Myology of the Head, Neck, and Thoracic Region of the Lesser Grison (Galictis cuja) in Comparison with the Red Panda (Ailurus fulgens) and Other Carnivorans: Phylogenetic and Functional Implications

Myology of the Head, Neck, and Thoracic Region of the Lesser Grison (Galictis cuja) in Comparison with the Red Panda (Ailurus fulgens) and Other Carnivorans: Phylogenetic and Functional Implications

The lesser grison ( Galictis cuja ) and the red panda ( Ailurus fulgens ) represent two opposed morpho-functional musteloid extremes. The mid-sized lesser grison is primarily terrestrial, a frequent burrow-dweller, and carnivorous, while the larger, scansorial red panda eats bamboo. This study docum...

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Bibliographic Details
Published in:Journal of mammalian evolution Vol. 24; no. 3; pp. 289 - 322
Main Authors: Ercoli, Marcos D., Álvarez, Alicia, Busker, Felipe, Morales, Miriam M., Julik, Emily, Smith, Heather F., Adrian, Brent, Barton, Mike, Bhagavatula, Keerthi, Poole, Meifawn, Shahsavan, Matt, Wechsler, Rachel, Fisher, Rebecca E.
Format: Journal Article
Language:English
Published: New York Springer US 01-09-2017
Springer Nature B.V
Subjects:
Ailurus fulgens
Animal Genetics and Genomics
Anthropology
Biomedical and Life Sciences
Evolutionary Biology
Galictis cuja
Human Genetics
Hunting
Life Sciences
Muscles
Neck
Original Paper
Pandas
Phylogeny
Prey
Thorax
Carnivora
Phylogeny
Axial myology
Functional morphology
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Summary:The lesser grison ( Galictis cuja ) and the red panda ( Ailurus fulgens ) represent two opposed morpho-functional musteloid extremes. The mid-sized lesser grison is primarily terrestrial, a frequent burrow-dweller, and carnivorous, while the larger, scansorial red panda eats bamboo. This study documents the axial myology of these species, including muscle descriptions, weights, and optimizations. Muscle maps are also provided for the lesser grison, representing the first axial maps for a wild-caught carnivoran. The functional analyses revealed that G. cuja , contrary to A. fulgens, possesses longer, stronger, and subdivided neck muscles. It also possesses a thoraco-lumbar iliocostalis system that is more developed than the longissimus complex, and numerous, robust, and laterally inserted deep bellies of the cervical and thoracic transversospinalis systems. These specializations allow powerful neck movement during hunting and transport of heavy prey as well as axial flexibility, facilitating bounding gaits and lateral movements while navigating subterranean galleries. Some myological traits of the red panda differ from those expected in a highly herbivorous taxon (e.g., m. sternocephalicus, m. masseter), and may reflect its depredatory ancestry. The optimization analysis revealed phylogenetically informative traits across Carnivora, including the absence of m. longissimus capitis in Mephitidae, the absence of spinous thoracic origins for m. biventer cervicis in Musteloidea, and the presence of a relatively lateral insertion of m. rectus dorsalis capitis intermedius in the clade Ictonychinae+Lutrinae+Mustelinae. This study reveals key associations between axial myological and osteological features that will prove useful for future studies of carnivorans.
ISSN:1064-7554
1573-7055
DOI:10.1007/s10914-016-9339-8