Prionosuchus

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Prionosuchus
Temporal range: 299–272  Ma
Prionosuchus DB.jpg
Life restoration
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Amphibia
Order: Temnospondyli
Family: Archegosauridae
Subfamily: Platyoposaurinae
Genus: Prionosuchus
Price, 1948 [1]
Type species
Prionosuchus plummeri
Price, 1948 [2]

Prionosuchus is an extinct genus of large temnospondyl. A single species P. plummeri, is recognized from the Early Permian (some time between 299 and 272 million years ago). Its fossils have been found in what is now northeastern Brazil.

Contents

Description

Size of the holotype specimen (green) and largest known specimen (gray) relative to a human Prionosuchus scale.svg
Size of the holotype specimen (green) and largest known specimen (gray) relative to a human

The fragmentary remains of this animal have been found in the Pedra de Fogo Formation in the Parnaíba Basin of Northeastern Brazil, in the states of Piauí and Maranhão, and it was described by L.I. Price in 1948. [3] The incomplete skull of the holotype specimen has been estimated to be 50 centimetres (20 in) long. [4] Several more fragmentary specimens have been found. One very fragmentary but very large specimen (BMNH R12005) appears to have come from an individual nearly three times the size of most other specimens, and may have had a skull that measured up to 1.6 metres (5.2 ft) long. [4] Based on related species and comparisons with living gharials, the total body length of this specimen has been estimated to reach nearly 6.5 metres (21 ft) long. [4] Even higher estimate, up to 9 m, was proposed. With a such length, Prionosuchus would have been the largest amphibian that ever existed. [5]

With an elongated and tapered snout, numerous sharp teeth, long body, short legs, and a tail adapted for swimming, its general appearance was very similar to a modern gharial or gar, and it probably had a similar lifestyle as an ambush aquatic predator feeding on fish and other aquatic animals. A study on the closely related Archegosaurus shows that it had a heat balance, gas exchange, osmoregulation, and digestion more similar to that of fish than modern aquatic amphibians; the same probably applied to Prionosuchus as well. [6]

Classification

Prionosuchus has been classified as an archegosaurian by Carroll. [7] The genus is monotypic with P. plummeri being the only species described. The archegosaurs were a group of temnospondyli that occupied the ecological niche of crocodiles and alligators during the Permian, and of which the European genus Archegosaurus is typical. The group became extinct at the end of the Permian and the niche was subsequently filled by other, new temnospondyls, later joined by reptiles such as the phytosaurs in the Triassic period.

Cox and Hutchinson re-evaluated Prionosuchus in 1991 and synonymized it with the genus Platyoposaurus from Russia. On the basis of this study, the Pedra do Fogo Formation was reevaluated to be of Middle to Late Permian age. [4] However, studies based on plants and pollens indicate that this formation is actually early Permian in age, making Prionosuchus not contemporary with Platyoposaurus. [8] [9] More recent research rejects the later Permian date. [10] [11]

Paleoecology

Restoration of paleoenvironment of Pedra de Fogo Formation Procuhy and Timonya.jpg
Restoration of paleoenvironment of Pedra de Fogo Formation

Prionosuchus lived in a humid and tropical environment as indicated by the petrified forest of the Pedra do Fogo Formation in which fossils of this animal have been found. The strata composed of siltstones, shales and limestones were deposited in lagoonal and fluvial environments. [12] Other animals discovered in the same formation include other amphibians ( Procuhy , Timonya , Rhinesuchid), captorhinids ( Captorhinikos and other two unnamed taxa), parareptile ( Karutia ) and fish including chondrichthyans ( Rubencanthus , Sphenacanthus , Bythiacanthus , Taquaralodus , Itapyrodus , Anisopleurodontis ), palaeoniscids ( Brazilichthys ), and lungfish. [10] [11] [13]

Related Research Articles

<span class="mw-page-title-main">Temnospondyli</span> Ancestors of modern amphibians adapted to life on land

Temnospondyli or temnospondyls is a diverse ancient order of small to giant tetrapods—often considered primitive amphibians—that flourished worldwide during the Carboniferous, Permian and Triassic periods, with fossils being found on every continent. A few species continued into the Jurassic and Early Cretaceous periods, but all had gone extinct by the Late Cretaceous. During about 210 million years of evolutionary history, they adapted to a wide range of habitats, including freshwater, terrestrial, and even coastal marine environments. Their life history is well understood, with fossils known from the larval stage, metamorphosis and maturity. Most temnospondyls were semiaquatic, although some were almost fully terrestrial, returning to the water only to breed. These temnospondyls were some of the first vertebrates fully adapted to life on land. Although temnospondyls are amphibians, many had characteristics such as scales and armour-like bony plates that distinguish them from the modern soft-bodied lissamphibians.

<span class="mw-page-title-main">Stereospondyli</span> Extinct suborder of amphibians

The Stereospondyli are a group of extinct temnospondyl amphibians that existed primarily during the Mesozoic period. They are known from all seven continents and were common components of many Triassic ecosystems, likely filling a similar ecological niche to modern crocodilians prior to the diversification of pseudosuchian archosaurs.

<i>Daptocephalus</i> Assemblage Zone

The Daptocephalus Assemblage Zone is a tetrapod assemblage zone or biozone found in the Adelaide Subgroup of the Beaufort Group, a majorly fossiliferous and geologically important geological Group of the Karoo Supergroup in South Africa. This biozone has outcrops located in the upper Teekloof Formation west of 24°E, the majority of the Balfour Formation east of 24°E, and the Normandien Formation in the north. It has numerous localities which are spread out from Colesberg in the Northern Cape, Graaff-Reniet to Mthatha in the Eastern Cape, and from Bloemfontein to Harrismith in the Free State. The Daptocephalus Assemblage Zone is one of eight biozones found in the Beaufort Group and is considered Late Permian (Lopingian) in age. Its contact with the overlying Lystrosaurus Assemblage Zone marks the Permian-Triassic boundary.

The Fremouw Formation is a Triassic-age rock formation in the Transantarctic Mountains of Antarctica. It contains the oldest known fossils of tetrapods from Antarctica, including synapsids, reptiles and amphibians. Fossilized trees have also been found. The formation's beds were deposited along the banks of rivers and on floodplains. During the Triassic, the area would have been a riparian forest at 70–75°S latitude.

<i>Captorhinus</i> Extinct genus of reptiles

Captorhinus is an extinct genus of captorhinid reptiles that lived during the Permian period. Its remains are known from North America and possibly South America.

<span class="mw-page-title-main">Archegosauridae</span> Extinct family of amphibians

Archegosauridae is a family of relatively large and long snouted temnospondyls that lived in the Permian period. They were fully aquatic animals, and were metabolically and physiologically more similar to fish than modern amphibians. The family has been divided into two subfamilies, the longer-snouted Platyoposaurinae and the shorter-snouted Melosaurinae.

<i>Konzhukovia</i> Genus of amphibians (fossil)

Konzhukovia is an amphibian genus that belongs to an extinct family Konzhukoviidae of temnospondyls, the largest clade of basal tetrapods including about 198 genera, 292 species, and more than half of which were alive during the early Mesozoic period. The animal was a predator that lived about 260 million years ago, and could get up to about three meters in length. Specifically, Konzukovia lived during the Permian, between 252 and 270 million years ago according to the type of rock the fossil was found in. There are three species within this genus, K. vetusta, K. tarda, and K. sangabrielensis, the first two originating from Russia while the latest originating from Southern Brazil. The discovery of this specimen in Southern Brazil provided more evidence to support the idea that during this animals existence, there was a “biological corridor” because of the supercontinent Pangea, allowing these species to be found so far apart from each other. Konzhukovia belongs to the family Archegosauridae, a family consisted of large temnospondyls that most likely compare to modern day crocodiles. Since the discovery of the latest species, K. sangabrielensis, Pacheco proposes that there must be the creation of a new family, Konzhokoviidae, a monophyletic group in a sister-group relationship with Stereospondlyi in order to accommodate the three species. Konzhukovia skulls usually exhibit typical rhinesuchid features including an overall parabolic shape, small orbits located more posteriorly, and the pterygoids do not reach the vomer. These animals were long-snouted amphibians that had clear adaptations made for fish catching, as well as exemplifying aquatic features.

<i>Australerpeton</i> Extinct genus of amphibians

Australerpeton is an extinct genus of stereospondylomorph temnospondyl currently believed to belong to the family Rhinesuchidae. When first named in 1998, the genus was placed within the new family Australerpetontidae. However, studies published a few years later questioned the systematics used in the original description and included the genus within Archegosauridae. A study by Dias & Schultz (2003) reassigned Australerpeton to the family Rhinesuchidae within the suborder Stereospondyli based on an earlier evaluation of the family. In this study, the close similarities between Australerpeton and archegosaurids were attributed to convergent evolution as a result of similar semi-aquatic lifestyles. A redescription of the skeleton of this genus was published by Eltink & Langer in 2014, and the skull was redescribed in a follow-up study published by Eltink et al. in 2016. These studies, as well as a 2017 study focusing on rhinesuchids in general, confirmed that Australerpeton was a rhinesuchid rather than an archegosaurid. Fossils of the genus have been found in the Rio do Rasto Formation of Brazil.

<span class="mw-page-title-main">Brachyopidae</span> Extinct family of amphibians

Brachyopidae is an extinct family of temnospondyl labyrinthodonts. They evolved in the early Mesozoic and were mostly aquatic. A fragmentary find from Lesotho, Africa is estimated to have been 7 metres (23 ft) long, the largest amphibian ever known to have lived besides Prionosuchus and Mastodontosaurus. Brachyopids were the only group of temnospondyls to survive into the Jurassic aside from their sister family Chigutisauridae. With records of the family from the Jurassic of Asia.

<span class="mw-page-title-main">Trimerorhachidae</span> Extinct family of amphibians

Trimerorhachidae is a family of dvinosaurian temnospondyls, including Trimerorhachis and Neldasaurus.

<i>Acroplous</i> Extinct genus of amphibians

Acroplous is an extinct genus of dvinosaurian Temnospondyli within the family Eobrachyopidae.

<i>Indobrachyops</i> Extinct genus of amphibians

Indobrachyops is an extinct genus of temnospondyl amphibian from the Early Triassic of India. It is known from a nearly complete fossil skull that was first described by paleontologists Friedrich von Huene and M. R. Sahni in 1958 from the Panchet Formation in Raniganj Coalfield. Indobrachyops belongs to a group of mostly semi-aquatic temnospondyls called Stereospondyli, but its exact placement within the group has been uncertain since its first description.

<span class="mw-page-title-main">Archegosauroidea</span> Extinct superfamily of amphibians

Archegosauroidea is an extinct superfamily of Permian temnospondyls. The superfamily is assigned to the clade Stereospondylomorpha and is the sister taxon to the suborder Stereospondyli. It includes the families Actinodontidae and Archegosauridae, and possibly the genus Intasuchus, which is placed within the monotypic family Intasuchidae. They were fully aquatic animals, and were metabolically and physiologically more similar to fish than modern amphibians.

Kunpania is an extinct genus of dicynodont therapsid from the Quanzijie Formation of Xinjiang, China. The type and only species is K. scopulusa, and it is known only by a single incomplete specimen including parts of the skull and forelimb. Since its initial description in 1978 by palaeontologist Ailing Sun, it has sometimes been considered to be another species of Dicynodon by other researchers, or potentially undiagnostic. However, a redescription in 2021 reaffirmed its distinctiveness, including a uniquely well developed muscle attachment on the humerus. Kunpania is perhaps the oldest known member of the derived dicynodont group Dicynodontoidea, potentially dating to the Middle Permian period during the Capitanian, and so may fill a knowledge gap in the history of dicynodont evolution.

<i>Batrachomimus</i> Extinct genus of reptiles

Batrachomimus is an extinct genus of neosuchian crocodyliform known from the Late Jurassic Pastos Bons Formation of northeastern Brazil. It contains a single species, Batrachomimus pastosbonensis, with the specific name referring to the formation, which was first described and named by Felipe C. Montefeltro, Hans C. E. Larsson, Marco A. G. de França and Max C. Langer in 2013. It is known from a nearly complete skull, osteoderms and limb bones. Batrachomimus belongs to the family Paralligatoridae and predates all other members of the family and its immediate sister group, Eusuchia, by 30 million years.

<i>Timonya</i> Extinct genus of amphibians

Timonya is an extinct genus of temnospondyl amphibian represented by the type species Timonya anneae from the Early Permian of Brazil. Timonya is a basal member of a clade or evolutionary grouping of temnospondyls called Dvinosauria. It was named in 2015 on the basis of several specimens from the lower part of the Pedra de Fogo Formation in Parnaíba Basin, which is about 278 million years old. It was likely a small aquatic predator that inhabited lakes and wetland areas. During the Early Permian the center of tetrapod diversity was in the equatorial regions of the supercontinent Pangea, and Timonya was part of this fauna.

<span class="mw-page-title-main">Balfour Formation</span> Geological formation in the Beaufort Group of South Africa

The Balfour Formation is a geological formation that is found in the Beaufort Group, a major geological group that forms part of the greater Karoo Supergroup in South Africa. The Balfour Formation is the uppermost formation of the Adelaide Subgroup which contains all the Late Permian-aged biozones of the Beaufort Group. Outcrops and exposures of the Balfour Formation are found from east of 24 degrees in the highest mountainous escarpments between Beaufort West and Fraserburg, but most notably in the Winterberg and Sneeuberg mountain ranges near Cradock, the Baviaanskloof river valley, Graaff-Reniet and Nieu Bethesda in the Eastern Cape, and in the southern Free State province.

<i>Procuhy</i> Extinct genus of amphibians

Procuhy is an extinct genus of dvinosaurian temnospondyl amphibian in the family Trimerorhachidae represented by the type species Procuhy nazariensis from the Early Permian of Brazil.

Karutia is an extinct genus of parareptile known from the Early Permian Pedra de Fogo Formation of Brazil. The type species is Karutia fortunata.

Brazilichthys is an extinct genus of prehistoric ray-finned fish that lived during the Cisuralian epoch in what is now Maranhão, Brazil. The type and only species, B. macrognathus, is known from a single skull, which was recovered from the Pedra de Fogo Formation.

References

  1. "Prionosuchus". BioLib. Retrieved 30 November 2022.
  2. "Prionosuchus plummeri". BioLib. Retrieved 30 November 2022.
  3. L.I. Price, 1948, Um anfíbio Labirinthodonte da formação Pedra de Fogo, Estado do Maranhão: Ministerio da Agricultura, Departamento Nacional da Produção Mineral Divisão de Geologia e Mineralogia, Boletim n. 124, p. 7-32.
  4. 1 2 3 4 Cox, C.B., and Hutchinson, P. (1991). "Fishes and amphibians from the Late Permian Pedra de Fogo Formation of Northern Brazil". Palaeontology, 34(3): 561–573.
  5. Daniel L. Levy, Rebecca Heald (August 2015). "Biological Scaling Problems and Solutions in Amphibians". Cold Spring Harbor Perspectives in Biology. 8 (1): a019166. doi:10.1101/cshperspect.a019166. PMC   4691792 . PMID   26261280.
  6. Florian Witzmann; Elizabeth Brainerd (2017). "Modeling the physiology of the aquatic temnospondyl Archegosaurus decheni from the early Permian of Germany". Fossil Record. 20 (2): 105–127. doi:10.5194/fr-20-105-2017.
  7. R. L. Carroll, 1988,Vertebrate Paleontology and Evolution. W.H. Freeman and Company
  8. Mussa D & Coimbra AM., 1987, Novas perspectivas de comparação entre as tafofloras permianas (de lenhos) das Bacias do Parnaíba e do Paraná. X Congresso brasileiro de Paleontologia. Rio de Janeiro. Anais da Academia Brasileira de Ciências, 2: 901–922.
  9. Caldas EB, Mussa D, Lima Filho FP & Roesler O., 1989, Nota sobre a ocorrência de uma floresta petrificada de idade permiana em Teresina, Piauí. Bol IG-USP, Publ Esp 7: 69–87.
  10. 1 2 Juan C. Cisneros, Claudia Marsicano, Kenneth D. Angielczyk, Roger M. H. Smith, Martha Richter, Jörg Fröbisch, Christian F. Kammerer & Rudyard W. Sadleir, 2015, New Permian fauna from tropical Gondwana. Nature Communications volume 6, Article number: 8676 (2015)
  11. 1 2 Cisneros, Juan C.; Angielczyk, Kenneth; Kammerer, Christian F.; Smith, Roger M.H.; Fröbisch, Jörg; Marsicano, Claudia A.; Richter, Martha (6 March 2020). "Captorhinid reptiles from the lower Permian Pedra de Fogo Formation, Piauí, Brazil: the earliest herbivorous tetrapods in Gondwana". PeerJ. 8: e8719. doi: 10.7717/peerj.8719 . PMC   7061909 . PMID   32185112.
  12. Schobbenhaus, C., Campos, D. A., Derze, G. R., and Asmus, H. E., 1984, Geologia do Brasil: Brasõlia, D.N.P.M., Brasília, 501 pp.
  13. Figueroa, Rodrigo T.; Gallo, Valéria (2017-07-01). "New chondrichthyan fin spines from the Pedra de Fogo Formation, Brazil". Journal of South American Earth Sciences. 76: 389–396. doi:10.1016/j.jsames.2017.03.015. ISSN   0895-9811.
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