Abstract
Dental topography is a widely used method for quantifying dental morphology and inferring dietary ecology in animals. Differences in methodology have brought into question the comparability of different studies. Using primate mandibular second molars, we investigated the effects of mesh preparation parameters smoothing, cropping, and triangle count/mesh resolution (herein, resolution) on six topographic variables (Dirichlet normal energy, DNE; orientation patch count rotated, OPCR; relief index, RFI; ambient occlusion, portion de ciel visible, PCV; enamel surface area, SA; tooth size) to determine the effects of smoothing, cropping, and triangle count/resolution on topographic values and the relationship between these values and diet. All topographic metrics are sensitive to smoothing, cropping method, and triangle count/resolution. In general, smoothing decreased DNE, OPCR, RFI, and SA, increased PCV, and had no predictable effect on tooth size. Relative to the basin cut off (BCO) cropping method, the entire enamel cap (EEC) method increased RFI, SA, and size, and had no predictable effect on DNE and OPCR. Smoothing and cropping affected DNE/OPCR and surfaces with low triangle counts more than other metrics and surfaces with high triangle counts. There was a positive correlation between DNE/OPCR and triangle count/resolution, and the rate of increase was weakly correlated to diet. PCV tended to converge or decrease with increases in triangle count/resolution, and RFI, SA, and size converged. Finally, there appears to be no optimal triangle count or resolution for predicting diet from this sample, and constant triangle count appeared to perform better than constant resolution for predicting diet.
Highlights
Dental ecology, the study of interactions between an organism’s teeth and its environment, provides a link between teeth, diet, and behavior [1]
We investigated whether slope and/or intercept of our orientation patch count rotated (OPCR)/Dirichlet normal energy (DNE) vs. triangle count/resolution curves varied between dietary categories using ANOVAs and Tukey Honest Significant Difference (HSD) tests, and tested the ability for slope/intercept to predict dietary categories using discriminant function analyses (DFAs)
It has been suggested that the rate of change in topographic metrics (OPCR) with respect to triangle count/resolution may be more informative than the value of a topographic metric at a single triangle count/resolution [45]. Since both the natural log of DNE and OPCR increase linearly with the natural log of triangle count and resolution in the same manner, we investigated the potential relationship between the slopes and intercepts of these linear relationships and diet
Summary
The study of interactions between an organism’s teeth and its environment, provides a link between teeth, diet, and behavior [1]. Kay and Sheine were able to show how one aspect of postcanine tooth shape, relative shearing crest length, was positively correlated to chewing efficiency in small mammals [11,12,13]. This is because relatively longer shearing crests increase the cutting ability of a tooth. This and related work have shown that, in primates, shearing crest length is longer in insectivores/folivores compared to omnivores/frugivores/hard object feeders [20,21,22,23,24] This is because the calorically poor and difficult to digest insect chitin and plant fiber need to be chewed more completely. This is supported by a lack of correlation between hard food item fracture efficiency and hypothetical molars [19]
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