Nanoindentation of lemur enamel: An ecological investigation of mechanical property variations within and between sympatric species

The common morphological metrics of size, shape, and enamel thickness of teeth are believed to reflect the functional requirements of a primate's diet. However, the mechanical and material properties of enamel also contribute to tooth function, yet are rarely studied. Substantial wear and tooth...

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Bibliographic Details
Published in:American journal of physical anthropology 2012-06, Vol.148 (2), p.178-190
Main Authors: Campbell, Sara E., Cuozzo, Frank P., Sauther, Michelle L., Sponheimer, Matt, Ferguson, Virginia L.
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Animals
Anthropology, Physical
Autoecology
Beza Mahafaly
Biological and medical sciences
Biomechanical Phenomena - physiology
dental ecology
Dental Enamel - physiology
Dental Enamel - ultrastructure
Diet
Ecology
Enamels
Fundamental and applied biological sciences. Psychology
Humans
Lemur - anatomy & histology
Lemur - physiology
Lemur catta
Madagascar
Mammalia
Molar - anatomy & histology
Molar - physiology
Morphology
nanomechanical
Physical anthropology
Primates
Primates - anatomy & histology
Primates - physiology
Teeth
Tooth Calcification - physiology
Tooth Wear - physiopathology
Vertebrata
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Summary:The common morphological metrics of size, shape, and enamel thickness of teeth are believed to reflect the functional requirements of a primate's diet. However, the mechanical and material properties of enamel also contribute to tooth function, yet are rarely studied. Substantial wear and tooth loss previously documented in Lemur catta at the Beza Mahafaly Special Reserve suggests that their dental morphology, structure, and possibly their enamel are not adapted for their current fallback food (the mechanically challenging tamarind fruit). In this study, we investigate the nanomechanical properties, mineralization, and microstructure of the enamel of three sympatric lemur species to provide insight into their dietary functional adaptations. Mechanical properties measured by nanoindentation were compared to measurements of mineral content, prism orientation, prism size, and enamel thickness using electron microscopy. Mechanical properties of all species were similar near the enamel dentin junction and variations correlated with changes in microstructure (e.g., prism size) and mineral content. Severe wear and microcracking within L. catta's enamel were associated with up to a 43% reduction in nanomechanical properties in regions of cracking versus intact enamel. The mechanical and material properties of L. catta's enamel are similar to those of sympatric folivores and suggest that they are not uniquely mechanically adapted to consume the physically challenging tamarind fruit. An understanding of the material and mechanical properties of enamel is required to fully elucidate the functional and ecological adaptations of primate teeth. Am J Phys Anthropol 148:178–190, 2012. © 2012 Wiley Periodicals, Inc.
ISSN:0002-9483
1096-8644
2692-7691
DOI:10.1002/ajpa.21582