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Chaohusaurus

August 29, 2023

Chaohusaurus is an extinct genus of basal ichthyopterygian, depending on definition possibly ichthyosaur, from the Early Triassic of Chaohu and Yuanan, China.

Chaohusaurus
Temporal range: Early Triassic, 251.3–247.2 Ma[1]
Specimen AGM CHS-5
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Superorder: Ichthyopterygia
Genus: Chaohusaurus
Young & Dong, 1972
Type species
Chaohusaurus geishanensis
Young & Dong, 1972
Species
  • C. geishanensis Young & Dong, 1972
  • C. chaoxianensis Chen, 1985
  • C. zhangjiawanensis Chen et al., 2013[2]
  • C. brevifemoralis Huang et al., 2019

Discovery Edit

 
Specimen AGM CH-628-22

The type species Chaohusaurus geishanensis was named and described by Yang Zhongjian and Dong Zhiming in 1972, based on a fossil found during the construction of a railway. The generic name refers to lake Chao Hu. The specific name refers to the Geishan location. The holotype, IVPP V 4001, was uncovered in a layer of the Majianshan Limestone Formation dating from the Anisian. It consists of a partial skeleton, containing the skull and the front torso.[3] In 1985 Chen Lizhu named two additional species based on fossils found in the same formation: Anhuisaurus chaoxianensis and Anhuisaurus faciles.[4] However, the generic name had already been preoccupied by the lizard Anhuisaurus Hou 1974. Therefore, Anhuisaurus Chen 1985 was in 1991 renamed into Chensaurus by Jean-Michel Mazin e.a.[5] In 1998, Ryosuke Motani and Hailu You established that the Chensaurus fossils represented remains of juveniles, with those of C. faciles being the youngest,[6] and that these formed a growth series with Chaohusaurus.[7] This implied that the known material of Chaohusaurus was increased with the specimens AGM P45-H85-25, the holotype of Chensaurus chaoxianensis; AGM P45-H85-20, the holotype of Chensaurus faciles; and the front flippers IVPP V 11361 and IVPP V 11362.[6] In 2001 a detailed description of the osteology of Chaohusaurus was published by Michael Maisch.[8]

In 2014, three additional specimens were reported: AGM I-1, AGM CHS-5, and AGM CH-628-22. AGM I-1 also contains the remains of three embryo's. The new finds are part of recent discoveries by a Chinese-Italian paleontological project of eighty Chaohusaurus fossils.[9]

In 2013, a second species was named and described by Chen Xiaohong e.a.: Chaohusaurus zhangjiawanensis. The specific name refers to its provenance near the village of Zhangjiawan. The holotype, WHGMR V26001, was uncovered in a layer of the Jialingjang Formation dating from the Spathian. It consists of a relatively complete skeleton with skull. A second skeleton lacking the skull, WHGMR V26002, was referred.[2]

In 2015, Ryosuke Motani and his colleagues reported a large adult forelimb specimen that resembles the immature specimens of C. chaoxianensis, and argued that C. chaoxianensis is not the juvenile of C. geishanensis and is indeed a valid species within the genus Chaohusaurus.[10]

Description Edit

 
C. geishanensis restoration

Chaohusaurus is a basal ichthyopterygian. It thus shows traits that are typical for the direct ancestors of ichthyosaurs. As a result, basal ichthyosaurs like Cymbospondylus and Mixosaurus are closer in build to Chaohusaurus while later genera like Ichthyosaurus have a more derived morphology. Chaohusaurus did not have the dolphin-like form of later ichthyosaurs; it had a more lizard-like appearance with an elongated body. These proportions were not caused by a large number of vertebrae, the total of presacrals being about forty, but by an elongated build of each individual vertebra. The head is short, in adults having about the third the length of the trunk, with a narrow pointed beak and large eye-sockets. Its teeth are conspicuously heterodont, differing in shape: those of the upper jaws are pointed though blunt; those of the rear lower jaws are bulbous with a convex profile, a possible adaptation to a durophagous diet, crushing shellfish. The neck is relatively long. Chaohusaurus did have flippers, rather than webbed feet. The tail fin is wide-based in side-view and short.[citation needed]

 
C. geishanensis with a human to scale.

Chaohusaurus is one of the smallest known ichthyopterygians, measuring about 0.7–1 m (2.3–3.3 ft) long and weighing 1.3–3.1 kg (2.9–6.8 lb).[11][12][13]

Being a basal ichthyopterygian, Chaohusaurus provides important information about the early evolution of the group. It shows that some typical ichthyosaurian traits were probably already part of the original ichthyoptergyian Bauplan. It furthermore has a mix of basal traits that were subsequently lost, early derived traits indicating the genus is not the basalmost ichthyopterygian known and some autapomorphies of its own.[citation needed]

An original ichthyopterygian trait is the fact that the skull roof is short and wide. The basisphenoid at the rear lower end of the braincase is not fused with the basioccipital, the lower bone of the rear skull. The parasphenoid at the front of the braincase has a long cultriform process. There is no separate ectopterygoid present. The lower jaw has a retroarticular process at its rear.[citation needed]

A conspicuous basal trait is the shortness of the head; in later forms it would be longer relative to the trunk. Also the snout is relatively short, only about twice as long as the part behind the eye-socket. The nasals do not reach further backwards than the eye-sockets. The suture between the nasal bone and the frontal is transversely oriented. From the prefrontal a flange overhangs the upper front edge of the eye-socket, perhaps to protect the eyes. The frontal is part of the top edge of the eye-socket and thus lacks a lateral buttress. The frontal is about as large as the parietal. In top view the rear edge of the skull roof is notched. The parietal eye (or at least the foramen parietale) is located between the parietals, not (partly) between the frontals as with later forms. The squamosal is a large element, as large as the quadratojugal with which it is firmly fused. The basisphenoid is narrow. The cultriform process of the parasphenoid at the rear gradually merges with the main body, not via a narrow waist as with later forms. The palate was not firmly attached to the basipterygoid, allowing the snout some vertical movement relative to the remainder of the skull. In most ichthyosaurs no such movement was possible. The opening between the pterygoids was narrow and slit-like, not wide. The pterygoids do not cover the rear underside of the braincase. The neck is relatively long. The tail is elongated, about as long as the head, neck and trunk combined. The vertebrae of the tail base are elongated also, about as long as they are tall. The longest tail spines are located rather to the front indicating that a possible tail fin must have been more horizontal than with later forms. The clavicles have a wide inner flange. The scapula is short, wider than long. The humerus still has a distinct head but not yet a dorsal trochanter. At its lower end, the humerus has a larger facet contacting the radius than contacting the ulna. The upper end of the ulna is narrower than the lower end, not equal in size to it. In general the bones of the lower arm, including the hand bones, are rather elongated, not transformed into discs. The ulna and radius still have a shaft as with land animals. In the wrist the pisiform is about as large as the ulnar carpal, not much smaller or absent. The fifth metacarpal has a convex rear edge and is longer than the fourth distal carpal. There are still five fingers present, without a reduction of the first finger. Polydactyly, an extra number of fingers, is thus lacking. Hyperphalangy, supernumerary phalanges, is likewise absent. The phalanx formula is 2-3-4-4-2. The upper phalanges are relatively elongated, longer than wide. The lower phalanges still show ossification below the cartilage perichondrium and have notches in their edges. The pubic bone is perforated by a foramen obturatum, which closed in side view and located some distance from the rear edge of the body. The hindfin is about as large as the forefin, not smaller. In the thighbone, the facet contacting the tibia is as large and as far reaching downwards as the facet contacting the fibula. Between the tibia and fibula still a space is present, and both bones, though flattened are relatively elongated with a clear shaft. The same is true for the metatarsals, that are cylinder-shaped. There are still five toes present, again rather elongated and hourglass-shaped.[citation needed]

 
Skeletal restoration of adult (A) and juvenile (B)

An early derived trait is the relative shortness of the spines of the tail. The humerus has a flange at the front edge but it is not secondarily reduced. The flange has a small notch. The fifth metatarsal is shortened and the first is even shorter. The fifth toe is shorter than the first toe.[citation needed]

In Chaohusaurus the width of basisphenoid is about 63% of its length. Chaohusaurus has a combination of more pointed and bulbous teeth, that was probably separately evolved.[citation needed]

The second species, Chaohusaurus zhangjiawanensis, has some distinguishing traits. The skull is rather flat. The trunk vertebrae have well-developed transversal processes. The prefrontal touches the postfrontal, excluding the frontal from the rim of the eye-socket, a derived trait. The calcaneum is larger. The first sacral rib has an expanded outer end. The second sacral rib has a tapered end.[2]

Classification Edit

Chaohusaurus was in the original description of 1972 assigned to the Omphalosauridae.[3] Both the 1999 phylogenetic analysis of Motani and the 2000 analysis of Maisch and Matzke found Chaohusaurus to by the sister taxon of Grippia, the two genera united in a group named Grippidia or Grippiidae. In Motani's study, Chaohusaurus was classified as a non-ichthyosaurian ichthyopterygian, while Maisch and Matzke, who used a more inclusive definition of Ichthyosauria, considered it to be a basal ichthyosaur.[14][15][16]

The cladogram below follows Maisch and Matzke, 2000.[16]

A cladistic analysis published by Chen and colleagues in the 2013 description of Chaohusaurus zhangjiawanensis did not find this taxon to be the sister species of Chaohusaurus geishanensis which was more closely related to Grippia. Even though this would make the genus paraphyletic, C. zhangjiawanensis was nevertheless placed in Chaohusaurus because of the morphological similarity to the type species. The authors did not place the genus in a family, instead listing it as incertae sedis.[2]

The analysis of Motani and colleagues in 2015 found Chaohusaurus to be basal to all other ichthyopterygians.[17][18] Subsequent analyses have also supported such a placement.[18][19][20] Ji and colleagues attributed this change in phylogenetic position to a greater understanding of Chaohusaurus anatomy and additional specimens.[19] While sometimes still classified within Ichthyopterygia, Moon noted that as this group was not redefined to account for this newer topology, Chaohusaurus technically falls outside of it.[18]

The cladogram below follows Huang and colleagues, 2019.[20]

Ichthyosauromorpha

Hupehsuchia

Ichthyosauriformes

Nasorostra

Chaohusaurus geishanensis

Chaohusaurus zhangjiawanensis

Chaohusaurus chaoxianensis

Chaohusaurus brevifemoralis

Ichthyopterygia

Reproduction Edit

 
Specimen AGM I-1 with three juveniles

One specimen among those reported in 2014, AGM I-1, also contained the remains of two embryos and one neonate. Chaohusaurus thus birthed its young viviparously in the water, like later ichthyosaurs. However, from the orientation of both the embryos inside the maternal body and the neonate that had already been giving birth to, it was clear that the young exited the birth canal head-first. This differs from the method used by most extant marine viviparous Amniota, which expel the young tail-first to prevent them from suffocating. Many younger ichthyosaur specimens had earlier been found showing embryos in both positions, leaving it undecided which was the normal one. Motani et alii (2014) concluded that, because Chaohusaurus is a very basal form, this provided strong evidence that, at least originally, ichthyopterygian young were born with the head first. This early method might have later been changed because it resulted in a too high mortality. They also cited this as evidence for a terrestrial evolution of viviparity in the land-dwelling ancestors of ichthyosaurs. AGM I-1 in 2014 represented the oldest reptile viviparous birth known.[9]

See also Edit

References Edit

  1. ^ "Chaohusaurus at Fossilworks". Paleobiology Database. Fossilworks. Retrieved 17 December 2021.
  2. ^ a b c d Xiaohong Chen; P. Martin Sander; Long Cheng; Xiaofeng Wang (2013). "A New Triassic Primitive Ichthyosaur from Yuanan, South China". Acta Geologica Sinica (English Edition). 87 (3): 672–677. doi:10.1111/1755-6724.12078.
  3. ^ a b Young, C.C.; Dong, Z. (1972). "[On the Triassic aquatic reptiles of China]". Memoirs of the Nanjing Institute of Geology and Paleontology. 9: 1–34.
  4. ^ Liezhu, Chen (1985). "[Ichthyosaurs from the lower Triassic of Chao County]". Anhui Regional Geology of China. 15: 139–146.
  5. ^ Mazin, J.-M.; Suteethorn, V.; Buffetaut, E.; Jaeger, J.-J.; Helmckeingavat, R. (1991). "Preliminary description of Thaisaurus chonglakmanii n. g., n. sp., a new ichthyopterygian (Reptilia) from the Early Triassic of Thailand". Comptes Rendus de l'Académie des Sciences, Série II. 313: 1207–1212.
  6. ^ a b Motani, R.; You, H. (1998). "The forefin of Chensaurus chaoxianensis (Ichthyosauria) shows delayed mesopodial ossification". Journal of Paleontology. 72: 133–136. doi:10.1017/S0022336000024069.
  7. ^ Motani, R.; You, H. (1998). "Taxonomy and limb ontogeny of Chaohusaurus geishanensis (Ichthyosauria), with a note on the allometric equation". Journal of Vertebrate Paleontology. 18 (3): 533–540. doi:10.1080/02724634.1998.10011080.
  8. ^ Maisch, M.W. (2001). "Observations on Triassic ichthyosaurs. Part VII. New data on the osteology of Chaohusaurus geishanensis YOUNG & DONG, 1972 from the Lower Triassic of Anhui (China)". Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen. 219 (3): 305–327. doi:10.1127/njgpa/219/2001/305.
  9. ^ a b Ryosuke Motani; Da-yong Jiang; Andrea Tintori; Olivier Rieppel; Guan-bao Chen (2014). "Terrestrial Origin of Viviparity in Mesozoic Marine Reptiles Indicated by Early Triassic Embryonic Fossils". PLOS ONE. 9 (2): e88640. Bibcode:2014PLoSO...988640M. doi:10.1371/journal.pone.0088640. PMC 3922983. PMID 24533127.
  10. ^ Motani, R.; Jiang, D.-Y.; Tintori, A.; Rieppel, O.; Chen, G.-B.; You, H. (2015). "Status of Chaohusaurus chaoxianensis (Chen, 1985)". Journal of Vertebrate Paleontology. 35 (1): e892011. doi:10.1080/02724634.2014.892011.
  11. ^ Stone, R. (2010). "Excavation Yields Tantalizing Hints of Earliest Marine Reptiles". Science. 330 (6008): 1164–1165. doi:10.1126/science.330.6008.1164-b.
  12. ^ Li, Qiang; Liu, Jun (2020). "An Early Triassic sauropterygian and associated fauna from South China provide insights into Triassic ecosystem health". Communications Biology. 3. doi:10.1038/s42003-020-0778-7.
  13. ^ Sander, P.M.; Griebeler, E.M.; Klein, N.; Juarbe, J.V.; Wintrich, T.; Revell, L.J.; Schmitz, L. (2021). "Early giant reveals faster evolution of large body size in ichthyosaurs than in cetaceans". Science. 374 (6575): eabf5787. doi:10.1126/science.abf5787. PMID 34941418. S2CID 245444783.
  14. ^ Maisch, M.W. (2010). "Phylogeny, systematics, and origin of the Ichthyosauria - the state of the art". Palaeodiversity. 3: 151–214.
  15. ^ Motani, R. (1999). "Phylogeny of the Ichthyopterygia". Journal of Vertebrate Paleontology. 19 (3): 473–496. doi:10.1080/02724634.1999.10011160.
  16. ^ a b Maisch, M.W.; Matzke, A.T. (2000). "The Ichthyosauria". Stuttgarter Beiträge zur Naturkunde. Serie B (Geologie und Paläontologie). 298: 1–159.
  17. ^ Motani, R.; Jiang, D.Y.; Chen, G.B.; Tintori, A.; Rieppel, O.; Ji, C.; Huang, J.D. (2015). "A basal ichthyosauriform with a short snout from the Lower Triassic of China". Nature. 517: 485–488. doi:10.1038/nature13866.
  18. ^ a b c Moon, B.C. (2017). (PDF). Journal of Systematic Palaeontology. 17 (2): 1–27. doi:10.1080/14772019.2017.1394922.
  19. ^ a b Ji, C.; Jiang, D. Y.; Motani, R.; Rieppel, O.; Hao, W. C.; Sun, Z. Y. (2016). "Phylogeny of the Ichthyopterygia incorporating recent discoveries from South China". Journal of Vertebrate Paleontology. 36 (1): e1025956. doi:10.1080/02724634.2015.1025956. S2CID 85621052.
  20. ^ a b Huang, J.; Motani, R.; Jiang, D.; Tintori, A.; Rieppel, O.; Zhou, M.; Ren, X.; Zhang, R. (2019). "The new ichthyosauriform Chaohusaurus brevifemoralis (Reptilia, Ichthyosauromorpha) from Majiashan, Chaohu, Anhui Province, China". PeerJ. 7: e7561. doi:10.7717/peerj.7561. PMC 6741286.

August 29, 2023
chaohusaurus, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, november, 202. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Chaohusaurus news newspapers books scholar JSTOR November 2022 Learn how and when to remove this template message Chaohusaurus is an extinct genus of basal ichthyopterygian depending on definition possibly ichthyosaur from the Early Triassic of Chaohu and Yuanan China ChaohusaurusTemporal range Early Triassic 251 3 247 2 Ma 1 PreꞒ Ꞓ O S D C P T J K Pg N Specimen AGM CHS 5Scientific classificationDomain EukaryotaKingdom AnimaliaPhylum ChordataClass ReptiliaSuperorder IchthyopterygiaGenus ChaohusaurusYoung amp Dong 1972Type species Chaohusaurus geishanensisYoung amp Dong 1972SpeciesC geishanensis Young amp Dong 1972 C chaoxianensis Chen 1985 C zhangjiawanensis Chen et al 2013 2 C brevifemoralis Huang et al 2019 Contents 1 Discovery 2 Description 3 Classification 4 Reproduction 5 See also 6 ReferencesDiscovery Edit Specimen AGM CH 628 22The type species Chaohusaurus geishanensis was named and described by Yang Zhongjian and Dong Zhiming in 1972 based on a fossil found during the construction of a railway The generic name refers to lake Chao Hu The specific name refers to the Geishan location The holotype IVPP V 4001 was uncovered in a layer of the Majianshan Limestone Formation dating from the Anisian It consists of a partial skeleton containing the skull and the front torso 3 In 1985 Chen Lizhu named two additional species based on fossils found in the same formation Anhuisaurus chaoxianensis and Anhuisaurus faciles 4 However the generic name had already been preoccupied by the lizard Anhuisaurus Hou 1974 Therefore Anhuisaurus Chen 1985 was in 1991 renamed into Chensaurus by Jean Michel Mazin e a 5 In 1998 Ryosuke Motani and Hailu You established that the Chensaurus fossils represented remains of juveniles with those of C faciles being the youngest 6 and that these formed a growth series with Chaohusaurus 7 This implied that the known material of Chaohusaurus was increased with the specimens AGM P45 H85 25 the holotype of Chensaurus chaoxianensis AGM P45 H85 20 the holotype of Chensaurus faciles and the front flippers IVPP V 11361 and IVPP V 11362 6 In 2001 a detailed description of the osteology of Chaohusaurus was published by Michael Maisch 8 In 2014 three additional specimens were reported AGM I 1 AGM CHS 5 and AGM CH 628 22 AGM I 1 also contains the remains of three embryo s The new finds are part of recent discoveries by a Chinese Italian paleontological project of eighty Chaohusaurus fossils 9 In 2013 a second species was named and described by Chen Xiaohong e a Chaohusaurus zhangjiawanensis The specific name refers to its provenance near the village of Zhangjiawan The holotype WHGMR V26001 was uncovered in a layer of the Jialingjang Formation dating from the Spathian It consists of a relatively complete skeleton with skull A second skeleton lacking the skull WHGMR V26002 was referred 2 In 2015 Ryosuke Motani and his colleagues reported a large adult forelimb specimen that resembles the immature specimens of C chaoxianensis and argued that C chaoxianensis is not the juvenile of C geishanensis and is indeed a valid species within the genus Chaohusaurus 10 Description Edit C geishanensis restorationChaohusaurus is a basal ichthyopterygian It thus shows traits that are typical for the direct ancestors of ichthyosaurs As a result basal ichthyosaurs like Cymbospondylus and Mixosaurus are closer in build to Chaohusaurus while later genera like Ichthyosaurus have a more derived morphology Chaohusaurus did not have the dolphin like form of later ichthyosaurs it had a more lizard like appearance with an elongated body These proportions were not caused by a large number of vertebrae the total of presacrals being about forty but by an elongated build of each individual vertebra The head is short in adults having about the third the length of the trunk with a narrow pointed beak and large eye sockets Its teeth are conspicuously heterodont differing in shape those of the upper jaws are pointed though blunt those of the rear lower jaws are bulbous with a convex profile a possible adaptation to a durophagous diet crushing shellfish The neck is relatively long Chaohusaurus did have flippers rather than webbed feet The tail fin is wide based in side view and short citation needed C geishanensis with a human to scale Chaohusaurus is one of the smallest known ichthyopterygians measuring about 0 7 1 m 2 3 3 3 ft long and weighing 1 3 3 1 kg 2 9 6 8 lb 11 12 13 Being a basal ichthyopterygian Chaohusaurus provides important information about the early evolution of the group It shows that some typical ichthyosaurian traits were probably already part of the original ichthyoptergyian Bauplan It furthermore has a mix of basal traits that were subsequently lost early derived traits indicating the genus is not the basalmost ichthyopterygian known and some autapomorphies of its own citation needed An original ichthyopterygian trait is the fact that the skull roof is short and wide The basisphenoid at the rear lower end of the braincase is not fused with the basioccipital the lower bone of the rear skull The parasphenoid at the front of the braincase has a long cultriform process There is no separate ectopterygoid present The lower jaw has a retroarticular process at its rear citation needed A conspicuous basal trait is the shortness of the head in later forms it would be longer relative to the trunk Also the snout is relatively short only about twice as long as the part behind the eye socket The nasals do not reach further backwards than the eye sockets The suture between the nasal bone and the frontal is transversely oriented From the prefrontal a flange overhangs the upper front edge of the eye socket perhaps to protect the eyes The frontal is part of the top edge of the eye socket and thus lacks a lateral buttress The frontal is about as large as the parietal In top view the rear edge of the skull roof is notched The parietal eye or at least the foramen parietale is located between the parietals not partly between the frontals as with later forms The squamosal is a large element as large as the quadratojugal with which it is firmly fused The basisphenoid is narrow The cultriform process of the parasphenoid at the rear gradually merges with the main body not via a narrow waist as with later forms The palate was not firmly attached to the basipterygoid allowing the snout some vertical movement relative to the remainder of the skull In most ichthyosaurs no such movement was possible The opening between the pterygoids was narrow and slit like not wide The pterygoids do not cover the rear underside of the braincase The neck is relatively long The tail is elongated about as long as the head neck and trunk combined The vertebrae of the tail base are elongated also about as long as they are tall The longest tail spines are located rather to the front indicating that a possible tail fin must have been more horizontal than with later forms The clavicles have a wide inner flange The scapula is short wider than long The humerus still has a distinct head but not yet a dorsal trochanter At its lower end the humerus has a larger facet contacting the radius than contacting the ulna The upper end of the ulna is narrower than the lower end not equal in size to it In general the bones of the lower arm including the hand bones are rather elongated not transformed into discs The ulna and radius still have a shaft as with land animals In the wrist the pisiform is about as large as the ulnar carpal not much smaller or absent The fifth metacarpal has a convex rear edge and is longer than the fourth distal carpal There are still five fingers present without a reduction of the first finger Polydactyly an extra number of fingers is thus lacking Hyperphalangy supernumerary phalanges is likewise absent The phalanx formula is 2 3 4 4 2 The upper phalanges are relatively elongated longer than wide The lower phalanges still show ossification below the cartilage perichondrium and have notches in their edges The pubic bone is perforated by a foramen obturatum which closed in side view and located some distance from the rear edge of the body The hindfin is about as large as the forefin not smaller In the thighbone the facet contacting the tibia is as large and as far reaching downwards as the facet contacting the fibula Between the tibia and fibula still a space is present and both bones though flattened are relatively elongated with a clear shaft The same is true for the metatarsals that are cylinder shaped There are still five toes present again rather elongated and hourglass shaped citation needed Skeletal restoration of adult A and juvenile B An early derived trait is the relative shortness of the spines of the tail The humerus has a flange at the front edge but it is not secondarily reduced The flange has a small notch The fifth metatarsal is shortened and the first is even shorter The fifth toe is shorter than the first toe citation needed In Chaohusaurus the width of basisphenoid is about 63 of its length Chaohusaurus has a combination of more pointed and bulbous teeth that was probably separately evolved citation needed The second species Chaohusaurus zhangjiawanensis has some distinguishing traits The skull is rather flat The trunk vertebrae have well developed transversal processes The prefrontal touches the postfrontal excluding the frontal from the rim of the eye socket a derived trait The calcaneum is larger The first sacral rib has an expanded outer end The second sacral rib has a tapered end 2 Classification EditChaohusaurus was in the original description of 1972 assigned to the Omphalosauridae 3 Both the 1999 phylogenetic analysis of Motani and the 2000 analysis of Maisch and Matzke found Chaohusaurus to by the sister taxon of Grippia the two genera united in a group named Grippidia or Grippiidae In Motani s study Chaohusaurus was classified as a non ichthyosaurian ichthyopterygian while Maisch and Matzke who used a more inclusive definition of Ichthyosauria considered it to be a basal ichthyosaur 14 15 16 The cladogram below follows Maisch and Matzke 2000 16 Ichthyosauria ThaisaurusUtatsusaurus Grippiidae ChaohusaurusGrippiaParvinatator Hueneosauria Mixosauria Longipinnati ToretocnemidaeCymbospondylidaeMerriamosauriaA cladistic analysis published by Chen and colleagues in the 2013 description of Chaohusaurus zhangjiawanensis did not find this taxon to be the sister species of Chaohusaurus geishanensis which was more closely related to Grippia Even though this would make the genus paraphyletic C zhangjiawanensis was nevertheless placed in Chaohusaurus because of the morphological similarity to the type species The authors did not place the genus in a family instead listing it as incertae sedis 2 The analysis of Motani and colleagues in 2015 found Chaohusaurus to be basal to all other ichthyopterygians 17 18 Subsequent analyses have also supported such a placement 18 19 20 Ji and colleagues attributed this change in phylogenetic position to a greater understanding of Chaohusaurus anatomy and additional specimens 19 While sometimes still classified within Ichthyopterygia Moon noted that as this group was not redefined to account for this newer topology Chaohusaurus technically falls outside of it 18 The cladogram below follows Huang and colleagues 2019 20 Ichthyosauromorpha HupehsuchiaIchthyosauriformes NasorostraChaohusaurus geishanensisChaohusaurus zhangjiawanensisChaohusaurus chaoxianensisChaohusaurus brevifemoralisIchthyopterygia Grippidia ParvinatatorUtatsusaurusGrippiaGulosaurusIchthyosauriaReproduction Edit Specimen AGM I 1 with three juvenilesOne specimen among those reported in 2014 AGM I 1 also contained the remains of two embryos and one neonate Chaohusaurus thus birthed its young viviparously in the water like later ichthyosaurs However from the orientation of both the embryos inside the maternal body and the neonate that had already been giving birth to it was clear that the young exited the birth canal head first This differs from the method used by most extant marine viviparous Amniota which expel the young tail first to prevent them from suffocating Many younger ichthyosaur specimens had earlier been found showing embryos in both positions leaving it undecided which was the normal one Motani et alii 2014 concluded that because Chaohusaurus is a very basal form this provided strong evidence that at least originally ichthyopterygian young were born with the head first This early method might have later been changed because it resulted in a too high mortality They also cited this as evidence for a terrestrial evolution of viviparity in the land dwelling ancestors of ichthyosaurs AGM I 1 in 2014 represented the oldest reptile viviparous birth known 9 See also Edit Paleontology portalList of ichthyosaurs Timeline of ichthyosaur researchReferences Edit Chaohusaurus at Fossilworks Paleobiology Database Fossilworks Retrieved 17 December 2021 a b c d Xiaohong Chen P Martin Sander Long Cheng Xiaofeng Wang 2013 A New Triassic Primitive Ichthyosaur from Yuanan South China Acta Geologica Sinica English Edition 87 3 672 677 doi 10 1111 1755 6724 12078 a b Young C C Dong Z 1972 On the Triassic aquatic reptiles of China Memoirs of the Nanjing Institute of Geology and Paleontology 9 1 34 Liezhu Chen 1985 Ichthyosaurs from the lower Triassic of Chao County Anhui Regional Geology of China 15 139 146 Mazin J M Suteethorn V Buffetaut E Jaeger J J Helmckeingavat R 1991 Preliminary description of Thaisaurus chonglakmanii n g n sp a new ichthyopterygian Reptilia from the Early Triassic of Thailand Comptes Rendus de l Academie des Sciences Serie II 313 1207 1212 a b Motani R You H 1998 The forefin of Chensaurus chaoxianensis Ichthyosauria shows delayed mesopodial ossification Journal of Paleontology 72 133 136 doi 10 1017 S0022336000024069 Motani R You H 1998 Taxonomy and limb ontogeny of Chaohusaurus geishanensis Ichthyosauria with a note on the allometric equation Journal of Vertebrate Paleontology 18 3 533 540 doi 10 1080 02724634 1998 10011080 Maisch M W 2001 Observations on Triassic ichthyosaurs Part VII New data on the osteology of Chaohusaurus geishanensis YOUNG amp DONG 1972 from the Lower Triassic of Anhui China Neues Jahrbuch fur Geologie und Palaontologie Abhandlungen 219 3 305 327 doi 10 1127 njgpa 219 2001 305 a b Ryosuke Motani Da yong Jiang Andrea Tintori Olivier Rieppel Guan bao Chen 2014 Terrestrial Origin of Viviparity in Mesozoic Marine Reptiles Indicated by Early Triassic Embryonic Fossils PLOS ONE 9 2 e88640 Bibcode 2014PLoSO 988640M doi 10 1371 journal pone 0088640 PMC 3922983 PMID 24533127 Motani R Jiang D Y Tintori A Rieppel O Chen G B You H 2015 Status of Chaohusaurus chaoxianensis Chen 1985 Journal of Vertebrate Paleontology 35 1 e892011 doi 10 1080 02724634 2014 892011 Stone R 2010 Excavation Yields Tantalizing Hints of Earliest Marine Reptiles Science 330 6008 1164 1165 doi 10 1126 science 330 6008 1164 b Li Qiang Liu Jun 2020 An Early Triassic sauropterygian and associated fauna from South China provide insights into Triassic ecosystem health Communications Biology 3 doi 10 1038 s42003 020 0778 7 Sander P M Griebeler E M Klein N Juarbe J V Wintrich T Revell L J Schmitz L 2021 Early giant reveals faster evolution of large body size in ichthyosaurs than in cetaceans Science 374 6575 eabf5787 doi 10 1126 science abf5787 PMID 34941418 S2CID 245444783 Maisch M W 2010 Phylogeny systematics and origin of the Ichthyosauria the state of the art Palaeodiversity 3 151 214 Motani R 1999 Phylogeny of the Ichthyopterygia Journal of Vertebrate Paleontology 19 3 473 496 doi 10 1080 02724634 1999 10011160 a b Maisch M W Matzke A T 2000 The Ichthyosauria Stuttgarter Beitrage zur Naturkunde Serie B Geologie und Palaontologie 298 1 159 Motani R Jiang D Y Chen G B Tintori A Rieppel O Ji C Huang J D 2015 A basal ichthyosauriform with a short snout from the Lower Triassic of China Nature 517 485 488 doi 10 1038 nature13866 a b c Moon B C 2017 A new phylogeny of ichthyosaurs Reptilia Diapsida PDF Journal of Systematic Palaeontology 17 2 1 27 doi 10 1080 14772019 2017 1394922 a b Ji C Jiang D Y Motani R Rieppel O Hao W C Sun Z Y 2016 Phylogeny of the Ichthyopterygia incorporating recent discoveries from South China Journal of Vertebrate Paleontology 36 1 e1025956 doi 10 1080 02724634 2015 1025956 S2CID 85621052 a b Huang J Motani R Jiang D Tintori A Rieppel O Zhou M Ren X Zhang R 2019 The new ichthyosauriform Chaohusaurus brevifemoralis Reptilia Ichthyosauromorpha from Majiashan Chaohu Anhui Province China PeerJ 7 e7561 doi 10 7717 peerj 7561 PMC 6741286 Retrieved from https en wikipedia org w index php title Chaohusaurus amp oldid 1170994041, wikipedia, wiki, book, books, library,

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