Abstract
The naked mole-rat, Heterocephalus glaber, of the family Bathyergidae is a subterranean rodent that feeds on underground roots and tubers and digs extensive tunnel systems with its incisors. It is a highly unusual mammal with regard to its social structure, longevity, pain insensitivity and cancer resistance, all of which have made it the subject of a great deal of research in recent years. Yet, much of the basic anatomy of this species remains undocumented. In this paper, we describe the morphology of the jaw-closing musculature of the naked mole-rat, as revealed by contrast-enhanced micro-computed tomography. This technique uses an iodine stain to enable the imaging of soft tissues with microCT. The iodine-enhanced scans were used to create 3D reconstructions of the naked mole-rat masticatory muscles from which muscle masses were calculated. The jaw-closing musculature of Heterocephalus glaber is relatively very large compared to other rodents and is dominated by the superficial masseter, the deep masseter and the temporalis. The temporalis in particular is large for a rodent, covering the entirety of the braincase and much of the rear part of the orbit. The morphology of the masseter complex described here differs from two other published descriptions of bathyergid masticatory muscles, but is more similar to the arrangement seen in other rodent families. The zygomaticomandibularis (ZM) muscle does not protrude through the infraorbital foramen on to the rostrum and thus the naked mole-rat should be considered protrogomorphous rather than hystricomorphous, and the morphology is consistent with secondarily lost hystricomorphy as has been previously suggested for Bathyergidae. Overall, the morphology of the masticatory musculature indicates a species with a high bite force and a wide gape–both important adaptations for a life dominated by digging with the incisors.
Highlights
The naked mole-rat, Heterocephalus glaber (Ruppell, 1842), is found in the hot, dry regions of the Horn of Africa (Honeycutt et al, 1991), and is probably the most well-known member of the Bathyergidae — a highly specialised group of subterranean rodents knownHow to cite this article Cox and Faulkes (2014), Digital dissection of the masticatory muscles of the naked mole-rat, Heterocephalus glaber (Mammalia, Rodentia)
The iodine-enhanced micro-computed tomography (microCT) images in this study show three distinct portions of the ZM (Fig. 5): (1) a posterior ZM originating from the glenoid fossa and running antero-ventrally to insert on the middle of the lateral mandibular ramus; (2) an anterior ZM with an origin spanning the jugo-squamosal suture on the medial surface of the zygomatic arch with an insertion on the ventral part of the coronoid process; and (3) an infraorbital ZM that originates from the anteriormost part of the orbit where the zygomatic arch meets the skull and the small infraorbital foramen pierces the maxilla and inserts at the base of the coronoid process lateral to the distal molar
The specimen studied had been preserved for several years in ethanol and undergone a substantial amount of muscle shrinkage, the iodine potassium iodide staining was very successful in revealing the different layers and sections of the masticatory muscles
Summary
The naked mole-rat, Heterocephalus glaber (Ruppell, 1842), is found in the hot, dry regions of the Horn of Africa (Honeycutt et al, 1991), and is probably the most well-known member of the Bathyergidae — a highly specialised group of subterranean rodents knownHow to cite this article Cox and Faulkes (2014), Digital dissection of the masticatory muscles of the naked mole-rat, Heterocephalus glaber (Mammalia, Rodentia). The naked mole-rat is the only species within the genus Heterocephalus, and phylogenetic analyses indicate that it is the most basal extant species of the family (Allard & Honeycutt, 1992), with an estimated divergence from the other bathyergid genera between 40 and 48 million years ago (Faulkes et al, 2004), or 33–35 million years ago, depending on the fossil calibration of the molecular clock (Faulkes et al, 2011; Ingram, Burda & Honeycutt, 2004). Naked mole-rats appear to be insensitive to acid-induced pain (Smith et al, 2011), extraordinarily resistant to cancer (Seluanov et al, 2009), and extremely long-lived for a small mammal (Buffenstein, 2005)
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