Hostname: page-component-8448b6f56d-jr42d Total loading time: 0 Render date: 2024-04-17T05:41:05.741Z Has data issue: false hasContentIssue false
  • English
  • Français

Buoyancy Control as a Function of the Spermaceti Organ in the Sperm Whale

Published online by Cambridge University Press:  11 May 2009

Malcolm R. Clarke
Malcolm R. Clarke
Affiliation:
The Laboratory, Marine Biological Association, Citadel Hill, Plymouth
Rights & Permissions [Opens in a new window]

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

This paper will discuss the buoyancy of the sperm whale throughout its range and show that the whale probably has some control over its own buoyancy. Evidence will then be presented in support of the hypothesis that the whale can attain neutral buoyancy at depths greater than 200 m by control of the temperature of the spermaceti oil in its head. As a basis for this, papers describing the detailed structure and proportions of the whale (Clarke, 1978a) and some physical properties of spermaceti oil (Clarke, 1978b) have already been published.

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 58 , Issue 1 , February 1978 , pp. 27 - 71
Copyright
Copyright © Marine Biological Association of the United Kingdom 1978

References

REFERENCES

Alexander, R. McN., 1971. Animal Mechanics. 346 pp. London: Sidgwick & Jackson.Google Scholar
Altmann, P. L. & Dittmar, D. S., 1968. Metabolism. 737 pp. Bethesda, Maryland: Federation of American Societies of Experimental Biology.Google Scholar
Beale, T., 1838. The Natural History of the Sperm Whale, 2nd ed. 393 pp. London: Jan Van Voorst.Google Scholar
Beddard, F. E.J 1915. Contributions to the knowledge of the anatomy of the sperm whale (Physeter macrocephalus) based upon the examination of a young foetus. Annals of Durban Museum, 1, 107124.Google Scholar
Benedict, F. G., 1938. Vital energetics. A study in comparative basal metabolism. Publications. Carnegie Institution of Washington, No. 503, 175176.Google Scholar
Berzin, A. A., 1972. The Sperm Whale. Jerusalem: Israel Program for Scientific Translations Ltd. [Transl. Hoz, E. and Blake, Z..]Google Scholar
Caldwell, D. K., Caldwell, M. C. & Rice, D. W., 1966. Behaviour of the sperm whale, Physeter catodon L. In Whales, Dolphins and Porpoises (ed. Norris, K. S.), 789 pp. Berkeley, Los Angeles: University of California Press.Google Scholar
Clarke, M. R., 1970. The function of the spermaceti organ of the sperm whale. Nature, London, 228, 873874.CrossRefGoogle ScholarPubMed
Clarke, M. R., 1976. Observation on sperm whale diving. Journal of the Marine Biological Association of the United Kingdom, 56, 809810.CrossRefGoogle Scholar
Clarke, M. R., 1978 a. Structure and proportions of the spermaceti organ of the sperm whale. Journal of the Marine Biological Association of the United Kingdom, 58, 117.CrossRefGoogle Scholar
Clarke, M. R., 1978 b. Physical properties of spermaceti oil in the sperm whale. Journal of the Marine Biological Association of the United Kingdom, 58, 1926.CrossRefGoogle Scholar
Clarke, M. R., 1978 c. Cephalopods in the diet of sperm whales of the southern hemisphere and their bearing on sperm whale biology. ‘Discovery’ Reports. (In the Press.)Google Scholar
Clarke, R., 1954. Open boat whaling in the Azores. ‘Discovery’ Reports, 26, 281354.Google Scholar
Denton, E. J., 1974. On the buoyancy and the lives of modern fossil cephalopods. Proceedings of the Royal Society B, 185, 273299.Google Scholar
Felts, J. L., 1966. Some functional and structural characteristics of cetacean flippers and flukes. In Whales, Dolphins and Porpoises (ed. Norris, K. S.), 789 pp. Berkeley, Los Angeles: University of California Press.Google Scholar
Fuglister, F. C, 1960. Atlantic Ocean Atlas. 209 pp. Woods Hole, Massachusetts: Woods Hole Oceanographic Institution.Google Scholar
Gambell, R., 1972. Sperm whales off Durban. ‘Discovery’ Reports, 35, 199358.Google Scholar
Gilpin-Brown, J. B., Denton, E. J. & Clarke, M. R., 1978. On the buoyancy of oceanic squids. (In preparation.)Google Scholar
Heezen, B. C, 1957. Whales entangled in deep-sea cables. Deep-Sea Research, 4, 105115.Google Scholar
Hill, A. V., 1950. The dimensions of animals and their muscular dynamics. Science Progress, 150, 209230.Google Scholar
Hopkins, W. J., 1922. She Blows! And Sperm at That! 361 pp. New York: Houghton Mifflin.Google Scholar
Irving, L., Peyton, L. J., Bahn, C. H. & Peterson, R. S., 1963. Regulation of temperature in fur seals. Physiological Zoology, 36, 275284.Google Scholar
Irving, L., Scholander, P. F. & Grinnell, S. W., 1941. The respiration of the porpoise Tursiops truncatus. Journal of Cellular and Comparative Physiology, 17, 165168.CrossRefGoogle Scholar
Kanwisher, J. & Senft, A., 1960. Physiological measurements on a live whale. Science, New York, 131, 13791380.CrossRefGoogle ScholarPubMed
Kanwisher, J. & Sundnes, G., 1966. Thermal regulation in cetaceans. In Whales, Dolphins and Porpoises (ed. Norris, K. S.), 789 pp. Berkeley, Los Angles: University of California Press.Google Scholar
Kermack, K. A., 1948. The propulsive powers of blue and fin whales. Journal of Experimental Biology, 25, 237240.CrossRefGoogle Scholar
Kibler, H. H. & Brody, S. 1943. Growth and development with special reference to domestic animals. LVII. An index of muscular-work capacity. Research Bulletin. Missouri-agricultural Experimental Station, 367, 120.Google Scholar
Kleinenberg, S. C. & Yablokov, A. V., 1958. The morphology of the upper respiratory tract of whales. Zoologichesk¨ zhurnal, 37, (7), 10911099.Google Scholar
Lange, N. A., 1967. Lange's Handbook of Chemistry. 2001 pp. London: McGraw-Hill.Google Scholar
Lawrence, B. & Schevill, W. E., 1956. The functional anatomy of the delphinid nose. Bulletin of the Museum of Comparative Anatomy at Harvard College, 114, 103 pp.Google Scholar
Lockyer, C, 1977. Observations on diving behaviour of the sperm whale Physeter catodon. In A Voyage of Discovery (George Deacon 70th Anniversary Volume - Supplement to Deep-Sea Research), pp. 591609. Pergamon Press.Google Scholar
Malins, D. C. & Varanasi, U., 1975. Cetacean biosonar. II. The biochemistry of lipids in acoustic tissues. In Biochemical and Biophysical Perspectives in Marine Biology, vol. 2 (ed. Malins, D. C. and Sargent, J. R.), pp. 273290. London: Academic Press.Google Scholar
Morris, R. J., 1975. The lipid structure of the spermaceti organ of the sperm whale (Physeter catodon). Deep-Sea Research, 20, 911916.Google Scholar
Norris, K. S., 1975. Cetacean biosonar. I. Anatomical and behavioural studies. In Biochemical and Biophysical Perspectives in Marine Biology, vol. 2 (ed. Malins, D. C. and Sargent, J. R.), pp. 215236. London: Academic Press.Google Scholar
Norris, K. S. & Harvey, G. W., 1972. A theory for the function of the spermaceti organ of the sperm whale. In Animal Orientation and Navigation (ed. Galler, S. R., Schmidt-Koenig, K., Jacobs, G. J. and Belleville, R. E.), 262 pp. NASA Special Publication.Google Scholar
Omura, H.J 1950. On the body weight of the sperm and sei whales located in the adjacent waters of Japan. Scientific Reports of the Whales Research Institute, 4, 113.Google Scholar
Parry, D. A., 1949. The structure of whale blubber and its thermal properties. Quarterly Journal of Microscopical Science, 90, 1326.Google ScholarPubMed
Pouchet, G. & Beauregard, H., 1889. Recherches sur le cachelot: anatomie I-V. Nouvelles archives du Museum d'histoire naturelle, Paris, 1889 (3), 196.Google Scholar
Raven, H. C. & Gregory, W. K., 1933. The spermaceti organ and nasal passages of the sperm whale (Physeter catodon) and other odontocetes. American Museum Novitates, 677, 118.Google Scholar
Ridgway, S. H., Scronce, B. L. & Kanwisher, J., 1967. Respiration and deep diving in the bottlenose porpoise. Science, New York, 166 (3912), 16511653.CrossRefGoogle Scholar
Ridgway, S. H., 1970. Buoyancy regulation in deep diving whales. Nature, London, 232, 133134.CrossRefGoogle Scholar
Schenkkan, E. J. & Purves, P. E., 1973. The comparative anatomy of the nasal tract and the function of the spermaceti organ in the Physeteridae (Mammalia, Odontoceti). Bijdragen tot de dierkunde, 43, 92112.Google Scholar
Scholander, P. F., 1940. Experimental investigations on the respiratory function in diving mammals and birds. Hvalrådets skrifter, 22, 1131.Google Scholar
Scoresby, W., 1820. An Account of the Arctic Regions, 2 vols. Edinburgh.Google Scholar
Sergeant, D. E., 1969. Feeding rates of cetacea. Fiskeridirektoratets Skrifter. Serie Havundersokelser, 15, 246258.Google Scholar
Slijper, E. J., 1962. Whales. 475 pp. London: Hutchinson. [Transl. from Dutch by Pomerans, A. J..]Google Scholar
Tomilin, A. G., 1947. A new look at the spouting of whales. Doklady Akademii nauk SSSR, 55 (2).Google Scholar
Townsend, C. H., 1932. The distribution of certain whales as shown by logbook records of American whaleships. Zoologica {New York), 19, 150.Google Scholar
Watkins, W. A. & Schevill, W. E., 1972. Sperm whales (Physeter catodon) react to pingers. Deep-Sea Research, 22, 123129.Google Scholar
Watkins, W. A. & Schevill, W. E., 1977. Spatial distribution of Physeter catodon (sperm whales) underwater. Deep-Sea Research, 24, 693699.CrossRefGoogle Scholar
Wust, G., 1932. Das ozeanographische Beobachtungsmaterial. Wissenschaftliche Ergebnisse der Deutschen Atlantischen Expedition auf dem Forschungs- und Vermessungsschiff ‘Meteor’, 1925–27, 4(2), 1290.Google Scholar