Abstract
Total lipids, hydrocarbons, wax esters, triacylglycerols, and phospholipids were determined for 22 major biomass species of zooplankton and fish in an Antarctic mesopelagic community that were collected in 1982 and 1983. Lipid levels were similar to levels in more temperate mesopelagic species. Total lipid concentration was depth related, with all lipid-rich species being collected at depths greater than 230 m. Wax ester content in copepods (60 to 70% of the total lipid) was generally higher than in subtropical species. Lipids indicated three predator-prey relationships (Parandania boecki-Atolla wyvillei, Thysanoessa macrura-Calanoides acutus andEurythenes gryllus-Atolla wyvillei). These were confirmed by gut content analyses. The mesopelagic fishBathylagus antarcticus, Pleuragramma antarcticum, andProtomyctophum bolini stored most lipid intramuscularly, whereasElectrona antarctica andGymnoscopelus nicholsi contained extensive stores in subcutaneous lipid sacs. The intramuscular lipids inP. antarcticum and the subcutaneous lipid sacs ofE. antarctica were primarily wax esters, possibly used for increased buoyancy or long-term energy storage. Unlike the odd-carbon preference of aliphatic hydrocarbons which typifies terrestrial plants and temperate marine organisms, even-carbon chain-length paraffins predominate in 80% of the Antarctic species analyzed. Although the source of these even-carbon n-alkanes cannot be determined from our data, their dominance in the species analyzed suggests that an unusual biochemical pathway may be responsible for their synthesis in this ecosystem.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Literature cited
Ackman, R. G. and R. P. Hansen: The occurrence of diastereomers of phytanic and pristanic acids and their determination by gas-liquid chromatography. Lipids2, 357–362 (1967)
Ackman, R. G., C. A. Eaton, J. C. Sipos, S. N. Hooper and J. D. Castell: Lipids and fatty acids of two species of North Atlantic krill (Meganyctiphanes norvegica andThysanoessa inermis) and their role in the aquatic food web. J. Fish. Res. Bd Can.27, 513–533 (1970)
Avigan, J. and M. Blumer: On the origin of pristance in marine organisms. J. Lipid Res.9, 350–352 (1968)
Bienati, N. L., R. A. Comes and H. Speido: Seasonal variation and production in fertilized samples during the summer cycle.In: Polar oceans, pp 377–389. Ed. by M. J. Dunbar. Calgary, Canada: Arctic Institute of North America 1977
Benson, A. A. and R. F. Lee: The role of wax in oceanic food chains. Sci. Am.232, 77–86 (1975)
Blumer, M., M. M. Mullin and D. W. Thomas: Pristane in the marine environment. Helgoländer wiss. Meeresunters.10, 187–201 (1964)
Childress, J. J. and M. H. Nygaard: The chemical composition of midwater fishes as a function of depth of occurrence off Southern California. Deep-Sea Res.20, 1093–1109 (1973)
Childress, J. J. and M. H. Nygaard: Chemical composition and buoyancy of midwater crustaceans as a function of depth of occurrence off Southern California. Mar. Biol.27, 225–238 (1974)
Clark, R. C. and M. Blumer: Distribution of n-paraffins in marine organisms and sediment. Limnol. Oceanogr.12, 79–87 (1967)
Clarke, A.: The biochemical composition of krill,Euphausia superba Dana, from South Georgia. J. exp. mar. Biol. Ecol.43, 221–236 (1980)
Cooper, J. E. and E. E. Bray: A postulated role of fatty acids in petroleum formation. Geochim. cosmochim. Acta27, 1113 to 1127 (1963)
DeVries, A. L. and J. T. Eastman: Lipid sacs as a buoyancy adaptation in an Antarctic fish. Nature, Lond.271, 352–353 (1978)
Eastman, J. T. and A. L. DeVries: Buoyancy adaptations in a swim-bladderless Antarctic fish. J. Morphol.167, 91–102 (1981)
Eastman, J. T. and A. L. DeVries: Buoyancy studies of notothenoiod fishes in McMurdo Sound, Antarctica. Copeia1982, 385–393 (1982)
Eglinton, G. and R. J. Hamilton: The distribution of alkanes.In: Chemical plant taxonomy, pp 187–217. Ed. by T. Swain. New York: Academic Press 1965
El-Sayed, S. Z.: Biological aspects of the pack ice ecosystem.In: Symposium on Antarctic ice and water masses, pp 35–54. Ed. by G. Deocon; Brussels: Scientific Committee on Antarctic Research 1971a
El-Sayed, S. Z.: Dynamics of trophic relations in the Southern Ocean.In: Research in the Antarctic, pp 73–91, Ed. by L. O. Quam. Washington D. C.: American Association for the Advancement of Science 1971b
Everson, I.: Antarctic krill: a reappraisal of its distribution. Polar Rec.18, 15–23 (1976)
Farkas, T. and S. Herodek: The effect of environmental temperature on the fatty acid composition of crustacean plankton. J. Lipid Res.5, 369–373 (1964)
Folch, J., M. Lees and G. H. Sloane Stanley: A simple method for the isolation and purification of total lipids from animal tissues. J. Biol. Chem.226A, 497–509 (1956)
Gilles, R.: Mechanisms of thermoregulation.In: Marine ecology, Vol. 2, Part 1. Physiological mechanisms, pp 251–258. Ed. by O. Kinne. New York: John Wiley and Sons 1975
Han, J., H. W. S. Chan and M. Calvin: Biosynthesis of alkanes inNostoc muscorum. J. Am. Chem. Soc.91, 5156–5159 (1969)
Holdgate, M. W.: The Antarctic ecosystem. Phil. Trans. R. Soc., Ser. B252, 363–383 (1967)
Hudson, A. P., A. L. DeVries and A. E. V. Haschemeyer: Antifreeze glycoprotein biosynthesis in Antarctic fishes. Comp. Biochem. Physiol.62B, 179–183 (1979)
Jacobs, S. S.: Physical and chemical observations in the southern oceans. USNS Eltanin cruises 16–21, 1965. Lamont Geological Observatory, Columbia University, Tech. Report No. 1-Cu-1-66 (1966)
Johnson, R. W. and J. A. Calder: Early diagenesis of fatty acids and hydrocarbons in a salt marsh environment. Geochim. cosmochim. Acta37, 1943–1956(1973)
Kayama, M. and Y. Ikeda: Studies on the lipids of micronektonic fishes caught in Sagami and Suruga Bays, with special reference to their wax esters. Yukagaku24, 435–440 (1975)
Kayama, M. and H. Nakagawa: Studies on the lipids of some micronektonic shrimps caught in Sagami and Suruga Bays, with special reference to their wax esters. Yukagaku24, 441–445 (1975)
Koons, C. B., G. W. Jamieson and L. S. Cierszko: Normal alkane distributions in marine organisms; possible significance to petroleum origin. Bull. Am. Ass. Petrol. Geol.49, 301 to 304 (1965)
Lee, R. F.: Lipid composition of the copepodCalanus hyperboreas from the Arctic Ocean: changes with depth and season. Mar. Biol.26, 313–318 (1974)
Lee, R. F.: Lipids of Arctic zooplankton. Comp. Biochem. Physiol.51B, 263–266 (1975)
Lee, R. F. and J. Hirota: Wax esters in tropical zooplankton and nekton and the geographical distributions of wax esters in marine copepods. Limnol. Oceanogr.18, 227–239 (1973)
Lee, R. F., J. Hirota and A. M. Barnett: Distribution and importance of wax esters in marine copepods and other zooplankton. Deep-Sea Res.18, 1147–1165 (1971a)
Lee, R. F., J. C. Nevenzel and G. A. Paffenhöfer: Importance of wax esters and other lipids in the marine food chain: phytoplankton and copepods. Mar. Biol.9, 99–108 (1971b)
Lee, R. F., J. C. Nevenzel and G. A. Paffenhöfer: The presence of wax esters in marine planktonic copepods. Naturwissenschaften,59, 406–411 (1972)
Lee, R. F., J. Hirota, J. C. Nevenzel, R. Sauerheber and A. A. Benson: Lipids in the marine environment. Calif. mar. Res. Comm. Cal COFI Rep.16, 95–102 (1972b)
Lewis, R. W.: Temperature and pressure effects on the fatty acids of some marine ectotherms. Comp. Biochem. Physiol.6, 75–89 (1962)
Lewis, R. W.: Fatty acid composition of some marine animals from various depths. J. Fish. Res. Bd Can.24, 1101–1115 (1967)
Linford, E.: Biochemical studies on marine zooplankton II: variations in the lipid content of some Mysidacea. J. Cons. Cons. int. Explor. Mer30, 16–27 (1965)
Littlepage, J. L.: Seasonal variation in lipid content of two Antarctic marine crustacea. Actual. Sci. Ind.1312, 463–470 (1964)
Mackie, P. R., K. J. Whittle and R. Hardy: Hydrocarbons in the marine environement I: n-alkanes in the Firth of Clyde. Estuar. cstl mar. Sci.2, 359–374 (1974)
Morris, M. J. and T. L. Hopkins: Biochemical composition of crustacean zooplankton from the Eastern Gulf of Mexico. J. exp. mar. Biol. Ecol.69, 1–19 (1983)
Morris, R. J. and J. R. Sargent: Studies on the lipid metabolism of some oceanic crustaceans. Mar. Biol.22, 77–83 (1973)
Neighbors, M. A. and B. G. Nafpaktitis: Lipid compositions, water contents, swimbladder morphologies and buoyancies of nineteen species of midwater fishes (18 Myctophids and 1 Neoscopelid). Mar. Biol.66, 207–215 (1982)
Nevenzel, J. C. and N. K. Menon: Lipids of midwater marine fish: family Gonostomatidae. Comp. Biochem. Physiol.65B, 351–355 (1980)
Nevenzel, J. C., W. Rodegker and J. F. Mead: The lipids ofRuvettus pretiosus muscle and liver. Biochemistry4, 1589–1594 (1965)
Nevenzel, J. C., W. Rodegker, J. S. Robinson and M. Kayama: The lipids of some lantern fishes (Family Myctophidae). Comp. Biochem. Physiol.31, 25–36 (1969)
Patton, J. S., R. F. Lee and A. A. Benson: The presence of unusually high levels of lysophosphatidylethanolamine in a wax ester synthesizing copepod (Calanus plumchrus). Biochim. biophys. Acta270, 479–488 (1972)
Raymont, J. E. G., J. Austin and E. Linford: Biochemical studies on marine zooplankton I: The biochemical composition ofNeomysis integer. J. Cons., Cons. int. Explor. Mer28, 354–363 (1964)
Raymont, J. E. G., R. T. Srinivasacam and J. K. B. Raymont: Biochemical studies on marine zooplankton VII: Observations on certain deep sea zooplankton. Int. Revue Hydrobiol.54, 357–365 (1969)
Reinhardt, S. B.: Lipid composition of Antarctic midwater organisms, 88 pp. Masters thesis, University of South Florida 1984
Reinhardt, S. B. and E. S. Van Vleet: Hydrocarbons of Antarctic midwater organisms. Polar. Biol. (In press)
Sargent, J. R.: The structure, metabolism and function of lipids in marine organisms.In: Biochemical and biophysical perspectives in marine biology, Vol. 3, pp 149–212. Ed. by D. C. Malins and J. R. Sargent. New York: Academic Press 1976
Sargent, J. R. and S. Falk-Petersen: Ecological investigations on the zooplankton community in Balsfjorden, northern Norway: lipids and fatty acids inMeganyctiphanes norvegica, Thysanoessa raschi, andT. intermis during midwinter. Mar. Biol.62, 131–137 (1981)
Sargent, J. R. and R. F. Lee: Biosynthesis of lipids in zooplankton from Saanich Inlet, British Columbia. Canada. Mar. Biol.31, 15–23 (1975)
Sargent, J. R., R. R. Gatten and R. McIntosh: Wax esters in the marine environment: their occurrence, formation, transformation, and ultimate fates. Mar. Chem.5, 573–584 (1977)
Smith, M. A. K. and A. E. V. Haschemeyer: Protein metabolism and cold adaptation in Antarctic fishes. Physiol. Zool.53, 373–382 (1980)
Smith, A. E. and I. Morris: Synthesis of lipid during photosynthesis by phytoplankton of the Southern Ocean. Science, Wash., D.C.207, 197–199 (1980)
Van Vleet, E. S. and J. G. Quinn: Early diagenesis of fatty acids and isoprenoid alcohols in estuarine and coastal sediments. Geochim. cosmochim. Acta43, 289–303 (1979a)
Van Vleet, E. S. and J. G. Quinn: Diagenesis of marine lipids in ocean sediments. Deep-Sea Res.26A, 1225–1236 (1979b)
Wakeham, S. G.: Organic matter from a sediment trap experiment in the equatorial North Atlantic: wax esters, steryl esters, triacylglycerols, and alkyl diacylglycerols. Geochim. cosmochim. Acta46, 2239–2257 (1982)
Whittle, K. J., P. R. Mackie, R. Hardy, A. D. McIntyre and R. A. A. Blackman: The alkanes of marine organisms from the United Kingdom and surrounding waters. Rapp. P-V. Reun. Cons. int. Explor. Mer171, 72–78 (1977)
Author information
Authors and Affiliations
Additional information
Communicated by T. M. Lawrence, Tampa
Rights and permissions
About this article
Cite this article
Reinhardt, S.B., Van Vleet, E.S. Lipid composition of twenty-two species of Antarctic midwater zooplankton and fish. Mar. Biol. 91, 149–159 (1986). https://doi.org/10.1007/BF00569431
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00569431