Caerorhachis

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Caerorhachis
Temporal range: Early Carboniferous 340  Ma
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CaerorhahisDBsmall.jpg
Life restoration of Caerorhachis bairdi
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Sarcopterygii
Clade: Tetrapodomorpha
Clade: Stegocephali
Genus: Caerorhachis
Holmes and Carroll, 1977
Species
  • C. bairdiHolmes and Carroll, 1977 (type)

Caerorhachis (meaning "suitable spine" in Greek) is an extinct genus of early tetrapod from the Early Carboniferous of Scotland, probably from the Serpukhovian stage. [1] Its placement within Tetrapoda is uncertain, but it is generally regarded as a primitive member of the group. The type species C. bairdi was named in 1977. [2]

Contents

Classification

Caerorhachis has usually been placed as a basal anthracosaur or a close relative of anthracosaurs. In this classification, Caerorhachis is a close ancestor of amniotes, or tetrapods that lay eggs on land. Caerorhachis has also been classified as the sister taxon of temnospondyls, a large group of extinct amphibians, based on the presence of several primitive traits. [3] In fact, when it was named in 1977, Caerorhachis was thought to be a dendrerpetontid temnospondyl. [2]

The vertebrae of Caerorhachis are more similar to anthracosaurs, however. As in all early tetrapods, the centrum, or central part of the vertebra, is composed of two parts: the intercentrum and the pleurocentrum. While temnospondyls have large intercentra and small pleurocentra, Caerorhachis and anthracosaurs have larger pleurocentra than intercentra. [4] A 2003 phylogenetic analysis of early tetrapods placed Caerorhachis outside the clade that included temnospondyls and anthracosaurs in an ancestral position to both groups. [5]

Paleobiology

Caerorhachis is thought to have had a primarily terrestrial lifestyle. It lacks the lateral lines across the skull that served as an adaptation for earlier aquatic tetrapods and their ancestors. The large, well developed limbs suggest it was able to move on land better than other early tetrapods like colosteids and baphetids. Robert Holmes and Robert L. Carroll, the first to describe Caerorhachis, interpreted it as "[an] animal spending much of its life in the damp mud on the margins of ponds or streams, feeding on stranded fish, or occasionally venturing into the water to catch aquatic larvae of other amphibians." [2]

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A tetrapod is any four-limbed vertebrate animal of the superclass Tetrapoda. Tetrapods include all extant and extinct amphibians and amniotes, with the latter in turn evolving into two major clades, the sauropsids and synapsids. Some tetrapods such as snakes, legless lizards, and caecilians had evolved to become limbless via mutations of the Hox gene, although some do still have a pair of vestigial spurs that are remnants of the hindlimbs.

<span class="mw-page-title-main">Labyrinthodontia</span> Paraphyletic group of tetrapodomorphs

"Labyrinthodontia" is an informal grouping of extinct predatory amphibians which were major components of ecosystems in the late Paleozoic and early Mesozoic eras. Traditionally considered a subclass of the class Amphibia, modern classification systems recognize that labyrinthodonts are not a formal natural group (clade) exclusive of other tetrapods. Instead, they consistute an evolutionary grade, ancestral to living tetrapods such as lissamphibians and amniotes. "Labyrinthodont"-grade vertebrates evolved from lobe-finned fishes in the Devonian, though a formal boundary between fish and amphibian is difficult to define at this point in time.

Romer's gap is an example of an apparent gap in the tetrapod fossil record used in the study of evolutionary biology. Such gaps represent periods from which excavators have not yet found relevant fossils. Romer's gap is named after paleontologist Alfred Romer, who first recognised it in 1956. Recent discoveries in Scotland are beginning to close this gap in palaeontological knowledge.

<span class="mw-page-title-main">Lepospondyli</span> Polyphyletic group of tetrapodomorphs

Lepospondyli is a diverse taxon of early tetrapods. With the exception of one late-surviving lepospondyl from the Late Permian of Morocco, lepospondyls lived from the Early Carboniferous (Mississippian) to the Early Permian and were geographically restricted to what is now Europe and North America. Five major groups of lepospondyls are known: Adelospondyli; Aïstopoda; Lysorophia; Microsauria; and Nectridea. Lepospondyls have a diverse range of body forms and include species with newt-like, eel- or snake-like, and lizard-like forms. Various species were aquatic, semiaquatic, or terrestrial. None were large, and they are assumed to have lived in specialized ecological niches not taken by the more numerous temnospondyl amphibians that coexisted with them in the Paleozoic. Lepospondyli was named in 1888 by Karl Alfred von Zittel, who coined the name to include some tetrapods from the Paleozoic that shared some specific characteristics in the notochord and teeth. Lepospondyls have sometimes been considered to be either related or ancestral to modern amphibians or to Amniota. It has been suggested that the grouping is polyphyletic, with aïstopods being primitive stem-tetrapods, while recumbirostran microsaurs are primitive reptiles.

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

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<i>Westlothiana</i> Extinct genus of tetrapods

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

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<i>Eucritta</i> Extinct genus of tetrapods

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<span class="mw-page-title-main">Nectridea</span> Extinct order of amphibians

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

Acherontiscus is an extinct genus of stegocephalians that lived in the Early Carboniferous of Scotland. The type and only species is Acherontiscus caledoniae, named by paleontologist Robert Carroll in 1969. Members of this genus have an unusual combination of features which makes their placement within amphibian-grade tetrapods uncertain. They possess multi-bone vertebrae similar to those of embolomeres, but also a skull similar to lepospondyls. The only known specimen of Acherontiscus possessed an elongated body similar to that of a snake or eel. No limbs were preserved, and evidence for their presence in close relatives of Acherontiscus is dubious at best. Phylogenetic analyses created by Marcello Ruta and other paleontologists in the 2000s indicate that Acherontiscus is part of Adelospondyli, closely related to other snake-like animals such as Adelogyrinus and Dolichopareias. Adelospondyls are traditionally placed within the group Lepospondyli due to their fused vertebrae. Some analyses published since 2007 have argued that adelospondyls such as Acherontiscus may not actually be lepospondyls, instead being close relatives or members of the family Colosteidae. This would indicate that they evolved prior to the split between the tetrapod lineage that leads to reptiles (Reptiliomorpha) and the one that leads to modern amphibians (Batrachomorpha). Members of this genus were probably aquatic animals that were able to swim using snake-like movements.

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<i>Eldeceeon</i> Extinct genus of reptile-like amphibians

Eldeceeon is an extinct genus of reptiliomorph from the Mississippian of Scotland. It is known from two fossil specimens found within the Viséan-age East Kirkton Quarry in West Lothian. The type and only species, E. rolfei, was named in 1994. Eldeceeon is thought to be closely related to embolomeres, but it has several distinguishing features including long limbs and a short trunk. Initially known from two crushed partial skeletons, additional specimens have been reported by Ruta & Clack (2006). Eldeceeon was redescribed by Ruta, Clack, & Smithson (2020). The redescription supported affinities with Silvanerpeton, reconstructed a skull with larger eyes and a shorter snout, and emphasized potential correlations for an enlarge puboischiofemoralis internus 2 muscle.

Kashmirosaurus is an extinct genus of temnospondyl amphibian known from Permo-Carboniferous deposits in the region of Kashmir. It was originally named by English paleontologist Arthur Smith Woodward in 1905 as a species of Archegosaurus called Archegosaurus ornatus. More recently, the species has been recognized as being distinct from Archegosaurus, and it was placed in its own genus Kashmirosaurus in 1996. An additional species of Archegosaurus, A. kashmiriensis, was named in 1960 from the same deposits in Kashmir, and is now considered synonymous with Kashmirosaurus ornatus.

References

  1. Ruta, M.; Coates M.I.; Quicke D.L.J. (2003). "Early tetrapod relationships revisited" (PDF). Biological Reviews. Cambridge Philosophical Society. 78: 262. doi:10.1017/s1464793102006103. PMID   12803423. Archived from the original (PDF) on 22 May 2008. Retrieved 3 December 2012.
  2. 1 2 3 Holmes, R.; Carroll, R. (1977). "A temnospondyl amphibian from the Mississippian of Scotland". Bulletin of the Museum of Comparative Zoology. 147: 489–511.
  3. Ruta, M.; Milner, A.R.; Coates, M.I. (2001). "The tetrapod Caerorhachis bairdi Holmes and Carroll from the Lower Carboniferous of Scotland" (PDF). Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 92 (3): 229–261. doi:10.1017/S0263593300000249.
  4. Clack, J.A. (2002). Gaining ground: the origin and evolution of tetrapods. Indiana University Press. p. 369. ISBN   978-0-253-34054-2.
  5. Ruta, M.; Jeffery, J. E.; Coates, M. I. (2003). "A supertree of early tetrapods". Proceedings of the Royal Society B. 270 (1532): 2507–16. doi:10.1098/rspb.2003.2524. PMC   1691537 . PMID   14667343.