Abstract
Encapsulated within the temporal bone and comprising the smallest elements of the vertebrate skeleton, the ear is key to multiple senses: balance, posture control, gaze stabilization, and hearing. The transformation of the primary jaw joint into the mammalian ear ossicles is one of the most iconic transitions in vertebrate evolution, but the drivers of this complex evolutionary trajectory are not fully understood. We propose a novel hypothesis: The incorporation of the bones of the primary jaw joint into the middle ear has considerably increased the genetic, regulatory, and developmental complexity of the mammalian ear. This increase in the number of genetic and developmental factors may, in turn, have increased the evolutionary degrees of freedom for independent adaptations of the different functional ear units. The simpler ear anatomy in birds and reptiles may be less susceptible to developmental instabilities and disorders than in mammals but also more constrained in its evolution. Despite the tight spatial entanglement of functional ear components, the increased “evolvability” of the mammalian ear may have contributed to the evolutionary success and adaptive diversification of mammals in the vast diversity of ecological and behavioral niches observable today. A brief literature review revealed supporting evidence for this hypothesis.
Highlights
The vertebrate ear is a remarkable structure
Encapsulated within the densest bone, the temporal bone, it comprises the smallest elements of the vertebrate skeleton and gives rise to several different senses: the vestibular system with its semicircular canals enables balance, posture control, and gaze stabilization; the auditory system, including the cochlea and the ossicles in the middle ear, enables hearing
The mammalian middle ear ossicles vary highly in shape, and different functional ear morphologies evolved as adaptations to low- or high-frequency hearing and hearing in aquatic or subterranean life (e.g., Fleischer 1978; Mason 2013; Koyabu et al 2017)
Summary
The vertebrate ear is a remarkable structure. Tightly encapsulated within the densest bone, the temporal bone, it comprises the smallest elements of the vertebrate skeleton (auditory ossicles) and gives rise to several different senses: the vestibular system with its semicircular canals enables balance, posture control, and gaze stabilization; the auditory system, including the cochlea and the ossicles in the middle ear, enables hearing. The mammalian middle ear ossicles vary highly in shape, and different functional ear morphologies evolved as adaptations to low- or high-frequency hearing (including echolocation) and hearing in aquatic or subterranean life (e.g., Fleischer 1978; Mason 2013; Koyabu et al 2017).
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