Species-specific differences in the fatty acid profiles of the lipids of the yolk and of the liver of the chick

Differences between four avian species of commercial importance (chicken, t urkey, duck and goose), in terms of the relationship between the dietary fa tty acids supplied in the diet of the layers and the fatty acid composition of the egg yolk lipids, were investigated. Laying hens of the four species were provided with diets with very similar fatty acid compositions. The po lyunsaturated fatty acid content of the diets consisted of linoleic and a-l inolenic acids at approximately 50% and 6% (w/w of total fatty acids), resp ectively, for all four species. In spite of the very similar dietary provis ion of fatty acids, the subsequent fatty acid profiles of the yolk lipids d iffered markedly between the four species. In particular, the proportion of docosahexaenoic acid in the total lipid of the yolk was three to five time s greater for the chicken compared to the other three species. By contrast, the proportion of arachidonic acid in total yolk lipid was approximately t wo times greater for the goose and duck than for the chicken and turkey. Th us the chicken was more efficient at incorporating long-chain (C-22) fatty acid of the n-3 series into yolk lipid whereas the duck and goose preferent ially incorporated C-22 fatty acid of the n-6 series. The turkey eggs conta ined a similar proportion of arachidonic acid but less docosahexaenoic acid than the chicken eggs. The main differences between the avian species in t erms of the yolk levels of C20-22 polyunsaturated fatty acids were in the p hospholipid fraction since only low levels of these fatty acids were presen t in the triacylglycerol fraction. The relative proportions of docosahexaen oic acid in the phospholipid and triacylglycerol fractions of the livers of the newlyhatched chicks of the four species reflected the differences disp layed by the yolks. The proportions of arachidonic acid in these liver lipi d fractions, however, did not reflect the species differences in yolk lipid composition. (C) 1999 Society of Chemical Industry.