2006
DOI: 10.1111/j.1469-7998.2006.00167.x
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Craniomandibular joint in South American burrowing rodents (Ctenomyidae): adaptations and constraints related to a specialized mandibular position in digging

Abstract: A quali-quantitative morphofunctional analysis of the craniomandibular joint in subterranean rodents of the family Ctenomyidae showed that specializations of this joint are coupled with adaptations to digging. The presence of a postglenoid articular region in the skull of Eucelophorus and Ctenomys implies a new position of the mandible in digging, different from those involved in gnawing and chewing. In this third position of the mandible, the mandibular joint is stabilized when the deeply inserted incisors at… Show more

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Cited by 47 publications
(77 citation statements)
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“…The articular surface of the condyle is narrow and proportionally long. The base of a wide ventrolateral apophysis of the postcondyloid process (Verzi and Olivares 2006) (Fig. 3a) is preserved; it is more posterior than in modern Ctenomys, as in C. chapalmalensis.…”
Section: Resultsmentioning
confidence: 93%
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“…The articular surface of the condyle is narrow and proportionally long. The base of a wide ventrolateral apophysis of the postcondyloid process (Verzi and Olivares 2006) (Fig. 3a) is preserved; it is more posterior than in modern Ctenomys, as in C. chapalmalensis.…”
Section: Resultsmentioning
confidence: 93%
“…Aside from this, Ctenomys is considered to be a very cohesive genus both morphologically and adaptively (Reig et al 1990; Lessa and Cook 1998). The results from morphofunctional and allometric analyses of craniomandibular features of living species have supported this notion of morphological identity (Lessa 1993;Mora et al 2003;Schleich and Vassallo 2003;Verzi and Olivares 2006;Vassallo and Mora 2007). However, depending on the conceptual framework applied, the boundaries of the genus can be less evident in the fossil record, and this situation may hinder our understanding of its evolutionary history.…”
Section: Introductionmentioning
confidence: 73%
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“…The function of the pseudoglenoid fossa in molerats, and other tooth-digging rodents in which a similar cranial morphology is present, is generally believed to relate to jaw stabilization, perhaps preventing excessive caudal displacement of the condyle; opinions differ regarding whether the condyle occupies the fossa when the animal is burrowing, chewing or inactive (Topachevskii, 1976;Zubtsova, 1986;Li et al, 2004;Verzi and Olivares, 2006). A stabilizing function does not preclude an additional role in the transmission of vibrations from jaw to ear, if the juxtaposition of temporomandibular joint and petrosquamosal sinus within the fossa were to facilitate this process.…”
Section: Bone Conduction In Mole-ratsmentioning
confidence: 97%
“…The first of these was the ''pseudoglenoid fossa,'' a specialized articulation for the mandibular condyle posterior to the glenoid fossa, whereby vibrations of the mandible could be coupled directly to the auditory bulla. Found in a variety of fossorial rodents, the pseudoglenoid fossa is alternatively referred to as the ''postglenoid fossa'' (Verzi and Olivares, 2006). The second adaptation identified by Rado et al was a unique incudo-periotic articulation, whereby the short process of the incus is firmly anchored within a bony cup, the cup being attached to the skull via a thin periotic lamina.…”
Section: Introductionmentioning
confidence: 98%