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Physiological and Biochemical Neuroprotection in Cetaceans: Are Some Marine Mammal Species Safeguarded from Emboli Formation and Barotrauma?

2008

Williams, Terrie M.


Bibliographic information
Other Subjects
Response(biology); Gas transfer dynamics; Decompression; Mobilization; Dolphins(mammals); Biological oceanography; Transfer; Cognition; Aquatic biology; *embolism; *marine biology; Tissue damage; Underwater; Beaked whales; Tissues(biology); *physiology; Marine engineering; Gas dynamics; *barotrauma; *cetacea; Dive response; Lipid mobilization; *acoustically mediated trauma; Deep diving; Ocean environments; *neurophysiology; *neuroprotection; *biochemistry; Wounds and injuries; *barometric pressure; Senses(physiology); *aquatic animals; Neuroglobin; Naval surface warfare; Physical and dynamic oceanography; *chemical oceanography; Undersea and antisubmarine warfare; Military forces and organizations; Focusing; Cytoglobin; Nerve cells; Frequency; Gas mobilization
Language
English
License
http://stinet.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA505092Approved for public release; distribution is unlimited.
Type
Text
Source
CALIFORNIA UNIV SANTA CRUZ LONG MARINE LABDTIC
Corporate Author
CALIFORNIA UNIV SANTA CRUZ LONG MARINE LAB

2013-06-15
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