Biology:Herpetoskylax

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Short description: Extinct genus of therapsids

Herpetoskylax
Temporal range: Late Permian 259–254 Ma
[1]
Herpetoskylax.jpg
Herpetoskylax hopsoni
Scientific classification edit
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Synapsida
Clade: Therapsida
Suborder: Biarmosuchia
Genus: Herpetoskylax
Sidor and Rubidge, 2006
Species:
H. hopsoni
Binomial name
Herpetoskylax hopsoni
Sidor and Rubidge, 2006

Herpetoskylax is an extinct genus of biarmosuchians which existed in South Africa . The type species is Herpetoskylax hopsoni.[2] It lived in the Late Permian Period.[3]

The genus name means ‘reptile-puppy’, from the Ancient Greek herpeto- (ἑρπετόν, ‘creeping animal’) and skylax (σκύλαξ, ‘young dog’). The juxtaposition of reptilian and mammalian names highlights the transitional characters of therapsids.[4] The type specimen is CGP 1/67, a skull. The skull and lower jaw were the only components found.

Description

Skull

The skull of Herpetoskylax is noted to have been preserved unusually well in regards to other biarmosuchians. It is approximately 13 centimeters long.[2] Skull sutures can be recognized and the skull itself is only compressed slightly.[2] It displays primitive features such as a convex curve to the skull roof when viewed from the side, a “deep snout,”[2] a small temporal opening, and the absence of a freestanding coronoid process on the lower jaw. It has large eyes, a trait shared with other biarmosuchians. It is inferred that the premaxilla was short, similar to its fellow biarmosuchian, Lycaenodon.[2]  

Four premaxillary teeth are present with few serrations (likely from attrition), but it is suggested there was an additional tooth based on a gap noted in the region. The genus has no precanine maxillary teeth, but it does have significant canines. Serrations are present on the posterior side of said canines, as well as on the postcanine teeth.[2]

The skull differs from other biarmosuchians in the configuration of the septomaxilla, of which both sides were preserved. The septomaxilla, a small bone associated with the nose area,[5] goes in between the maxilla and the external naris (nose). The maxilla is a smooth, sizable bone. The relation between the premaxilla and maxilla is unknown due to insufficient preservation.[2] The postfrontal bone, dorsal to the eyes, is flat,[2] particularly in contrast with this specimen’s relatives, which often have display structures in this region.[6] Sidor and Rubidge comment that the morphology of Herpetoskylax’s jugal (cheek bone) is easiest to see compared to other biarmosuchians.[2]

Across non-mammal therapsids, of which Herpetoskylax is part of, in terms of the braincase, the inside shape of the skull is generally primitive.[7] They have no enlargement of their cerebral hemisphere or their cerebellum, no divide between cerebral hemispheres, and they may have had small olfactory bulbs. However, biarmosuchians have more derived features as well, such as a strong flexure at the level of the midbrain.[7]

Palate

Herpetoskylax lacks palatal dentition, which is a feature seen in many tetrapods.[8] It has been theorized that the loss of palatal teeth in more derived tetrapods was perhaps due to changes in feeding or the expansion of the secondary palate, but it cannot be confirmed.[8]

There is compression in the palate so its finer details are unknown, such as whether the vomer is connected to the palatine or pterygoid.[2]

Lower Jaw

In the holotype, the left side of the back lower jaw is missing, but the right side was preserved well. The lower jaw is fairly narrow. Anteriorly, the jaw is shallow, but posteriorly it deepens, which is characteristic of biarmosuchians.[2]

Discovery and Name

The region (in yellow) where Herpetoskylax was found

The holotype skull was found in the Beaufort Group in the Karoo Basin of South Africa, located in the Beaufort West District, Western Cape Province.[2] It was found on a farm, and it was determined that the skull was from the Cistecephalus Assemblage Zone, which was used as evidence for the conclusion that its age was Late Permian.[2] The species was described and named by Christian A. Sidor and Bruce S. Rubidge in 2006.

The species name hopsoni honors Dr. James A. Hopson who did extensive and relevant research on biarmosuchians.[2]

Classification

The group Biarmosuchia, including Herpetoskylax
Biarmosuchia

Template:Clade sequential

Based on Sidor and Rubidge, 2006

Herpetoskylax belongs to the basal non-mammal therapsid group Biarmosuchia, with suggested sister taxa Hipposaurus and Lycaenodon based on Sidor and Rubidge’s phylogenetic trees.[2] More broadly, it is a synapsid.

Rubidgina has been proposed as a possible juvenile Herpetosklyax hopsoni,[2] but a study in 2021 by Duhamel et al. advised that this is uncertain.[9]

Paleobiology

Biarmosuchians, including Herpetoskylax, had skulls specialized for a carnivorous diet, with their large canines and enlarged jaw muscles.[10] Herpetoskylax was estimated to have a hearing range of 8248.16 hertz and a mean frequency of 4691.32 hertz based on an analysis of the skull.[11]

There are various theories relating to snout sensitivity in non-mammal therapsids; members of the group may have had whiskers, given that they share maxillary features with mammals like specific snout foramen. Similar features are present in reptiles, so it is not a certainty, though it is likely given their relation to mammals.[12]

Paleontologist Robert Bakker theorized that therapsids were endothermic (i.e., warm-blooded), citing evidence that the Permian climate was often cold and therapsids would have needed the advantage to be so prolific during this time.[13] In 1986, a paper by Bennett and Ruben asserted that the Permian was sufficiently warm to support ectothermy (cold-bloodedness), additionally noting that other successful fauna of the time were ectothermic. They concluded, however, that it was possible for therapsids to have been endothermic based on features shared with mammalian groups such as monotremes and therians.[14] Herpetoskylax did not possess nasal turbinals, a trait associated with endothermy in extant mammals and birds, as this character has only been confirmed in more derived therapsids.[14]

Paleoenvironment

Herpetoskylax lived in what is now the Beaufort Group in South Africa, a region in the Karoo Basin.[2] This area in the late Permian is thought to have been seasonal and varied from wet to dry climates.[15] Vegetation along streams and lakes were theorized to provide a diet for reptilians and acted as a foundation for carnivorous non-mammal therapsids like Herpetoskylax.[16]

References

  1. "Fossilworks: Herpetoskylax". http://www.fossilworks.org/cgi-bin/bridge.pl?a=taxonInfo&taxon_no=335887. 
  2. 2.00 2.01 2.02 2.03 2.04 2.05 2.06 2.07 2.08 2.09 2.10 2.11 2.12 2.13 2.14 2.15 2.16 Sidor, C.A., and Rubidge, B.S. (2006). "Herpetoskylax hopsoni, a new biarmosuchian (Therapsida: Biarmosuchia) from the Beaufort Group of South Africa" In: Amniote Paleobiology, perspectives on the Evolution of mammals, birds and reptiles, edited by Carrano, M.T., Gaudin, T.J., Blob, R.W., and Wible, J.R. Chicago University Press, p. 76-113
  3. Palaeocritti - a guide to prehistoric animals. Herpetoskylax hopsoni. Downloaded 25/03/2011
  4. Carrano, Matthew T. (2006). Amniote Paleobiology. University of Chicago Press. p. 80. ISBN 978-0-226-09478-6. https://books.google.com/books?id=4uNMCqSRQ9gC&pg=PA80. 
  5. "Palaeos Bones: Dermal Bones: Facial Series: Septomaxilla". http://palaeos.com/vertebrates/bones/dermal/facial-septomaxilla.html. 
  6. Sidor, C. A.; Welman, J. (2003-09-12). "A second specimen of Lemurosaurus pricei (Therapsida: Burnetiamorpha)" (in en). Journal of Vertebrate Paleontology 23 (3): 631–642. doi:10.1671/0272-4634(2003)023[0631:ASSOLP2.0.CO;2]. ISSN 0272-4634. http://www.tandfonline.com/doi/abs/10.1671/0272-4634%282003%29023%5B0631%3AASSOLP%5D2.0.CO%3B2. 
  7. 7.0 7.1 Benoit, Julien; Fernandez, Vincent; Manger, Paul R.; Rubidge, Bruce S. (2017). "Endocranial Casts of Pre-Mammalian Therapsids Reveal an Unexpected Neurological Diversity at the Deep Evolutionary Root of Mammals" (in en). Brain, Behavior and Evolution 90 (4): 311–333. doi:10.1159/000481525. ISSN 0006-8977. https://www.karger.com/Article/FullText/481525. 
  8. 8.0 8.1 Matsumoto, Ryoko; Evans, Susan E. (2017). "The palatal dentition of tetrapods and its functional significance" (in en). Journal of Anatomy 230 (1): 47–65. doi:10.1111/joa.12534. PMID 27542892. 
  9. Duhamel, Aliénor; Benoit, Julien; Day, Michael; Rubidge, Bruce; Fernandez, Vincent (2021-08-26). "Computed Tomography elucidates ontogeny within the basal therapsid clade Biarmosuchia" (in en). PeerJ 9: e11866. doi:10.7717/peerj.11866. ISSN 2167-8359. PMID 34527434. 
  10. Kemp, T. S. (2006). "The origin and early radiation of the therapsid mammal-like reptiles: a palaeobiological hypothesis" (in en). Journal of Evolutionary Biology 19 (4): 1231–1247. doi:10.1111/j.1420-9101.2005.01076.x. ISSN 1010-061X. 
  11. Benoit, Julien; Manger, Paul R.; Fernandez, Vincent; Rubidge, Bruce S. (2017). "The bony labyrinth of late Permian Biarmosuchia: palaeobiology and diversity in non-mammalian Therapsida". Paleontologica Africana 52: 58–77. https://core.ac.uk/download/pdf/188776394.pdf. 
  12. Benoit, J.; Manger, P. R.; Rubidge, B. S. (2016-05-09). "Palaeoneurological clues to the evolution of defining mammalian soft tissue traits" (in en). Scientific Reports 6 (1): 25604. doi:10.1038/srep25604. ISSN 2045-2322. PMID 27157809. 
  13. Bakker, Robert (1980). A Cold Look at the Warm-Blooded Dinosaurs. Westview Press. pp. 351–462. 
  14. 14.0 14.1 Bennett, A. F., & Ruben, J. A. (1986). The Metabolic and Thermoregulatory Status of Therapsids. The Ecology and Biology of Mammal-Like Reptiles, 207-218.
  15. Knight, Cassi, "Late Permian Paleoenvironmental Factors Expounded Through Analysis of a Forest-Floor Paleosol Profile, Karoo Basin, South Africa" (2010). Honors Theses. Paper 584.
  16. Smith, R.M.H.; Eriksson, P.G.; Botha, W.J. (1993). "A review of the stratigraphy and sedimentary environments of the Karoo-aged basins of Southern Africa" (in en). Journal of African Earth Sciences (and the Middle East) 16 (1–2): 143–169. doi:10.1016/0899-5362(93)90164-L. https://linkinghub.elsevier.com/retrieve/pii/089953629390164L. 

Wikidata ☰ Q2337256 entry