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Bite force and its relationship to jaw shape in domestic dogs.

Colline BrassardMarilaine MerlinClaude GuintardElodie Monchâtre-LeroyJacques BarratNathalie BausmayerStéphane BausmayerAdrien BausmayerMichel BeyerAndré VarletCéline HoussinCécile CallouRaphaël CornetteAnthony Herrel
Published in: The Journal of experimental biology (2020)
Previous studies based on two-dimensional methods have suggested that the great morphological variability of cranial shape in domestic dogs has impacted bite performance. Here, we used a three-dimensional biomechanical model based on dissection data to estimate the bite force of 47 dogs of various breeds at several bite points and gape angles. In vivo bite force for three Belgian shepherd dogs was used to validate our model. We then used three-dimensional geometric morphometrics to investigate the drivers of bite force variation and to describe the relationships between the overall shape of the jaws and bite force. The model output shows that bite force is rather variable in dogs and that dogs bite harder on the molar teeth and at lower gape angles. Half of the bite force is determined by the temporal muscle. Bite force also increased with size, and brachycephalic dogs showed higher bite forces for their size than mesocephalic dogs. We obtained significant covariation between the shape of the upper or lower jaw and absolute or residual bite force. Our results demonstrate that domestication has not resulted in a disruption of the functional links in the jaw system in dogs and that mandible shape is a good predictor of bite force.
Keyphrases
  • single molecule
  • machine learning
  • big data
  • electronic health record