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Reptile Ear

Ernest Glen Wever
€279.00
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Acrochordidae
Agama agama
Agamidae
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Amphibian
Amphisbaena alba
Amphisbaenia
Anguidae
Author_Ernest Glen Wever
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Basilar membrane
Boidae
Box turtle
Calcaneal spur
Cannula
Cartilage
Category1=Non-Fiction
Category=PSVF
Category=PSVJ
Category=PSVW5
Category=PSVW6
Caudata
Chalcides ocellatus
Ciliary muscle
Cilium
Cochlea
Cochlear duct
Cochlear implant
Colubridae
COP=United States
Crocodilia
Crocodylus
Crustacean
Cryptodira
Dactylus
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Dermis
Eardrum
Endolymphatic sac
Epithelium
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Footplate
Frog
Gymnophiona
Habenula
Hair cell
High frequency
Hyoid apparatus
Inner ear
Internal carotid artery
Lacertoidea
Language_English
Ligament
Loose connective tissue
Low frequency
Macula of retina
Meatus
Microcephaly
Middle ear
Muscle
Occipital bone
Otic ganglion
Oval window
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Phrynocephalus
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Reptile
Reticular membrane
Roll-off
Round window
Scala Vestibuli
Slit (gene family)
softlaunch
Sound pressure
Sphaerodactylus
Stereocilia
Stereocilia (inner ear)
Stimulation
Tectorial membrane
Trionychidae
Trionyx
Tupinambis
Tympanic Membrane
Vertebra
Vibration

Product details

  • ISBN 9780691601243
  • Dimensions: 178 x 254mm
  • Publication Date: 29 Jan 2019
  • Publisher: Princeton University Press
  • Publication City/Country: US
  • Product Form: Paperback
  • Language: English
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Description

In this definitive work, Ernest Glen Wever establishes the evolutionary importance of the reptile ear as the origin of the higher type of auditory apparatus shared by man and the mammals. Tracing the development of the auditory receptor in the living reptiles, he examines the use of a variety of mechanisms and principles of action by that receptor. While some of the material in this book has appeared previously in journal articles, most of it is presented here for the first time.
Basing this study on his twenty years of research at Princeton's Auditory Research Laboratories, Professor Wever treats in anatomical and functional detail the auditory mechanism in about 250 species and subspecies of reptiles. The anatomical treatment rests on dissections and histological examinations of the ears in serial section, and portrays the relevant features in drawings that represent particular views of reconstructions. The author evaluates the performance of thesse ears electrophysiologically, in terms of the electrical potentials of the cochlea, paying particular attention to problems of the transmission of vibrations inward to the cochlea and the actions there in stimulating the sensory cells.
Professor Wever finds that the cochlea emerged independently from the non-auditory labyrinth in three different vertebrate groups: fishes, amphibians, and reptiles. It was among the reptiles, however, that the vertebrate ear took on a more advanced configuration from which it further evolved along separate lineages in the birds and mammals.
Ernest Glen Wever is Eugene Higgins Professor of Psychology Emeritus at Princeton University.

Originally published in 1978.

The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press. These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions. The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.

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