagher W.B., Tumanova T.A., Dodson P., Axel L., 1998, "CT scanning Asian ankylosaurs: paleopathology in a Tarchia skull", Journal of Vertebrate Paleontology 18: 44A-45A
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