Timurlengia

Timurlengia
Temporal range: Late Cretaceous, 92–90 Ma
Restoration
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Saurischia
Clade: Theropoda
Genus: Timurlengia
Brusatte et al., 2016
Species:
T. euotica
Binomial name
Timurlengia euotica
Brusatte et al., 2016

Timurlengia is an extinct genus of tyrannosauroid theropod dinosaur found in Uzbekistan, in the Bissekty Formation in the Kyzylkum Desert, hailing from the Turonian age of the early Late Cretaceous. The type species is Timurlengia euotica.

Discovery

From 1944 onwards, tyrannosauroid fossil material consisting of single bones has been described from the Bissekty Formation by Soviet or Russian researchers.[1] In 2004 an international team discovered a braincase. The braincase was housed at the Zoological Institute of the Russian Academy of Sciences, where tyrannosaur expert Steve Brusatte identified it as a distinctive new species in 2014.[2]

In 2016, Stephen Louis Brusatte, Alexander Averianov, Hans-Dieter Sues, Amy Muir, and Ian B. Butler named and described the type species Timurlengia euotica. The genus is named after Timurleng, founder of the Timurid Empire in Central Asia. The specific name euotica is Greek for “well-eared”,[1] because detailed CAT-scans showed that Timurlengia had a well-developed inner ear for hearing low-frequency sounds.[2]

Tooth (left), cervical vertebra (middle), and cast of holotypic braincase (ZIN PH 1146/16, right), National Museum of Natural History

The species was based on the holotype, specimen ZIN PH 1146/16, consisting of the braincase. Other bones, not belonging to a single individual, and described in 2012,[3] were referred to the species. These included the specimens ZIN PH 854/16: the right half of a braincase; ZIN PH 676/16: a right maxilla; ZIN PH 2330/16: a left frontal bone; ZIN PH 2296/16: a left quadrate; ZIN PH 15/16: a piece of a right dentary; ZIN PH 1239/16: a right articular with angular; ZIN PH 671/16: an anterior cervical vertebra; USNM 538131: a posterior cervical vertebra; USNM 538132: the neural arch of anterior dorsal vertebra; CCMGE 432/12457: a mid-dorsal vertebra; ZIN PH 951/16: an anterior tail vertebra; ZIN PH 120/16: a mid-caudal vertebra; ZIN PH 507/16: a posterior caudal vertebra; ZINPH 619/16: a hand claw; and USNM 538167: a toe claw. These fossils were referred to a single tyrannosauroid taxon because no other tyrannosauroid is known from the Bissekty Formation.[1]

Description

Size comparison

The holotype specimen belonging to a subadult was about 3–4 m (9.8–13.1 ft) long and weighed 170–270 kg (370–600 lb).[1][4] ZIN PH 1239/16 represents a larger, adult individual.[1]

In 2016, several distinguishing traits were established, all pertaining to the holotype braincase. The supraoccipital bone has a diamond-shaped process pointing to below and not reaching the upper rim of the foramen magnum. The basioccipital has very short basal tubers, only attaining a third of the height of the occipital condyle. The oval window and the ear vestibule form a funnel-shaped recess and has a wide exit on the side wall of the braincase. The inner ear is large with prominent semicircular canals.[1]

Phylogeny

Timurlengia was placed in the Tyrannosauroidea, in a basal position, as a possible sister species of Xiongguanlong. Together they may represent a clade of long-snouted forms that might have been the sister group of the Tyrannosauridae.[1]

The genus is important in showing how earlier small tyrannosauroids evolved into the large Tyrannosauridae like Tyrannosaurus, typical of the Late Cretaceous period of Asia and North America. The species is not believed to be a direct ancestor of Tyrannosaurus.[5] Timurlengia lived ninety million years ago, in the middle-late Turonian age of the early Late Cretaceous, right before the rise of the advanced tyrannosaurids. There had been a twenty million year "tyrannosaur gap" in the fossil records of the tyrannosauroid timeline, between the small "marginal hunters" and the "apex predators" of the tyrannosaurid group. The discovery of Timurlengia has filled that gap.[1] Timurlengia reveals that tyrannosaurs had yet to achieve huge size at this time but had already evolved key brain and sensory features of the gigantic latest Cretaceous species. These features were originally thought to be unique to big tyrannosaurs, as they evolved into large animals.[6] Tyrannosaurs apparently developed huge size rapidly during the late Cretaceous, and their success in the top predator role may have been enabled by their brain and keen senses which first evolved at a smaller body size.[7] Timurlengia's small size indicates that tyrannosaurs only evolved their large size in the last twenty million years of their evolution.[8] It is unknown what precisely triggered the size increase.[1]

The braincase of Timurlengia shows that tyrannosaurs likely developed their advanced head first, as hypothesised by Hans-Dieter Sues, one of the fossil's describers. Timurlengia’s skull, though much smaller than that of Tyrannosaurus, shows a sophisticated brain that would have led to keen eyesight, smell and hearing. At the time tyrannosaurs were developing acute senses and cognitive abilities, other large meat-eating dinosaurs such as the Carnosauria were disappearing from the environment or dying out, creating a vacant niche, allowing tyrannosaurs to become apex predators.[5][9] The head of Timurlengia is far less pneumatised than that of the larger tyrannosaurids; the increased airspaces with the later forms might have been an adaptation to lighten the skull or to increase hearing ability.[1]

Classification

Below is the phylogenetic analysis on the placement of Timurlengia.[10]

Paleobiology

Timurlengia was likely a pursuit hunter with blade-like teeth for slicing through meat, based on its skeletal remains.[5] The robustness of the semicircular inner ear canals might be related to a greater agility. Timurlengia has a long cochlear duct, with the same height as the labyrinth, an adaptation to hearing low-frequency sounds. This might be an indication that the animal used low calls to communicate within the species.[1]

See also

References

  1. ^ a b c d e f g h i j k Stephen L. Brusatte, Alexander Averianov, Hans-Dieter Sues, Amy Muir and Ian B. Butler (2016). "New tyrannosaur from the mid-Cretaceous of Uzbekistan clarifies evolution of giant body sizes and advanced senses in tyrant dinosaurs". Proceedings of the National Academy of Sciences of the United States of America. 113 (13): 3447–3452. Bibcode:2016PNAS..113.3447B. doi:10.1073/pnas.1600140113. PMC 4822578. PMID 26976562.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  2. ^ a b Greshko, Michael (March 14, 2016). "'Missing Link' in Tyrannosaur Family Tree Discovered". National Geographic News. Archived from the original on March 14, 2016. Retrieved 2016-03-15.
  3. ^ Averianov, A.; Sues, H-D. (2012). "Skeletal remains of Tyrannosauroidea (Dinosauria: Theropoda) from the Bissekty Formation (Upper Cretaceous: Turonian) of Uzbekistan". Cretaceous Research. 34: 284–297. Bibcode:2012CrRes..34..284A. doi:10.1016/j.cretres.2011.11.009.
  4. ^ Tanaka K, Anvarov OU, Zelenitsky DK, Ahmedshaev AS, Kobayashi Y (2021). "A new carcharodontosaurian theropod dinosaur occupies apex predator niche in the early Late Cretaceous of Uzbekistan". Royal Society Open Science. 8 (9): Article ID 210923. Bibcode:2021RSOS....810923T. doi:10.1098/rsos.210923. PMC 8424376. PMID 34527277.
  5. ^ a b c "New horse-sized tyrannosaur with big brain reveals how "T. rex" became top predator". Smithsonian Science News -. 14 March 2016. Retrieved 2016-03-15.
  6. ^ Brusatte, Stephen. "New Tyrannosaur Species Reveals How the King of the Dinosaurs Won Its Crown". Scientific American. Retrieved 2016-03-15.
  7. ^ "Newly Discovered Dinosaur Helps Explain Rise Of Tyrannosaurs". NPR.org. Retrieved 2016-03-15.
  8. ^ "Newly discovered dinosaur reveals how T. rex became king of the Cretaceous". ScienceDaily.
  9. ^ Matt Atherton (14 March 2016). "Timurlengia euotica: Distant relative of T-rex shows how dinosaur became giant". International Business Times UK. Retrieved 27 March 2016.
  10. ^ Wolfe, D.G.; McDonald, A.T.; Kirkland, J.I.; Turner, A.H.; Smith, N.D.; Brusatte, S.L.; Loewen, M.A.; Denton, R.K.; Nesbitt, S.J. (6 May 2019). "A mid-Cretaceous tyrannosauroid and the origin of North American end-Cretaceous dinosaur assemblages" (PDF). Nature Ecology & Evolution. 3 (6): 892–899. Bibcode:2019NatEE...3..892N. doi:10.1038/s41559-019-0888-0. hdl:20.500.11820/a6709b34-e3ab-416e-a866-03ba1162b23d. PMID 31061476. S2CID 146115938.