kw.\*:("Nyctiphanes australis")
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Feeding response of Nyctiphanes australis (Euphausiacea) to various nanoplankton sizes and taxaHAYWOOD, Graeme J; BURNS, Carolyn W.Marine ecology. Progress series (Halstenbek). 2003, Vol 253, pp 209-216, issn 0171-8630, 8 p.Article
Biochemical composition of Nyctiphanes australis and its possible use as an aquaculture feed source : lipids, pigments and fluoride contentVIRTUE, P; JOHANNES, R. E; NICHOLS, P. D et al.Marine biology (Berlin). 1995, Vol 122, Num 1, pp 121-128, issn 0025-3162Article
Epizoic diatoms on the euphausiid Nyctiphanes australis: consequences for gut-pigment analyses of whoke krillMCCLATCHIE, S; KAWACHI, R; DALLEY, D. E et al.Marine biology (Berlin). 1990, Vol 104, Num 2, pp 227-232, issn 0025-3162Article
Effect of prey density and hunger state on capture of krill, Nyctiphanes australis Sars, by Australian salmon, Arripis trutta (Bloch and Schneider)MORGAN, W. L; RITZ, D. A.Journal of fish biology. 1984, Vol 24, Num 1, pp 51-58, issn 0022-1112Article
Chitin production by KrillNICOL, S; HOSIE, G. W.Biochemical systematics and ecology. 1993, Vol 21, Num 2, pp 181-184, issn 0305-1978Article
Functional feeding morphology of the euphausiid Nyctiphanes australisDALLEY, D. D; MCCLATCHIE, S.Marine biology (Berlin). 1989, Vol 101, Num 2, pp 195-203, issn 0025-3162, 9 p.Article
Diet of Nyctiphanes australis Sars (Crustacea : Euphausiacea)RITZ, D. A; HOSIE, G. W; KIRKWOOD, R. J et al.Australian journal of marine and freshwater research. 1990, Vol 41, Num 3, pp 365-374, issn 0067-1940, 10 p.Article
Growth of Nyctiphanes (Euphausiacea) on different dietsHAYWOOD, G. J; BURNS, Carolyn W.Journal of experimental marine biology and ecology. 2003, Vol 289, Num 1, pp 139-151, issn 0022-0981, 13 p.Article
Laboratory method of analysis of swarming behaviour in macroplankton: combination of a modified flume tank and stereophotographic techniquesO'BRIEN, D. P; TAY, D; ZWART, P. R et al.Marine biology (Berlin). 1986, Vol 90, Num 4, pp 517-527, issn 0025-3162Article
COMPARISON OF THE FEEDING APPARATUS IN THE MUTTONBIRD. PUFFINUS TENUIROSTRIS (TEMMINCK) AND THE FAIRY PRION, PACKYPTILA TURTUR (KUHL) IN RELATION TO THE CAPTURE OF THE KRILL, NYCTIPHANES AUSTRALIS SARSMORGAN WL; RITZ DA.1982; J. EXP. MAR. BIOL. ECOL.; ISSN 0022-0981; NLD; DA. 1982; VOL. 59; NO 1; PP. 61-75; BIBL. 18 REF.Article
PRODUCTION OF THE EUPHAUSIID NYCTIPHANES AUSTRALIS IN STORM BAY, SOUTH-EASTERN TASMANIARITZ DA; HOSIE GW.1982; MAR. BIOL. (BERL.); ISSN 0025-3162; DEU; DA. 1982; VOL. 68; NO 1; PP. 103-108; BIBL. 28 REF.Article
The impact of climate fluctuation on food availability and reproductive performance of the planktivorous red-billed gull Larus novaehollandiae scopulinusMILLS, James A; YARRALL, John W; BRADFORD-GRIEVE, Janet M et al.Journal of animal ecology. 2008, Vol 77, Num 6, pp 1129-1142, issn 0021-8790, 14 p.Article
Spatial distribution of planktivorous fish schools in relation to krill abundance and local hydrography off Otago, New ZealandO'DRISCOLL, R. L; MCCLATCHIE, S.Deep-sea research. Part 2. Topical studies in oceanography. 1998, Vol 45, Num 7, pp 1295-1325, issn 0967-0645Article
Seasonal and interannual variability in krill (Nyctiphanes australis) stocks and their relationship to the fishery for jack mackerel (Trachurus declivis) off eastern Tasmania, AustraliaYOUNG, J. W; JORDAN, A. R; BOBBI, C et al.Marine biology (Berlin). 1993, Vol 116, Num 1, pp 9-18, issn 0025-3162Article