Relationships between the sex and degree of maturity of marine crustaceans and their lipid compositions

R. J. Morris

doi:10.1017/S0025315400056617

Extract

The results of decapod lipid analyses have shown that females and gravid females generally contain high levels of monounsaturated acids and that the eggs of some of these decapods are composed mainly of phospholipid and triglyceride. These are probably present mainly as energy reserves. The percentages of saturated fatty acids are not found to vary with either maturity or sex, whereas the composition of the polyunsaturated acids are affected by both sex and maturity differences. Females are generally much lower in their content of polyunsaturated acids than juveniles and males, the males showing a greater requirement for 20:5 acid compared to the females.

For the euphausiids there is a slightly different picture, the monounsaturated acids appear as the stable fraction and for Euphausia krohnii the juveniles are similar to the females in their content of the polyunsaturated acids.

Neomysis integer is quite unlike the oceanic crustaceans showing a very specific difference in fatty acid composition between the males and females, the juveniles being rather intermediate in composition.

References

REFERENCES

American Oil Chemist’s Society, 1965. Official and Tentative Methods. Chicago, Ill.Google Scholar

Culkin, F. & Morris, R. J., 1969. The fatty acids of some marine crustaceans. Deep-Sea Research, 16, 109–16.Google Scholar

Culkin, F. & Morris, R. J., 1970. The fatty acids of some cephalopods. Deep-Sea Research, 17, 171–4.Google Scholar

Folch, J., Lees, M. & Sloane Stanley, G. H., 1956. A simple method for the isolation and purification of total lipids from animal tissues. Journal of Biological Chemistry, 226(a), 497–509.CrossRef Google Scholar

Morris, R. J., 1971 a. Variations in the fatty acid composition of oceanic euphausiids. Deep-Sea Research, 18, 525–9.Google Scholar

Morris, R. J., 1971 b. Comparison of the composition of oceanic copepods from different depths. Comparative biochemistry and physiology, 40 B, 275–81.Google Scholar

Morris, R. J., 1971 c. Seasonal and environmental effects on the lipid composition of Neomysis integer. Journal of the Marine Biological Association of the United Kingdom, 51, 21–31.CrossRef Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Herring, P. J. 1973. Depth Distribution of the carotenoid pigments and lipids of some oceanic animals. 2. Decapod Crustaceans. Journal of the Marine Biological Association of the United Kingdom, Vol. 53, Issue. 3, p. 539.

Childress, J. J. and Nygaard, M. 1974. Chemical composition and buoyancy of midwater crustaceans as function of depth of occurrence off Southern California. Marine Biology, Vol. 27, Issue. 3, p. 225.

Oudejans, R. C. H. M. and Van Der Horst, D. J. 1974. Effect of excessive fatty acid ingestion upon composition of neutral lipids and phospholipids of snailHelix pomatia L.. Lipids, Vol. 9, Issue. 10, p. 798.

Raymont, J.E.G. Morris, R.J. Ferguson, C.F. and Raymont, J.K.B. 1975. Variation in the amino-acid composition of lipid-free residues of marine animals from the northeast Atlantic. Journal of Experimental Marine Biology and Ecology, Vol. 17, Issue. 3, p. 261.

Guary, J.-C. Kayama, M. and Murakami, Y. 1975. Variations saisonni�res de la composition en acides gras chez Penaeus japonicus (Crustacea: Decapoda). Marine Biology, Vol. 29, Issue. 4, p. 335.

Moore, J.W. 1976. The proximate and fatty acid composition of some estuarine crustaceans. Estuarine and Coastal Marine Science, Vol. 4, Issue. 2, p. 215.

Donaldson, H. A. 1976. Chemical composition of sergestid shrimps (Decapoda: Natantia) collected near Bermuda. Marine Biology, Vol. 38, Issue. 1, p. 51.

Clarke, Andrew 1977. Lipid class and fatty acid composition of Chorismus antarcticus (Pfeffer) (Crustacea: Decapoda) at South Georgia. Journal of Experimental Marine Biology and Ecology, Vol. 28, Issue. 3, p. 297.

Clarke, Andrew 1979. Lipid content and composition of the pink shrimp, Pandalus montagui (Leach) (Crustacea: Decapoda). Journal of Experimental Marine Biology and Ecology, Vol. 38, Issue. 1, p. 1.

1980. Vol. 18, Issue. , p. 264.

CrossRef

1980. Vol. 18, Issue. , p. 554.

CrossRef

Beninger, Peter G. and Stephan, G. 1985. Seasonal variations in the fatty acids of the triacylglycerols and phospholipids of two populations of adult clam (Tapes decussatus L. and T. philippinarum) reared in a common habitat. Comparative Biochemistry and Physiology Part B: Comparative Biochemistry, Vol. 81, Issue. 3, p. 591.

Clarke, A. Skadsheim, A. and Holmes, L. J. 1985. Lipid biochemistry and reproductive biology in two species of Gammaridae (Crustacea: Amphipoda). Marine Biology, Vol. 88, Issue. 3, p. 247.

Lautier, Jacques and Lagarrigue, Jean-G. 1986. Lipid metabolism of the male crab Pachygrapsus marmoratus during the moulting cycle. Biochemical Systematics and Ecology, Vol. 14, Issue. 6, p. 675.

Lautier, Jacques and Lagarrigue, Jean-G. 1987. Lipid metabolism of the female crab Pachygrapsus marmoratus during the moulting cycle. Biochemical Systematics and Ecology, Vol. 15, Issue. 5, p. 611.

Jeckel, Walter Horacio Aizpún de Moreno, Julia Elena and Moreno, ]Victor Jorge 1989. Biochemical composition, lipid classes and fatty acids in the ovary of the shrimp Pleoticus muelleri bate. Comparative Biochemistry and Physiology Part B: Comparative Biochemistry, Vol. 92, Issue. 2, p. 271.

Korczynski, R. E. 1989. Biochemical composition of the isopod Mesidotea entomon (Linnaeus) from the western Arctic. Polar Biology, Vol. 9, Issue. 6, p. 391.

Jeckel, Walter Horacio de Moreno, Julia Elena Aizpun and Moreno, Víctor Jorge 1989. Biochemical composition, lipid classes and fatty acids in the male reproductive system of the shrimp Pleoticus muelleri bate. Comparative Biochemistry and Physiology Part B: Comparative Biochemistry, Vol. 93, Issue. 4, p. 807.

Mourente, G. Medina, A. Gonz�lez, S. and Rodr�guez, A. 1994. Changes in lipid class and fatty acid contents in the ovary and midgut gland of the female fiddler crab Uca tangeri (Decapoda, Ocypodiadae) during maturation. Marine Biology, Vol. 121, Issue. 1, p. 187.

Mourente, Gabriel 1996. In vitro metabolism of 14C-polyunsaturated fatty acids in midgut gland and ovary cells from Penaeus kerathurus Forskâl at the beginning of sexual maturation. Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology, Vol. 115, Issue. 2, p. 255.

Download full list

Article contents

Relationships between the sex and degree of maturity of marine crustaceans and their lipid compositions

Extract

Access options

References

REFERENCES

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Relationships between the sex and degree of maturity of marine crustaceans and their lipid compositions

Extract

Access options

References

REFERENCES

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests