Heritability: the link between development and the microevolution of molar tooth form |
| |
Authors: | P. David Polly Orin B. Mock |
| |
Affiliation: | 1. Department of Earth and Atmospheric Sciences, Indiana University, Bloomington, IN, USApdpolly@indiana.edu;3. Department of Anatomy, Kirksville College of Osteopathic Medicine, Kirksville, MO, USA |
| |
Abstract: | AbstractThe developmental gene expression, morphogenesis, and population variation in mammalian molar teeth has become increasingly well understood, providing a model system for synthesizing evolution and developmental genetics. In this study, we estimated additive genetic covariances in molar shape (G) using parent-offspring regression in Cryptotis parva, the Least Shrew. We found that crown shape had an overall h2 value of 0.34 (±0.08), with higher heritabilities in molar cusps than notches. We compared the genetic covariances to phenotypic (P) and environmental (E) covariances, and to the covariances in crown features expected from the enamel knot developmental cascade (D). We found that G and D were not strongly correlated and that major axes of G (evolutionary lines of least resistance) are better predictors of evolutionary divergences in soricines than is D. We conclude that the enamel knot cascade does impose constraints on the evolution of molar shape, but that it is so permissive that the divergences among soricines (whose last common ancestor lived about 14 million years ago) do not fully explore its confines. Over tens of millions of years, G will be a better predictor of the major axes of evolution in molar shape than D. |
| |
Keywords: | Molars evolution and development heritability soricidae geometric morphometrics |
|
|