Article: Over-eruption in marsupial carnivore teeth: compensation for a constraint

Pronounced over-eruption of the canine teeth, causing the cervical enamel margin to extend beyond the alveolar bone and exposing the root, occurs with age and growth in Australian marsupial carnivores, much more than in eco-morphologically equivalent placental carnivores. Suppression of functional tooth replacement is characteristic of marsupials, where most placentals have the primitive diphyodont pattern of two generations of incisor, canine and premolar teeth. Canine and molar tooth dimensions of four species of marsupial carnivores (thylacine , Tasmanian devil and two quolls spp) and canine dimensions of seven eco-morphologically equivalent placental carnivore species were measured from museum specimens. Canine dimensions were measured in a time series on live wild-living individual devils and quolls. The canine teeth and to a lesser extent the molar teeth of marsupial carnivores continue to erupt through life, resulting in a net increase in tooth height and diameter, a phenomenon not evident in placental carnivores. Potential mechanisms causing over-eruption include tooth wear and gradual release of occlusal pressure as the individual grows. Over-eruption in marsupial carnivores may be a compensatory response for tooth size limits imposed by monophyodont tooth replacement, ensuring that animal's teeth are scaled to jaw size from juvenile to adulthood.

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References

1.

Smith R . The effects of extracting upper second permanent molars on lower second permanent molar position. Br J Orthod. 1996; 23(2):109-14. DOI: 10.1179/bjo.23.2.109. View

2.

Rovinsky D, Evans A, Martin D, Adams J . Did the thylacine violate the costs of carnivory? Body mass and sexual dimorphism of an iconic Australian marsupial. Proc Biol Sci. 2020; 287(1933):20201537. PMC: 7482282. DOI: 10.1098/rspb.2020.1537. View

3.

Livas C, Halazonetis D, Booij J, Katsaros C, Ren Y . Does fixed retention prevent overeruption of unopposed mandibular second molars in maxillary first molar extraction cases?. Prog Orthod. 2016; 17:6. PMC: 4722044. DOI: 10.1186/s40510-016-0119-z. View

4.

Jones M . Over-eruption in marsupial carnivore teeth: compensation for a constraint. Proc Biol Sci. 2023; 290(2013):20230644. PMC: 10716639. DOI: 10.1098/rspb.2023.0644. View

5.

Craddock H . An investigation of overeruption of posterior teeth with partial occlusal contact. J Oral Rehabil. 2007; 34(4):246-50. DOI: 10.1111/j.1365-2842.2007.01686.x. View

Over-eruption in Marsupial Carnivore Teeth: Compensation for a Constraint