Add to ORKGNovel functions in animals may evolve through changes in morphology, muscle activity or a combination of both. The idea that new functions or behavior can arise solely through changes in structure, without concurrent changes in the patterns of muscle activity that control movement of those structures, has been formalized as the neuromotor conservation hypothesis. In vertebrate locomotor systems, evidence for neuromotor conservation is found across evolutionary transitions in the behavior of terrestrial species, and in evolutionary transitions from terrestrial species to flying species. However, evolutionary transitions in the locomotion of aquatic species have received little comparable study to determine whether changes in morphology and m...
Posthatchling green (Chelonia mydas) and loggerhead (Caretta caretta) turtles overlap ecologically b...
Aquatic organisms exhibit tremendous diversity in body design and modes of propulsion that can stron...
The ability to capture prey and avoid predation in aquatic habitats depends strongly on the ability ...
Novel locomotor functions in animals may evolve through changes in morphology, muscle activity, or a...
Turtles use their limbs during both aquatic and terrestrial locomotion, but water and land impose dr...
Hydrodynamic stability is the ability to resist recoil motions of the body produced by destabilizing...
Softshell turtles (Family Trionychidae) possess extensive webbing between the digits of the manus, s...
Animals that swim using appendages do so by way of rowing and/or flapping motions. Often considered ...
Turtles are an iconic lineage in studies of animal locomotion, typifying the use of slow, alternatin...
Variations in musculoskeletal lever systems have formed an important foundation for predictions abou...
Two leading vertebrate animal models were used in studying sensory motor integration and control: [1...
We compared the muscular anatomy of the distal front limb in terrestrial and aquatic chelonians to t...
Specialization for a new habitat often entails a cost to performance in the ancestral habitat. Altho...
The relationship between form and function can have profound impacts on the evolution and ecology of...
Transitions between water and land have occurred multiple times in vertebrate evolutionary history. ...
Posthatchling green (Chelonia mydas) and loggerhead (Caretta caretta) turtles overlap ecologically b...
Aquatic organisms exhibit tremendous diversity in body design and modes of propulsion that can stron...
The ability to capture prey and avoid predation in aquatic habitats depends strongly on the ability ...
Novel locomotor functions in animals may evolve through changes in morphology, muscle activity, or a...
Turtles use their limbs during both aquatic and terrestrial locomotion, but water and land impose dr...
Hydrodynamic stability is the ability to resist recoil motions of the body produced by destabilizing...
Softshell turtles (Family Trionychidae) possess extensive webbing between the digits of the manus, s...
Animals that swim using appendages do so by way of rowing and/or flapping motions. Often considered ...
Turtles are an iconic lineage in studies of animal locomotion, typifying the use of slow, alternatin...
Variations in musculoskeletal lever systems have formed an important foundation for predictions abou...
Two leading vertebrate animal models were used in studying sensory motor integration and control: [1...
We compared the muscular anatomy of the distal front limb in terrestrial and aquatic chelonians to t...
Specialization for a new habitat often entails a cost to performance in the ancestral habitat. Altho...
The relationship between form and function can have profound impacts on the evolution and ecology of...
Transitions between water and land have occurred multiple times in vertebrate evolutionary history. ...
Posthatchling green (Chelonia mydas) and loggerhead (Caretta caretta) turtles overlap ecologically b...
Aquatic organisms exhibit tremendous diversity in body design and modes of propulsion that can stron...
The ability to capture prey and avoid predation in aquatic habitats depends strongly on the ability ...