Read more
The function of vertebrate hearing is served by a surprising variety of sensory structures in the different groups of fish, amphibians, reptiles, birds, and mammals. This book discusses the origin, specialization, and functional properties of sensory hair cells, beginning with environmental constraints on acoustic systems and addressing in detail the evolutionary history behind modern structure and function in the vertebrate ear. Taking a comparative approach, chapters are devoted to each of the vertebrate groups, outlining the transition to land existence and the further parallel and independent adaptations of amniotic groups living in air. The volume explores in depth the specific properties of hair cells that allowed them to become sensitive to sound and capable of analyzing sounds into their respective frequency components. Evolution of the Vertebrate Auditory System is directed to a broad audience of biologists and clinicians, from the level of advanced undergraduate students to professionals interested in learning more about the evolution, structure, and function of the ear.
List of contents
1 An Outline of the Evolution of Vertebrate HearingOrgans.- 2 Environmental Variables and the Fundamental Nature of Hearing.- 3 Evolution of Sensory Hair Cells.- 4 Parallel Evolution in Fish Hearing Organs.- 5 The Evolution of Single- and Multiple-Ossicle Ears in Fishes and Tetrapods.- 6 Evolution of the Amphibian Ear.- 7 The Lizard Basilar Papilla and Its Evolution.- 8 Hearing Organ Evolution and Specialization: Archosaurs.- 9 Hearing Organ Evolution and Specialization: Early and Later Mammals.- 10 The Evolution of Central Pathways and Their Neural Processing Patterns.- 11 Advances and Perspectives in the Study of the Evolution of the Vertebrate Auditory System.- Appendix: Useful Concepts from Circuit Theory.
Summary
The function of vertebrate hearing is served by a surprising variety of sensory structures in the different groups of fish, amphibians, reptiles, birds, and mammals. This book discusses the origin, specialization, and functional properties of sensory hair cells, beginning with environmental constraints on acoustic systems and addressing in detail the evolutionary history behind modern structure and function in the vertebrate ear. Taking a comparative approach, chapters are devoted to each of the vertebrate groups, outlining the transition to land existence and the further parallel and independent adaptations of amniotic groups living in air. The volume explores in depth the specific properties of hair cells that allowed them to become sensitive to sound and capable of analyzing sounds into their respective frequency components. Evolution of the Vertebrate Auditory System is directed to a broad audience of biologists and clinicians, from the level of advanced undergraduate students to professionals interested in learning more about the evolution, structure, and function of the ear.
