Abstract
The mole snake (Pseudaspis cana) is capable of inflicting unusual bites in defence and during male combat that present as two parallel lacerations. We investigated the dental morphology of the mole snake by making SEM images, and by CT-scanning and digitally reconstructing the skulls of 14 specimens comprising both sexes. The lengths, volumes, shapes and positions of maxillary and dentary teeth were compared within individuals, between individuals, and between sexes. CT reconstructions show the occurrence of large, flat triangular teeth at the posterior end of the maxilla that are angled to point towards the posterior of the skull. SEM imagery highlights the presence of sharp ridges (carinae) on the posterior edges of the posterior dentary and maxillary teeth. Males have greater dental specialization, maxillary tooth variation, enlargement of the posterior-most maxillary teeth, and dentary teeth with posterior carinae. We hypothesize that mole snake dental specializations are adaptations for their particular form of male combat and possibly for subduing prey in the confines of underground burrows. Our findings reveal a complex dental morphology in mole snakes and provide impetus for further studies on the functional morphology of snake teeth.
Highlights
Snakes are highly successful predators that have colonised numerous habitats (Gans, 1961; Greene, 1983)
The morphology of snake jaws is adapted to accommodate the swallowing of prey whole, with cranial kinesis and unfused dentary bones allowing for a wide gape (Cundall & Greene, 2000), and there is a diverse range of tooth shapes and arrangements to aid in prey capture (Greene, 1997; Knox & Jackson, 2010; Vaeth, Rossman & Shoop, 1985)
We studied the external structure of mole snake teeth using micro-CT scanning and scanning electron microscopy (SEM) imaging to investigate the teeth responsible for inflicting the characteristic parallel cuts
Summary
Snakes are highly successful predators that have colonised numerous habitats (Gans, 1961; Greene, 1983) Their success is partly due to a specialised morphology, characteristically a long body, no functional limbs, a highly kinetic cranium, and distinctive teeth (Greene, 1997; Cundall & Greene, 2000; Longrich, Bhullar & Gauthier, 2012). The morphology of snake jaws is adapted to accommodate the swallowing of prey whole, with cranial kinesis and unfused dentary bones (mandibular symphysis) allowing for a wide gape (Cundall & Greene, 2000), and there is a diverse range of tooth shapes and arrangements to aid in prey capture (Greene, 1997; Knox & Jackson, 2010; Vaeth, Rossman & Shoop, 1985).
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