Abstract
In contrast to wild lagomorphs, pet rabbits exhibit a noticeably high frequency of dental problems. Although dietary habits are considered as a major factor contributing to acquired malocclusions, the exact causes and interrelationships are still under debate. In this regard, an important aspect that has not been considered thoroughly to date is the effect of diet-induced phenotypic plasticity in skull morphology. Therefore, we conducted a geometric morphometric analysis on skull radiological images of wild and pet rabbits in order to quantify intraspecific variation in craniomandibular morphology. The statistical analyses reveal a significant morphological differentiation of the craniomandibular system between both groups. Furthermore, the analysis of covariance shows that the force-generating modules (cranium and mandible) vary independently from the force-receiving module (hypselodont teeth) in pet rabbits, which is in contrast to their wild relatives. Our findings suggest that the phenotypic changes in domestic rabbits impact mastication performance and, consequently, oral health. An adequate close-to-nature nutrition throughout the whole life and especially beginning early parallel to weaning (phase of increased phenotypic plasticity) is necessary to ensure a normal strain on the teeth by promoting physiological lateral gliding movements and avoiding direct axial loads.
Highlights
All breeds of domestic rabbits descend from the European rabbit Oryctolagus cuniculus, which is a member of the family Leporidae
Almost 90% of reported patients suffer from malocclusion caused by pathological tooth changes [1,4,5], in contrast to previous surveys that under-reported the frequency of dental problems: 30% [6], 38% [2]
We examine the skulls of 12 mature European wild rabbits and 12 mature domestic rabbits belonging to the species O. cuniculus
Summary
All breeds of domestic rabbits descend from the European rabbit Oryctolagus cuniculus, which is a member of the family Leporidae (rabbits and hares). Despite its proven usefulness in most domestic rabbits with a malocclusion, the anatomical reference lines appear to be not suitable for use in wild rabbits. This indicates intraspecific variation in skull morphology of the European rabbit (Oryctolagus cuniculus) and requires exploration in order to quantify morphological trends among domestic and wild rabbits. 30 weeks remodeling of the mandible as response to food consistency and muscular dystrophy significant changes in mandible size whereby some parts of the mandible were more prone to remodeling (such as the angular process which is less robust when fed soft diet) about 4 months in particular, the mandible depends on muscular function to grow to its normal size, maxillary growth seems to be under closer genetic programming soft-diet animals had smaller jaw muscles and smaller jaws life-long under natural habitat conditions, fiber constitutes almost 66% of the chinchilla diet, whereas under conditions of farm and domestic keeping granular feed with the fiber ranging from 12% to.
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