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Yutyrannus

Yutyrannus
Temporal range: Early Cretaceous, ~125 Ma
Restored skeletons mounted in fighting poses
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Saurischia
Clade: Theropoda
Superfamily: Tyrannosauroidea
Family: Proceratosauridae
Genus: Yutyrannus
Xu et al., 2012
Species:
Y. huali
Binomial name
Yutyrannus huali
Xu et al., 2012

Yutyrannus (meaning "feathered tyrant") is a genus of proceratosaurid tyrannosauroid dinosaur which contains a single known species, Yutyrannus huali. This species lived during the early Cretaceous period in what is now northeastern China.[1] Three fossils of Yutyrannus huali — all found in the rock beds of Liaoning Province — are the largest-known dinosaur specimens that preserve direct evidence of feathers.[2]

Discovery and naming

Fossils on display

Yutyrannus huali was named and scientifically described in 2012 by Xu Xing et al. The name is derived from Mandarin Chinese (羽, "feather") and Latinised Greek tyrannos (τύραννος, "tyrant"), a reference to its classification as a feathered member of the Tyrannosauroidea. The specific name consists of the Mandarin huáli (华丽 simplified, 華麗 traditional, "beautiful"), in reference to the perceived beauty of the plumage.[1]

Yutyrannus is known from three nearly complete fossil specimens (an adult, a subadult and a juvenile) acquired from a fossil dealer who claimed all three had their provenance in a single quarry at Batu Yingzi in Liaoning Province, China. They were thus probably found in a layer of the Yixian Formation, dating from the Aptian, approximately 125 million years old.[1] The specimens had been cut into pieces about the size of bath mats, which could be carried by two people.[3]

The holotype, ZCDM V5000, is the largest specimen, consisting of a nearly complete skeleton with a skull, compressed on a slab, of an adult individual. The paratypes are the two other specimens: ZCDM V5001 consisting of a skeleton of a smaller individual and part of the same slab as the holotype; and ELDM V1001, a juvenile estimated to have been eight years younger than the holotype. The fossils are part of the collections of the Zhucheng Dinosaur Museum and the Erlianhaote Dinosaur Museum but have been prepared by the Institute of Vertebrate Paleontology and Paleoanthropology, under the guidance of Xu.[1]

Description

This diagram shows the current sizes of the existing Yutyrannus specimens (Labled on Image). The grid in the background is equal to 1 meter, with the largest specimen (ZCDM v5000) being just over 7 meters long, while the smallest specimen (ELDM v1001) is just over 4 meters long.
Size of three Yutyrannus specimens compared to a human

Yutyrannus was a large bipedal predator. The holotype and oldest-known specimen has an estimated length of 9 metres (29.5 ft) and an estimated weight of about 1,414 kilograms (3,117 lb).[1] In 2016, Gregory S. Paul gave lower estimations of 7.5 metres (24.6 ft) and 1.1 tonnes (1.2 short tons).[4] Its skull has an estimated length of 905 millimetres (35.6 in). The skulls of the paratypes are 80 centimetres (31 in) and 63 centimetres (25 in) long and their weights have been estimated at 596 kilograms (1,314 lb) and 493 kilograms (1,087 lb), respectively.[1]

The describers established some diagnostic traits of Yutyrannus, in which it differs from its direct relatives. The snout features a high midline crest, formed by the nasals and the premaxillae and which is covered by large pneumatic recesses. The postorbital bone has a small secondary process, jutting into the upper hind corner of the eye socket. The outer side of the main body of the postorbital is hollowed out. In the lower jaw, the external mandibular fenestra, the main opening in the outer side, is mainly located in the surangular.[1]

Feathers

Artist's restoration based on ELDM V1001

The described specimens of Yutyrannus contain direct evidence of feathers in the form of fossil imprints. The feathers were long, up to 20 centimetres (7.9 in), and filamentous. Because the quality of the preservation was low, it could not be established whether the filaments were simple or compound, broad or narrow. The feathers covered various parts of the body. With the holotype they were present on the pelvis and near the foot. Specimen ZCDM V5000 had feathers on the tail pointing backwards under an angle of 30 degrees with the tail axis. The smallest specimen showed 20-centimetre-long (7.9 in) filaments on the neck and 16-centimetre-long (6.3 in) feathers at the upper arm.[1] While it has been known since 2004, upon the description of Dilong, that at least some tyrannosauroids possessed filamentous "stage 1" feathers,[5] according to the feather typology of Richard Prum, Y. huali is currently the largest-known species of dinosaur with direct evidence of feathers, forty times heavier than the previous record holder, Beipiaosaurus.[1][6]

Tail fragment with feather traces

Based on the distribution of the feathers, they may have covered the whole body and served in regulating temperature, given the rather cold climate of the Yixian with an average annual temperature of 10 °C (50 °F). Alternatively, if they were restricted to the regions in which they were found, they may have served as display structures. In addition, the two adult specimens had distinctive, "wavy" crests on their snouts, on both sides of a high central crest, which were probably used for display. The presence of feathers on a large basal tyrannosauroid suggests the possibility that later tyrannosaurids were also feathered, even when adult, despite their size.[1] However, scaly skin impressions have been reported from various Late Cretaceous tyrannosaurids (such as Gorgosaurus, Tarbosaurus and Tyrannosaurus) on parts of the body where Yutyrannus was feathered. Since there is no positive evidence for plumage in tyrannosaurids, some researchers have suggested they may have evolved scales secondarily.[7] If scaly skin was the dominant epidermal trait of later genera, then the extent and nature of the integumentary covering may have changed over time in response to body size, a warmer climate, or other factors.[1]

It was considered possible that the integumentary structures of Yutyrannus might not represent true feathers and represent filamentous structures, being ancestral state to feathers.[8] However, this hypothesis is now considered overturned with subsequent research that verified that the structures on various dinosaurs and pterosaurs were true feathers.[1][6]

Classification

To date, all phylogenetic analyses of Yutyrannus relationships have classified it in the group Tyrannosauroidea. An initial analysis of its relationship to other tyrannosauroids showed that it was more primitive than Eotyrannus in the evolutionary tree, but more advanced than tyrannosauroids such as Dilong, Guanlong and Sinotyrannus. Primitive traits relative to advanced tyrannosaurs included long forelimbs with three fingers and a short foot which was not specialized for running. Advanced traits included a large and deep skull, the outer side of the premaxilla having rotated upwards, a large cuneiform horn on the lacrimal in front of the eye socket, a postorbital process on the back rim of the eye socket, the squamosal and the quadratojugal forming a large process on the back rim of the infratemporal fenestra, short dorsal vertebrae, an ilium with a straight upper rim and an appending lobe, a large pubic foot and a slender ischium.[1]

Close-up of snout

In 2016, a phylogenetic analysis conducted by Thomas Carr and Stephen Brusatte re-examined the evolutionary relationships of the Tyrannosauroidea. Their analysis found Yutyrannus to be more basal than Dilong, placing it within the family Proceratosauridae.[9] Their cladogram is shown below:

Proceratosauridae

Paleobiology

Ontogeny

Skull of the juvenile specimen ELDM V1001

The knowledge of specimens representing various different ages has allowed paleontologists to determine the ontogeny, or change during growth, of this species. During growth the lower legs, feet, ilia and forelimbs became relatively smaller. The skull, on the other hand, grew more robust and deeper.[1]

Feeding

According to a 2018 study, Yutyrannus had a simple hyoid structure, indicating it had a flat tongue, like a crocodile. Based on hyoid bone comparisons between living and extinct archosaurs, it was determined that all archosaurs would have had fixed tongues, with the exception of birds, pterosaurs and certain ornithischians.[10]

Social behavior

Illustration showing a pack of Yutyrannus hunting Dongbeititan

Because the three known individuals of Yutyrannus were allegedly found together, some paleontologists, including Xu Xing, have interpreted the animal as a pack hunter. Based on the presence of sauropod material in the quarry in which the three specimens were found, Xu has further speculated that Yutyrannus may have hunted sauropods, and that the three known individuals may have died while doing so.[11] In addition, other sauropod hunting theropods such as Mapusaurus are known to have exhibited pack hunting behaviour.[12] The true cause of their death, however, remains unknown.[11] If Yutyrannus did prey on sauropods, it would have been one of two predatory animals known from the Yixian formation capable of doing so, the other being an as-of-yet undescribed large theropod known from a tooth embedded in the rib of a Dongbeititan.[13]

Paleoenvironment

Because the locality of Yutyrannus is uncertain, it is unknown what fauna it coexisted with. Age estimates point towards Yutyrannus originating from the Lujiatun or the Jianshangou beds of the Yixian, meaning it would have been contemporaneous of such dinosaurs as Psittacosaurus, Dongbeititan, Sinosauropteryx, and Caudipteryx. Fish such as Lycoptera would also have been prevalent. Volcanic eruptions and forest fires appear to have been common in the Yixian, and the environment would have been littered with bodies of water and coniferous plants. The environment would have been comparable to the modern day temperate rainforests of British Columbia, and would have experienced significant seasonal changes in temperature.[14]

See also

References

  1. ^ a b c d e f g h i j k l m n Xu, X.; Wang, K.; Zhang, K.; Ma, Q.; Xing, L.; Sullivan, C.; Hu, D.; Cheng, S.; Wang, S.; et al. (2012). "A gigantic feathered dinosaur from the Lower Cretaceous of China" (PDF). Nature. 484 (7392): 92–95. Bibcode:2012Natur.484...92X. doi:10.1038/nature10906. PMID 22481363. S2CID 29689629. Archived from the original (PDF) on 17 April 2012.
  2. ^ Wilford, John N (4 April 2012). "Bus-Size Dinosaurs, as Fuzzy as Chicks". The New York Times. Archived from the original on 24 March 2019. Retrieved 28 February 2017.
  3. ^ Zimmer, Carl (4 April 2012). "The One-Ton Turkey: Further Adventures in Slow-Cooked Science". Discover. The Loom. Archived from the original on 8 April 2012. Retrieved 7 April 2012. (with illustrations)
  4. ^ Paul, Gregory S. (2016). The Princeton Field Guide to Dinosaurs. Princeton University Press. p. 106. ISBN 978-1-78684-190-2. OCLC 985402380.
  5. ^ Naish, Darren (4 April 2012). "There are giant feathered tyrannosaurs now...right?". Scientific American. Tetrapod Zoology Blogs. Archived from the original on 7 April 2012. Retrieved 5 April 2012.
  6. ^ a b Welsh, Jennifer (5 April 2012). "Humongous fuzzy dinosaur unearthed in China". The Christian Science Monitor. Archived from the original on 6 April 2012. Retrieved 5 April 2012.
  7. ^ Switek, B. 2013. Palaeontology: The truth about T. rex. Archived 8 November 2020 at the Wayback Machine Nature News, 23 October 2013.
  8. ^ Chuong, Cheng-Ming; Wu, Ping; Zhang, Fu-Cheng; Xu, Xing; Yu, Minke; Widelitz, Randall B.; Jiang, Ting-Xin; Hou, Lianhai (15 August 2003). "Adaptation to the sky: Defining the feather with integument fossils from Mesozoic China and experimental evidence from molecular laboratories". Journal of Experimental Zoology B. 298 (1): 42–56. doi:10.1002/jez.b.25. ISSN 1552-5007. PMC 4381994. PMID 12949768.
  9. ^ Brusatte, S.L. and Carr, T.D. 2016. The phylogeny and evolutionary history of tyrannosauroid dinosaurs. Archived 17 April 2019 at the Wayback Machine Scientific Reports, 6(20252). doi:10.1038/srep20252
  10. ^ Li, Zhiheng; Zhou, Zhonghe; Clarke, Julia A. (2018). "Convergent evolution of a mobile bony tongue in flighted dinosaurs and pterosaurs". PLOS ONE. 13 (6): e0198078. Bibcode:2018PLoSO..1398078L. doi:10.1371/journal.pone.0198078. PMC 6010247. PMID 29924798.
  11. ^ a b Kerri Smith and Adam Levi (5 April 2012). "Nature podcast" (Podcast). Nature.
  12. ^ Coria, R. A.; Currie, P. J. (2006). "A new carcharodontosaurid (Dinosauria, Theropoda) from the Upper Cretaceous of Argentina". Geodiversitas. 28 (1): 71–118. CiteSeerX 10.1.1.624.2450. ISSN 1280-9659 – via ResearchGate.
  13. ^ Xing L., Bell, P.R., Currie, P.J., Shibata M., Tseng K. & Dong Z. (2012). "A sauropod rib with an embedded theropod tooth: direct evidence for feeding behaviour in the Jehol group, China." Lethaia, (advance online publication). doi:10.1111/j.1502-3931.2012.00310.x.
  14. ^ Zhou, Z (2006). "Evolutionary radiation of the Jehol Biota: chronological and ecological perspectives". Geological Journal. 41 (3–4): 377–393. doi:10.1002/gj.1045. S2CID 54590389.

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