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Sinosaurus

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Sinosaurus
Temporal range: Early Jurassic, 201–196 Ma
Reconstructed skeleton at Museo delle Scienze of Trento, Italy
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Saurischia
Clade: Theropoda
Clade: Neotheropoda
Genus: Sinosaurus
Young, 1940
Type species
Sinosaurus triassicus
Young, 1940
Other species
  • ?S. sinensis
    (Hu, 1993)
Synonyms[1][2]

Sinosaurus (meaning "Chinese lizard") is an extinct genus of theropod dinosaur which lived during the Early Jurassic Period. It was a bipedal carnivore similar to Dilophosaurus, with proportionally large limbs to its slender body. Fossils of the animal were found at the Lufeng Formation, in the Yunnan Province of China.

Discovery and naming

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The composite term Sinosaurus comes from Sinae, the Latin word for the Chinese, and the Greek word sauros (σαυρος) meaning "lizard"; thus "Chinese lizard". The specific name, triassicus, refers to the Triassic, the period that the fossils were originally thought to date from. Sinosaurus was described and named by Chung Chien Young, who is known as the 'Father of Chinese Vertebrate Paleontology', in 1940.[3]

Maxilla of specimen ZLJT01

The holotype, IVPP V34, was found in the Lower Lufeng Formation, and consists of two maxillary (upper jaw) fragments, four maxillary teeth, and a lower jaw fragment with three teeth. The teeth are laterally compressed, and feature fine serrations both at their anterior and posterior edges. The teeth are also variable in size and are curved backwards. This material is too fragmentary to determine the length and weight of this dinosaur. Over the years, other fossils were referred to Sinosaurus, some of which were material that was shown to belong to two sauropodomorphs.[4][5] The fossils include postcrania,[6] with a sacrum with three preserved sacral vertebrae. The material assigned to "Sinosaurus postcrania" includes a mix of plateosaurid and melanorosaurid elements. All the material from the Red Beds block has now been reassigned to Jingshanosaurus.[7]

Frontal view of mounted skeleton cast.

KMV 8701 was originally discovered in 1987. The specimen was identified as a new species, and was named Dilophosaurus sinensis.[8] Then in 1994, during a field expedition, a more complete specimen was found, and was assigned to the same species. In 2003, Dong Zhiming studied the material of Sinosaurus triassicus, finding it to be quite similar to Dilophosaurus sinensis.[1] As Sinosaurus was named earlier, "Dilophosaurus" sinensis became its junior synonym. In 2013, a study by Currie et al., confirmed that D. sinensis was the same animal as S. triassicus[9] On the other hand, Wang et al. (2017) stated that it needs to be further investigated whether D. sinensis is indeed a junior synonym of S. triassicus, and noted that the two species are different at least in the anatomy of the premaxilla. The authors tentatively assigned D. sinensis to the genus Sinosaurus, but retained it as a species distinct from Sinosaurus triassicus.[10] Specimen KMV 8701 consists of a skull (measuring 525 mm), and is nearly complete. Dong claimed that animal was about 5.6 m (18 ft) long.[1] It has been assigned now to Sinosaurus, but the specimen still lacks sufficient description and preparation.[11]

Over the years, paleontologists referred additional specimens to D. sinensis which are now assigned to Sinosaurus. Dong (2003) referred specimen LDM-LCA10 which consists of a skull and an incomplete skeleton.[1] In 2012, Xing referred two individuals, ZLJ0003 which consists of a partial skull and an incomplete skeleton, and ZLJT01 which is a juvenile individual that consists of a premaxillary fragment, an incomplete maxilla, a maxillary fragment, a lacrimal, both frontals, both parietals, an incomplete braincase, an incomplete dentary, an atlantal intercentrum, two dorsal rib fragments, and a partial proximal caudal neural arch, to Sinosaurus.[11]

In 2012, a new specimen of Sinosaurus was described, and was found to represent a new species.[11] The species Shuangbaisaurus anlongbaoensis, discovered and named in 2017, has later been considered a synonym of Sinosaurus triassicus.[12] A complete skull with a preserved mandible and 11 cervical vertebrae was described for Sinosaurus in 2023, after it was discovered near the locality where the holotype was found. The specimen also suggests three autapomorphies are unique to this theropod, all regarding crest development and the various fenestrae of the skull.[13]

Description

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Sinosaurus was a relatively large theropod during the Early Jurassic. With the use of virtual skeletal mount, Liang et al. (2024) estimated that Sinosaurus was a large theropod around 5.85 metres (19.2 ft) long with a maximum body mass of 895 kilograms (1,973 lb). The authors suggested that since the phylogenetic analysis of Sinosaurus is not well understood, previous estimations based on extant scaling approaches derived from femur length and circumference are unreliable.[14]

Sinosaurus is the only "dilophosaurid" known from a complete braincase. Cryolophosaurus, Dilophosaurus, Zupaysaurus and Coelophysis kayentakatae are all known from partial braincases. Two partial braincases were found before 2012, and are probably mostly complete, except that large sections are obscured by sediments. In 2011, an exceptionally well-preserved braincase was found, only missing the frontal bones and orbitosphenoid.[11]

Classification

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Originally thought to be a coelophysoid related to Dilophosaurus and Cryolophosaurus, Oliver Rauhut in 2003 showed Sinosaurus to be a more advanced theropod, related to Cryolophosaurus and "Dilophosaurus" sinensis.[15] In 2013, in an unpublished work, Carano agreed that Sinosaurus is a theropod.[16] Sinosaurus has been considered a nomen dubium in a few works,[8][17][18] although now that "Dilophosaurus" sinensis is referred to it, it is considered valid.[1][2]

Dilophosaurus sinensis was shown to be a junior synonym of Sinosaurus in 2003.[1] It is possibly closer to the Antarctic theropod Cryolophosaurus, based on the fact that the anterior end of the jugal does not participate in the internal antorbital fenestra and that the maxillary tooth row is completely in front of the eye socket. D. sinensis was exhibited in 1998 at Dinofest in Philadelphia.[19] Although the skull of D. sinensis sports large nasolacrimal crests superficially like those reconstructed in D. wetherilli, features elsewhere in the skeleton suggest it is closer to tetanuran theropods.[7] Rauhut (2003) regarded D. sinensis as a basal tetanuran most closely related to Sinosaurus and Cryolophosaurus.[15] Lamanna et al. (1998b) examined the material ascribed to D. sinensis and found it to be synonymous with Sinosaurus triassicus.[20] This cladistic finding was confirmed in 2003 by Dong.[1][2][9]

Skull showing notch.

The Lufeng Dinosaurian Museum discovered a new specimen of Sinosaurus (ZLJT01) in 2007 from the Lufeng Basin. It consists of an incomplete skull and other postcranial fragments. Phylogenetic analysis of this specimen, demonstrates that Sinosaurus is a more derived theropod, and is not the most basal dilophosaurid, as held by Smith et al.[2] A cladogram was identified by Christophe Hendrickx and Octávio Mateus. It placed Sinosaurus and Cryolophosaurus in a polytomy at the base of Tetanurae.[21]

Theropoda

Recent studies placed Sinosaurus outside the Ceratosauria+Tetanurae clade,[22][23][24] while Wang et al. (2016) considered it the basalmost ceratosaur.[25][26]

Paleobiology

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Restoration showing dental abnormality based on ZLJT01.

Crest function

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Sinosaurus and Dilophosaurus both possess dual crests. However, it was found that the crests could not be used in combat.[11]

Feeding

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The skull of Sinosaurus has a deep notch between the premaxilla and maxilla. Dong (2003) proposed that the notch was used to house jaw muscles, giving Sinosaurus a powerful bite. Based on the estimated power of its jaws, Sinosaurus might have either been a carnivore or a scavenger. Dong suspected that the premaxilla was covered in a narrow, hooked beak, that was used to rip open skin and abdominal flesh. He also thought that the crest would have been used to hold open the abdominal cavity while feeding. Dong studied the feet of Sinosaurus as well, finding a resemblance with the feet of modern vultures. The feet of Sinosaurus were probably adapted to help it feed on large-bodied animals, such as prosauropods.[1] The body shape of Sinosaurus combined with its skull/body length ratio further suggests that Sinosaurus was a fast runner, and relied heavily on both its long front limbs and its jaws to take down its prey.[14]

Paleopathology

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A study by Xing et al. (2013) examined the effect of the traumatic loss of teeth on the dental alveolus (the socket in the jaw where the roots of teeth are held) in dinosaurs. Sinosaurus is the first dinosaur where remodeling of the alveolus in the jaw was observed.[2] The authors concluded that this finding "contributes to mounting evidence suggesting theropods were highly resilient to a broad spectrum of traumas and diseases."[2] The dental alveolus found on Sinosaurus is the first documented dental pathology found on a dinosaur.[11]

Paleoecology

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Provenance and occurrence

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Drawing of a Sinosaurus feeding on a Yunnanosaurus

The type specimen of Sinosaurus triassicus IVPP V34 was recovered in the Zhangjiawa Member of the Lufeng Formation, in Yunnan, China. These remains were discovered at the Dark Red Beds that were deposited during the Sinemurian stage of the Jurassic period, approximately 196-183 million years ago. Several other discoveries referred to Sinosaurus were made in the Zhangjiawa Member: specimens IVPP V97 (postcrania), IVPP V36 (teeth), IVPP 37 (teeth), IVPP V88 (ilium), IVPP V35 (teeth and postcranial bones), IVPP V100 and IVPP V48 (teeth and postcranial bones) discovered in 1938 by M. Bien & C.C. Young,[27] FMNH CUP 2001–2003 discovered by E. Oehler and Hu.[28] Specimens FMNH CUP 2097, FMNH CUP 2098, FMNH CUP 2004, FMNH CUP 2005 were discovered in 1948 by M. Bien & C.C. Young at Zhangjiawa Member, as well.[29] Sinosaurus sp. fossils have been found in the Zhenzhuchong Formation, and were previously thought to be a poposaur, although they might have only been from the equivalent Lufeng Formation.[30]

Specimen IVPP V504, referred to Sinosaurus, a maxilla with four teeth, was collected by Lee in the 1940s, in the Dull Purplish Beds of Shawan Member of the Lufeng Formation, that were deposited during the Hettangian stage of the Jurassic period, approximately 201-199 million years ago. Several other discoveries were made in the Shawan Member: parts of two skeletons attributed to Sinosaurus were discovered by Sou in 1956,[31] specimen IVPP V279 (tooth) was discovered by C.C. Young in 1938, in dark red clayish sandstone, and specimen IVPP V381 (several teeth) was discovered by C.C. Young, in blue mudstone.[27] The D. sinensis remains, KMV 8701, a nearly complete skeleton, now referred to Sinosaurus, were recovered in the Shawan Member of Lufeng Formation. This material was discovered in 1987 in the Dull Purplish Beds that were deposited during the Hettangian stage of the Early Jurassic, approximately 201-199 million years ago.

Fauna and habitat

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In the Lufeng Formation, Sinosaurus shared its paleoenvironment with therapsids like Morganucodon, Oligokyphus, and Bienotherium; archosaurs like Pachysuchus; diapsids like Strigosuchus; crocodylomorphs like Platyognathus and Microchampsa; the early mammal Hadrocodium; and other early reptiles.[32] Contemporary dinosaurs include indeterminate sauropods; the early thyreophorans Bienosaurus lufengensis and Tatisaurus oehleri; the supposed chimeric ornithopod "Dianchungosaurus lufengensis"; the prosauropods Gyposaurus sinensis, Lufengosaurus huenei, L. magnus, Jingshanosaurus xinwaiensis,[32] Kunmingosaurus wudingensis, Chinshakiangosaurus chunghoensis, Yunnanosaurus huangi, "Y." robustus, and an unnamed taxon; and the theropods Lukousaurus, Eshanosaurus, and Coelophysis sp.

Changpeipus footprints have been found in the Lufeng Formation.[11] In 2009, a study led by Li-Da Xing found that footprints from the Lufeng Formation were unique among ichnogenera, and named the footprints Changpeipus pareschequier. The study hypothesized that they were produced by a coelophysoid; there are many possible trackmakers, however, including both Sinosaurus and Coelophysis sp.[18]

References

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  1. ^ a b c d e f g h Dong, Z.M. (2003). "Contribution of New Dinosaur Materials from China to Dinosaurology" (PDF). Memoir of the Fukui Prefectural Dinosaur Museum. 2: 123–131.
  2. ^ a b c d e f Xing, L.D.; Bell, P.R.; Rothschild, B.M.; Ran, H.; Zhang, J.P.; Dong, Z.M.; Zhang, W.; Currie, P.J. (2013). "Tooth loss and alveolar remodeling in Sinosaurus triassicus (Dinosauria: Theropoda) from the Lower Jurassic strata of the Lufeng Basin, China". Chinese Science Bulletin. 58 (16): 1931–1935. Bibcode:2013ChSBu..58.1931X. doi:10.1007/s11434-013-5765-7. ISSN 1861-9541.
  3. ^ Chung-Chien, Young (1940). "Preliminary Notes on the Lufeng Vertebrate Fossils*: Young:-Lufeng Vertebrate Fossils". Bulletin of the Geological Society of China. 20 (3–4): 235–240. doi:10.1111/j.1755-6724.1940.mp203-4003.x.
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  5. ^ Young, C.C. (1951). "The Lufeng saurischian fauna in China". Palaeontologica Sinica (13): 1–96.
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  8. ^ a b Irmis, Randall (2004-12-22). "First Report of Megapnosaurus from China" (PDF). PaleoBios. 24 (3): 11–18. Archived from the original (PDF) on 2008-12-17.
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  21. ^ Hendrickx, C.; Mateus, O.V. (2014). Evans, Alistair Robert (ed.). "Torvosaurus gurneyi n. sp., the Largest Terrestrial Predator from Europe, and a Proposed Terminology of the Maxilla Anatomy in Nonavian Theropods". PLOS ONE. 9 (3): e88905. Bibcode:2014PLoSO...988905H. doi:10.1371/journal.pone.0088905. PMC 3943790. PMID 24598585.
  22. ^ Sorkin, Boris (2015). "A re-evaluation of several character states in non-coelurosaurian Tetanurae (Dinosauria: Theropoda) with implications for phylogeny of basal tetanurans". Journal of Vertebrate Paleontology.
  23. ^ Sasso, Cristiano Dal; Maganuco, Simone; Cau, Andrea (2018-12-19). "The oldest ceratosaurian (Dinosauria: Theropoda), from the Lower Jurassic of Italy, sheds light on the evolution of the three-fingered hand of birds". PeerJ. 6: e5976. doi:10.7717/peerj.5976. ISSN 2167-8359. PMC 6304160. PMID 30588396.
  24. ^ Rauhut, Oliver W. M.; Pol, Diego (2019-12-11). "Probable basal allosauroid from the early Middle Jurassic Cañadón Asfalto Formation of Argentina highlights phylogenetic uncertainty in tetanuran theropod dinosaurs". Scientific Reports. 9 (1): 18826. Bibcode:2019NatSR...918826R. doi:10.1038/s41598-019-53672-7. ISSN 2045-2322. PMC 6906444. PMID 31827108.
  25. ^ Wang, Shuo; Stiegler, Josef; Amiot, Romain; Wang, Xu; Du, Guo-hao; Clark, James M.; Xu, Xing (2017-01-09). "Extreme Ontogenetic Changes in a Ceratosaurian Theropod". Current Biology. 27 (1): 144–148. doi:10.1016/j.cub.2016.10.043. ISSN 0960-9822. PMID 28017609.
  26. ^ Baiano, Mattia A.; Coria, Rodolfo A.; Cau, Andrea (2020). "A new abelisauroid (Dinosauria: Theropoda) from the Huincul Formation (lower Upper Cretaceous, Neuquén Basin) of Patagonia, Argentina". Cretaceous Research. 110: 104408. Bibcode:2020CrRes.11004408B. doi:10.1016/j.cretres.2020.104408. S2CID 214118853.
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  28. ^ D. J. Simmons. 1965. The non-therapsid reptiles of the Lufeng Basin, Yunnan, China. Fieldiana: Geology 15(1):1–93
  29. ^ B. Patterson and E. C. Olson. 1961. A triconodont mammal from the Triassic of Yunnan. In G. Vandebroek (ed.), International Colloquium on the Evolution of Lower and Non Specialized Mammals. Koninklijke Vlaamse Academir voor Wetenschappen, Letteren en Schone Kunsten can Belgie 129–191
  30. ^ Xing, L.D.; Lockley, M.G.; Chen, W.; Gierlinski, G.D.; Li, J.J.; Persons IV, W.S.; Matsukawa, M.; Ye, Y.; Gingras, M.K.; Wang, C.W. (2013). "Two theropod track assemblages from the Jurassic of Chongqing, China, and the Jurassic Stratigraphy of Sichuan Basin" (PDF). Vertebrata PalAsiatica. 51 (2): 107–130. ISSN 1000-3118.
  31. ^ C.-C. Young. 1966. On a new locality of the Lufengosaurus of Yunnan. Vertebrata PalAsiatica 10(1):64–67
  32. ^ a b Y. Zhang, and Z. Yang. (1995). A new complete osteology of Prosauropoda in Lufeng Basin, Yunnan, China. Yunnan Publishing House of Science and Technology, Kunming, China 1–100. [Chinese]