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underwater hearing
Middle ear cavity morphology is consistent with an aquatic origin for testudines
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[5241]
Willis, K. L.
,
J. Christensen-Dalsgaard
,
D. R. Ketten
, and
C. E. Carr
, "
Middle ear cavity morphology is consistent with an aquatic origin for testudines
", PLOS One, vol. 8, issue 1:e54086, 01/2013. Get PDF:
Full Text.pdf (format PDF / 1 MB)
middle ear
morphology
phylogeny
testudines
turtle hearing
Turtles
underwater hearing
underwater sound
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Specialization for underwater hearing by the tympanic middle ear of the turtle, (<i>Trachemys scripta elegans</i>)
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[1615]
Christensen-Dalsgaard, J.
,
C. Brandt
,
K. L. Willis
,
C. B. Christensen
,
D. R. Ketten
,
P. Edds-Walton
,
R. R. Fay
,
P. T. Madsen
, and
C. E. Carr
, "
Specialization for underwater hearing by the tympanic middle ear of the turtle, (Trachemys scripta elegans)
", Proceedings of the Royal Society B: Biological Sciences, vol. 279, issue 1739: The Royal Society, pp. 2816-2824, 03/2012. Get PDF:
Full Text.pdf (format PDF / 894 KB)
ABR
anatomy
aquatic hearing
auditory brainstem response
ear
Elegans
Herpetology
Meso-American slider
middle ear
Pond slider
Red-eared slider
Red-eared slider x yellow-bellied slider
specialization
Trachemys
trachemys scripta elegans
Turtle
turtle hearing
tympanic
underwater hearing
underwater sound
Zoology
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The auditory anatomy of the minke whale (<i>Balaenoptera acutorostrata</i>): a potential fatty sound reception pathway in a baleen whale
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[1518]
Yamato, M.
,
D. R. Ketten
,
J. J. Arruda
,
S. R. Cramer
, and
K. Moore
, "
The auditory anatomy of the minke whale (Balaenoptera acutorostrata): a potential fatty sound reception pathway in a baleen whale
", The Anatomical Record, Wiley Online Library, Wiley Periodicals, Inc., pp. 1-8, 04/2012. Get PDF:
Full Text.pdf (format PDF / 1 MB)
acoustic fat
acutorostrata
anatomy
Antarctic Minke Whale
auditory
auditory anatomy
auditory structure
auditory system
balaenoptera
balaenoptera acutorostrata
Baleen
baleen whale
Baleen whales
Biology
cetacea
Common Minke Whale
ear
fatty
hearing
Imaging
inner ear
marine mammal hearing
Megafauna
middle ear
minke
minke whale
minke whale ear
mysticete
pathway
reception
sound
sound reception
sound reception pethway
underwater hearing
whale
Zoology
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Soft tissue adaptations for underwater hearing in turtles, sea birds, and marine mammals
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[775]
Ketten, D. R.
,
I. Fischer
,
S. R. Cramer
,
S. M. Bartol
, and
J. O'Malley
, "
Soft tissue adaptations for underwater hearing in turtles, sea birds, and marine mammals
", 23rd International Symposium of Sea Turtle Biology and Conservation, Living with Sea Turtles, Huala, Lampur, National Oceanic and Atmospheric Administration (NOAA), pp. 162, 2006.
ABR
auditory anatomy
auditory brainstem response
conservation
CT
green sea turtle
hearing range
Kemp's Ridley sea turtle
loggerhead sea turtle
MRI
sea turtle hearing
soft tissue adaptations
underwater hearing
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Link to this biblio
Tagged
XML
BibTex
Google Scholar
Underwater ears and the physiology of impacts: comparative liability for hearing loss in sea turtles, birds, and mammals
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[768]
Ketten, D. R.
, "
Underwater ears and the physiology of impacts: comparative liability for hearing loss in sea turtles, birds, and mammals
", Bioacoustics, vol. 17, issue 1-3, pp. 312-315, 2008. Get PDF:
Full_text.pdf (format PDF / 223 KB)
birds
hearing loss
mammals
physiological impacts
sea turtles
underwater hearing
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Underwater Hearing
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[767]
Popper, A. N.
, and
D. R. Ketten
, "
Underwater Hearing
", The Senses: A Comprehensive Reference, Six-Volume Set, vol. 3, Oxford, England, Elsevier Press, pp. 225-236, 2008.
acoustics
auditory system
cognition
marine mammal audiometrics
marine mammal hearing
neuroscience
sensory function
sensory systems
underwater hearing
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Potential for sound sensitivity in cephalopods
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[756]
Mooney, A. T.
,
R. T. Hanlon
,
J. Christensen-Dalsgaard
,
P. T. Madsen
,
D. R. Ketten
, and
P. E. Nachtigall
, "
Potential for sound sensitivity in cephalopods
", The Effects of Noise on Aquatic Life, Advances in Experimental Medicine and Biology, vol. 730, New York, Springer Science+Business Media LLC, pp. 125-128, 2010, 2012. Get PDF:
Full Text.pdf (format PDF / 1 MB)
acoustic stimuli
aquatic noise
cephalopod
potential
sound sensitivity
squid
underwater hearing
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Topographical distribution of lipids inside the mandibular fat bodies of odontocetes: remarkable complexity and consistency
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[37]
Koopman, H. N.
,
S. M. Budge
, and
S. J. Iverson
, "
Topographical distribution of lipids inside the mandibular fat bodies of odontocetes: remarkable complexity and consistency
", IEEE Journal of Oceanic Engineering, vol. 31, issue 1: IEEE, pp. 95-106, 06/2006. Get PDF:
Full Text.pdf (format PDF / 428 KB)
acoustic fat
cetacean hearing
complexity
consistency
distribution
fat bodies
Hospitality Recreation
lipid
lipids
mandibular
mandibular fat
marine mammal hearing
Obesity
odontocetes
sound reception
Topographical
underwater hearing
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