Justin S. Sipla scite author profile

Previous investigations have correlated vestibular function to locomotion in vertebrates by scaling semicircular duct radius of curvature to body mass. However, this method fails to discriminate bipedal from quadrupedal non-avian dinosaurs. Because they exhibit a broad range of relative head sizes, we use dinosaurs to test the hypothesis that semicircular ducts scale more closely with head size. Comparing the area enclosed by each semicircular canal to estimated body mass and to two different measures of head size, skull length and estimated head mass, reveals significant patterns that corroborate a connection between physical parameters of the head and semicircular canal morphology. Head mass more strongly correlates with anterior semicircular canal size than does body mass and statistically separates bipedal from quadrupedal taxa, with bipeds exhibiting relatively larger canals. This morphologic dichotomy likely reflects adaptations of the vestibular system to stability demands associated with terrestrial locomotion on two, versus four, feet. This new method has implications for reinterpreting previous studies and informing future studies on the connection between locomotion type and vestibular function.

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Comparative and Functional Anatomy of Balance in Aquatic Reptiles and Birds

Georgi¹,

Sipla²

2008

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Structure and composition of the Trinil femora: Functional and taxonomic implications

Ruff

Puymérail

Macchiarelli

et al. 2015

Journal of Human Evolution

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Evolution of vision and hearing modalities in theropod dinosaurs

Choiniere

Neenan

Schmitz

et al. 2021

Science

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Owls and nightbirds are nocturnal hunters of active prey that combine visual and hearing adaptations to overcome limits on sensory performance in low light. Such sensory innovations are unknown in nonavialan theropod dinosaurs and are poorly characterized on the line that leads to birds. We investigate morphofunctional proxies of vision and hearing in living and extinct theropods and demonstrate deep evolutionary divergences of sensory modalities. Nocturnal predation evolved early in the nonavialan lineage Alvarezsauroidea, signaled by extreme low-light vision and increases in hearing sensitivity. The Late Cretaceous alvarezsauroid Shuvuuia deserti had even further specialized hearing acuity, rivaling that of today’s barn owl. This combination of sensory adaptations evolved independently in dinosaurs long before the modern bird radiation and provides a notable example of convergence between dinosaurs and mammals.

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The endocranium and trophic ecology of Velociraptor mongoliensis

et al. 2020

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Justin S. Sipla

Turning Semicircular Canal Function on Its Head: Dinosaurs and a Novel Vestibular Analysis

Comparative and Functional Anatomy of Balance in Aquatic Reptiles and Birds

Structure and composition of the Trinil femora: Functional and taxonomic implications

Evolution of vision and hearing modalities in theropod dinosaurs

The endocranium and trophic ecology of Velociraptor mongoliensis

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