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Cymbospondylus

November 23, 2023

Cymbospondylus (meaning "cupped vertebrae") is an extinct genus of large ichthyosaurs that lived in the Middle Triassic (Anisian), in what are now North America and Europe. The taxon was erected by Joseph Leidy in 1868 on the basis of vertebrae discovered in Nevada, before subsequent research found more complete fossil remains which were described by John Campbell Merriam in 1908. While many species have been assigned to the genus, only five are recognized as valid, the others being considered synonymous, doubtful or belonging to other genera.

Cymbospondylus
Temporal range: Middle Triassic, Middle to Late Anisian
Partial holotype skeleton of C. buchseri (PIMUZ T 4351), on display at the Paleontological Museum of the University of Zurich, Switzerland.
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Order: Ichthyosauria
Family: Cymbospondylidae
Genus: Cymbospondylus
Leidy, 1868
Species
List of species
    • C. piscosus Leidy, 1868 (type, nomen dubium)
    • C. petrinus Leidy, 1868
    • C. buchseri Sander, 1989
    • C. nichollsi Fröbisch et al., 2006
    • C. duelferi Klein et al., 2020
    • C. youngorum Sander et al., 2021
Synonyms
List of synonyms
  • Synonyms of genus
      • Chonespondylus Leidy, 1868
    Synonyms of C. petrinus
      • Chonespondylus grandis Leidy, 1868
      • Cymbospondylus (?) grandis (Leidy, 1868) Merriam, 1902

As an ichthyosaur, Cymbospondylus had flippers for limbs and a fin on the tail. The different species of Cymbospondylus vary greatly in size, with the smallest reaching around 4 metres (13 ft) to 5 metres (16 ft) in length. The largest known species, C. youngorum, is estimated to be around 17 metres (56 ft) long, making Cymbospondylus one of the largest ichthyosaurs identified to date, but also one of the largest animals known of its time. The animal has a skull with a long, thin snout, proportionally small eye sockets, an elongated trunk, and a less pronounced tail than in later ichthyosaurs.

The genus was formerly classified as a representative of the Shastasauridae, but more recent studies consider it to be more basal, considered to be the only recognized member of the Cymbospondylidae. The teeth are conical and pointed, having longitudinal ridges, indicating a diet of fishes and cephalopods, and possibly other marine reptiles for larger species.

Research history edit

Discovery and identification edit

In 1868, American paleontologist Joseph Leidy described two new genera of ichthyosaurs dating from the Middle Triassic on the basis of fossil vertebrae discovered in several localities in Nevada, United States, all of which were transmitted through the geologist Josiah Dwight Whitney. One of the two genera he names is Cymbospondylus, to which he assigns two species. The first one is C. piscosus, which Leidy named on the basis of several more or less complete vertebrae having been discovered in different mountain ranges of the state.[1] The holotype of C. piscosus is a block containing five incomplete dorsal vertebrae that was discovered in the New Pass Range, northwest of the city of Austin.[2][3][4][a] Leidy attributes two other specimens to the species, one being a series of eight caudal vertebrae discovered at Star Canyon in the Humboldt Range, and the other being a single vertebrae, probably also caudal, discovered in the Toiyabe Range, in the Reese River, northeast of Austin. The second species is C. petrinus, named from five large dorsal vertebrae discovered in the Humboldt Range.[1] The genus name Cymbospondylus derives from the Ancient Greek words κύμβη (kymbē, "cup") and σπόνδυλος (spondylos, "vertebra"), all taken together literally meaning cupped vertebrae, in reference to the rather obvious shape of this part of the skeleton.[5] As no type species was designated in the 1868 article, it was not until 1902 that John Campbell Merriam assigned C. piscosus to this title,[6] the latter being the first named in Leidy's official description of the genus.[1]

 
 
Sketches representing the skull and fossil skeleton of UCMP 9950, one of the specimens of C. petrinus having been discovered during expeditions led by the University of California at the beginning of the 20th century

Between 1901 and 1907, the University of California sent ten expeditions across different corners of the United States to recover as many ichthyosaur fossils as possible dating from the Triassic, in order to be analyzed in more detail. These same expeditions were led by Merriam and were almost all financed by Annie Montague Alexander. The research finally collected more than fifty specimens, each preserving a significant portion of their skeletons.[7] Among these fossils are several specimens of excellent quality from C. petrinus, including an almost complete skeleton, cataloged as UCMP 9950, all discovered in the origin locality mentioned by Leidy. Like the other ichthyosaurs mentioned in the work, Merriam describes the taxon in more depth based on new known fossil material.[8][9] Merriam's anatomical descriptions of C. petrinus are still recognized as viable, and are even used in comparative anatomy in later studies of the genus Cymbospondylus, thus lending validity to the species.[3][10][4][11][12]

Unlike C. petrinus, no additional fossils of the type species C. piscosus have been discovered. In Merriam's works, the latter recognized C. piscosus as distinct on the basis of its smaller size and by the regularly concave faces of the vertebrae of the holotype specimen.[6][13] Only later did the validity of C. piscosus begin to be questioned, with authors mentioning the questionable nature of the fossils.[3] In their work published in 2003, Christopher McGowan and Ryosuke Motani assert that the fossil vertebrae attributed to C. piscosus do not present distinctive characteristics to prove its validity. This would therefore pose a taxonomic problem, because if the type species turns out to be a nomen dubium, the genus to which it is classified will also be. To try to resolve this problem, the two authors suggest that the most complete known skeleton of C. petrinus (UCMP 9950) could be designated as a neotype of C. piscosus.[14] However, as no formal ICZN appeal has been established to date, the name C. petrinus for the proposed neotype should be retained until further notice.[4] In 2017, Andrzej Stefan Wolniewicz referred all additional fossil material described by Merriam to C. piscosus and synonymized C. petrinus to the latter.[15] However, As the proposal remains restricted to a PhD thesis, it is defined as an unpublished work per Article 8 of the ICZN and therefore is not formally valid.[16][17] Therefore, C. piscosus is not included in most descriptions of the genus, although it is still recognized as the type species.[11][12]

Recognized species edit

In 1927, a partial skeleton of a large ichthyosaur was discovered in the Grenzbitumenzone Member at the Monte San Giorgio fossil site in Switzerland and was mentioned by Bernhard Peyer in 1944.[18] In 1964, Emil Kuhn-Schnyder [de] published a photo of this same specimen and suggested that it shared affinities with Cymbospondylus, then only known from North America at that time.[19] The specimen in question, cataloged as PIMUZ T 4351, was formally described for the first time in 1989 under the name C. buchseri by Paul Martin Sander [de], thus confirming the presence of the genus in Europe. The specific epithet buchseri is named in honor of Fritz Buchser, a member of the Museum of Paleontology at the University of Zurich, the latter having prepared the holotype skeleton in 1931 as his first major professional achievement.[3]

 
Partial holotype skeleton of C. nichollsi (FMNH PR 2251), on display at the Field Museum, Chicago

While C. petrinus was for a time seen as the only valid species of the genus known from Nevada, it was not until the early 21th century that later discoveries contradicted this assertion. In 2006, Nadia Fröbisch and colleagues described the species C. nichollsi based on an incomplete skeleton, cataloged as FMNH PR 2251, which was discovered in the Augusta Mountains. The fossil was originally exhumed in the hope of finding a new specimen of C. petrinus, but the number of significant anatomical differences led researchers to establish a separate species. The species in question is named in honor to Elizabeth Nicholls, an American-Canadian paleontologist specializing in Triassic marine reptiles, who made a major contribution to the ichthyosaurs that lived during this period.[4][5] In their description, Fröbisch and his colleagues consider that an almost complete skull attributed to C. petrinus, cataloged as UCMP 9913,[b] could in fact belong to C. nichollsi, because it presents similar characteristics. However, as the specimen has been relatively little described in the scientific literature, the authors do not know whether it would show intraspecific variations within C. petrinus, judging therefore that a more in-depth description is necessary.[4] Subsequent studies carried out on the genus Cymbospondylus nevertheless always refer specimen UCMP 9913 to C. petrinus,[21] but still mentioning some notable differences.[11]

In 2011, a notable new Cymbospondylus fossil was also discovered in the Augusta Mountains, then exhumed three years later in 2014. This discovery was a partial skeleton that was briefly mentioned in a 2013 study describing the large contemporary ichthyosaur Thalattoarchon,[22] as well as in a 2018 histological study, where it is among the specimens analyzed.[23] However, it was only later that the specimen, cataloged as LACM DI 158109, was formally designated a holotype for the species C. duelferi by Nicole Klein and colleagues in 2020. The species name duelferi was chosen in honor of Olaf Dülfer, fossil preparer who made many practical contributions to research on Mesozoic marine reptiles.[11][5]

In 1998, still in the Augusta Mountains, Sander discovered another notable specimen of Cymbospondylus, and exhumed it with his colleagues between 2014 and 2015.[21] After preparation of the fossils, the specimen, cataloged as LACM DI 157871, consists of a large complete skull, some cervical vertebrae, the right humerus as well as fragments of the shoulder girdle. It was in 2021, just one year after the identification of C. duelferi, that a new species of the genus was named from this specimen in Science Magazine by Sander and his colleagues.[12] This species, C. youngorum, is named in honor of Tom and Bonda Young,[12] these latter having financially supported the fossil exhumation project.[24] However, in their main article, the anatomical description of this taxon is limited and is mainly focused on the evolution of the size of the oldests ichthyosaurs,[12] the detailed anatomical descriptions being documented in a secondary article.[21]

Formerly assigned species edit

Although many valid and distinct species have been assigned to Cymbospondylus throughout its taxonomic history, some of these have been reassigned to different genera or are considered synonymous or even doubtful.[4] In his 1868 paper describing Cymbospondylus, Leidy also named another ichthyosaur as Chonespondylus grandis, based on a fragment of a caudal vertebra found at Star Canyon in the Humboldt Range.[1] In 1902, Merriam listed Leidy's discoveries, but having found no features distinguishing Chonespondylus from Cymbospondylus, he decided to synonymize the first name with the second, under the name C. (?) grandis.[6] In 1908, after the discovery of new very complete fossils from C. petrinus, Merriam decided to definitively synonymize C. (?) grandis with the latter.[25][4] In 1873, John Whitaker Hulke described a species of Ichthyosaurus, I. polaris, named after two sets of vertebrae associated with rib fragments that were discovered on Isfjorden, Spitsbergen, an island in Norway.[26] In 1902, the Russian paleontologist Nikolai Nikolajewitch Yakowlew moved the species within the genus Shastasaurus, referring an isolated vertebra to this taxon.[27] In 1908, Merriam in turn moved this species into the genus Cymbospondylus, under the name C. (?) polaris. Merriam still expresses some hesitation about this attribution, asserting that the true generic identity cannot be determined for this species due to the few known fossils.[28] In 1910, the species was moved to the newly erected genus Pessosaurus by Carl Wiman, as P. polaris,[29] to which it has always been referred by this name ever since. Although this taxon is declared as a nomen dubium according to studies published at the end of the 20th century, it is seen as a species inquirenda according to McGowan and Motani in 2003, i.e. a taxon under investigation, as numerous fossils that have since been referred to P. polaris could make it once again as valid.[30]

Still in his 1908 work, Merriam erects two new species of the genus, coming from the same locality from which C. petrinus is known. The first is C. nevadanus, named from fossils constituting a hind limb. Merriam distinguishes this species from C. petrinus on the basis of its larger size and the different proportions of some bones.[31] However, the C. nevadanus material is not sufficiently diagnostic to support the validity of this species, and is considered a species inquireda according to McGowan and Motani in 2003.[32][4] The second species erected by Merriam is C. natans, which he names from an isolated humerus, to which he attributes a radius, an ulna, carpals and a series of caudal vertebrae. In his article, he notes the similarity of these bones with those of Mixosaurus,[33] leading the author to rename the species to M (?) natans in 1911.[34] For much of the 20th century, M (?) natans was recognized as a valid species of Mixosaurus until 1999, when it was synonymized with M. nordenskioeldii.[35] Although M. nordenskioeldii itself has been considered a nomen dubium since 2005,[36] the fossil material concerned remains attributed to the family Mixosauridae and is no longer attributable to Cymbospondylus.[4]

In a review of German ichthyosaurs published in 1916, Friedrich von Huene described two other species of Cymbospondylus whose fossils were discovered in the Muschelkalk of the town of Laufenburg in the state of Baden-Württemberg. The first is C. germanicus, which Huene names from a single vertebra associated with other vertebrae as well as a basioccipital.[37] Immediately afterwards, the validity of C. germanicus was questioned the same year by Ferdinand Broili, the latter citing that the fossils concerned did not present notable features to be recognized as distinct.[38][4] Additionally, the fossils appear to be very poorly preserved to be distinguished as a valid species,[3] and is therefore a nomen dubium.[39][40]

 
Fossil skeleton of Guizhouichthyosaurus exhibited at the Geological Museum of Guizhou, China, to which one of the specimens belonging to this genus was assigned to Cymbospondylus

In 2002, paleontologists Chun Li and Hai-Lu You named a new species as C. asiaticus based on a complete skull discovered in the Xiaowa Formation, located in Guizhou, China, and it was considered as the most recent known representative of the genus.[41] In the official description of C. nichollsi published in 2006, the authors are doubtful regarding the attribution of this species to Cymbospondylus. They mention that the latter does not share any notable commonalities with the three then recognized species of the genus at the time, namely C. petrinus, C. buchseri and C. nichollsi, and suggest that it would in fact be a junior synonym of Guizhouichthyosaurus tangae.[4] The synonymy proposed by Fröbisch and colleagues was accepted in 2009 by Qing-Hua Shang and Li after the discovery of an almost complete skeleton of Guizhouichthyosaurus from the same formation. However, considering that Guizhouichthyosaurus is similar to Shastasaurus, they moved the species as S. tangae.[42] This synonymy was contested the following year, in 2010, in which Michael W. Maisch provisionally reclassified Guizhouichthyosaurus as a distinct genus.[43] In 2011, Sander and his colleagues considered that Guizhouichthyosaurus was distinct,[44] while a 2013 study by Shang and Li still synonymizes it with Shastasaurus.[45] However, numerous phylogenetic and morphological analyzes subsequently published consider Guizhouichthyosaurus to be distinct genus from Shastasaurus.[46][47][48][49]

Description edit

 
Life restoration of C. petrinus

Ichthyosaurs like Cymbospondylus are marine reptiles, with two pairs of flippers for limbs and a fin on the tail.[50][51] Being one of the oldest and most basal (least derived) ichthyosaurs known from the fossil record, Cymbospondylus has an anatomy very different from those of the parvipelvians, the latter presenting the archetypal anatomy of this group of this now extinct marine reptiles (long and thin snout, large eye sockets and a homocercal caudal fin). The anatomy of Cymbospondylus, like other non-parvipelvians ichthyosaurs, is more "primitive", having a poorly developed or absent dorsal fin as well a less pronounced tail.[52] In its overall anatomy, Cymbospondylus has a long trunk and a hypocercal fin.[51][53] The anatomy of this type of ichthyosaur is similar to those of other marine vertebrates such as mosasaurs, marine crocodylomorphs, and archaeocete whales through convergent evolution.[54]

Size edit

 
Life restoration and size comparison of a C. youngorum with a human

The size of Cymbospondylus varies greatly between recognized species.[4][11][21] Possessing a skull which would measure a total of 65–70 cm (26–28 in), C. duelferi is the smallest known species of the genus, having a size estimated at 4.3 m (170 in) long in the study officially describing it,[11] before being estimated at 5 m (200 in) in the secondary article by Sander and colleagues in 2021.[21] The estimated size of the C. buchseri holotype is slightly larger, reaching a length of 5.5 m (220 in) with a skull 68 cm (27 in) long.[3][49] Estimating the size of C. nichollsi is more complex, because although the holotype specimen is known from a significant portion of the skeleton, the latter preserves only half of the skull. However, based on the comparison with C. buchseri and C. petrinus, the total length of the skull is estimated at 97 cm (38 in) for an animal measuring 7.6 m (300 in) long.[4][11][21]

Estimates of the size of C. petrinus have changed relatively little since 1908, mainly due to the almost complete skeleton of specimen UCMP 9950, considered the best known specimen of Cymbospondylus.[55] Merriam suggests that C. petrinus would reach a size exceeding 9.1 m (360 in) in length based on specimens UCMP 9947 and 9950.[56][3][4] In 2020, Klein and colleagues increased the size estimate of C. petrinus a little further, seeing them as reaching 9.3 m (370 in) for a 1.16 m (46 in) skull.[11] In the secondary article published by Sander and colleagues in 2021, C. petrinus is estimated to be 12.56 m (494 in) long for the same cranial measurements.[21] The holotype specimen of C. youngorum having a skull measuring almost 2 m (79 in) long and its humerus being the second largest bone of this type recorded in an ichthyosaur, the maximum size of the animal is therefore estimated at 17.65 m (57.9 ft) for a weight of 44.7 metric tons (49.3 short tons).[c] This estimate not only makes C. youngourum one of the largest ichthyosaurians identified to date behind Shastasaurus sikanniensis, but also makes it one of the largest animals known of its time.[12] The antiquity as well as such an imposing size for an animal dating from the beginning of the Middle Triassic makes C. youngorum qualify as "the first aquatic giant" according to Lene Liebe Delsett and Nicholas David Pyenson.[24]

Evolution edit

Of particular interest is the rapid increase in body size undergone by ichthyosaurs early in their evolutionary history. Ichthyosaurs evolved from small (skull length 55 mm) ancestors such as Cartorhynchus to giant forms like C. youngorum in the span of only 2.5 million years. Cetaceans meanwhile, which originated under similar conditions (following the mass extinction at the end of the Cretaceous period eradicating much of marine tetrapod diversity) took notably longer to obtain similar sizes. Between Pakicetus (skull width 127 mm) and Basilosaurus isis (skull width 600 mm) a total of 10 to 14 million years passed, almost five times as much as between Cartorhynchus and Cymbospondylus youngorum. In toothed whales, the size increase likewise took notably longer with around 25 million years passing between the basal Simocetus and the massive Livyatan. In their 2021 study Sander, Griebeler, Schmiz and their colleagues determined that ichthyosaurs underwent rapid size increase early on in their evolutionary history, in particular among Cymbospondylus and early merriamosaurs, while whales obtained great sizes relatively slowly. Even when restricting the analysis to only observe the growth in members of Pelagiceti (fully aquatic whales) to account for the varying degrees of aquatic adaptations, cetaceans still reached large body sizes much slower than ichthyosaurs. Meanwhile, after this initial burst the overall size of ichthyosaurs slowed down significantly, while among crown group whales body sizes increased initially slowly before accelerating rapidly later in their history. Sander et al. (2021) suggests that this rapid increase in body size may have been favored by the swift recovery of conodonts and ammonites following the Permian–Triassic extinction event. They further suggest that the evolution of large eyes, a trait present in many ichthyosaurs, further assisted them in exploiting this food source efficiently.[12][24]

Classification edit

The exact placement of Cymbospondylus within Ichthyosauria is poorly understood with its position varying between different studies, sometimes being recovered as more and sometimes as less derived than mixosaurids.[57] However it is agreed upon that Cymbospondylus is a rather basal member of the clade. Early phylogenies placed Cymbospondylus within Shastasauridae.[58] In the analysis of Bindellini et al. (2021), Cymbospondylus is placed at the very base of Ichthyosauria, outside the more derived members of Hueneosauria (including Mixosauridae and Shastasauridae).[49] In the publication describing C. duelferi, Klein and colleagues recovered that all species from the Fossil Hill Member in Nevada form a clade with one another.[11] The description of C. youngorum further supports this Nevadan clade, recovering C. youngorum as its most derived member while C. buchseri from Europe sits at the base of the genus. Much like in the analysis by Bindellini and colleagues, shastasaurids and mixosaurids were recovered as more derived ichthyosaurs.[12]

Like in many analyses prior, the type species was not included in the dataset due to its questionable and fragmentary nature.[12] This causes Cymbospondylus to have a very convoluted taxonomy, with it being suggested that the type species should be neglected.[4][11] The 2020 study reviewed the skull morphology of C. nichollsi and found the species to be valid, as the skull morphology accords with that of C. petrinus but is distinct enough to be separate, such as the upper temporal fenestra shape being oval in C. nichollsi but triangular in C. petrinus. In their phylogenetic analysis the authors did not recover a definite placement for C. buchseri, leading them to state that further study was needed to determine whether the Swiss species belonged to the genus.[11]

The following cladogram shows the position of Cymbospondylus within the Ichthyosauria after Sander et al., (2021):[12][21]

Palaeobiology edit

Massare & Callaway (1990) propose that many Triassic ichthyosaurs including Cymbospondylus may have been ambush predators. They argue that the long neck and torso would create drag in water while the laterally-flattened tail lacking the lunate fluke of later ichthyosaur taxa was more suited for an undulating swimming style. In their research they suggest that the elongated flexible bodies of early ichthyosaurs were built to support an undulating swimming style while the powerful tail would provide bursts of speed, both of which they cite as being possible adaptations to ambush prey. Massare & Callaway put this in contrast with Jurassic taxa, known for their compact, dolphin-like bodies adapted for more continuous swimming favorable to pursuit predators.[59] A strikingly similar bauplan was later obtained by two other large bodied marine amniote groups, mosasaurs and archaeocete whales.

Direct evidence for its diet exists for the medium-sized Cymbospondylus buchseri from Switzerland, which was found with its stomach contents exclusively consisting of hooks belonging to soft-bodied coleoid cephalopods. However, this does not exclude the possibility that C. buchseri could have taken larger prey, as its last meal may not reflect its typical diet accurately. Bindellini and colleagues suggest that C. buchseri may have employed a more forceful feeding strategy with a slower feeding cycle and a higher biteforce, supported by the animal's robust rostrum. In the Besano Formation, Cymbospondylus would have coexisted with two other smaller ichthyosaurs, the more gracile skulled Besanosaurus and small mixosaurs. Whether or not C. buchseri would have gone after large vertebrate prey, all three taxa display clear adaptations for different hunting strategies and prey preferences, however the details of their ecologies are not yet fully understood.[49]

 
Examples of longirostrine ichthyosaurs of the Triassic, E is C. buchseri

For C. youngorum a generalist diet of squid and fish is inferred based on the blunt and conical teeth in combination with the elongated rostrum. However, as with C. buchseri, Sander et al. entertain the possibility that C. youngorum could have fed on large-bodied vertebrates as well, including the other Cymbospondylus species of the region.[12]

Cymbospondylus was especially diverse in the Fossil Hill Member of the Favret and Prida formations of Nevada, which preserves a pelagic environment from the middle to late Anisian (ca. 246 - 242 million years ago). The Fossil Hill Member specifically preserves some of the greatest ichthyosaur diversity recorded, with eight distinct taxa present. This includes four species of Cymbospondylus, the early macropredatory Thalattoarchon, the small Phalarodon fraasi and P. callawayi as well as the poorly understood Omphalosaurus. Other animals present in the environment include a single sauropterygian, Augustasaurus hagdorni, halobiid bivalves but only few remains of fish. However this may be due to preservation bias. Despite this abundance of amniote fossils, analysis of the preserved ecosystem indicates that the Fossil Hill Member represents a stable food web largely dominated by said amniotes, occupying niches held by fish in modern marine ecosystems. Furthermore, the analysis conducted by Eva Maria Griebeler in the study of Sander and colleagues indicates the presence of an energy surplus, which may indicate the presence of an as of yet unknown animal in the Fossil Hill fauna or that this energy surplus may have been exploited by animals that evolved later. The ecosystem could have supported another giant marine reptile, assuming it were a bulk feeder specialised on small prey that's lower in the food chain. Such an animal could have for example been a filter feeder, a niche not yet occupied by any animal in the fauna of the Fossil Hill Member.[12]

Bindellini and colleagues notes that shastasaurid diversity may have profited from the extinction of Cymbospondylus, such as the Carnian of China, known to have supported three ecologically different shastasaurids but no examples of cymbospondylids, which had gone extinct by that time.[49]

Reproduction edit

The holotype of C. duelferi preserves three small strings of articulated vertebrae located within the trunk region of the specimen.[11] These vertebrae, which are only a third the size of the adult specimen, have been interpreted to represent the remains of three fetuses, with one specimen specifically facing towards the rear end of the putative mother. Following this interpretation, Cymbospondylus would have given live birth to a minimum of three offspring.[citation needed]

See also edit

Notes edit

  1. ^ Leidy gives a slightly different description of the holotype in his 1868 paper, stating that it had only four dorsal vertebrae, due to the preservation of the fossil block.[1]
  2. ^ This specimen is one of the several additional C. petrinus fossils described by Meriam in 1908.[20]
  3. ^ Sander and colleagues estimate animal size based on the 95 % prediction interval in C. youngorum. Two additional estimates were also made by the team. The prediction interval less than 95 % gives a length of 12.5 m (41 ft) for a weight of 14.7 metric tons (16.2 short tons), while that which is greater than 95 % gives a length of 25 m (82 ft) for a weight of 135.8 metric tons (149.7 short tons).[12] As estimates do not come close to 95 %, these measurements are not considered to be the probable maximum sizes of C. youngorum.[21]

References edit

  1. ^ a b c d e Joseph Leidy (1868). "Notice of some reptilian remains from Nevada". Proceedings of the Philadelphia Academy of Sciences. 20: 177–178.
  2. ^ Merriam 1908, p. 123.
  3. ^ a b c d e f g P. Martin Sander (1989). "The large ichthyosaur Cymbospondylus buchseri, sp. nov., from the Middle Triassic of Monte San Giorgio (Switzerland), with a survey of the genus in Europe". Journal of Vertebrate Paleontology. 9 (2): 163–173. doi:10.1080/02724634.1989.10011750. JSTOR 4523251. S2CID 128403865.
  4. ^ a b c d e f g h i j k l m n o Nadia Fröbisch; P. Martin Sander; Olivier Rieppel (2006). "A new species of Cymbospondylus (Diapsida, Ichthyosauria) from the Middle Triassic of Nevada and a re-evaluation of the skull osteology of the genus". Zoological Journal of the Linnean Society. 147 (4): 515–538. doi:10.1111/j.1096-3642.2006.00225.x. S2CID 84720049.
  5. ^ a b c "Cymbospondylus". Paleofile.
  6. ^ a b c John C. Merriam (1902). "Triassic Ichthyopterygia from California and Nevada". University of California Publications. Bulletin of the Department of Geology. 3: 63–108.
  7. ^ Merriam 1908, p. 5-6.
  8. ^ Merriam 1908, p. 65-70.
  9. ^ Merriam 1908, p. 104-122.
  10. ^ Michael W. Maisch; Andreas T. Matzke (2004). "Observations on Triassic ichthyosaurs. Part XIII: New data on the cranial osteology of Cymbospondylus petrinus (LEIDY, 1868) from the Middle Triassic Prida Formation of Nevada". Neues Jahrbuch für Geologie und Paläontologie - Monatshefte. 2004 (6): 370–384. doi:10.1127/njgpm/2004/2004/370. S2CID 221243435.
  11. ^ a b c d e f g h i j k l Nicole Klein; Lars Schmitz; Tanja Wintrich; P. Martin Sander (2020). "A new cymbospondylid ichthyosaur (Ichthyosauria) from the Middle Triassic (Anisian) of the Augusta Mountains, Nevada, USA". Journal of Systematic Palaeontology. 18 (14): 1167–1191. doi:10.1080/14772019.2020.1748132. S2CID 219078178.
  12. ^ a b c d e f g h i j k l m P. Martin Sander; Eva Maria Griebeler; Nicole Klein; Jorge Velez Juarbe; Tanja Wintrich; Liam J. Revell; Lars Schmitz (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.
  13. ^ Merriam 1908, p. 123-124.
  14. ^ McGowan & Motani 2003, p. 65-66.
  15. ^ Andrzej S. Wolniewicz (2017). The Anatomy, Taxonomy and Systematics of Middle Triassic–Early Jurassic Ichthyosaurs (Reptilia: Ichthyopterygia) and the Phylogeny of Ichthyopterygia (PhD). University of Oxford.
  16. ^ International Commission on Zoological Nomenclature (2012). "Article 8. What constitutes published work". International Code of Zoological Nomenclature (4th ed.). Retrieved 16 July 2021.
  17. ^ Mike Taylor (8 June 2010). . Sauropod Vertebra Picture of the Week. Archived from the original on 9 March 2021.
  18. ^ Bernhard Peyer (1944). "Die Reptilien vom Monte San Giorgio". Neujahrsblau der Naturforschcnden Gesellschaft in Zürich (in German). 146: 1–95.
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Bibliography edit

  • Merriam, John C. (1908). Triassic Ichthyosauria, with special reference to the American forms. Memoirs of the University of California. Vol. 1. Berkeley, California: The University Press. pp. 1–196. OCLC 457714430.
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External links edit

November 23, 2023
cymbospondylus, meaning, cupped, vertebrae, extinct, genus, large, ichthyosaurs, that, lived, middle, triassic, anisian, what, north, america, europe, taxon, erected, joseph, leidy, 1868, basis, vertebrae, discovered, nevada, before, subsequent, research, foun. Cymbospondylus meaning cupped vertebrae is an extinct genus of large ichthyosaurs that lived in the Middle Triassic Anisian in what are now North America and Europe The taxon was erected by Joseph Leidy in 1868 on the basis of vertebrae discovered in Nevada before subsequent research found more complete fossil remains which were described by John Campbell Merriam in 1908 While many species have been assigned to the genus only five are recognized as valid the others being considered synonymous doubtful or belonging to other genera CymbospondylusTemporal range Middle Triassic Middle to Late Anisian PreꞒ Ꞓ O S D C P T J K Pg NPartial holotype skeleton of C buchseri PIMUZ T 4351 on display at the Paleontological Museum of the University of Zurich Switzerland Scientific classificationDomain EukaryotaKingdom AnimaliaPhylum ChordataClass ReptiliaOrder IchthyosauriaFamily CymbospondylidaeGenus CymbospondylusLeidy 1868SpeciesList of species C piscosus Leidy 1868 type nomen dubium C petrinus Leidy 1868 C buchseri Sander 1989 C nichollsi Frobisch et al 2006 C duelferi Klein et al 2020 C youngorum Sander et al 2021SynonymsList of synonyms Synonyms of genus Chonespondylus Leidy 1868 Synonyms of C petrinus Chonespondylus grandis Leidy 1868 Cymbospondylus grandis Leidy 1868 Merriam 1902As an ichthyosaur Cymbospondylus had flippers for limbs and a fin on the tail The different species of Cymbospondylus vary greatly in size with the smallest reaching around 4 metres 13 ft to 5 metres 16 ft in length The largest known species C youngorum is estimated to be around 17 metres 56 ft long making Cymbospondylus one of the largest ichthyosaurs identified to date but also one of the largest animals known of its time The animal has a skull with a long thin snout proportionally small eye sockets an elongated trunk and a less pronounced tail than in later ichthyosaurs The genus was formerly classified as a representative of the Shastasauridae but more recent studies consider it to be more basal considered to be the only recognized member of the Cymbospondylidae The teeth are conical and pointed having longitudinal ridges indicating a diet of fishes and cephalopods and possibly other marine reptiles for larger species Contents 1 Research history 1 1 Discovery and identification 1 2 Recognized species 1 3 Formerly assigned species 2 Description 2 1 Size 3 Evolution 4 Classification 5 Palaeobiology 5 1 Reproduction 6 See also 7 Notes 8 References 8 1 Bibliography 9 External linksResearch history editDiscovery and identification edit In 1868 American paleontologist Joseph Leidy described two new genera of ichthyosaurs dating from the Middle Triassic on the basis of fossil vertebrae discovered in several localities in Nevada United States all of which were transmitted through the geologist Josiah Dwight Whitney One of the two genera he names is Cymbospondylus to which he assigns two species The first one is C piscosus which Leidy named on the basis of several more or less complete vertebrae having been discovered in different mountain ranges of the state 1 The holotype of C piscosus is a block containing five incomplete dorsal vertebrae that was discovered in the New Pass Range northwest of the city of Austin 2 3 4 a Leidy attributes two other specimens to the species one being a series of eight caudal vertebrae discovered at Star Canyon in the Humboldt Range and the other being a single vertebrae probably also caudal discovered in the Toiyabe Range in the Reese River northeast of Austin The second species is C petrinus named from five large dorsal vertebrae discovered in the Humboldt Range 1 The genus name Cymbospondylus derives from the Ancient Greek words kymbh kymbe cup and spondylos spondylos vertebra all taken together literally meaning cupped vertebrae in reference to the rather obvious shape of this part of the skeleton 5 As no type species was designated in the 1868 article it was not until 1902 that John Campbell Merriam assigned C piscosus to this title 6 the latter being the first named in Leidy s official description of the genus 1 nbsp nbsp Sketches representing the skull and fossil skeleton of UCMP 9950 one of the specimens of C petrinus having been discovered during expeditions led by the University of California at the beginning of the 20th century Between 1901 and 1907 the University of California sent ten expeditions across different corners of the United States to recover as many ichthyosaur fossils as possible dating from the Triassic in order to be analyzed in more detail These same expeditions were led by Merriam and were almost all financed by Annie Montague Alexander The research finally collected more than fifty specimens each preserving a significant portion of their skeletons 7 Among these fossils are several specimens of excellent quality from C petrinus including an almost complete skeleton cataloged as UCMP 9950 all discovered in the origin locality mentioned by Leidy Like the other ichthyosaurs mentioned in the work Merriam describes the taxon in more depth based on new known fossil material 8 9 Merriam s anatomical descriptions of C petrinus are still recognized as viable and are even used in comparative anatomy in later studies of the genus Cymbospondylus thus lending validity to the species 3 10 4 11 12 Unlike C petrinus no additional fossils of the type species C piscosus have been discovered In Merriam s works the latter recognized C piscosus as distinct on the basis of its smaller size and by the regularly concave faces of the vertebrae of the holotype specimen 6 13 Only later did the validity of C piscosus begin to be questioned with authors mentioning the questionable nature of the fossils 3 In their work published in 2003 Christopher McGowan and Ryosuke Motani assert that the fossil vertebrae attributed to C piscosus do not present distinctive characteristics to prove its validity This would therefore pose a taxonomic problem because if the type species turns out to be a nomen dubium the genus to which it is classified will also be To try to resolve this problem the two authors suggest that the most complete known skeleton of C petrinus UCMP 9950 could be designated as a neotype of C piscosus 14 However as no formal ICZN appeal has been established to date the name C petrinus for the proposed neotype should be retained until further notice 4 In 2017 Andrzej Stefan Wolniewicz referred all additional fossil material described by Merriam to C piscosus and synonymized C petrinus to the latter 15 However As the proposal remains restricted to a PhD thesis it is defined as an unpublished work per Article 8 of the ICZN and therefore is not formally valid 16 17 Therefore C piscosus is not included in most descriptions of the genus although it is still recognized as the type species 11 12 Recognized species edit In 1927 a partial skeleton of a large ichthyosaur was discovered in the Grenzbitumenzone Member at the Monte San Giorgio fossil site in Switzerland and was mentioned by Bernhard Peyer in 1944 18 In 1964 Emil Kuhn Schnyder de published a photo of this same specimen and suggested that it shared affinities with Cymbospondylus then only known from North America at that time 19 The specimen in question cataloged as PIMUZ T 4351 was formally described for the first time in 1989 under the name C buchseri by Paul Martin Sander de thus confirming the presence of the genus in Europe The specific epithet buchseri is named in honor of Fritz Buchser a member of the Museum of Paleontology at the University of Zurich the latter having prepared the holotype skeleton in 1931 as his first major professional achievement 3 nbsp Partial holotype skeleton of C nichollsi FMNH PR 2251 on display at the Field Museum ChicagoWhile C petrinus was for a time seen as the only valid species of the genus known from Nevada it was not until the early 21th century that later discoveries contradicted this assertion In 2006 Nadia Frobisch and colleagues described the species C nichollsi based on an incomplete skeleton cataloged as FMNH PR 2251 which was discovered in the Augusta Mountains The fossil was originally exhumed in the hope of finding a new specimen of C petrinus but the number of significant anatomical differences led researchers to establish a separate species The species in question is named in honor to Elizabeth Nicholls an American Canadian paleontologist specializing in Triassic marine reptiles who made a major contribution to the ichthyosaurs that lived during this period 4 5 In their description Frobisch and his colleagues consider that an almost complete skull attributed to C petrinus cataloged as UCMP 9913 b could in fact belong to C nichollsi because it presents similar characteristics However as the specimen has been relatively little described in the scientific literature the authors do not know whether it would show intraspecific variations within C petrinus judging therefore that a more in depth description is necessary 4 Subsequent studies carried out on the genus Cymbospondylus nevertheless always refer specimen UCMP 9913 to C petrinus 21 but still mentioning some notable differences 11 In 2011 a notable new Cymbospondylus fossil was also discovered in the Augusta Mountains then exhumed three years later in 2014 This discovery was a partial skeleton that was briefly mentioned in a 2013 study describing the large contemporary ichthyosaur Thalattoarchon 22 as well as in a 2018 histological study where it is among the specimens analyzed 23 However it was only later that the specimen cataloged as LACM DI 158109 was formally designated a holotype for the species C duelferi by Nicole Klein and colleagues in 2020 The species name duelferi was chosen in honor of Olaf Dulfer fossil preparer who made many practical contributions to research on Mesozoic marine reptiles 11 5 In 1998 still in the Augusta Mountains Sander discovered another notable specimen of Cymbospondylus and exhumed it with his colleagues between 2014 and 2015 21 After preparation of the fossils the specimen cataloged as LACM DI 157871 consists of a large complete skull some cervical vertebrae the right humerus as well as fragments of the shoulder girdle It was in 2021 just one year after the identification of C duelferi that a new species of the genus was named from this specimen in Science Magazine by Sander and his colleagues 12 This species C youngorum is named in honor of Tom and Bonda Young 12 these latter having financially supported the fossil exhumation project 24 However in their main article the anatomical description of this taxon is limited and is mainly focused on the evolution of the size of the oldests ichthyosaurs 12 the detailed anatomical descriptions being documented in a secondary article 21 Formerly assigned species edit Although many valid and distinct species have been assigned to Cymbospondylus throughout its taxonomic history some of these have been reassigned to different genera or are considered synonymous or even doubtful 4 In his 1868 paper describing Cymbospondylus Leidy also named another ichthyosaur as Chonespondylus grandis based on a fragment of a caudal vertebra found at Star Canyon in the Humboldt Range 1 In 1902 Merriam listed Leidy s discoveries but having found no features distinguishing Chonespondylus from Cymbospondylus he decided to synonymize the first name with the second under the name C grandis 6 In 1908 after the discovery of new very complete fossils from C petrinus Merriam decided to definitively synonymize C grandis with the latter 25 4 In 1873 John Whitaker Hulke described a species of Ichthyosaurus I polaris named after two sets of vertebrae associated with rib fragments that were discovered on Isfjorden Spitsbergen an island in Norway 26 In 1902 the Russian paleontologist Nikolai Nikolajewitch Yakowlew moved the species within the genus Shastasaurus referring an isolated vertebra to this taxon 27 In 1908 Merriam in turn moved this species into the genus Cymbospondylus under the name C polaris Merriam still expresses some hesitation about this attribution asserting that the true generic identity cannot be determined for this species due to the few known fossils 28 In 1910 the species was moved to the newly erected genus Pessosaurus by Carl Wiman as P polaris 29 to which it has always been referred by this name ever since Although this taxon is declared as a nomen dubium according to studies published at the end of the 20th century it is seen as a species inquirenda according to McGowan and Motani in 2003 i e a taxon under investigation as numerous fossils that have since been referred to P polaris could make it once again as valid 30 Still in his 1908 work Merriam erects two new species of the genus coming from the same locality from which C petrinus is known The first is C nevadanus named from fossils constituting a hind limb Merriam distinguishes this species from C petrinus on the basis of its larger size and the different proportions of some bones 31 However the C nevadanus material is not sufficiently diagnostic to support the validity of this species and is considered a species inquireda according to McGowan and Motani in 2003 32 4 The second species erected by Merriam is C natans which he names from an isolated humerus to which he attributes a radius an ulna carpals and a series of caudal vertebrae In his article he notes the similarity of these bones with those of Mixosaurus 33 leading the author to rename the species to M natans in 1911 34 For much of the 20th century M natans was recognized as a valid species of Mixosaurus until 1999 when it was synonymized with M nordenskioeldii 35 Although M nordenskioeldii itself has been considered a nomen dubium since 2005 36 the fossil material concerned remains attributed to the family Mixosauridae and is no longer attributable to Cymbospondylus 4 In a review of German ichthyosaurs published in 1916 Friedrich von Huene described two other species of Cymbospondylus whose fossils were discovered in the Muschelkalk of the town of Laufenburg in the state of Baden Wurttemberg The first is C germanicus which Huene names from a single vertebra associated with other vertebrae as well as a basioccipital 37 Immediately afterwards the validity of C germanicus was questioned the same year by Ferdinand Broili the latter citing that the fossils concerned did not present notable features to be recognized as distinct 38 4 Additionally the fossils appear to be very poorly preserved to be distinguished as a valid species 3 and is therefore a nomen dubium 39 40 nbsp Fossil skeleton of Guizhouichthyosaurus exhibited at the Geological Museum of Guizhou China to which one of the specimens belonging to this genus was assigned to CymbospondylusIn 2002 paleontologists Chun Li and Hai Lu You named a new species as C asiaticus based on a complete skull discovered in the Xiaowa Formation located in Guizhou China and it was considered as the most recent known representative of the genus 41 In the official description of C nichollsi published in 2006 the authors are doubtful regarding the attribution of this species to Cymbospondylus They mention that the latter does not share any notable commonalities with the three then recognized species of the genus at the time namely C petrinus C buchseri and C nichollsi and suggest that it would in fact be a junior synonym of Guizhouichthyosaurus tangae 4 The synonymy proposed by Frobisch and colleagues was accepted in 2009 by Qing Hua Shang and Li after the discovery of an almost complete skeleton of Guizhouichthyosaurus from the same formation However considering that Guizhouichthyosaurus is similar to Shastasaurus they moved the species as S tangae 42 This synonymy was contested the following year in 2010 in which Michael W Maisch provisionally reclassified Guizhouichthyosaurus as a distinct genus 43 In 2011 Sander and his colleagues considered that Guizhouichthyosaurus was distinct 44 while a 2013 study by Shang and Li still synonymizes it with Shastasaurus 45 However numerous phylogenetic and morphological analyzes subsequently published consider Guizhouichthyosaurus to be distinct genus from Shastasaurus 46 47 48 49 Description edit nbsp Life restoration of C petrinusIchthyosaurs like Cymbospondylus are marine reptiles with two pairs of flippers for limbs and a fin on the tail 50 51 Being one of the oldest and most basal least derived ichthyosaurs known from the fossil record Cymbospondylus has an anatomy very different from those of the parvipelvians the latter presenting the archetypal anatomy of this group of this now extinct marine reptiles long and thin snout large eye sockets and a homocercal caudal fin The anatomy of Cymbospondylus like other non parvipelvians ichthyosaurs is more primitive having a poorly developed or absent dorsal fin as well a less pronounced tail 52 In its overall anatomy Cymbospondylus has a long trunk and a hypocercal fin 51 53 The anatomy of this type of ichthyosaur is similar to those of other marine vertebrates such as mosasaurs marine crocodylomorphs and archaeocete whales through convergent evolution 54 Size edit nbsp Life restoration and size comparison of a C youngorum with a humanThe size of Cymbospondylus varies greatly between recognized species 4 11 21 Possessing a skull which would measure a total of 65 70 cm 26 28 in C duelferi is the smallest known species of the genus having a size estimated at 4 3 m 170 in long in the study officially describing it 11 before being estimated at 5 m 200 in in the secondary article by Sander and colleagues in 2021 21 The estimated size of the C buchseri holotype is slightly larger reaching a length of 5 5 m 220 in with a skull 68 cm 27 in long 3 49 Estimating the size of C nichollsi is more complex because although the holotype specimen is known from a significant portion of the skeleton the latter preserves only half of the skull However based on the comparison with C buchseri and C petrinus the total length of the skull is estimated at 97 cm 38 in for an animal measuring 7 6 m 300 in long 4 11 21 Estimates of the size of C petrinus have changed relatively little since 1908 mainly due to the almost complete skeleton of specimen UCMP 9950 considered the best known specimen of Cymbospondylus 55 Merriam suggests that C petrinus would reach a size exceeding 9 1 m 360 in in length based on specimens UCMP 9947 and 9950 56 3 4 In 2020 Klein and colleagues increased the size estimate of C petrinus a little further seeing them as reaching 9 3 m 370 in for a 1 16 m 46 in skull 11 In the secondary article published by Sander and colleagues in 2021 C petrinus is estimated to be 12 56 m 494 in long for the same cranial measurements 21 The holotype specimen of C youngorum having a skull measuring almost 2 m 79 in long and its humerus being the second largest bone of this type recorded in an ichthyosaur the maximum size of the animal is therefore estimated at 17 65 m 57 9 ft for a weight of 44 7 metric tons 49 3 short tons c This estimate not only makes C youngourum one of the largest ichthyosaurians identified to date behind Shastasaurus sikanniensis but also makes it one of the largest animals known of its time 12 The antiquity as well as such an imposing size for an animal dating from the beginning of the Middle Triassic makes C youngorum qualify as the first aquatic giant according to Lene Liebe Delsett and Nicholas David Pyenson 24 Evolution editOf particular interest is the rapid increase in body size undergone by ichthyosaurs early in their evolutionary history Ichthyosaurs evolved from small skull length 55 mm ancestors such as Cartorhynchus to giant forms like C youngorum in the span of only 2 5 million years Cetaceans meanwhile which originated under similar conditions following the mass extinction at the end of the Cretaceous period eradicating much of marine tetrapod diversity took notably longer to obtain similar sizes Between Pakicetus skull width 127 mm and Basilosaurus isis skull width 600 mm a total of 10 to 14 million years passed almost five times as much as between Cartorhynchus and Cymbospondylus youngorum In toothed whales the size increase likewise took notably longer with around 25 million years passing between the basal Simocetus and the massive Livyatan In their 2021 study Sander Griebeler Schmiz and their colleagues determined that ichthyosaurs underwent rapid size increase early on in their evolutionary history in particular among Cymbospondylus and early merriamosaurs while whales obtained great sizes relatively slowly Even when restricting the analysis to only observe the growth in members of Pelagiceti fully aquatic whales to account for the varying degrees of aquatic adaptations cetaceans still reached large body sizes much slower than ichthyosaurs Meanwhile after this initial burst the overall size of ichthyosaurs slowed down significantly while among crown group whales body sizes increased initially slowly before accelerating rapidly later in their history Sander et al 2021 suggests that this rapid increase in body size may have been favored by the swift recovery of conodonts and ammonites following the Permian Triassic extinction event They further suggest that the evolution of large eyes a trait present in many ichthyosaurs further assisted them in exploiting this food source efficiently 12 24 Classification editThe exact placement of Cymbospondylus within Ichthyosauria is poorly understood with its position varying between different studies sometimes being recovered as more and sometimes as less derived than mixosaurids 57 However it is agreed upon that Cymbospondylus is a rather basal member of the clade Early phylogenies placed Cymbospondylus within Shastasauridae 58 In the analysis of Bindellini et al 2021 Cymbospondylus is placed at the very base of Ichthyosauria outside the more derived members of Hueneosauria including Mixosauridae and Shastasauridae 49 In the publication describing C duelferi Klein and colleagues recovered that all species from the Fossil Hill Member in Nevada form a clade with one another 11 The description of C youngorum further supports this Nevadan clade recovering C youngorum as its most derived member while C buchseri from Europe sits at the base of the genus Much like in the analysis by Bindellini and colleagues shastasaurids and mixosaurids were recovered as more derived ichthyosaurs 12 Like in many analyses prior the type species was not included in the dataset due to its questionable and fragmentary nature 12 This causes Cymbospondylus to have a very convoluted taxonomy with it being suggested that the type species should be neglected 4 11 The 2020 study reviewed the skull morphology of C nichollsi and found the species to be valid as the skull morphology accords with that of C petrinus but is distinct enough to be separate such as the upper temporal fenestra shape being oval in C nichollsi but triangular in C petrinus In their phylogenetic analysis the authors did not recover a definite placement for C buchseri leading them to state that further study was needed to determine whether the Swiss species belonged to the genus 11 The following cladogram shows the position of Cymbospondylus within the Ichthyosauria after Sander et al 2021 12 21 Ichthyosauromorpha Hupehsuchus nanchangensisSclerocormus parvicepsCartorhynchus lenticarpusChaohusaurus chaoxianensisChaohusaurus geishanensisChaohusaurus zhangjiawanensisUtatsusaurus hataiiGrippia longirostrisGulosaurus helmiParvinatator wapitiensisIchthyosauria Xinminosaurus catactesPessopteryx nisseriCymbospondylus buchseriCymbospondylus nichollsiCymbospondylus petrinusCymbospondylus duelferiCymbospondylus youngorumMixosauridaePhantomosaurus neubigiQianichthyosaurus zhouiQianichthyosaurus xingyiensisWimanius odontopalatusMerriamosauria Besanosaurus leptorhynchusThalattoarchon saurophagisShastasauridaeGuizhouichthyosaurus tangaeShonisaurus popularisEuichthyosauriaPalaeobiology editMassare amp Callaway 1990 propose that many Triassic ichthyosaurs including Cymbospondylus may have been ambush predators They argue that the long neck and torso would create drag in water while the laterally flattened tail lacking the lunate fluke of later ichthyosaur taxa was more suited for an undulating swimming style In their research they suggest that the elongated flexible bodies of early ichthyosaurs were built to support an undulating swimming style while the powerful tail would provide bursts of speed both of which they cite as being possible adaptations to ambush prey Massare amp Callaway put this in contrast with Jurassic taxa known for their compact dolphin like bodies adapted for more continuous swimming favorable to pursuit predators 59 A strikingly similar bauplan was later obtained by two other large bodied marine amniote groups mosasaurs and archaeocete whales Direct evidence for its diet exists for the medium sized Cymbospondylus buchseri from Switzerland which was found with its stomach contents exclusively consisting of hooks belonging to soft bodied coleoid cephalopods However this does not exclude the possibility that C buchseri could have taken larger prey as its last meal may not reflect its typical diet accurately Bindellini and colleagues suggest that C buchseri may have employed a more forceful feeding strategy with a slower feeding cycle and a higher biteforce supported by the animal s robust rostrum In the Besano Formation Cymbospondylus would have coexisted with two other smaller ichthyosaurs the more gracile skulled Besanosaurus and small mixosaurs Whether or not C buchseri would have gone after large vertebrate prey all three taxa display clear adaptations for different hunting strategies and prey preferences however the details of their ecologies are not yet fully understood 49 nbsp Examples of longirostrine ichthyosaurs of the Triassic E is C buchseriFor C youngorum a generalist diet of squid and fish is inferred based on the blunt and conical teeth in combination with the elongated rostrum However as with C buchseri Sander et al entertain the possibility that C youngorum could have fed on large bodied vertebrates as well including the other Cymbospondylus species of the region 12 Cymbospondylus was especially diverse in the Fossil Hill Member of the Favret and Prida formations of Nevada which preserves a pelagic environment from the middle to late Anisian ca 246 242 million years ago The Fossil Hill Member specifically preserves some of the greatest ichthyosaur diversity recorded with eight distinct taxa present This includes four species of Cymbospondylus the early macropredatory Thalattoarchon the small Phalarodon fraasi and P callawayi as well as the poorly understood Omphalosaurus Other animals present in the environment include a single sauropterygian Augustasaurus hagdorni halobiid bivalves but only few remains of fish However this may be due to preservation bias Despite this abundance of amniote fossils analysis of the preserved ecosystem indicates that the Fossil Hill Member represents a stable food web largely dominated by said amniotes occupying niches held by fish in modern marine ecosystems Furthermore the analysis conducted by Eva Maria Griebeler in the study of Sander and colleagues indicates the presence of an energy surplus which may indicate the presence of an as of yet unknown animal in the Fossil Hill fauna or that this energy surplus may have been exploited by animals that evolved later The ecosystem could have supported another giant marine reptile assuming it were a bulk feeder specialised on small prey that s lower in the food chain Such an animal could have for example been a filter feeder a niche not yet occupied by any animal in the fauna of the Fossil Hill Member 12 Bindellini and colleagues notes that shastasaurid diversity may have profited from the extinction of Cymbospondylus such as the Carnian of China known to have supported three ecologically different shastasaurids but no examples of cymbospondylids which had gone extinct by that time 49 Reproduction edit The holotype of C duelferi preserves three small strings of articulated vertebrae located within the trunk region of the specimen 11 These vertebrae which are only a third the size of the adult specimen have been interpreted to represent the remains of three fetuses with one specimen specifically facing towards the rear end of the putative mother Following this interpretation Cymbospondylus would have given live birth to a minimum of three offspring citation needed See also editList of ichthyosaurs Timeline of ichthyosaur researchNotes edit Leidy gives a slightly different description of the holotype in his 1868 paper stating that it had only four dorsal vertebrae due to the preservation of the fossil block 1 This specimen is one of the several additional C petrinus fossils described by Meriam in 1908 20 Sander and colleagues estimate animal size based on the 95 prediction interval in C youngorum Two additional estimates were also made by the team The prediction interval less than 95 gives a length of 12 5 m 41 ft for a weight of 14 7 metric tons 16 2 short tons while that which is greater than 95 gives a length of 25 m 82 ft for a weight of 135 8 metric tons 149 7 short tons 12 As estimates do not come close to 95 these measurements are not considered to be the probable maximum sizes of C youngorum 21 References edit a b c d e Joseph Leidy 1868 Notice of some reptilian remains from Nevada Proceedings of the Philadelphia Academy of Sciences 20 177 178 Merriam 1908 p 123 a b c d e f g P Martin Sander 1989 The large ichthyosaur Cymbospondylus buchseri sp nov from the Middle Triassic of Monte San Giorgio Switzerland with a survey of the genus in Europe Journal of Vertebrate Paleontology 9 2 163 173 doi 10 1080 02724634 1989 10011750 JSTOR 4523251 S2CID 128403865 a b c d e f g h i j k l m n o Nadia Frobisch P Martin Sander Olivier Rieppel 2006 A new species of Cymbospondylus Diapsida Ichthyosauria from the Middle Triassic of Nevada and a re evaluation of the skull osteology of the genus Zoological Journal of the Linnean Society 147 4 515 538 doi 10 1111 j 1096 3642 2006 00225 x S2CID 84720049 a b c Cymbospondylus Paleofile a b c John C Merriam 1902 Triassic Ichthyopterygia from California and Nevada University of California Publications Bulletin of the Department of Geology 3 63 108 Merriam 1908 p 5 6 Merriam 1908 p 65 70 Merriam 1908 p 104 122 Michael W Maisch Andreas T Matzke 2004 Observations on Triassic ichthyosaurs Part XIII New data on the cranial osteology of Cymbospondylus petrinus LEIDY 1868 from the Middle Triassic Prida Formation of Nevada Neues Jahrbuch fur Geologie und Palaontologie Monatshefte 2004 6 370 384 doi 10 1127 njgpm 2004 2004 370 S2CID 221243435 a b c d e f g h i j k l Nicole Klein Lars Schmitz Tanja Wintrich P Martin Sander 2020 A new cymbospondylid 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Retrieved 13 June 2020 Judith M Pardo Perez Benjamin P Kear Erin E Maxwell 2020 Skeletal pathologies track body plan evolution in ichthyosaurs Scientific Reports 10 1 4206 Bibcode 2020NatSR 10 4206P doi 10 1038 s41598 020 61070 7 PMC 7060314 PMID 32144303 Johan Lindgren Michael W Caldwell Takuya Konishi Luis M Chiappe 2010 Convergent Evolution in Aquatic Tetrapods Insights from an Exceptional Fossil Mosasaur PLOS ONE 5 8 e11998 Bibcode 2010PLoSO 511998L doi 10 1371 journal pone 0011998 PMC 2918493 PMID 20711249 McGowan amp Motani 2003 p 66 Merriam 1908 p 105 Michael W Maisch 2010 Phylogeny systematics and origin of the Ichthyosauria the state of the art PDF Palaeodiversity 3 151 214 Ryosuke Motani 1999 Phylogeny of the Ichthyopterygia PDF Journal of Vertebrate Paleontology 19 3 472 495 doi 10 1080 02724634 1999 10011160 JSTOR 4524011 S2CID 84536507 Archived from the original PDF on 5 March 2016 Retrieved 19 October 2011 Massare J A Callaway JM 1990 The affinities and ecology of Triassic ichthyosaurs Geological Society of America Bulletin 102 4 409 416 doi 10 1130 0016 7606 1990 102 lt 0409 TAAEOT gt 2 3 CO 2 Bibliography edit Merriam John C 1908 Triassic Ichthyosauria with special reference to the American forms Memoirs of the University of California Vol 1 Berkeley California The University Press pp 1 196 OCLC 457714430 Maisch Michael W Matzke Andreas T 2000 The Ichthyosauria Stuttgarter Beitrage zur Naturkunde Serie B 298 1 159 McGowan Christopher Motani Ryosuke 2003 Handbook of Paleoherpetology Part 8 Ichthyopterygia Vol 1 Munich Verlag Dr Friedrich Pfeil pp 1 175 ISBN 978 3 899 37007 2 OCLC 469848769 External links edit Retrieved from https en wikipedia org w index php title Cymbospondylus amp oldid 1186272603, wikipedia, wiki, book, books, library,

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