Abstract
The ultrastructure of the skin of four cetacean species, bottlenose dolphin (Tursiops truncatus) long-finned pilot whale (Globicephala melaena), humpback whale (Megaptera novaeangliae), and fin whale (Balaenoptera physalus) was investigated with particular reference to epidermal lipid. It has already been established that massive lipid reservoirs exist in whales, that the biochemical structures of cetacean lipids are unique, and that unusual intracellular lipid droplets appear in the epidermis. We report here some novel findings on scanning electron microscopic morphology of epidermal lipid, and on its ultrastructural morphology in general and specialized integumentary sites, including species not previously investigated. The intracellular epidermal lipid droplets were more extensive than lamellar body-derived intercellular lipid which is within the interstices of stratum externum cells. The intracellular droplets were spherical, highly variable in size ranging from 0.24 μm to 3.0 μm in diameter, appeared singly or were aggregated in cytoplasmic cavitations, and often were closely associated with epidermal cell nuclei. Evidence for exocytosis of the intracellular droplets was not observed. Significant numbers of intracellular lipid droplets are not observed in the epidermis of terrestrial mammals, so their presence is one of several aquatic specializations of the cetacean integument. Its full significance remains obscure, but it is more probably associated with epidermal cell metabolism than with secretion of lipid.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ackman RG, Sipos JC, Eaton CA, Hilman BL, Litchfield C (1973) Molecular species of wax esters in jaw fat of Atlantic bottle-nose dolphins, Tursiops truncatus. Lipids 8:661–667
Ahern DG, Downing DT (1974) Skin lipids of the Florida indigo snake. Lipids 9:8–14
Blomberg J (1974) Unusual lipids II. Head oil of the north Atlantic pilot whale; Globicephala melaena melaena. Lipids 9:461–470
Brown WR, Geraci JR, Hicks BD, St. Aubin DJ, Schroeder JP (1983) Epidermal cell proliferation in the bottlenose dolphin (Tursiops truncatus). Can J Zool 61:1587–1590
Desaulniers NT, Sidell BD (1992) High lipid content enhances the rate of oxygen diffusion in fish skeletal muscle. Am Zool 32:50A
Downing DT, Stewart ME, Wertz PW, Colton SW VI, Strauss JS (1983) Skin lipids. Comp Biochem Physiol 76:673–678
Elias PM (1983) Epidermal lipids, barrier function, and desquamation. J Invest Dermatol 80:[Suppl 6] 44S–49S
Elias PM, Goerke J, Friend DS (1977) Mammalian epidermal barrier layer lipids: composition and influence on structure. J Invest Dermatol 69:535–546
Elias PM, Menon GK, Grayson S, Brown BE, Rehfeld SJ (1987) Avian sebokeratocytes and marine mammal lipokeratinocytes: structural, lipid biochemical, and functional considerations. Am J Anat 180:161–177
Geraci JR, St. Aubin DJ, Hicks BD (1986) The epidermis of odontocetes: a view from within. In: Bryden MM, Harrison R (eds) Research on dolphins. Clarendon Press, Oxford, pp 3–21
Giacometti L (1967) The skin of the whale Balaenoptera physalus. Anat Rec 159:69–76
Haldiman JT, Henk WG, Henry RW, Albert TF, Abdelbaki YZ, Duffield DW (1985) Epidermal and papillary dermal characteristics of the bowhead whale (Balaena mysticetus). Anat Rec 211:391–402
Harrison RJ, Thurley KW (1974) Structure of the epidermis in Tursiops, Delphinus, Orcinus and Phocoena. In: Harrison RJ (ed) Functional anatomy of marine mammals, vol 2. Academic Press, London, pp 45–72
Hicks BD, St. Aubin DJ, Geraci JR, Brown WR (1985) Epidermal growth in the bottlenose dolphin, Tursiops truncatus. J Invest Dermatol 85:60–63
Howell AB (1930) Myology of the narwhal (Monodon monoceros). Am J Anat 46:187–215
Landmann L (1980) Lamellar granules in mammalian, avian, and reptilian epidermis. J Ultrastruct Res 72:245–263
Litchfield C, Greenberg AJ (1974) Comparative lipid patterns in the melon fats of dolphins, porpoises and toothed-wales. Comp Biochem Physiol [B] 47:401–407
Litchfield C, Greenberg AJ (1979) Compositional topography of melon lipids in the Amazon river dolphin, Inia geoffrensis: implications for echolocation. Comp Biochem Physiol [A] 63:183–187
Litchfield C, Karol R, Greenberg AJ (1973) Compositional topography of melon lipids in the Atlantic bottle-nosed dolphin Tursiops truncatus: implications for echolocation. Mar Biol 23:165–169
Liu Renjun, Harrison RJ, Thurley KW (1986) Characteristics of the skin of Neophocaena phocaenoides from the Changjiang (Yangtse River), China. In: Bryden MM, Harrison R (eds) Research on dolphins. Clarendon Press, Oxford, pp 23–31
Lockyer C (1991) Body composition of the sperm whale, Physeter catodon, with special reference to the possible functions of fat depots. Rit Fiskid, J Mar Res Inst Reykjavik 12:1–24
Lockyer CH, McConnell LC, Waters TD (1984) The biochemical composition of fin whale blubber. Can J Zool 62:2553–2562
Matoltsy AG, Parakkal PF (1965) Membrane-coating granules of keratinizing epithelia. J Cell Biol 24:297–307
Menon GK, Aggarwal SK (1982) Histochemical characterization of secretory epidermis of birds. Zool Anz Jena 208:55–67
Menon GK, Grayson S, Brown BE, Elias PM (1986) Lipokeratinocytes of the epidermis of a cetacean (Phocena phocena). Cell Tissue Res 244:385–394
Palmer E, Weddell G (1964) The relationship between structure, innervation and function of the skin of the bottle nose dolphin (Tursiops truncatus). Proc Zool Soc London 143:553–581
Pfeiffer CJ (1990) Observations of the ultrastructural morphology of the bowhead whale (Balaena mysticetus) heart. J Zoo Wildl Med 21:48–55
Pfeiffer CJ (1993) Cellular structure of terminal baleen in various mysticete species. Aquatic Mamm 18:67–73
Pfeiffer CJ, Kinkead TP (1990) Microanatomy of retia mirabilia of bowhead whale foramen magnum and mandibular foramen. Acta Anat 139:141–150
Pfeiffer CJ, Rowden G, Weibel J (1974) Gastrointestinal ultrastructure. Thieme, Stuttgart, pp 1–294
Pfeiffer CJ, Asashima M, Hirayasu K (1989) Ultrastructural characterization of the spontaneous papilloma of Japanese newts. J Submicrosc Cytol Pathol 21:659–668
Ridgway SH, Carder DA (1990) Tactile sensitivity, somatosensory responses, skin vibrations, and the skin surface ridges of the bottle-nose dolphin, Tursiops truncatus. In: Thomas JA, Kastelein RA (eds) Sensory abilities of cetaceans. Plenum Press, New York, pp 163–179
Simpson JG, Gardner MB (1972) Comparative microscopic anatomy of selected marine mammals. In: Ridgeway SH (ed) Mammals of the sea. Biology and medicine. Thomas, Springfield, pp 298–418
Sokolov V (1960) Some similarities and dissimilarities in the structure of the skin among the members of the suborders odontoceti and mystacoceti (Cetacea). Nature 185:745–747
Sokolov V, Kalashnikova M (1971) The ultrastructure of epidermal cells in Phocoena phocoena. In: Pilleri G (ed) Investigations on Cetacea, vol 3. Benteli, Bern, pp 194–199
Sokolov V, Bulina I, Rodionov V (1969) Interaction of dolphin epidermis with flow boundary layer. Nature 222:267–268
Spearman RIC (1972) The epidermal stratum corneum of the whale. J Anat 113:373–381
St. Aubin DJ, Geraci JR (1980) Tissue levels of ascorbic acid in marine mammals. Comp Biochem Physiol 66A:605–609
Stromberg MW (1985) Fat distribution in the skin of bottlenose dolphins (Tursiops truncatus and Tursiops gilli). J Morphol 186:315–326
Stromberg MW, Hinsman EJ, Hullinger RL (1990) Dermal extracellular lipid in birds. J Morphol 203:55–68
Surkina RM (1971) Arrangement of dermal striations on the body of the common dolphin. Bionika 5:88–94
Tinyakov GG, Chumakov VP, Sevastianov BA (1973) Some patterns of skin microstructure in cetaceans. Zoology 24:399–407
Varanasi U, Malins DC (1970) Unusual wax esters from the mandibular canal of the porpoise (Tursiops gilli). Biochemistry 9:3629–3631
Varicak TD (1938) Neues über Auftreten und Bedeutung von Fettsubstanzen in der Geflügelhaut (speziell in der Epidermis). Z Mikrosk Anat Forsch 44:119–130
Viale D (1979) Mise en évidence d'une fonction excrétrice de la peau chez certains cétaces odontocètes et mysticètes. J Exp Mar Biol Ecol 40:201–221
Williams JPG (1968) Glycogen in the epidermis of the dolphin Tursiops truncata. Experientia 24:183
Yardley HJ, Summerly R (1981) Lipid composition and metabolism in normal and diseased epidermis. Pharmacol Ther 13:357–383
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Pfeiffer, C.J., Jones, F.M. Epidermal lipid in several cetacean species: ultrastructural observations. Anat Embryol 188, 209–218 (1993). https://doi.org/10.1007/BF00188213
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00188213