Redondasaurus Temporal range: | |
---|---|
Mounted skeleton of Redondasaurus bermani at the Carnegie Museum of Natural History | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Class: | Reptilia |
Clade: | Archosauromorpha |
Clade: | Archosauriformes |
Order: | † Phytosauria |
Family: | † Parasuchidae |
Tribe: | † Mystriosuchini |
Genus: | † Redondasaurus Hunt & Lucas, 1993 |
Species | |
|
Redondasaurus is an extinct genus or subgenus of phytosaur from the Late Triassic (late Norian or Rhaetian) of the southwestern United States. It was named by Hunt & Lucas in 1993, and contains two species, R. gregorii and R. bermani. It is the youngest and most evolutionarily-advanced of the phytosaurs.
OMNH 1250, the first Redondasaurus specimen to be discovered, was a slender skull found in 1939 by D.E. Savage. Savage discovered the skull in the Travesser Formation of New Mexico, and originally referred it to the genus Machaeroprosopus . [1] In 1947, another phytosaur skull (YPM 3294) was discovered by E.H. Colbert and J.T. Gregory in the Redonda Formation of New Mexico. Colbert & Gregory (1947) were the first to recognize that both skulls may represent a new taxon. In addition, they proposed that the skulls represented the most derived phytosaur species in North America, due to their supratemporal fenestrae being hidden in dorsal view. [1]
A third skull (CM 69727) was discovered by D.S. Berman in the 1980s. It was recovered from the Coelophysis Quarry of Ghost Ranch near Abiquiu, New Mexico. [1] The deposits of the Coelophysis Quarry have variably been referred to as the Rock Point Formation or the "siltstone member" of the Chinle Formation. Ballew (1989) referred the Ghost Ranch skull to Pseudopalatus (now Machaeroprosopus ) buceros. [1]
The genus Redondasaurus was named by A.P. Hunt and S.G. Lucas in 1993. The name Redondasaurus is derived from the Redonda Formation and the Greek word "saurus," meaning lizard. The Redonda Formation is named after Mesa Redonda near Tucumcari, New Mexico. [1] [2] The authors had previously mentioned the unnamed phytosaur species in a 1992 paper on "Triassic Stratigraphy and Paleontology" in New Mexico. [3]
Hunt & Lucas (1993) named two new species for Redondasaurus. Redondasaurus gregorii consisted of Colbert & Gregory's Redonda Formation skull (which was termed the holotype) and Savage's Travesser Formation skull. Redondasaurus bermani was based on Berman's Ghost Ranch skull. [1]
Many additional specimens have been added to Redondasaurus apart from the three originally placed in the genus in 1993. [4] The first report from outside New Mexico, a skull impression (MNA V3498) from the Wingate Sandstone of Utah, was initially described by Morales & Ash (1993). [5] [6] Several skulls from the Bull Canyon Formation of Texas were mentioned in a Master's thesis by Chavez (2010). A juvenile skull of R. gregorii (NMMNH P-44920) was first mentioned by Rinehart et al. (2009) and fully described by Lucas et al. (2013). It was collected from the Coelophysis Quarry, a site which had previously only produced the holotype of R. bermani. [7] Heckert et al. (2001) identified a massive flattened skull (NMMNH P-31094) from the Redonda Formation.
All specimens referred to Redondasaurus were discussed and redescribed by Spielmann & Lucas (2012). Several of the fossils were newly reported. The two most well-preserved skulls are from the Redonda Formation (an adult, NMMNH P-4983, and a juvenile, NMMNH P-31095). The oldest Redondasaurus specimen is an incomplete skull (UCMP V78034/119436) from the Petrified Forest Member (Chinle Formation) of Rio Arriba County, New Mexico. The authors also described a plethora of phytosaur postcranial bones from the Redonda Formation. The large sample of approximately 13 Redondasaurus gregorii skulls have helped to reconstruct growth series and sexual dimorphism trends in the species. [5]
Redondasaurus, like other phytosaurs, had a very long snout. Known skull lengths range from 22 cm (0.72 ft) in juveniles to 120.5 cm (3.95 ft) in very large adults, [7] suggesting total lengths up to 6.4 m (21 ft). [2] The teeth of Redondasaurus have a columnar enamel microstructure while lines of arrested growth are rare. These characteristics are shared with other phytosaurs from Western North America, contrasting with those from Eastern North America (" Rutiodon "). [8]
R. gregorii is distinguished by the lack of a rostral crest. Complete skulls of this species are uncommon, but some fragmentary narrow-snouted phytosaur specimens from the Redonda Formation may be part of the taxon. [1] : 331
R. bermani is distinguished by the presence of a partial crest on the rostrum. Only one skull of this species has been found, but Hunt and Lucas postulate that "by analogy with other phytosaurs, it is likely that this crested species was sub-equal in abundance with [R. gregorii].". [1] : 331
The diagnostic criteria given in 1993 for the new genus was as follows:
"Phytosaurid that differs from other genera in possessing supratemporal fenestrae that are essentially concealed in dorsal view and whose anterior margin only slightly emarginates the skull roof and has wide squamosal-postorbital bars.": 331
Hunt and Lucas also extended Colbert and Gregory's analysis that Redondasaurus was the most derived North American phytosaurs, as:
"Phytosaurs show an evolutionary trend to displace ventrally the posterior portion of the midline of the skull roof. Redondasaurus represents the most advanced development of this character.": 331
Additional diagnostic criteria were introduced in 2012 by J. Spielmann and S.G. Lucas. [9] [10] These include:
- Reduced antorbital fenestra
- A prominent pre-infratemporal shelf
- A septomaxilla forming the anterolateral half of the external naris
- Thickened rim of the orbit
- Inflated posterior part of nasal
- Thickened dorsal osteoderms
Historically, studies of Redondasaurus have been hampered by small number of specimens available, of which only four skulls were recognized in literature. Recently, several Norian-Rhaetian phytosaur skulls have been referred to Redondasaurus, which has brought the number of recognized skulls to ten. These new specimens encompass a range of sizes from hatchlings to adults and possibly include the first evidence of sexual dimorphism in the taxon. [10]
Sexual dimorphism within Redondasaurus was also recognized by J. Spielman and S.G. Lucas on May 11, 2012, at the 64th Annual Meeting of the Geological Society of America. [4]
Disagreement on the validity of Redondasaurus emerged 1995, when Long and Murry did not accept it and referred to the specimen as Pseudopalatus pristinus instead. The reason for this may have been that the type specimen of Redondasaurus is missing the entire narial area, left side of its snout, the anterior two thirds of the right premaxilla, and most of its palate. [9] In addition to this, the term used by Savage to describe the first specimen found in 1939, [1] Machaeroprosopus , continues to be used by some scholars in place of Redondasaurus as the genus name. [9] Hungerbühler et al. argued in 2013 that Redondasaurus should be regarded as a junior synonym of Machaeroprosopus because:
- Upon a comparison of cranial characters, Machaeroprosopus lottorum is found to bridge the morphological gap between Redondasaurus and Machaeroprosopus in such a way that the distinction becomes arbitrary.
- According to cladistic analysis, it is unlikely that Redondasaurus is in a basal position compared to other North American pseudopalatine phytosaurs.
- For R. gregorii and R. bermani to be sister taxa, three additional steps would be necessary for forming a phylogenetic tree. This is the case even if the rostral crest, used by Lucas and Hunt to differentiate R. gregorii and R. bermani, is ignored in the analysis. [9]
The Chinle Group, where a large portion of Redondasaurus skulls have been found, is composed of fluvial and lacustrine sediments. Accumulations of fossils in the Chinle Formation can be found in floodplains, bogs, ponds, and fluvial channels. Additional paleontological and sedimentary evidence support the hypothesis that the climate of the Chinle was strongly influenced by high levels of precipitation. [11]
Most Redondasaurus fossils have been collected from north-central and eastern New Mexico, with a few other occurrences in Texas and Utah. [3] [6] The Chinle Group is particularly important to paleontologists interested in aetosaurs, as it has been critical in establishing their biochronology in the Late Triassic. [12]
Redondasaurus is important because it serves as an index species for the Apachean Land Vertebrate Faunachron (LVF). Indeed, it is considered a true index fossil because Redondasaurus is temporally restricted and easily identified. [13] The biostratigraphic importance of the genus was reaffirmed when it was determined that the beginning of the Apachean was lower than previously concluded. Rather than at the base of the Redonda Formation, the Apachean appears high in the Bull Canyon Formation. Correlating the vertebrate stratigraphy of Redondasaurus has also allowed for the correlation of Redonda locally within the southwestern USA. [4] Given the recent acquisition of additional diagnostic characteristics, and the increase in number of Redondasaurus skulls recognized in literature, it is likely that the use of the genus as an index fossil will expand to other deposits and even globally. [10]
Coelophysis is a genus of coelophysid theropod dinosaur that lived approximately 215 to 208.5 million years ago during the Late Triassic period from the middle to late Norian age in what is now the southwestern United States. Megapnosaurus was once considered to be a species within this genus, but this interpretation has been challenged since 2017 and the genus Megapnosaurus is now considered valid.
Gojirasaurus is a genus of "coelophysoid" theropod dinosaur from the Late Triassic of New Mexico. It is named after the giant monster movie character Godzilla, and contains a single species, Gojirasaurus quayi.
Aetosaurs are heavily armored reptiles belonging to the extinct order Aetosauria. They were medium- to large-sized omnivorous or herbivorous pseudosuchians, part of the branch of archosaurs more closely related to crocodilians than to birds and other dinosaurs. All known aetosaurs are restricted to the Late Triassic, and in some strata from this time they are among the most abundant fossil vertebrates. They have small heads, upturned snouts, erect limbs, and a body ornamented with four rows of plate-like osteoderms. Aetosaur fossil remains are known from Europe, North and South America, parts of Africa, and India. Since their armoured plates are often preserved and are abundant in certain localities, aetosaurs serve as important Late Triassic tetrapod index fossils. Many aetosaurs had wide geographic ranges, but their stratigraphic ranges were relatively short. Therefore, the presence of particular aetosaurs can accurately date a site in which they are found.
Rutiodon is an extinct genus of mystriosuchine phytosaurs from the Late Triassic of the eastern United States. The type species of Rutiodon, Rutiodon carolinensis, encompasses a large number of skulls and assorted postcranial fossils discovered in the Cumnock Formation of North Carolina. Fossils referable to the species are also known from Pennsylvania, New Jersey, and Virginia. Rutiodon carolinensis is the most well-described species of phytosaur in eastern North America, though its validity as a natural taxon has been questioned. Some paleontologists also recognize a larger and more robust species, Rutiodon manhattanensis, which is known from teeth and postcranial fossils from New Jersey and Pennsylvania.
Nicrosaurus (/nɪkroʊˈsɔrəs/) is an extinct genus of phytosaur reptile existing during the Late Triassic period. Although it looked like a crocodile, it was not closely related to these creatures, instead being an example of parallel evolution. The main difference between Nicrosaurus and modern crocodiles is the position of the nostrils – Nicrosaurus's nostrils, or external nares, were placed directly in front of the forehead, whereas in crocodiles, the nostrils are positioned on the end of the snout. A 2013 study has also found that ilium of Nicrosaurus is quite distinctive from all other phytosaurs.
The Dockum is a Late Triassic geologic group found primarily on the Llano Estacado of western Texas and eastern New Mexico with minor exposures in southwestern Kansas, eastern Colorado, and Oklahoma panhandle. The Dockum reaches a maximum thickness of slightly over 650 m but is usually much thinner. The Dockum rests on an unconformity over the Anisian aged Anton Chico Formation.
Arganodus is an extinct genus of freshwater lungfish that had a wide global distribution throughout much of the Triassic period, with a single species surviving across Gondwana into the Cretaceous. It is the only member of the family Arganodontidae, although it is sometimes placed in the Ceratodontidae or synonymized with the genus Asiatoceratodus.
Mystriosuchini, historically known as Pseudopalatinae, is an extinct tribe of derived phytosaurs in the clade Leptosuchomorpha. As with all other phytosaurs, mystriosuchins lived during Late Triassic. The name is derived from the genus Mystriosuchus, and the clade was phylogenetically defined by Andrew S. Jones and Richard J. Butler in 2018 as the last common ancestor and all descendants of Mystriosuchus planirostris, Machaeroprosopus jablonskiae, and Machaeroprosopus buceros.
The Cooper Canyon Formation is a geological formation of Norian age in Texas. It is one of several formations encompassed by the Dockum Group.
Anaschisma is an extinct genus of large temnospondyls. These animals were part of the family called Metoposauridae, which filled the crocodile-like predatory niches in the late Triassic. It had a large skull about 62 centimetres (24 in) long, and possibly reached 3 metres (9.8 ft) long. It was an ambush hunter, snapping up anything small enough to fit in its huge jaws. It was very common during the Late Triassic in what is now the American Southwest.
Leptosuchus is an extinct genus of leptosuchomorph phytosaur with a complex taxonomical history. Fossils have been found from the Dockum Group and lower Chinle Formation outcropping in Texas, New Mexico, and Arizona, United States, and date back to the Carnian stage of the Late Triassic.
Redondavenator is a genus of sphenosuchian, a type of basal crocodylomorph, the clade that comprises the crocodilians and their closest kin. It is known from a partial upper jaw and left shoulder girdle found in rocks of the Norian-Rhaetian-age Upper Triassic Redonda Formation, northeastern New Mexico. It is notable for its large size; the minimum estimated skull length for the holotype individual is 60 centimetres (2.0 ft). This makes it the largest Triassic crocodylomorph ever recorded.
Machaeroprosopus is an extinct genus of mystriosuchin leptosuchomorph phytosaur from the Late Triassic of the southwestern United States. M. validus, once thought to be the type species of Machaeroprosopus, was named in 1916 on the basis of three complete skulls from Chinle Formation, Arizona. The skulls have been lost since the 1950s, and a line drawing in the original 1916 description is the only visual record of the specimen. Another species, M. andersoni, was named in 1922 from New Mexico, and the species M. adamanensis, M. gregorii, M. lithodendrorum, M. tenuis, and M. zunii were named in 1930. Most species have been reassigned to the genera Smilosuchus, Rutiodon, or Phytosaurus. Until recently, M. validus was considered to be the only species that has not been reassigned. Thus, Machaeroprosopus was considered to be a nomen dubium or "doubtful name" because of the lack of diagnostic specimens that can support its distinction from other phytosaur genera. However, a taxonomic revision of Machaeroprosopus, conducted by Parker et al. in 2013, revealed that UW 3807, the holotype of M. validus, is not the holotype of Machaeroprosopus, while the species Machaeroprosopus buceros, Machaeroprosopus being a replacement name, with a fixed type species, for Metarhinus, is the combinatio nova of the type species of the genu: Belodon buceros. Therefore, the name Pseudopalatus must be considered a junior synonym of Machaeroprosopus, and all species of the former must be reassigned to the latter. This revised taxonomy was already accepted in several studies, including Stocker and Butler (2013). Stocker and Butler (2013) also treated M. andersoni as a valid species, and not a junior synonym of Machaeroprosopus buceros as was previously suggested by Long and Murry (1995).
Tecovasuchus is an extinct genus of aetosaur. It is known primarily from osteoderms found from the Tecovas Formation in Texas, which is Late Triassic in age, dating back to the lower Norian. Material is also known from several other localities of the Chinle Group in New Mexico and Arizona, such as older Carnian outcrops and younger Rhaetian outcrops. Specimens of Tecovasuchus have been collected from the Tecovas Formation, the Bluewater Creek Formation, and the Los Esteros Member of the Santa Rosa Formation.
Redondasuchus is an extinct genus of aetosaur. It may be a junior synonym of Typothorax coccinarum, another aetosaur. Redondasuchus is a member of the clade Typothoracisinae within the subfamily Aetosaurinae, and lived during the middle Norian stage of the Late Triassic. Material belonging to the genus has been found from the Redonda Formation in east-central New Mexico. The type species, R. reseri, was named in 1991 after having been referred to as a species of Typothorax since 1985. A second species, R. rineharti, was described in 2006.
Pravusuchus is an extinct genus of leptosuchomorph parasuchid phytosaur known from the Late Triassic of Arizona, United States. It contains a single species, Pravusuchus hortus, which is known from three specimens. These specimens were previously referred to Smilosuchus or to Leptosuchus, but Pravusuchus's autapomorphy, its phylogenetic position as well as a trait shared with mystriosuchins, justified the erection of a new taxon for the material.
The Bull Canyon Formation is a geological formation of Late Triassic (Norian) age in eastern New Mexico and the Texas Panhandle. It is one of several formations encompassed by the Dockum Group.
The Colorado City Formation is a Late Triassic geologic formation in the Dockum Group of Texas, United States. It has previously been known as the Iatan Member, Colorado City Member or 'Pre-Tecovas Horizon'.
Apachesuchus is an extinct genus of aetosaur from the Late Triassic of New Mexico. It is only known from several paramedian osteoderms discovered in Quay County in eastern New Mexico. This area belongs to the late Norian-age Quay Member of the Redonda Formation. Unique among aetosaurs, its osteoderms are nearly completely smooth, without strong pits or grooves. The left dorsal paramedian has a relatively high width-to-length ration, suggesting that Apachesuchus is a wide-bodied aetosaur within the clade Typothoracinae.
Land vertebrate faunachrons (LVFs) are biochronological units used to correlate and date terrestrial sediments and fossils based on their tetrapod faunas. First formulated on a global scale by Spencer G. Lucas in 1998, LVFs are primarily used within the Triassic Period, though Lucas later designated LVFs for other periods as well. Eight worldwide LVFs are defined for the Triassic. The first two earliest Triassic LVFs, the Lootsbergian and Nonesian, are based on South African synapsids and faunal assemblage zones estimated to correspond to the Early Triassic. These are followed by the Perovkan and Berdyankian, based on temnospondyl amphibians and Russian assemblages estimated to be from the Middle Triassic. The youngest four Triassic LVFs, the Otischalkian, Adamanian, Revueltian, and Apachean, are based on aetosaur and phytosaur reptiles common in the Late Triassic of the southwestern United States.
{{cite web}}
: CS1 maint: unfit URL (link)