The Diverse Sensory Specializations of Cetacea
Cetaceans (whales, including dolphins and porpoises) have many unique sensory adaptations that enable them to perceive and respond to stimuli underwater. These adaptations include audition, vocalization, vision, balance, chemoreception, and somatosensation. Cetaceans generate and receive sounds at b...
| Published in: | The FASEB Journal |
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| Format: | Article in Journal/Newspaper |
| Language: | English |
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2020
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| Online Access: | http://dx.doi.org/10.1096/fasebj.2020.34.s1.00355 |
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crwiley:10.1096/fasebj.2020.34.s1.00355 2024-06-02T08:04:03+00:00 The Diverse Sensory Specializations of Cetacea Reidenberg, Joy S. Laitman, Jeffrey T. 2020 http://dx.doi.org/10.1096/fasebj.2020.34.s1.00355 en eng Wiley http://onlinelibrary.wiley.com/termsAndConditions#vor The FASEB Journal volume 34, issue S1, page 1-1 ISSN 0892-6638 1530-6860 journal-article 2020 crwiley https://doi.org/10.1096/fasebj.2020.34.s1.00355 2024-05-03T11:40:48Z Cetaceans (whales, including dolphins and porpoises) have many unique sensory adaptations that enable them to perceive and respond to stimuli underwater. These adaptations include audition, vocalization, vision, balance, chemoreception, and somatosensation. Cetaceans generate and receive sounds at both ends of the frequency spectrum, and use these sounds for both communication and echolocation. Toothed whales (odontocetes) specialize in high frequency sounds, while baleen whales (mysticetes) focus on low frequency sounds. High frequencies have short wavelengths, and thus enable odontocetes to detect minute features in the reflected echoes related to geometry, texture, density, vector, velocity, etc. Nasal structures generate two different frequencies simultaneously (stereo echolocation). Sounds are received in jaw fats and transmitted to the ears. These features help odontocetes target and catch prey, but can also be used for short‐range navigation and communication. The mysticete larynx generates low frequency sounds. Echoes from these large wavelengths can reveal large features at a distance, facilitating navigation through the ocean landscape during migration. As low frequencies also attenuate more slowly, they can be used for long distance communication. Low frequencies present a hearing dilemma, as wavelengths can be larger than the whale! However, using the large skull as an antenna allows mysticetes to perceive change along most of the wavelength, and relay that information through bony conduction to the ear. Males use highly patterned vocalizations (songs) that advertise sexuality. Songs can be shared with and repeated by new whale groups, thus indicating sophisticated cultural exchange. Vision is another sense that is adapted to life underwater. Cetacean eyes allow visual acuity both above and below water. These include changes to the lens and retina that accommodate light filtering at various depths, and differences in the refraction of light in water versus air. The sclera is also thickened, and may ... Article in Journal/Newspaper baleen whales toothed whales Wiley Online Library The FASEB Journal 34 S1 1 1 |
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Open Polar |
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Wiley Online Library |
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crwiley |
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English |
| description |
Cetaceans (whales, including dolphins and porpoises) have many unique sensory adaptations that enable them to perceive and respond to stimuli underwater. These adaptations include audition, vocalization, vision, balance, chemoreception, and somatosensation. Cetaceans generate and receive sounds at both ends of the frequency spectrum, and use these sounds for both communication and echolocation. Toothed whales (odontocetes) specialize in high frequency sounds, while baleen whales (mysticetes) focus on low frequency sounds. High frequencies have short wavelengths, and thus enable odontocetes to detect minute features in the reflected echoes related to geometry, texture, density, vector, velocity, etc. Nasal structures generate two different frequencies simultaneously (stereo echolocation). Sounds are received in jaw fats and transmitted to the ears. These features help odontocetes target and catch prey, but can also be used for short‐range navigation and communication. The mysticete larynx generates low frequency sounds. Echoes from these large wavelengths can reveal large features at a distance, facilitating navigation through the ocean landscape during migration. As low frequencies also attenuate more slowly, they can be used for long distance communication. Low frequencies present a hearing dilemma, as wavelengths can be larger than the whale! However, using the large skull as an antenna allows mysticetes to perceive change along most of the wavelength, and relay that information through bony conduction to the ear. Males use highly patterned vocalizations (songs) that advertise sexuality. Songs can be shared with and repeated by new whale groups, thus indicating sophisticated cultural exchange. Vision is another sense that is adapted to life underwater. Cetacean eyes allow visual acuity both above and below water. These include changes to the lens and retina that accommodate light filtering at various depths, and differences in the refraction of light in water versus air. The sclera is also thickened, and may ... |
| format |
Article in Journal/Newspaper |
| author |
Reidenberg, Joy S. Laitman, Jeffrey T. |
| spellingShingle |
Reidenberg, Joy S. Laitman, Jeffrey T. The Diverse Sensory Specializations of Cetacea |
| author_facet |
Reidenberg, Joy S. Laitman, Jeffrey T. |
| author_sort |
Reidenberg, Joy S. |
| title |
The Diverse Sensory Specializations of Cetacea |
| title_short |
The Diverse Sensory Specializations of Cetacea |
| title_full |
The Diverse Sensory Specializations of Cetacea |
| title_fullStr |
The Diverse Sensory Specializations of Cetacea |
| title_full_unstemmed |
The Diverse Sensory Specializations of Cetacea |
| title_sort |
diverse sensory specializations of cetacea |
| publisher |
Wiley |
| publishDate |
2020 |
| url |
http://dx.doi.org/10.1096/fasebj.2020.34.s1.00355 |
| genre |
baleen whales toothed whales |
| genre_facet |
baleen whales toothed whales |
| op_source |
The FASEB Journal volume 34, issue S1, page 1-1 ISSN 0892-6638 1530-6860 |
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http://onlinelibrary.wiley.com/termsAndConditions#vor |
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https://doi.org/10.1096/fasebj.2020.34.s1.00355 |
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The FASEB Journal |
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34 |
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S1 |
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1 |
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1 |
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1800748676585357312 |