fbpx
Wikipedia

Thalattosauria

April 10, 2024

Not to be confused with Thalattosuchia.

Thalattosauria (Greek for "sea lizards") is an extinct order of prehistoric marine reptiles that lived in the Middle to Late Triassic. Thalattosaurs were diverse in size and shape, and are divided into two superfamilies: Askeptosauroidea and Thalattosauroidea. Askeptosauroids were endemic to the Tethys Ocean, their fossils have been found in Europe and China, and they were likely semiaquatic fish eaters with straight snouts and decent terrestrial abilities.[1] Thalattosauroids were more specialized for aquatic life and most had unusual downturned snouts and crushing dentition. Thalattosauroids lived along the coasts of both Panthalassa and the Tethys Ocean, and were most diverse in China and western North America.[2] The largest species of thalattosaurs grew to over 4 meters (13 feet) in length, including a long, flattened tail utilized in underwater propulsion. Although thalattosaurs bore a superficial resemblance to lizards, their exact relationships are unresolved. They are widely accepted as diapsids, but experts have variously placed them on the reptile family tree among Lepidosauromorpha (squamates, rhynchocephalians and their relatives),[3][4] Archosauromorpha (archosaurs and their relatives),[5] ichthyosaurs,[6] and/or other marine reptiles.[7][8]

Thalattosauria
Temporal range: Middle-Late Triassic, Anisian–Rhaetian
A collage of thalattosaur fossils. Clockwise from upper left: Askeptosaurus italicus (an askeptosauroid), Endennasaurus acutirostris (an askeptosauroid), Gunakadeit joseeae (a thalattosauroid), Thalattosaurus alexandrae (a thalattosauroid)
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Clade: Neodiapsida
Order: Thalattosauria
Merriam, 1904
Superfamilies
Synonyms

Description edit

Thalattosaurs have moderate adaptations to marine lifestyles, including long, paddle-like tails and slender bodies with more than 20 dorsal vertebrae. There are few unique traits of the postcranial skeleton shared by all thalattosaurs, but the skeleton is still useful for distinguishing between askeptosauroids and thalattosauroids. Askeptosauroids are characterized by elongated necks with short neural spines and at least 11 vertebrae, while thalattosauroids have shorter necks sometimes involving as few as four vertebrae. Thalattosauroids also have tall neural spines on their neck, back, and especially the tail vertebrae, increasing the surface area for swimming via lateral undulation. Thalattosauroids additionally possess short, wide limb bones poorly adapted for movement on land. In this superfamily, the humerus is widest near the shoulder, the femur is widest near the knee, the radius is reniform ("kidney-shaped"), and phalanges are long and plate-like. Askeptosauroids retain hourglass-shaped limb bones like land reptiles, but even they share specializations with thalattosauroids such as a short tibia and fibula, with the latter expanding near the ankle.[1][9][2]

Skull edit

 
A diagram of the skull of Thalattosaurus alexandrae

Thalattosaurs are diapsid reptiles, meaning that they have temporal fenestrae, two holes in the head behind the orbit (eye socket). However, many thalattosaurs have a vestigial upper temporal fenestra which is slit-like, and some have it fully closed up by surrounding bones.[10] Thalattosaurs lack a quadratojugal bone, leaving the lower temporal fenestra open from below. They also lack postparietal and tabular bones, while the squamosal bone is small, the supratemporal bone is extensive, and the quadrate bone is large. When seen from above, the rear edge of the skull bears a large, triangular embayment that reaches further forwards than the quadrates.[5]

Thalattosaurs have a rostrum (snout) significantly longer than the portion of the skull behind the eyes. A majority of this length is formed from the premaxillary bones, and the nares (nostril holes) are shifted back close to the eyes. The premaxillae stretch back very far and are incised into the frontal bones. This leads to an unusual trait that is characteristic of thalattosaurs, where the left and right nasal bones are separated from each other and restricted to a small portion of the snout near the nares. The lacrimal bone is typically lost or fused to the large crescent-shaped prefrontal bone in front of the orbit, mirroring the postfrontal bone which is usually fused to the three-pronged postorbital bone behind the orbit.[10][11][5]

Askeptosauroidea have narrow, straight-edged snouts which are often elongated and filled with conical teeth. One askeptosauroid, Endennasaurus, is entirely toothless[12] while another, Miodentosaurus, has a short, blunt snout.[13] Most members of the second thalattosaur group, Thalattosauroidea, have more distinctive downturned snouts. Clarazia and Thalattosaurus both have snouts that taper into a narrow tip. Most of the snout is straight, but premaxillae at the tip are downturned. Xinpusaurus and Concavispina also have downturned premaxillae, but the end of the maxillae are sharply upturned, forming a notch in their skull. In Hescheleria (and potentially Nectosaurus and Paralonectes), the premaxillae are abruptly downturned at the end of the snout, nearly forming a right angle with the rest of the jaw. In these forms, the end of the snout is a toothy hook separated from the rest of the jaw by a space called a diastema. Thalattosauroids also have heterodont dentition, with pointed piercing teeth at the front of the snout and low crushing teeth further back.[11] The exception to this rule is Gunakadeit, which has a straight snout and many slender teeth.[2] Thalattosaurs often have a pronounced retroarticular process at the rear of the mandible. Thalattosauroids are more specialized than askeptosauroids in jaw anatomy, as they have evolved a large peak-like coronoid bone and an angular bone that extends far forwards along the lower edge of the jaw. Palatal dentition is extensive in thalattosauroids but absent in askeptosauroids.[14][2]

Paleobiology edit

Thalattosaurs are only known from marine deposits, indicating that they were all primarily aquatic reptiles. The retracted nostrils and long, paddle-shaped tail are further evidence for aquatic habits. Thalattosauroids seemingly spent all of their time in the water, with short, wide limbs, poorly developed wrist and ankle bones, and tall vertebrae adapted for swimming via lateral undulation. Even so, they retained strong claws and functional digits which had not transformed into flippers, in contrast to ichthyosaurs and sauropterygians. Unlike these other marine reptiles, there is no evidence that thalattosaurs fully adapted to a pelagic life out in the open ocean, and instead they probably all lived in warm waters close to the coast. Askeptosauroids had stronger limbs more typical of terrestrial reptiles, indicating they would have been capable of moving around on land to some extent. They likely primarily used their tails when swimming, while thalattosauroids may have utilized their body and tail in conjunction.[3][1][12][2][15]

Thalattosaurs had diverse diets, though they probably all involved marine animals in one way or another. Endennasaurus probably predated small animals like fish fry or small crustaceans due to its lack of teeth.[12] Various thalattosauroids (like Thalattosaurus, Xinpusaurus, and Concavispina) had large fang-like teeth at the front of the mouth and thick button-like teeth at the back of the mouth. Based on Massare (1987)'s[16] technique of correlating diet with tooth shape, the taller teeth were suited for a "crunching" diet, involving armored fish, large crustaceans, and thin-shelled ammonites. The low, robust teeth would have been useful for a "crushing" diet specialized in large molluscs or other thick-shelled prey.[14][17] Gunakadeit's slender teeth correlated with the "Pierce II" guild of Massare (1987), indicating it likely fed on soft, fast-moving fish and squid. It also had a large hyoid apparatus which may have played a role in suction feeding.[2] Thalattosaurs also fell prey to other marine reptiles: the torso of a ~4 meter (13 feet) long Xinpusaurus xingyiensis has been found within the body cavity of a 5-meter (16 feet) long skeleton of the predatory ichthyosaur Guizhouichthyosaurus. This is the oldest known predatory interaction between marine reptiles, and Xinpusaurus may also be the largest prey item preserved within another marine reptile.[18]

Distribution edit

It is not certain where thalattosaurs originated from. During the Triassic period, the earth had one giant supercontinent, Pangaea, which was surrounded by the superocean Panthalassa. The eastern portion of Pangaea was incised by a massive tropical inland sea, the Tethys Ocean, which extended all the way from China to Western Europe. While thalattosauroids are known from worldwide Triassic marine deposits, askeptosauroids are only known in Tethyan deposits. Assuming Endennasaurus and Askeptosaurus were the most basal askeptosauroids, Askeptosauroidea would have originated in the Western Tethys Ocean, now the Alpine region of Europe.[1] However, if Miodentosaurus is more basal, a Western Tethys (European) origin would be significantly less likely.[19] Although the sister group to Thalattosauria is still debated, one possibility, the icthyosauromorphs, seemingly evolved in the Eastern Tethys (China) during the early Triassic or earlier.[8]

The oldest known thalattosauroids (Thalattosaurus, Paralonectes, and Agkistrognathus of British Columbia's Sulphur Mountain Formation) lived in eastern Panthalassa, along what is now the western coast of North America. Müller (2005, 2007) argued that at least one branch of thalattosauroids had managed to spread worldwide early in their evolution.[1][20] However, this is based on the hypothesis that Nectosaurus (from California), Xinpusaurus (from China), and an unnamed species from Austria formed a clade basal to other thalattosaurs, a classification scheme which contrasts with many other studies.[9] The worldwide distribution of Thalattosauroidea is intriguing considering that thalattosaurs are considered to be poorly adapted for traversing open oceans, which would have been a necessity for spreading between the eastern coast of Panthalassa and the Tethys Ocean.[20] Coastal "refuges" such as volcanic island arcs and guyots may have facilitated the ability of thalattosaurs to spread between ocean basins.[10] Hescheleria-like forms were previously only reported from North America and Europe,[21] but in 2021 a Hescheleria-like snout fragment was reported from China, indicating that they also had a widespread distribution.[22] Trans-Panthalassa connections are also observed in other Triassic marine life such as pistosaurs and ammonites.[10] Evidently thalattosaurs were capable of dispersing throughout major marine regions multiple times before the group's extinction, with thalattosauroids likely more prolific at spreading than askeptosauroids due to their greater aquatic adaptations.[2]

Classification edit

Early hypotheses edit

 
Many 20th-century paleontologists considered thalattosaurs to be an independent offshoot of formerly terrestrial reptiles closely related to squamates (such as lizards) or rhynchocephalians (such as the tuatara, pictured)

When first named by Merriam in 1904, Thalattosauria was only known by the species Thalattosaurus alexandrae. Based primarily on the overall skull shape, it was hypothesized to have been close to the reptile order Rhynchocephalia, which includes Sphenodon (the living tuatara). Nevertheless, Thalattosaurus was recognized as distinct enough to be given its own order, and was tentatively grouped along with Rhynchocephalia in the group Diaptosauria, a collection of various "primitive" reptiles now known to be polyphyletic. Within Diaptosauria, thalattosaurs were also considered very closely related to choristoderes and "Proganosauria" (parareptiles). Comparisons were also made with Parasuchia (phytosaurs), Lacertilia (lizards), and Proterosuchus, but dismissed as incompatible with proposed evolutionary schemes.[23]

Further discussion by Merriam (1905) considered a relationship with ichthyosaurs due to their similar ecology, but questioned why their skull and vertebral anatomy would diverge so widely if they had a close common ancestor. He proposed that potential similarities were best explained as convergent evolution. The possibility that thalattosaurs diverged from reptiles close to lizards (such as Paliguana) was described in more detail, with thalattosaurs serving as an short-lived early attempt for near-lizards to return to the sea, an evolutionary process later repeated more successfully when mosasaurs evolved from true lizards. Nevertheless, Merriam found no clear evidence that any previously known reptile group was directly ancestral to thalattosaurs or vice versa. They were probably descended from land-dwelling Permian reptiles, and not closely related to other marine reptile groups which first evolved in the Triassic.[3] Later 20th-century workers typically placed thalattosaurs close to rhynchocephalians or squamates as part of the group now known as Lepidosauromorpha.[14]

Modern classification and external relationships edit

 
Thalattosaurs have been proposed to be related to various reptile groups including archosauromorphs,[5] sauropterygians,[4] and ichthyosaurs[6][7] (such as Temnodontosaurus, pictured)

The rising popularity of cladistics in the late 1980s had some effects on thalattosaur classification. Continued research has helped cement some aspects of reptile classification, such as how Sauria (a major clade of diapsids including all living reptiles) split in the Permian into two branches: Lepidosauromorpha (which leads to lizards, snakes, and the tuatara) and Archosauromorpha (which leads to crocodilians and dinosaurs, including birds). While many paleontologists still consider thalattosaurs probable lepidosauromorphs, a few studies (such as a phylogenetic analysis by Evans, 1988) have instead suggested that they may be on the archosauromorph branch of Sauria.[5] Rieppel (1998)'s re-evaluation of the thalattosaur-like pachypleurosaur Hanosaurus argued that thalattosaurs have affinities with the aquatic reptile order Sauropterygia, which itself is aligned with turtles within an expansive interpretation of Lepidosauromorpha.[4]

An analysis by Müller (2004) has even considered thalattosaurs to belong just outside of Sauria. Unusually, thalattosaurs have an affinity to shift near ichthyosaurs (in the group Ichthyosauromorpha) when certain basal saurians or near-saurians are excluded from the data set.[6] Some analyses derived from Müller (2004) group thalattosaurs in a "marine superclade" with ichthyosauromorphs and sauropterygians, and sometimes with turtles, archosauromorphs, or lepidosauromorphs as well. For example, Simões et al (2022) classify thalattosaurs as the sister group of the sauropterygians, with their clade being sister to the ichthyosauromorphs, and all three being basal archosauromorphs. However, cladograms generated by these analyses change in unpredictable ways through alterations to their methodology (such as including or excluding aquatic adaptations or switching between parsimony and bayesian inference), leading some to have concerns over the validity of the "marine superclade".[7][8][24][25][26] While thalattosaurs are almost certainly diapsids, the large degree of uncertainty surrounding their outgroup relations has led most modern paleontologists to classify them as Diapsida incertae sedis.

Internal relationships edit

One of the first phylogenetic analyses specifically focusing on thalattosaurs was part of Nicholls (1999)'s reevaluation of Thalattosaurus and Nectosaurus. She used a restricted definition of Thalattosauria which referred to a clade including all reptiles more closely related to Nectosaurus and Hescheleria than to Endennasaurus or Askeptosaurus. The more inclusive group including Askeptosaurus, Endennasaurus, and traditional thalattosaurs was given the name Thalattosauriformes.[14][1][20]

However, most studies focusing on the group have preferred to retain a broader definition of Thalattosauria equivalent to Nicholls' Thalattosauriformes clade, including reptiles close to both Askeptosaurus and Thalattosaurus. In these studies, Thalattosauria is divided into two branches, one leading to relatives of Askeptosaurus and the other leading to relatives of Thalattosaurus. The clade containing reptiles closer to Thalattosaurus than to askeptosaurids is given the name Thalattosauroidea (and sometimes called Thalattosauridea[9][19]). Meanwhile, the clade containing reptiles closer to askeptosaurids is termed Askeptosauroidea[10][13][2] or Askeptosauridea.[9][19]

Subsequent studies since Nicholls (1999) started to include more taxa, including newly described Chinese taxa such as Anshunsaurus and Xinpusaurus.[10][27] However, uncertainty over Endennasaurus's thalattosaurian ancestry led to it being excluded from these analyses. After Müller et al. (2005) re-affirmed that Endennasaurus was closely related to Askeptosaurus,[12] all thalattosaurs known at the time were finally combined into phylogenetic analyses.[9][20] Studies by Rieppel, Liu, Cheng, Wu, and others continued to identify new Chinese taxa such as Miodentosaurus and various species of Anshunsaurus and Xinpusaurus, though homoplasy in these new taxa has led to little resolution in the structure of the two major branches of Thalattosauria.[13][28] In an attempt to remedy this problem, new phylogenetic analyses were developed by Liu et al. (2013) during the description of Concavispina,[19] and Druckenmiller et al. (2020) during the description of Gunakadeit.[2]

The internal relationships of thalattosaurs is still considered tentative and inconclusive, although the fundamental structure of the group (a monophyletic Thalattosauria clade split into askeptosauroids and thalattosauroids) is very stable. Some paleontologists have attempted to divide thalattosaurs into families. One family, Askeptosauridae, is typically considered to include Askeptosaurus and Anshunsaurus,[9] with a few studies also placing Miodentosaurus[13] or Endennasaurus[12] within it. Another family, Thalattosauridae, was originally used to group Thalattosaurus and Nectosaurus,[3] was later redefined to exclude Nectosaurus,[14] and later still encompassed practically all thalattosauroids.[19] Many thalattosaur-focused paleontologists avoid using family names due to their inconsistent usage and questionable validity.

The cladogram presented here is based on the largest and most recent analysis of thalattosaur ingroup relations, Druckenmiller et al. (2020). It shows all thalattosaur genera except for the fragmentary Agkistrognathus.[2]

List of genera edit

Other thalattosaurs include unnamed or indeterminate species from the Kössen Formation of Austria,[20] the Sulphur Mountain[29] and Pardonet Formations[30] of British Columbia, the Natchez Pass Formation of Nevada,[30][21] and the Vester Formation of Oregon.[31][32] Blezingeria, a fragmentary marine reptile from the Muschelkalk of Germany, has also been considered a thalattosaur by some authors but this assignment is uncertain at best.[1] Neosinasaurus, a poorly-known reptiles from the Xiaowa Formation of China, has also been considered a thalattosaur.[13] Thalattosaurian fragments are known from Spanish Muschelkalk.[33] A previously unnamed specimen from Alaska[34] was described as Gunakadeit in 2020.[2]

Name Year Formation Location Notes Images
Agkistrognathus 1993 Sulphur Mountain Formation (Middle Triassic?)   Canada (  British Columbia) A poorly-known thalattosauroid with strong jaws
Anshunsaurus 1999 Zhuganpo Formation, Xiaowa Formation (Middle Triassic-Late Triassic, Ladinian?-Carnian?)   China A large askeptosauroid known from three species. One of the few thalattosaurs for which a growth series is known  
Askeptosaurus 1925 Grenzbitumenzone (Middle Triassic, Anisian?)    Switzerland,   Italy The namesake of Askeptosauroidea and one of the most well-known European thalattosaurs  
Clarazia 1936 Grenzbitumenzone (Middle Triassic, Anisian?)    Switzerland A thalattosauroid related to Hescheleria  
Concavispina 2013 Xiaowa Formation (Late Triassic, Carnian?)   China The largest known thalattosauroid, a close relative of Xinpusaurus  
Endennasaurus 1984 Zorzino Limestone (Late Triassic, Norian)   Italy An unusual askeptosauroid with a pointed, toothless snout  
Gunakadeit 2020 Hound Island Volcanics (Late Triassic, Norian)   United States (  Alaska) A basal thalattosauroid, the most well-preserved specimen from North America  
Hescheleria 1936 Grenzbitumenzone (Middle Triassic, Anisian?)    Switzerland A hook-snouted thalattosauroid
Miodentosaurus 2007 Xiaowa Formation (Late Triassic, Carnian?)   China A very large askeptosauroid with a short snout  
Nectosaurus 1905 Hosselkus Limestone (Late Triassic)   United States (  California) One of the first thalattosaurs to be described, along with Thalattosaurus  
Paralonectes 1993 Sulphur Mountain Formation (Middle Triassic?)   Canada (  British Columbia) A poorly-known thalattosauroid with a downcurved snout
Wapitisaurus 1988 Sulphur Mountain Formation (Early Triassic)   Canada (  British Columbia) A thalattosauroid initially described as a weigeltisaurid.[35]
Wayaosaurus 2000 "Wayao Member" (Late Triassic, Carnian?)   China A large askeptosauroid similar to Miodentosaurus. Initially described as a pachypleurosaur.[36]
Thalattosaurus 1904 Hosselkus Limestone, Sulphur Mountain Formation (Middle Triassic-Late Triassic)   United States (  California),   Canada (  British Columbia) The namesake of Thalattosauria and the first genus to be described. Known from at least two species  
Xinpusaurus 2000 Zhuganpo Formation, Xiaowa Formation (Middle Triassic-Late Triassic, Ladinian?-Carnian?)   China A thalattosauroid with an unusual notched skull. Known from four species, though not all may be valid  

References edit

  1. ^ a b c d e f g Müller, Johannes (2005). "The anatomy of Askeptosaurus italicus from the Middle Triassic of Monte San Giorgio, and the interrelationships of thalattosaurs (Reptilia, Diapsida)". Canadian Journal of Earth Sciences. 42 (7): 1347–1367. Bibcode:2005CaJES..42.1347M. doi:10.1139/e05-030.
  2. ^ a b c d e f g h i j k Druckenmiller, Patrick S.; Kelley, Neil P.; Metz, Eric T.; Baichtal, James (4 February 2020). "An articulated Late Triassic (Norian) thalattosauroid from Alaska and ecomorphology and extinction of Thalattosauria". Scientific Reports. 10 (1): 1746. Bibcode:2020NatSR..10.1746D. doi:10.1038/s41598-020-57939-2. ISSN 2045-2322. PMC 7000825. PMID 32019943.
  3. ^ a b c d Merriam, John C. (1905). "The Thalattosauria: a group of marine reptiles from the Triassic of California". Memoirs of the California Academy of Sciences. 5 (1): 1–52.
  4. ^ a b c Rieppel, Olivier (1998-09-15). "The systematic status of Hanosaurus hupehensis (Reptilia, Sauropterygia) from the Triassic of China". Journal of Vertebrate Paleontology. 18 (3): 545–557. Bibcode:1998JVPal..18..545R. doi:10.1080/02724634.1998.10011082. ISSN 0272-4634.
  5. ^ a b c d e Evans, Susan E. (1988). "The early history and relationships of the Diapsida". In Benton, M. J. (ed.). The Phylogeny and Classification of the Tetrapods, Volume 1: Amphibians, Reptiles, Birds. Oxford: Clarendon Press. pp. 221–260.
  6. ^ a b c Müller, Johannes (2004). "The relationships among diapsid reptiles and the influence of taxon selection". In Arratia, G; Wilson, M.V.H.; Cloutier, R. (eds.). Recent Advances in the Origin and Early Radiation of Vertebrates. Verlag Dr. Friedrich Pfeil. pp. 379–408. ISBN 978-3-89937-052-2.
  7. ^ a b c Chen, Xiao-hong; Motani, Ryosuke; Cheng, Long; Jiang, Da-yong; Rieppel, Olivier (2014-07-11). "The Enigmatic Marine Reptile Nanchangosaurus from the Lower Triassic of Hubei, China and the Phylogenetic Affinities of Hupehsuchia". PLOS ONE. 9 (7): e102361. Bibcode:2014PLoSO...9j2361C. doi:10.1371/journal.pone.0102361. ISSN 1932-6203. PMC 4094528. PMID 25014493.
  8. ^ a b c Motani, Ryosuke; Jiang, Da-Yong; Chen, Guan-Bao; Tintori, Andrea; Rieppel, Olivier; Ji, Cheng; Huang, Jian-Dong (5 November 2014). "A basal ichthyosauriform with a short snout from the Lower Triassic of China". Nature. 517 (7535): 485–488. Bibcode:2015Natur.517..485M. doi:10.1038/nature13866. ISSN 1476-4687. PMID 25383536. S2CID 4392798.
  9. ^ a b c d e f Liu, J.; Rieppel, O. (2005). "Restudy of Anshunsaurus huangguoshuensis (Reptilia: Thalattosauria) from the Middle Triassic of Guizhou, China" (PDF). American Museum Novitates (3488): 1–34. doi:10.1206/0003-0082(2005)488[0001:roahrt]2.0.co;2. ISSN 0003-0082. S2CID 55642315.
  10. ^ a b c d e f Rieppel, O.; Liu, J.; Bucher, H. (2000-09-25). "The first record of a thalattosaur reptile from the Late Triassic of southern China (Guizhou Province, PR China)". Journal of Vertebrate Paleontology. 20 (3): 507–514. doi:10.1671/0272-4634(2000)020[0507:TFROAT]2.0.CO;2. ISSN 0272-4634. S2CID 140706921.
  11. ^ a b Rieppel, O.; Müller, J.; Liu, J. (2005). "Rostral structure in Thalattosauria (Reptilia, Diapsida)". Canadian Journal of Earth Sciences. 42 (12): 2081–2086. Bibcode:2005CaJES..42.2081R. doi:10.1139/e05-076.
  12. ^ a b c d e Müller, Johannes; Renesto, Silvio; Evans, Susan E. (2005). "The marine diapsid reptile Endennasaurus from the Upper Triassic of Italy". Palaeontology. 48 (1): 15–30. Bibcode:2005Palgy..48...15M. doi:10.1111/j.1475-4983.2004.00434.x. ISSN 1475-4983.
  13. ^ a b c d e Wu, Xiao-Chun; Cheng, Yen-Nien; Sato, Tamaki; Shan, Hsi-Yin (2009). "Miodentosaurus brevis Cheng et al. 2007 (Diapsida: Thalattosauria): Its postcranial skeleton and phylogenetic relationships". Vertebrata PalAsiatica. 47 (1): 1–20.
  14. ^ a b c d e Nicholls, Elizabeth L. (April 15, 1999). "A reexamination of Thalattosaurus and Nectosaurus and the relationships of the Thalattosauria (Reptilia: Diapsida)". PaleoBios. 19 (1): 1–29.
  15. ^ Xing, Lida; Klein, Hendrik; Lockley, Martin G.; Wu, Xiao-chun; Benton, Michael J.; Zeng, Rong; Romilio, Anthony (2020-11-15). "Footprints of marine reptiles from the Middle Triassic (Anisian-Ladinian) Guanling Formation of Guizhou Province, southwestern China: The earliest evidence of synchronous style of swimming". Palaeogeography, Palaeoclimatology, Palaeoecology. 558: 109943. Bibcode:2020PPP...558j9943X. doi:10.1016/j.palaeo.2020.109943. ISSN 0031-0182. S2CID 221866075.
  16. ^ Massare, Judy A. (1987-06-18). "Tooth morphology and prey preference of Mesozoic marine reptiles". Journal of Vertebrate Paleontology. 7 (2): 121–137. Bibcode:1987JVPal...7..121M. doi:10.1080/02724634.1987.10011647. ISSN 0272-4634.
  17. ^ Li, Zhi-Guang; Jiang, Da-Yong; Rieppel, Olivier; Motani, Ryosuke; Tintori, Andrea; Sun, Zuo-Yu; Ji, Cheng (2016-11-01). "A new species of Xinpusaurus (Reptilia, Thalattosauria) from the Ladinian (Middle Triassic) of Xingyi, Guizhou, southwestern China". Journal of Vertebrate Paleontology. 36 (6): e1218340. Bibcode:2016JVPal..36E8340L. doi:10.1080/02724634.2016.1218340. ISSN 0272-4634. S2CID 132418823.
  18. ^ Jiang, Da-Yong; Motani, Ryosuke; Tintori, Andrea; Rieppel, Olivier; Ji, Cheng; Zhou, Min; Wang, Xue; Lu, Hao; Li, Zhi-Guang (2020-09-25). "Evidence Supporting Predation of 4-m Marine Reptile by Triassic Megapredator". iScience. 23 (9): 101347. Bibcode:2020iSci...23j1347J. doi:10.1016/j.isci.2020.101347. ISSN 2589-0042. PMC 7520894. PMID 32822565.
  19. ^ a b c d e Liu, J.; Zhao, L. J.; Li, C.; He, T. (2013). "Osteology of Concavispina biseridens (Reptilia, Thalattosauria) from the Xiaowa Formation (Carnian), Guanling, Guizhou, China". Journal of Paleontology. 87 (2): 341. Bibcode:2013JPal...87..341L. doi:10.1666/12-059R1.1. S2CID 83684967.
  20. ^ a b c d e Müller, Johannes (2007-03-12). "First record of a thalattosaur from the Upper Triassic of Austria". Journal of Vertebrate Paleontology. 27 (1): 236–240. doi:10.1671/0272-4634(2007)27[236:FROATF]2.0.CO;2. ISSN 0272-4634. S2CID 85938927.
  21. ^ a b Sues, Hans-Dieter; Clark, James (2005). "Thalattosaurs from the Late Triassic (Carnian) of Nevada and their paleobiogeographic significance" (PDF). SVP 65th Annual Meeting Abstracts of Papers.
  22. ^ Chai, Jun; Jiang, Da-Yong; Rieppel, Olivier; Motani, Ryosuke; Tintori, Andrea; Druckenmiller, Patrick (4 June 2021). "A New Specimen of Thalattosauroidea (Reptilia, Thalattosauriformes) from the Middle Triassic (Ladinian) of Xingyi, Southernwestern China". Journal of Vertebrate Paleontology. 40 (6): e1881965. doi:10.1080/02724634.2020.1881965. ISSN 0272-4634. S2CID 233970875.
  23. ^ Merriam, John C. (1904). "A new marine reptile from the Triassic of California". University of California Department of Geology Bulletin. 3: 419–421.
  24. ^ Jiang, Da-Yong; Motani, Ryosuke; Huang, Jian-Dong; Tintori, Andrea; Hu, Yuan-Chao; Rieppel, Olivier; Fraser, Nicholas C.; Ji, Cheng; Kelley, Neil P.; Fu, Wan-Lu; Zhang, Rong (2016-05-23). "A large aberrant stem ichthyosauriform indicating early rise and demise of ichthyosauromorphs in the wake of the end-Permian extinction". Scientific Reports. 6 (1): 26232. Bibcode:2016NatSR...626232J. doi:10.1038/srep26232. ISSN 2045-2322. PMC 4876504. PMID 27211319.
  25. ^ Scheyer, Torsten M.; Neenan, James M.; Bodogan, Timea; Furrer, Heinz; Obrist, Christian; Plamondon, Mathieu (2017-06-30). "A new, exceptionally preserved juvenile specimen of Eusaurosphargis dalsassoi (Diapsida) and implications for Mesozoic marine diapsid phylogeny". Scientific Reports. 7 (1): 4406. Bibcode:2017NatSR...7.4406S. doi:10.1038/s41598-017-04514-x. ISSN 2045-2322. PMC 5493663. PMID 28667331.
  26. ^ Simões, Tiago R.; Kammerer, Christian F.; Caldwell, Michael W.; Pierce, Stephanie E. (2022-08-19). "Successive climate crises in the deep past drove the early evolution and radiation of reptiles". Science Advances. 8 (33): eabq1898. Bibcode:2022SciA....8.1898S. doi:10.1126/sciadv.abq1898. ISSN 2375-2548. PMC 9390993. PMID 35984885.
  27. ^ Jiang, Da-Yong; Maisch, Michael W.; Sun, Yuan-Lin; Matzke, Andreas T.; Hao, Wei-Cheng (2004-03-25). "A new species of Xinpusaurus (Thalattosauria) from the Upper Triassic of China". Journal of Vertebrate Paleontology. 24 (1): 80–88. Bibcode:2004JVPal..24...80J. doi:10.1671/1904-7. ISSN 0272-4634. S2CID 84809090.
  28. ^ Cheng, Long; Chen, Xiaohong; Zhang, Baomin; Cai, Yongjian (2011). "New Study of Anshunsaurus huangnihensis Cheng, 2007 (Reptilia: Thalattosauria): Revealing its Transitional Position in Askeptosauridae". Acta Geologica Sinica - English Edition. 85 (6): 1231–1237. doi:10.1111/j.1755-6724.2011.00584.x. ISSN 1755-6724. S2CID 129819570.
  29. ^ Nicholls, Elizabeth L.; Brinkman, Donald (March 1993). "New thalattosaurs (Reptilia: Diapsida) from the Triassic Sulphur Mountain Formation of Wapiti Lake, British Columbia". Journal of Paleontology. 67 (2): 263–278. Bibcode:1993JPal...67..263N. doi:10.1017/S0022336000032194. ISSN 0022-3360. S2CID 132095082.
  30. ^ a b Storrs, Glenn W. (1991-12-01). "Note on a second occurrence of thalattosaur remains (Reptilia: Neodiapsida) in British Columbia". Canadian Journal of Earth Sciences. 28 (12): 2065–2068. Bibcode:1991CaJES..28.2065S. doi:10.1139/e91-186. ISSN 0008-4077.
  31. ^ Metz, Eric T.; Druckenmiller, Patrick S.; Carr, Gregory (2015). "A new thalattosaur from the Vester Formation (Carnian) of Central Oregon, USA". SVP 75th Annual Meeting Abstracts of Papers.
  32. ^ "Triassic Reptile Skewered Clams with Teeth on Roof of Its Mouth". Live Science. 13 November 2015.
  33. ^ Rieppel, O.; Hagdorn, H. (1998). "Fossil reptiles from the Spanish Muschelkalk (mont‐ral and alcover, province Tarragona)". Historical Biology. 13: 77–97. doi:10.1080/08912969809386575.
  34. ^ Petersen, C. (13 July 2011). "Recent fossil discovery near Keku Strait a first for Alaska". Capital City Weekly. Retrieved 14 July 2011.
  35. ^ Bastiaans, Dylan; Buffa, Valentin; Scheyer, Torsten M. (November 2023). "To glide or to swim? A reinvestigation of the enigmatic Wapitisaurus problematicus (Reptilia) from the Early Triassic of British Columbia, Canada". Royal Society Open Science. 10 (11). doi:10.1098/rsos.231171. ISSN 2054-5703. PMC 10646446.
  36. ^ Chai, Jun; Lu, Hao; Jiang, Da-Yong; Motani, Ryosuke; Druckenmiller, Patrick S.; Tintori, Andrea; Kelley, Neil P. (2023-10-23). "Reidentification of Wayaosaurus bellus and the conservative trunk and tail shape of Thalattosauria". Historical Biology: 1–20. doi:10.1080/08912963.2023.2264886. ISSN 0891-2963.

April 10, 2024
thalattosauria, confused, with, thalattosuchia, greek, lizards, extinct, order, prehistoric, marine, reptiles, that, lived, middle, late, triassic, thalattosaurs, were, diverse, size, shape, divided, into, superfamilies, askeptosauroidea, thalattosauroidea, as. Not to be confused with Thalattosuchia Thalattosauria Greek for sea lizards is an extinct order of prehistoric marine reptiles that lived in the Middle to Late Triassic Thalattosaurs were diverse in size and shape and are divided into two superfamilies Askeptosauroidea and Thalattosauroidea Askeptosauroids were endemic to the Tethys Ocean their fossils have been found in Europe and China and they were likely semiaquatic fish eaters with straight snouts and decent terrestrial abilities 1 Thalattosauroids were more specialized for aquatic life and most had unusual downturned snouts and crushing dentition Thalattosauroids lived along the coasts of both Panthalassa and the Tethys Ocean and were most diverse in China and western North America 2 The largest species of thalattosaurs grew to over 4 meters 13 feet in length including a long flattened tail utilized in underwater propulsion Although thalattosaurs bore a superficial resemblance to lizards their exact relationships are unresolved They are widely accepted as diapsids but experts have variously placed them on the reptile family tree among Lepidosauromorpha squamates rhynchocephalians and their relatives 3 4 Archosauromorpha archosaurs and their relatives 5 ichthyosaurs 6 and or other marine reptiles 7 8 ThalattosauriaTemporal range Middle Late Triassic Anisian Rhaetian PreꞒ Ꞓ O S D C P T J K Pg NA collage of thalattosaur fossils Clockwise from upper left Askeptosaurus italicus an askeptosauroid Endennasaurus acutirostris an askeptosauroid Gunakadeit joseeae a thalattosauroid Thalattosaurus alexandrae a thalattosauroid Scientific classificationDomain EukaryotaKingdom AnimaliaPhylum ChordataClass ReptiliaClade NeodiapsidaOrder ThalattosauriaMerriam 1904Superfamilies Blezingeria Askeptosauroidea ThalattosauroideaSynonymsThalattosauriformes Nicholls 1999 Contents 1 Description 1 1 Skull 2 Paleobiology 3 Distribution 4 Classification 4 1 Early hypotheses 4 2 Modern classification and external relationships 4 3 Internal relationships 5 List of genera 6 ReferencesDescription editThalattosaurs have moderate adaptations to marine lifestyles including long paddle like tails and slender bodies with more than 20 dorsal vertebrae There are few unique traits of the postcranial skeleton shared by all thalattosaurs but the skeleton is still useful for distinguishing between askeptosauroids and thalattosauroids Askeptosauroids are characterized by elongated necks with short neural spines and at least 11 vertebrae while thalattosauroids have shorter necks sometimes involving as few as four vertebrae Thalattosauroids also have tall neural spines on their neck back and especially the tail vertebrae increasing the surface area for swimming via lateral undulation Thalattosauroids additionally possess short wide limb bones poorly adapted for movement on land In this superfamily the humerus is widest near the shoulder the femur is widest near the knee the radius is reniform kidney shaped and phalanges are long and plate like Askeptosauroids retain hourglass shaped limb bones like land reptiles but even they share specializations with thalattosauroids such as a short tibia and fibula with the latter expanding near the ankle 1 9 2 Skull edit nbsp A diagram of the skull of Thalattosaurus alexandraeThalattosaurs are diapsid reptiles meaning that they have temporal fenestrae two holes in the head behind the orbit eye socket However many thalattosaurs have a vestigial upper temporal fenestra which is slit like and some have it fully closed up by surrounding bones 10 Thalattosaurs lack a quadratojugal bone leaving the lower temporal fenestra open from below They also lack postparietal and tabular bones while the squamosal bone is small the supratemporal bone is extensive and the quadrate bone is large When seen from above the rear edge of the skull bears a large triangular embayment that reaches further forwards than the quadrates 5 Thalattosaurs have a rostrum snout significantly longer than the portion of the skull behind the eyes A majority of this length is formed from the premaxillary bones and the nares nostril holes are shifted back close to the eyes The premaxillae stretch back very far and are incised into the frontal bones This leads to an unusual trait that is characteristic of thalattosaurs where the left and right nasal bones are separated from each other and restricted to a small portion of the snout near the nares The lacrimal bone is typically lost or fused to the large crescent shaped prefrontal bone in front of the orbit mirroring the postfrontal bone which is usually fused to the three pronged postorbital bone behind the orbit 10 11 5 Askeptosauroidea have narrow straight edged snouts which are often elongated and filled with conical teeth One askeptosauroid Endennasaurus is entirely toothless 12 while another Miodentosaurus has a short blunt snout 13 Most members of the second thalattosaur group Thalattosauroidea have more distinctive downturned snouts Clarazia and Thalattosaurus both have snouts that taper into a narrow tip Most of the snout is straight but premaxillae at the tip are downturned Xinpusaurus and Concavispina also have downturned premaxillae but the end of the maxillae are sharply upturned forming a notch in their skull In Hescheleria and potentially Nectosaurus and Paralonectes the premaxillae are abruptly downturned at the end of the snout nearly forming a right angle with the rest of the jaw In these forms the end of the snout is a toothy hook separated from the rest of the jaw by a space called a diastema Thalattosauroids also have heterodont dentition with pointed piercing teeth at the front of the snout and low crushing teeth further back 11 The exception to this rule is Gunakadeit which has a straight snout and many slender teeth 2 Thalattosaurs often have a pronounced retroarticular process at the rear of the mandible Thalattosauroids are more specialized than askeptosauroids in jaw anatomy as they have evolved a large peak like coronoid bone and an angular bone that extends far forwards along the lower edge of the jaw Palatal dentition is extensive in thalattosauroids but absent in askeptosauroids 14 2 Paleobiology editThalattosaurs are only known from marine deposits indicating that they were all primarily aquatic reptiles The retracted nostrils and long paddle shaped tail are further evidence for aquatic habits Thalattosauroids seemingly spent all of their time in the water with short wide limbs poorly developed wrist and ankle bones and tall vertebrae adapted for swimming via lateral undulation Even so they retained strong claws and functional digits which had not transformed into flippers in contrast to ichthyosaurs and sauropterygians Unlike these other marine reptiles there is no evidence that thalattosaurs fully adapted to a pelagic life out in the open ocean and instead they probably all lived in warm waters close to the coast Askeptosauroids had stronger limbs more typical of terrestrial reptiles indicating they would have been capable of moving around on land to some extent They likely primarily used their tails when swimming while thalattosauroids may have utilized their body and tail in conjunction 3 1 12 2 15 Thalattosaurs had diverse diets though they probably all involved marine animals in one way or another Endennasaurus probably predated small animals like fish fry or small crustaceans due to its lack of teeth 12 Various thalattosauroids like Thalattosaurus Xinpusaurus and Concavispina had large fang like teeth at the front of the mouth and thick button like teeth at the back of the mouth Based on Massare 1987 s 16 technique of correlating diet with tooth shape the taller teeth were suited for a crunching diet involving armored fish large crustaceans and thin shelled ammonites The low robust teeth would have been useful for a crushing diet specialized in large molluscs or other thick shelled prey 14 17 Gunakadeit s slender teeth correlated with the Pierce II guild of Massare 1987 indicating it likely fed on soft fast moving fish and squid It also had a large hyoid apparatus which may have played a role in suction feeding 2 Thalattosaurs also fell prey to other marine reptiles the torso of a 4 meter 13 feet long Xinpusaurus xingyiensis has been found within the body cavity of a 5 meter 16 feet long skeleton of the predatory ichthyosaur Guizhouichthyosaurus This is the oldest known predatory interaction between marine reptiles and Xinpusaurus may also be the largest prey item preserved within another marine reptile 18 Distribution editIt is not certain where thalattosaurs originated from During the Triassic period the earth had one giant supercontinent Pangaea which was surrounded by the superocean Panthalassa The eastern portion of Pangaea was incised by a massive tropical inland sea the Tethys Ocean which extended all the way from China to Western Europe While thalattosauroids are known from worldwide Triassic marine deposits askeptosauroids are only known in Tethyan deposits Assuming Endennasaurus and Askeptosaurus were the most basal askeptosauroids Askeptosauroidea would have originated in the Western Tethys Ocean now the Alpine region of Europe 1 However if Miodentosaurus is more basal a Western Tethys European origin would be significantly less likely 19 Although the sister group to Thalattosauria is still debated one possibility the icthyosauromorphs seemingly evolved in the Eastern Tethys China during the early Triassic or earlier 8 The oldest known thalattosauroids Thalattosaurus Paralonectes and Agkistrognathus of British Columbia s Sulphur Mountain Formation lived in eastern Panthalassa along what is now the western coast of North America Muller 2005 2007 argued that at least one branch of thalattosauroids had managed to spread worldwide early in their evolution 1 20 However this is based on the hypothesis that Nectosaurus from California Xinpusaurus from China and an unnamed species from Austria formed a clade basal to other thalattosaurs a classification scheme which contrasts with many other studies 9 The worldwide distribution of Thalattosauroidea is intriguing considering that thalattosaurs are considered to be poorly adapted for traversing open oceans which would have been a necessity for spreading between the eastern coast of Panthalassa and the Tethys Ocean 20 Coastal refuges such as volcanic island arcs and guyots may have facilitated the ability of thalattosaurs to spread between ocean basins 10 Hescheleria like forms were previously only reported from North America and Europe 21 but in 2021 a Hescheleria like snout fragment was reported from China indicating that they also had a widespread distribution 22 Trans Panthalassa connections are also observed in other Triassic marine life such as pistosaurs and ammonites 10 Evidently thalattosaurs were capable of dispersing throughout major marine regions multiple times before the group s extinction with thalattosauroids likely more prolific at spreading than askeptosauroids due to their greater aquatic adaptations 2 Classification editEarly hypotheses edit nbsp Many 20th century paleontologists considered thalattosaurs to be an independent offshoot of formerly terrestrial reptiles closely related to squamates such as lizards or rhynchocephalians such as the tuatara pictured When first named by Merriam in 1904 Thalattosauria was only known by the species Thalattosaurus alexandrae Based primarily on the overall skull shape it was hypothesized to have been close to the reptile order Rhynchocephalia which includes Sphenodon the living tuatara Nevertheless Thalattosaurus was recognized as distinct enough to be given its own order and was tentatively grouped along with Rhynchocephalia in the group Diaptosauria a collection of various primitive reptiles now known to be polyphyletic Within Diaptosauria thalattosaurs were also considered very closely related to choristoderes and Proganosauria parareptiles Comparisons were also made with Parasuchia phytosaurs Lacertilia lizards and Proterosuchus but dismissed as incompatible with proposed evolutionary schemes 23 Further discussion by Merriam 1905 considered a relationship with ichthyosaurs due to their similar ecology but questioned why their skull and vertebral anatomy would diverge so widely if they had a close common ancestor He proposed that potential similarities were best explained as convergent evolution The possibility that thalattosaurs diverged from reptiles close to lizards such as Paliguana was described in more detail with thalattosaurs serving as an short lived early attempt for near lizards to return to the sea an evolutionary process later repeated more successfully when mosasaurs evolved from true lizards Nevertheless Merriam found no clear evidence that any previously known reptile group was directly ancestral to thalattosaurs or vice versa They were probably descended from land dwelling Permian reptiles and not closely related to other marine reptile groups which first evolved in the Triassic 3 Later 20th century workers typically placed thalattosaurs close to rhynchocephalians or squamates as part of the group now known as Lepidosauromorpha 14 Modern classification and external relationships edit nbsp Thalattosaurs have been proposed to be related to various reptile groups including archosauromorphs 5 sauropterygians 4 and ichthyosaurs 6 7 such as Temnodontosaurus pictured The rising popularity of cladistics in the late 1980s had some effects on thalattosaur classification Continued research has helped cement some aspects of reptile classification such as how Sauria a major clade of diapsids including all living reptiles split in the Permian into two branches Lepidosauromorpha which leads to lizards snakes and the tuatara and Archosauromorpha which leads to crocodilians and dinosaurs including birds While many paleontologists still consider thalattosaurs probable lepidosauromorphs a few studies such as a phylogenetic analysis by Evans 1988 have instead suggested that they may be on the archosauromorph branch of Sauria 5 Rieppel 1998 s re evaluation of the thalattosaur like pachypleurosaur Hanosaurus argued that thalattosaurs have affinities with the aquatic reptile order Sauropterygia which itself is aligned with turtles within an expansive interpretation of Lepidosauromorpha 4 An analysis by Muller 2004 has even considered thalattosaurs to belong just outside of Sauria Unusually thalattosaurs have an affinity to shift near ichthyosaurs in the group Ichthyosauromorpha when certain basal saurians or near saurians are excluded from the data set 6 Some analyses derived from Muller 2004 group thalattosaurs in a marine superclade with ichthyosauromorphs and sauropterygians and sometimes with turtles archosauromorphs or lepidosauromorphs as well For example Simoes et al 2022 classify thalattosaurs as the sister group of the sauropterygians with their clade being sister to the ichthyosauromorphs and all three being basal archosauromorphs However cladograms generated by these analyses change in unpredictable ways through alterations to their methodology such as including or excluding aquatic adaptations or switching between parsimony and bayesian inference leading some to have concerns over the validity of the marine superclade 7 8 24 25 26 While thalattosaurs are almost certainly diapsids the large degree of uncertainty surrounding their outgroup relations has led most modern paleontologists to classify them as Diapsida incertae sedis Internal relationships edit One of the first phylogenetic analyses specifically focusing on thalattosaurs was part of Nicholls 1999 s reevaluation of Thalattosaurus and Nectosaurus She used a restricted definition of Thalattosauria which referred to a clade including all reptiles more closely related to Nectosaurus and Hescheleria than to Endennasaurus or Askeptosaurus The more inclusive group including Askeptosaurus Endennasaurus and traditional thalattosaurs was given the name Thalattosauriformes 14 1 20 However most studies focusing on the group have preferred to retain a broader definition of Thalattosauria equivalent to Nicholls Thalattosauriformes clade including reptiles close to both Askeptosaurus and Thalattosaurus In these studies Thalattosauria is divided into two branches one leading to relatives of Askeptosaurus and the other leading to relatives of Thalattosaurus The clade containing reptiles closer to Thalattosaurus than to askeptosaurids is given the name Thalattosauroidea and sometimes called Thalattosauridea 9 19 Meanwhile the clade containing reptiles closer to askeptosaurids is termed Askeptosauroidea 10 13 2 or Askeptosauridea 9 19 Subsequent studies since Nicholls 1999 started to include more taxa including newly described Chinese taxa such as Anshunsaurus and Xinpusaurus 10 27 However uncertainty over Endennasaurus s thalattosaurian ancestry led to it being excluded from these analyses After Muller et al 2005 re affirmed that Endennasaurus was closely related to Askeptosaurus 12 all thalattosaurs known at the time were finally combined into phylogenetic analyses 9 20 Studies by Rieppel Liu Cheng Wu and others continued to identify new Chinese taxa such as Miodentosaurus and various species of Anshunsaurus and Xinpusaurus though homoplasy in these new taxa has led to little resolution in the structure of the two major branches of Thalattosauria 13 28 In an attempt to remedy this problem new phylogenetic analyses were developed by Liu et al 2013 during the description of Concavispina 19 and Druckenmiller et al 2020 during the description of Gunakadeit 2 The internal relationships of thalattosaurs is still considered tentative and inconclusive although the fundamental structure of the group a monophyletic Thalattosauria clade split into askeptosauroids and thalattosauroids is very stable Some paleontologists have attempted to divide thalattosaurs into families One family Askeptosauridae is typically considered to include Askeptosaurus and Anshunsaurus 9 with a few studies also placing Miodentosaurus 13 or Endennasaurus 12 within it Another family Thalattosauridae was originally used to group Thalattosaurus and Nectosaurus 3 was later redefined to exclude Nectosaurus 14 and later still encompassed practically all thalattosauroids 19 Many thalattosaur focused paleontologists avoid using family names due to their inconsistent usage and questionable validity The cladogram presented here is based on the largest and most recent analysis of thalattosaur ingroup relations Druckenmiller et al 2020 It shows all thalattosaur genera except for the fragmentary Agkistrognathus 2 Thalattosauria Askeptosauroidea AskeptosaurusEndennasaurusAnshunsaurus huangnihensisAnshunsaurus huangguoshuensisAnshunsaurus wushaensisMiodentosaurusThalattosauroidea GunakadeitThalattosaurusNectosaurusClaraziaHescheleriaParalonectesConcavispinaXinpusaurusList of genera editOther thalattosaurs include unnamed or indeterminate species from the Kossen Formation of Austria 20 the Sulphur Mountain 29 and Pardonet Formations 30 of British Columbia the Natchez Pass Formation of Nevada 30 21 and the Vester Formation of Oregon 31 32 Blezingeria a fragmentary marine reptile from the Muschelkalk of Germany has also been considered a thalattosaur by some authors but this assignment is uncertain at best 1 Neosinasaurus a poorly known reptiles from the Xiaowa Formation of China has also been considered a thalattosaur 13 Thalattosaurian fragments are known from Spanish Muschelkalk 33 A previously unnamed specimen from Alaska 34 was described as Gunakadeit in 2020 2 Name Year Formation Location Notes ImagesAgkistrognathus 1993 Sulphur Mountain Formation Middle Triassic nbsp Canada nbsp British Columbia A poorly known thalattosauroid with strong jawsAnshunsaurus 1999 Zhuganpo Formation Xiaowa Formation Middle Triassic Late Triassic Ladinian Carnian nbsp China A large askeptosauroid known from three species One of the few thalattosaurs for which a growth series is known nbsp Askeptosaurus 1925 Grenzbitumenzone Middle Triassic Anisian nbsp Switzerland nbsp Italy The namesake of Askeptosauroidea and one of the most well known European thalattosaurs nbsp Clarazia 1936 Grenzbitumenzone Middle Triassic Anisian nbsp Switzerland A thalattosauroid related to Hescheleria nbsp Concavispina 2013 Xiaowa Formation Late Triassic Carnian nbsp China The largest known thalattosauroid a close relative of Xinpusaurus nbsp Endennasaurus 1984 Zorzino Limestone Late Triassic Norian nbsp Italy An unusual askeptosauroid with a pointed toothless snout nbsp Gunakadeit 2020 Hound Island Volcanics Late Triassic Norian nbsp United States nbsp Alaska A basal thalattosauroid the most well preserved specimen from North America nbsp Hescheleria 1936 Grenzbitumenzone Middle Triassic Anisian nbsp Switzerland A hook snouted thalattosauroidMiodentosaurus 2007 Xiaowa Formation Late Triassic Carnian nbsp China A very large askeptosauroid with a short snout nbsp Nectosaurus 1905 Hosselkus Limestone Late Triassic nbsp United States nbsp California One of the first thalattosaurs to be described along with Thalattosaurus nbsp Paralonectes 1993 Sulphur Mountain Formation Middle Triassic nbsp Canada nbsp British Columbia A poorly known thalattosauroid with a downcurved snoutWapitisaurus 1988 Sulphur Mountain Formation Early Triassic nbsp Canada nbsp British Columbia A thalattosauroid initially described as a weigeltisaurid 35 Wayaosaurus 2000 Wayao Member Late Triassic Carnian nbsp China A large askeptosauroid similar to Miodentosaurus Initially described as a pachypleurosaur 36 Thalattosaurus 1904 Hosselkus Limestone Sulphur Mountain Formation Middle Triassic Late Triassic nbsp United States nbsp California nbsp Canada nbsp British Columbia The namesake of Thalattosauria and the first genus to be described Known from at least two species nbsp Xinpusaurus 2000 Zhuganpo Formation Xiaowa Formation Middle Triassic Late Triassic Ladinian Carnian nbsp China A thalattosauroid with an unusual notched skull Known from four species though not all may be valid nbsp References edit a b c d e f g Muller Johannes 2005 The anatomy of Askeptosaurus italicus from the Middle Triassic of Monte San Giorgio and the interrelationships of thalattosaurs Reptilia Diapsida Canadian Journal of Earth Sciences 42 7 1347 1367 Bibcode 2005CaJES 42 1347M doi 10 1139 e05 030 a b c d e f g h i j k Druckenmiller Patrick S Kelley Neil P Metz Eric T Baichtal James 4 February 2020 An articulated Late Triassic Norian thalattosauroid from Alaska and ecomorphology and extinction of Thalattosauria Scientific Reports 10 1 1746 Bibcode 2020NatSR 10 1746D doi 10 1038 s41598 020 57939 2 ISSN 2045 2322 PMC 7000825 PMID 32019943 a b c d Merriam John C 1905 The Thalattosauria a group of marine reptiles from the Triassic of California Memoirs of the California Academy of Sciences 5 1 1 52 a b c Rieppel Olivier 1998 09 15 The systematic status of Hanosaurus hupehensis Reptilia Sauropterygia from the Triassic of China Journal of Vertebrate Paleontology 18 3 545 557 Bibcode 1998JVPal 18 545R doi 10 1080 02724634 1998 10011082 ISSN 0272 4634 a b c d e Evans Susan E 1988 The early history and relationships of the Diapsida In Benton M J ed The Phylogeny and Classification of the Tetrapods Volume 1 Amphibians Reptiles Birds Oxford Clarendon Press pp 221 260 a b c Muller Johannes 2004 The relationships among diapsid reptiles and the influence of taxon selection In Arratia G Wilson M V H Cloutier R eds Recent Advances in the Origin and Early Radiation of Vertebrates Verlag Dr Friedrich Pfeil pp 379 408 ISBN 978 3 89937 052 2 a b c Chen Xiao hong Motani Ryosuke Cheng Long Jiang Da yong Rieppel Olivier 2014 07 11 The Enigmatic Marine Reptile Nanchangosaurus from the Lower Triassic of Hubei China and the Phylogenetic Affinities of Hupehsuchia PLOS ONE 9 7 e102361 Bibcode 2014PLoSO 9j2361C doi 10 1371 journal pone 0102361 ISSN 1932 6203 PMC 4094528 PMID 25014493 a b c Motani Ryosuke Jiang Da Yong Chen Guan Bao Tintori Andrea Rieppel Olivier Ji Cheng Huang Jian Dong 5 November 2014 A basal ichthyosauriform with a short snout from the Lower Triassic of China Nature 517 7535 485 488 Bibcode 2015Natur 517 485M doi 10 1038 nature13866 ISSN 1476 4687 PMID 25383536 S2CID 4392798 a b c d e f Liu J Rieppel O 2005 Restudy of Anshunsaurus huangguoshuensis Reptilia Thalattosauria from the Middle Triassic of Guizhou China PDF American Museum Novitates 3488 1 34 doi 10 1206 0003 0082 2005 488 0001 roahrt 2 0 co 2 ISSN 0003 0082 S2CID 55642315 a b c d e f Rieppel O Liu J Bucher H 2000 09 25 The first record of a thalattosaur reptile from the Late Triassic of southern China Guizhou Province PR China Journal of Vertebrate Paleontology 20 3 507 514 doi 10 1671 0272 4634 2000 020 0507 TFROAT 2 0 CO 2 ISSN 0272 4634 S2CID 140706921 a b Rieppel O Muller J Liu J 2005 Rostral structure in Thalattosauria Reptilia Diapsida Canadian Journal of Earth Sciences 42 12 2081 2086 Bibcode 2005CaJES 42 2081R doi 10 1139 e05 076 a b c d e Muller Johannes Renesto Silvio Evans Susan E 2005 The marine diapsid reptile Endennasaurus from the Upper Triassic of Italy Palaeontology 48 1 15 30 Bibcode 2005Palgy 48 15M doi 10 1111 j 1475 4983 2004 00434 x ISSN 1475 4983 a b c d e Wu Xiao Chun Cheng Yen Nien Sato Tamaki Shan Hsi Yin 2009 Miodentosaurus brevis Cheng et al 2007 Diapsida Thalattosauria Its postcranial skeleton and phylogenetic relationships Vertebrata PalAsiatica 47 1 1 20 a b c d e Nicholls Elizabeth L April 15 1999 A reexamination of Thalattosaurus and Nectosaurus and the relationships of the Thalattosauria Reptilia Diapsida PaleoBios 19 1 1 29 Xing Lida Klein Hendrik Lockley Martin G Wu Xiao chun Benton Michael J Zeng Rong Romilio Anthony 2020 11 15 Footprints of marine reptiles from the Middle Triassic Anisian Ladinian Guanling Formation of Guizhou Province southwestern China The earliest evidence of synchronous style of swimming Palaeogeography Palaeoclimatology Palaeoecology 558 109943 Bibcode 2020PPP 558j9943X doi 10 1016 j palaeo 2020 109943 ISSN 0031 0182 S2CID 221866075 Massare Judy A 1987 06 18 Tooth morphology and prey preference of Mesozoic marine reptiles Journal of Vertebrate Paleontology 7 2 121 137 Bibcode 1987JVPal 7 121M doi 10 1080 02724634 1987 10011647 ISSN 0272 4634 Li Zhi Guang Jiang Da Yong Rieppel Olivier Motani Ryosuke Tintori Andrea Sun Zuo Yu Ji Cheng 2016 11 01 A new species of Xinpusaurus Reptilia Thalattosauria from the Ladinian Middle Triassic of Xingyi Guizhou southwestern China Journal of Vertebrate Paleontology 36 6 e1218340 Bibcode 2016JVPal 36E8340L doi 10 1080 02724634 2016 1218340 ISSN 0272 4634 S2CID 132418823 Jiang Da Yong Motani Ryosuke Tintori Andrea Rieppel Olivier Ji Cheng Zhou Min Wang Xue Lu Hao Li Zhi Guang 2020 09 25 Evidence Supporting Predation of 4 m Marine Reptile by Triassic Megapredator iScience 23 9 101347 Bibcode 2020iSci 23j1347J doi 10 1016 j isci 2020 101347 ISSN 2589 0042 PMC 7520894 PMID 32822565 a b c d e Liu J Zhao L J Li C He T 2013 Osteology of Concavispina biseridens Reptilia Thalattosauria from the Xiaowa Formation Carnian Guanling Guizhou China Journal of Paleontology 87 2 341 Bibcode 2013JPal 87 341L doi 10 1666 12 059R1 1 S2CID 83684967 a b c d e Muller Johannes 2007 03 12 First record of a thalattosaur from the Upper Triassic of Austria Journal of Vertebrate Paleontology 27 1 236 240 doi 10 1671 0272 4634 2007 27 236 FROATF 2 0 CO 2 ISSN 0272 4634 S2CID 85938927 a b Sues Hans Dieter Clark James 2005 Thalattosaurs from the Late Triassic Carnian of Nevada and their paleobiogeographic significance PDF SVP 65th Annual Meeting Abstracts of Papers Chai Jun Jiang Da Yong Rieppel Olivier Motani Ryosuke Tintori Andrea Druckenmiller Patrick 4 June 2021 A New Specimen of Thalattosauroidea Reptilia Thalattosauriformes from the Middle Triassic Ladinian of Xingyi Southernwestern China Journal of Vertebrate Paleontology 40 6 e1881965 doi 10 1080 02724634 2020 1881965 ISSN 0272 4634 S2CID 233970875 Merriam John C 1904 A new marine reptile from the Triassic of California University of California Department of Geology Bulletin 3 419 421 Jiang Da Yong Motani Ryosuke Huang Jian Dong Tintori Andrea Hu Yuan Chao Rieppel Olivier Fraser Nicholas C Ji Cheng Kelley Neil P Fu Wan Lu Zhang Rong 2016 05 23 A large aberrant stem ichthyosauriform indicating early rise and demise of ichthyosauromorphs in the wake of the end Permian extinction Scientific Reports 6 1 26232 Bibcode 2016NatSR 626232J doi 10 1038 srep26232 ISSN 2045 2322 PMC 4876504 PMID 27211319 Scheyer Torsten M Neenan James M Bodogan Timea Furrer Heinz Obrist Christian Plamondon Mathieu 2017 06 30 A new exceptionally preserved juvenile specimen of Eusaurosphargis dalsassoi Diapsida and implications for Mesozoic marine diapsid phylogeny Scientific Reports 7 1 4406 Bibcode 2017NatSR 7 4406S doi 10 1038 s41598 017 04514 x ISSN 2045 2322 PMC 5493663 PMID 28667331 Simoes Tiago R Kammerer Christian F Caldwell Michael W Pierce Stephanie E 2022 08 19 Successive climate crises in the deep past drove the early evolution and radiation of reptiles Science Advances 8 33 eabq1898 Bibcode 2022SciA 8 1898S doi 10 1126 sciadv abq1898 ISSN 2375 2548 PMC 9390993 PMID 35984885 Jiang Da Yong Maisch Michael W Sun Yuan Lin Matzke Andreas T Hao Wei Cheng 2004 03 25 A new species of Xinpusaurus Thalattosauria from the Upper Triassic of China Journal of Vertebrate Paleontology 24 1 80 88 Bibcode 2004JVPal 24 80J doi 10 1671 1904 7 ISSN 0272 4634 S2CID 84809090 Cheng Long Chen Xiaohong Zhang Baomin Cai Yongjian 2011 New Study of Anshunsaurus huangnihensis Cheng 2007 Reptilia Thalattosauria Revealing its Transitional Position in Askeptosauridae Acta Geologica Sinica English Edition 85 6 1231 1237 doi 10 1111 j 1755 6724 2011 00584 x ISSN 1755 6724 S2CID 129819570 Nicholls Elizabeth L Brinkman Donald March 1993 New thalattosaurs Reptilia Diapsida from the Triassic Sulphur Mountain Formation of Wapiti Lake British Columbia Journal of Paleontology 67 2 263 278 Bibcode 1993JPal 67 263N doi 10 1017 S0022336000032194 ISSN 0022 3360 S2CID 132095082 a b Storrs Glenn W 1991 12 01 Note on a second occurrence of thalattosaur remains Reptilia Neodiapsida in British Columbia Canadian Journal of Earth Sciences 28 12 2065 2068 Bibcode 1991CaJES 28 2065S doi 10 1139 e91 186 ISSN 0008 4077 Metz Eric T Druckenmiller Patrick S Carr Gregory 2015 A new thalattosaur from the Vester Formation Carnian of Central Oregon USA SVP 75th Annual Meeting Abstracts of Papers Triassic Reptile Skewered Clams with Teeth on Roof of Its Mouth Live Science 13 November 2015 Rieppel O Hagdorn H 1998 Fossil reptiles from the Spanish Muschelkalk mont ral and alcover province Tarragona Historical Biology 13 77 97 doi 10 1080 08912969809386575 Petersen C 13 July 2011 Recent fossil discovery near Keku Strait a first for Alaska Capital City Weekly Retrieved 14 July 2011 Bastiaans Dylan Buffa Valentin Scheyer Torsten M November 2023 To glide or to swim A reinvestigation of the enigmatic Wapitisaurus problematicus Reptilia from the Early Triassic of British Columbia Canada Royal Society Open Science 10 11 doi 10 1098 rsos 231171 ISSN 2054 5703 PMC 10646446 Chai Jun Lu Hao Jiang Da Yong Motani Ryosuke Druckenmiller Patrick S Tintori Andrea Kelley Neil P 2023 10 23 Reidentification of Wayaosaurus bellus and the conservative trunk and tail shape of Thalattosauria Historical Biology 1 20 doi 10 1080 08912963 2023 2264886 ISSN 0891 2963 Retrieved from https en wikipedia org w index php title Thalattosauria amp oldid 1200327491, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.