Biology:Dwykaselachus

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Short description: Permian cartilaginous fish

Dwykaselachus
Temporal range: Guadalupian
(Middle Permian)
Scientific classification e
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Chondrichthyes
Subclass: Holocephali
Order: Symmoriiformes
Genus: Dwykaselachus
Oelofsen, 1986
Type species
Dwykaselachus oosthuizeni
Oelofsen, 1986

Dwykaselachus (pronounced dwike-a-selak-us) is an extinct genus of symmoriiform, a cartilaginous fish that lived in what is now South Africa during the Permian period around 280 million years ago. It was first discovered in the 1980s, in a nodule of sediments from the Karoo Supergroup. Dwykaselachus was named based on Dwyka Group, the group of sedimentary geological formation in the southeastern part of Africa. It represents the place where the type species Dwykaselachus oosthuizeni was found.[1]

Prior to its discovery, symmoriiforms were thought to be related to sharks, in the group Elasmobranchii. However, CT scans of its relatively intact skull showed traits such as brain shape and inner ear structure that are shared with cartilaginous fish from the group Holocephali, which includes chimaeras.[2] This implies that the first major radiation of cartilaginous fish after the Devonian extinction was in fact holocephalians, rather than sharks as commonly believed.[3]

History and discovery

Dwykaselachus was first discovered in the 1980, in a nodule of sediments from the Dwyka Group of the Karoo Supergroup by amateur paleontologist Roy Oosthuizen, and originally described by Burger Wilhelm Oelofsen in 1986.[1]

In 2013, co-author Dr. Robert Gess, a researcher in the Geology Department and Albany Museum at Rhodes University in South Africa, CT-scanned[4] the skull of Dwykaselachus, and showed a symmoriiform morphology that resembles a 3D-preserved model.[5] At first, the skull was thought to belong a symmoriid shark, but after the CT-scanning, the image appeared to show anatomical structures that mark the specimen as an early relative of chimaeras.[6]

A research team led by Michael Coates from the University of Chicago Medical center has found that ghosts sharks, also named chimaeras, are related to the 280 million-year-old fish Dwykaselachus oosthuizeni. Chimaera-like features including tell-tale shapes of cranial nerves, nostrils and inner ears suggests that D. oosthuizeni was included in the group Symmoriiformes.[5] Although resembling sharks in appearance, Dwykaselachus was not actually a shark, but rather had diverged from a common ancestor with true sharks in the Devonian.[7]

Description

The computed tomography (CT) analysis of Dwykaselachus shows a symmoriiform morphology with three-dimensional articulation.[8][4] It exhibits some chondrichthyans features such as the large hepophyseal chamber and dorsally projecting endolymphatic duct.[2] The most visible shared specialization with chimaeroids is the offset between the dorsally prominent mesencephalon chamber and the ventral level of the telencephalon space. Moreover, Dwykaselachus share the characteristic chimaeroid elevation of the midbrain, relative to forebrain.[2]

The discovered skull has unusually ethmoid cartilages which include large hemispherical nasal capsules.[3] The nasal capsules are bridged by an internasal groove. Each capsule roof is shorter than the floor, suggesting that, unlike many sharks, the narial openings were directed slightly dorsally.[3] The capsule wall openings include a canal for the olfactory nerve (nerve I), a foramen for the profundus nerve (nerve V), and an opening in the floor, which resembles the subnasal fenestra of Doliodus.[3] The braincase roof is mostly complete, leave little space for the fontanelle. Therefore, a precerbral fontanelle, a signature of non-chimaeroid chondrichthyans, is either reduced or absent.

Classification

The phylogenetic analyses establish the importance of the shared similarities between Dwykaselachus and chimaeroids, suggesting symmoriiforms, including Dwykaselachus, comprise a sister clade to iniopterygians and holocephalans.[9] The detailed fossil chondrichthyans data used in Coates et al.’s paper provided strong evidence supporting that hypothesis.[10] Thus, expansion of holocephalian stem membership moves the chondrichthyans crown group divergence to a deeper phylogenetic node.[3]

Another study done by Coates et al. showed that phylogenetic analysis confirms Gladbachus as a stem chondrichthyan. Strong evidence was provided to support chondrichthyans as a crown clade.[11] It suggests that the initial evolutionary radiation of crown chondrichthyans is primarily post-Devonian, forming a significant component of the vertebrate recovery after the end-Devonian extinction.[6]

The current analyses focus on the conflicting patterns of character state distributions, implying repeated and convergent evolution of chondrichthyan-like specializations among the earliest total group members.[12] Early chondrichthyan species suggest that the morphological disparity in the early members of the chondrichthyan total group was probably substantially greater than that which is observed.[11]

References

  1. 1.0 1.1 B.W. Oelofsen (1986). "A fossil shark neurocranium from the Permo-Carboniferous (lowermost Ecca Formation) of South Africa". Indo-Pacific Fish Biology: Proceedings of the Second International Conference on Indo-Pacific Fishes. Ichthyological Society of Japan. pp. 107–124. ISBN 978-4930813121. 
  2. 2.0 2.1 2.2 "Dwykaselachus oosthuizeni: Permian Fossil Reveals Origins of Chimaeras | Paleontology | Sci-News.com" (in en-US). Breaking Science News | Sci-News.com. http://www.sci-news.com/paleontology/dwykaselachus-oosthuizeni-permian-fossil-chimaeras-04508.html. 
  3. 3.0 3.1 3.2 3.3 3.4 Coates, Michael I.; Gess, Robert W.; Finarelli, John A.; Criswell, Katharine E.; Tietjen, Kristen (2017). "A symmoriiform chondrichthyan braincase and the origin of chimaeroid fishes". Nature 541 (7636): 208–211. doi:10.1038/nature20806. PMID 28052054. Bibcode2017Natur.541..208C. 
  4. 4.0 4.1 "Fossil reveals origin of chimaeroid fishes" (in en). https://www.enca.com/technology/fossil-reveals-origin-of-chimaeroid-fishes. 
  5. 5.0 5.1 "Bizarre Ghost Sharks Evolved From An Even Weirder Species Of Ancient Fish" (in en). Gizmodo Australia. 2017-01-08. https://www.gizmodo.com.au/2017/01/bizarre-ghost-sharks-evolved-from-an-even-weirder-species-of-ancient-fish/. 
  6. 6.0 6.1 "280 million-year-old fossil reveals origins of chimaeroid fishes". 2017-01-04. https://www.sciencedaily.com/releases/2017/01/170104133556.htm. 
  7. Miller, Randall F.; Cloutier, Richard; Turner, Susan (2003). "The oldest articulated chondrichthyan from the Early Devonian" (in en). Nature 425: 1-4. https://www.academia.edu/232414. 
  8. Pskhun (2017-01-06). "Species New to Science: [PaleoIchthyology • 2017 Dwykaselachus oosthuizeni • A Symmoriiform Chondrichthyan Braincase and the Origin of Chimaeroid Fishes"]. http://novataxa.blogspot.com/2017/01/dwykaselachus.html. 
  9. Lisney, Thomas J. (2010-12-01). "A review of the sensory biology of chimaeroid fishes (Chondrichthyes; Holocephali)" (in en). Reviews in Fish Biology and Fisheries 20 (4): 571–590. doi:10.1007/s11160-010-9162-x. ISSN 0960-3166. 
  10. Bangert, Berthold; Stollhofen, Harald; Lorenz, Volker; Armstrong, Richard (1999-07-01). "The geochronology and significance of ash-fall tuffs in the glaciogenic Carboniferous-Permian Dwyka Group of Namibia and South Africa" (in en). Journal of African Earth Sciences 29 (1): 33–49. doi:10.1016/S0899-5362(99)00078-0. ISSN 1464-343X. Bibcode1999JAfES..29...33B. 
  11. 11.0 11.1 Coates, Michael I.; Finarelli, John A.; Sansom, Ivan J.; Andreev, Plamen S.; Criswell, Katharine E.; Tietjen, Kristen; Rivers, Mark L.; Riviere, Patrick J. La (2018-01-10). "An early chondrichthyan and the evolutionary assembly of a shark body plan" (in en). Proc. R. Soc. B 285 (1870): 20172418. doi:10.1098/rspb.2017.2418. ISSN 0962-8452. PMID 29298937. 
  12. Didier, D.A. (2012). Biology of Sharks and Their Relatives. 

External links

Wikidata ☰ Q30589440 entry



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