Ackman R.G., Tocher C.S., McLachlan J. (1968) Marine phytoplankter fatty acids. J Fish Res Board Can 25:1603-1620.
Albers C.S., Kattner G., Hagen W. (1996) The composition of wax esters, triacylglycerols and phospholipids in Arctic and Antarctic copepods: Evidence of energetic adaptations. Mar Chem 55:347-358.
Arnaud P.M. (1970) Frequency and ecological significance of necrophagy among the benthic species of Antarctic coastal waters. Antarctic ecology , Holdgate MW (ed). Academic Press, London; 1:259-267.
Arntz W., Gutt J. (1999) The expedition ANTARKTIS XV/3 (EASIZ II) of RV Polarstern in 1998. Ber Polarforsch 301:1-229.
Carballeira N.M., Reyes E.D. (1990) Novel very long chain fatty acids from the sponge Petrosia pellasarca. J Nat Prod Lloydia 53:836-840.
Carballeira N.M., Shalabi F. (1995) The rare Caribbean sponge Leucosolenia canariensis: Phospholipids and sterols. Lipids 30:467-470.
Chapelle G., Peck L.S., Clarke A. (1994) Effects of feeding and starvation on the metabolic rate of the necrophagous Antarctic amphipod Waldeckia obesa (Chevreux 1915). J Exp Mar Biol Ecol 183:63-76.
Coleman C.O. (1989) On the nutrition of two Antarctic Acanthonotozomatidae (Crustacea: Amphipoda). Polar Biol 9:287-294.
Coleman C.O. (1989) Burrowing, grooming and feeding behaviour of Paraceradocus, an Antarctic amphipod genus (Crustacea). Polar Biol 10:43-48.
Coleman C.O. (1989) Gnathiphimedia mandibularis K.H. Barnard 1930, an Antarctic amphipod (Acanthonotozomatidae, Crustacea) feeding on Bryozoa. Antarct Sci 1:343-344.
Coleman C.O. (1990) Two new Antarctic species of the genus Epimeria (Crustacea: Amphipoda: Paramphithoidae), with description of juveniles. J Soc N-Z 20:151-178.
Coleman C.O. (1990) Bathypanoploea schellenbergi Holman and Watling, 1983, an Antarctic amphipod (Crustacea) feeding on Holothuroidea. Ophelia 31:197-205.
Coleman C.O. (1991) Comparative fore-gut morphology of Antarctic Amphipoda (Crustacea) adapted to different food sources. Hydrobiologia 223:1-9.
Cripps G.C., Hill H.J. (1998) Changes in lipid composition of copepods and Euphausia superba associated with the diet and environmental conditions in the marginal ice zone, Bellingshausen Sea, Antarctica. Deep Sea Res I 45:1357-1381.
Dauby P., Scailteur Y., De Broyer C. (2001) Trophic diversity within eastern Weddell Sea amphipod community. Hydrobiologia 443:69-86.
Dauby P., Scailteur Y., Chapelle G., De Broyer C. Potential impact of the main benthic amphipod species populations on the eastern Weddell Sea shelf ecosystem (Antarctica). Polar Biol, in press; .
De Broyer C., Jazdzewski K. (1993) Contribution to the marine biodiversity inventory. A checklist of the Amphipoda (Crustacea) of the Southern Ocean. Doc Trav Inst R Sci Nat Belg 73:1-155.
De Broyer C., Jazdzewski K. (1996) Biodiversity of the Southern Ocean: Towards a new synthesis for the Amphipoda (Crustacea). Boll Mus Civ Stor Nat Verona 20:547-568.
De Broyer C., Klages M. (1990) Studies on amphipod biology. Ber Polarforsch , Arntz W, Ernst W, Hempel I (eds) The expedition ANTARKTIS VII/4 (EPOS Leg 3) and VII/5 of the R/V Polarstern in 1989; 68:113-115.
Dembitsky V.M., Rezanka T., Kashin A.G. (1994) Comparative study of the endemic freshwater fauna of lake Baikal. 6. Unusual fatty acid and lipid composition of the endemic sponge Lubomirskia baicalensis and its amphipod crustacean parasite Brandtia (Spinacanthus) parasitica. Comp Biochem Physiol 109 B:415-426.
Fay L., Richli U. (1991) Location of double bonds in polyunsaturated fatty acids by gas chromatography-mass spectrometry after 4,4-dimethyloxazoline derivatization. J Chromatogr 541:89-98.
Fleurence J., Gutbier G., Mabeau S., Leray C. (1994) Fatty acids from 11 marine macroalgae of the French Brittany coast. J Appl Phycol 6:527-532.
Folch J., Lees M., Sloane-Stanley G.H. (1957) A simple method for the isolation and purification of total lipides from animal tissues. J Biol Chem 226:497-509.
Fraser A.J., Tocher D.R., Sargent J.R. (1985) Thin-layer chromatography-flame ionization detection and quantification of marine neutral lipids and phospholipids. J Exp Mar Biol Ecol 88:91-100.
Graeve M. (1993) Umsatz und verteilung von lipiden in arktischen marinen organismen unter besonderer berücksichtigung unterer trophischer stufen. Ber Polarforsch 124:1-140.
Graeve M., Hagen W., Kattner G. (1994) Diet-induced changes in the fatty acid composition of Arctic herbivorous copepods: Experimental evidence of trophic markers. J Exp Mar Biol Ecol 182:97-110.
Graeve M., Kattner G., Piepenburg D. (1997) Lipids in Arctic benthos: Does fatty acid and alcohol composition reflect feeding and trophic interactions?. Polar Biol 18:53-61.
Hagen W. (1988) Zur bedeutung der lipide im antarktischen zooplankton. Ber Polarforsch 49:1-129.
Hagen W., Kattner G., Friedrich C. (2000) The lipid compositions of five Antarctic fish species with different life strategies. Polar Biol 23:785-791.
Harrington G.W., Beach D.H., Dunham J.E., Holz G.G. (1970) The polyunsaturated fatty acids of dinoflagellates. J Protozool 17:213-219.
Hynes H.B.N. (1950) The food of the freshwater stickelbacks Gasterosteus aculeatus and Pygosteus pungitius, with a review of the methods used in studies of the food of fishes. J Anim Ecol 19:36-58.
Kates K., Volcani B.E. (1966) Lipid components of diatoms. Biochim Biophys Acta 116:264-278.
Kattner G., Fricke H.S.G. (1986) Simple gas-liquid chromatographic method for the simultaneous determination of fatty acids and alcohols in wax esters of marine organisms. J Chromatogr 361:263-268.
Kattner G., Hagen W. (1995) Polar herbivorous copepods - Different pathways in lipid biosynthesis. ICES J Mar Sci 52:329-335.
Kawashima H., Takeuchi I., Ohnishi M. (1999) Fatty acid compositions of caprellid amphipod species (Crustacea) from Otsuchi and Mutsu Bays in northern Japan. J Jpn Oil Chem Soc 48:23-27.
Khotimchenko S.V. (1995) Uncommon 16:1(n-5) fatty acid from Dictyota dichotoma and fatty acids of some brown algae of Dictyotaceae. Phytochemistry 38:1411-1415.
Klages M., Gutt J. (1990) Observations on the feeding behaviour of the Antarctic gammarid Eusirus perdentatus Chevreux, 1912 (Crustacea: Amphipoda) in aquaria. Polar Biol 10:359-364.
Klages M., Gutt J. (1990) Comparative studies on the feeding behaviour of high Antarctic amphipods (Crustacea) in laboratory. Polar Biol 11:73-79.
Lancelot C., Keller M.D., Rousseau V., Smith W.O., Mathot S. (1998) Autoecology of the marine haptophyte Phaeocystis sp. NATO ASI Ser 67:88-101.
Nelson M.M., Mooney B.D., Nichols P.D., Phleger C.F. (2001) Lipids of Antarctic Ocean amphipods: Food chain interactions and the occurrence of novel biomarkers. Mar Chem 73:53-64.
Nichols P.D., Skerratt J.H., Davidson A., Burton H., McMeekin T.A. (1991) Lipids of cultured Phaeocystis pouchetii: Signatures for food-web, biogeochemical and environmental studies in Antarctica and the southern ocean. Phytochemistry 30:3209-3214.
Olaso I., Rauschert M., De Broyer C. (2000) Trophic ecology of the family Artetidraconidae (Pisces: Osteichthyes) and its impact on the eastern Weddell Sea benthic system. Mar Ecol Prog Ser 194:143-158.
Oliver J.S., Slattery P.N. (1985) Effects of crustacean predators on species composition and population structure of soft-bodied infauna from McMurdo Sound, Antarctica. Ophelia 24:155-175.
Phleger C.F., Nichols P.D., Virtue P. (1998) Lipids and trophodynamics of Antarctic zooplankton. Lipids 32:1093-1100.
Phleger C.F., Nelson M.M., Mooney B., Nichols P.D. (1999) Lipids of abducted Antarctic pteropods Spongiobranchaea australis, and their hyperiid amphipod host. Comp Biochem Physiol 124 B:311-323.
Phleger C.F., Nelson M.M., Mooney B., Nichols P.D. (2000) Lipids of Antarctic salps and their commensal hyperiis amphipods. Polar Biol 23:329-337.
Reinhardt A.B., Van Vleet E.S. (1986) Lipid composition of twenty-two species of Antarctic midwater zooplankton and fish. Mar Biol 91:149-159.
Richardson M.G. The ecology (including physiological aspects) of selected Antarctic marine invertebrates associated with inshore macrophytes, PhD Thesis, University of Durham; 1977.
Riebesell U. (1993) Aggregation of Phaeocystis during phytoplankton spring blooms in the southern North Sea. Mar Ecol Prog Ser 96:281-289.
Sargent J.R., Whittle K.J. (1981) Lipids and hydrocarbons in the marine food web. Analysis of marine ecosystems , Longhurst A (ed). Academic Press, London; 491-533.
Slattery P.N., Oliver J.S. (1986) Scavenging and other feeding habits of lysianassid amphipods (Orchomene spp.) from McMurdo Sound, Antarctica. Polar Biol 6:171-177.
Swadling K.M., Nichols P.D., Gibson J.A.E., Ritz D.A. (2000) Role of lipid in the life cycles of ice-dependent and ice-independent populations of the copepod Paralabidocera antarctica. Mar Ecol Prog Ser 208:171-182.
Wassmann P. (1994) Significance of sedimentation for the termination of Phaeocystis blooms. J Mar Syst 5:81-100.
Weisse T., Tande K., Verity P., Hansen F., Gieskes W. (1994) The trophic significance of Phaeocystis blooms. J Mar Syst 5:67-79.
Williams M.J. (1981) Methods for analysis of natural diets in portunid crabs (Crustacea: Decapoda: Portunidae). J Exp Mar Biol Ecol 52:103-113.
