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The morphology and evolution of chondrichthyan cranial muscles: a digital dissection of the elephantfish Callorhinchus milii and the catshark Scyliorhinus canicula
Dearden, R.P.; Mansuit, R.; Cuckovic, A.; Herrel, A.; Didier, D.; Tafforeau, P.; Pradel, A. (2021). The morphology and evolution of chondrichthyan cranial muscles: a digital dissection of the elephantfish Callorhinchus milii and the catshark Scyliorhinus canicula. J. Anat. 238(5): 1082-1105. https://dx.doi.org/10.1111/joa.13362
In: Journal of anatomy. Cambridge University Press.: London. ISSN 0021-8782; e-ISSN 1469-7580, meer
Peer reviewed article  

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Trefwoorden
    Callorhinchus milii Bory de Saint-Vincent, 1823 [WoRMS]; Scyliorhinus canicula (Linnaeus, 1758) [WoRMS]
Author keywords
    Callorhinchus milii; cranial muscles; digital dissection; elasmobranch; holocephalan; Scyliorhinus canicula

Auteurs  Top 
  • Dearden, R.P.
  • Mansuit, R.
  • Cuckovic, A.
  • Herrel, A., meer
  • Didier, D.
  • Tafforeau, P.
  • Pradel, A.

Abstract
    The anatomy of sharks, rays, and chimaeras (chondrichthyans) is crucial to understanding the evolution of the cranial system in vertebrates due to their position as the sister group to bony fishes (osteichthyans). Strikingly different arrangements of the head in the two constituent chondrichthyan groups—holocephalans and elasmobranchs—have played a pivotal role in the formation of evolutionary hypotheses targeting major cranial structures such as the jaws and pharynx. However, despite the advent of digital dissections as a means of easily visualizing and sharing the results of anatomical studies in three dimensions, information on the musculoskeletal systems of the chondrichthyan head remains largely limited to traditional accounts, many of which are at least a century old. Here, we use synchrotron tomographic data to carry out a digital dissection of a holocephalan and an elasmobranch widely used as model species: the elephantfish, Callorhinchus milii, and the small-spotted catshark, Scyliorhinus canicula. We describe and figure the skeletal anatomy of the head, labial, mandibular, hyoid, and branchial cartilages in both taxa as well as the muscles of the head and pharynx. In Callorhinchus, we make several new observations regarding the branchial musculature, revealing several previously unreported or ambiguously characterized muscles, likely homologous to their counterparts in the elasmobranch pharynx. We also identify a previously unreported structure linking the pharyngohyal of Callorhinchus to the neurocranium. Finally, we review what is known about the evolution of chondrichthyan cranial muscles from their fossil record and discuss the implications for muscle homology and evolution, broadly concluding that the holocephalan pharynx is likely derived from a more elasmobranch-like form which is plesiomorphic for the chondrichthyan crown group. This dataset has great potential as a resource, particularly for researchers using these model species for zoological research, functional morphologists requiring models of musculature and skeletons, as well as for palaeontologists seeking comparative models for extinct taxa.

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