VARIATION IN THE FATTY-ACID COMPOSITION OF JUVENILE CHINOOK AND COHO SALMON FROM FRASER-RIVER ESTUARY DETERMINED BY MULTIVARIATE-ANALYSIS -ROLE OF ENVIRONMENT, AND GENETIC-ORIGIN
O. Mjaavatten et al., VARIATION IN THE FATTY-ACID COMPOSITION OF JUVENILE CHINOOK AND COHO SALMON FROM FRASER-RIVER ESTUARY DETERMINED BY MULTIVARIATE-ANALYSIS -ROLE OF ENVIRONMENT, AND GENETIC-ORIGIN, Comparative biochemistry and physiology. B. Comparative biochemistry, 120(2), 1998, pp. 291-309
Juvenile chinook and coho salmon were collected at five sites from the
lower Fraser River and estuary for fatty acid analysis of brain, hear
t, gill-arch and muscle tissue during the winter and spring 1992. Usin
g multivariate analysis, a novel statistical method for this type of d
ata, we found that the fatty acid composition in various fish tissues
differed: The brain fatty acid composition was least similar to the fa
tty acid profiles of the various food species, while the fatty acids e
xtracted from gills showed a profile with more similarity to the food
species. The rearing history (hatchery-reared vs. wild fish) influence
d the fatty acid composition in the four tissues from both salmon spec
ies. The composition of fatty acids from the chinook brain tissue was
influenced by developmental changes during the first year of life. In
the chinook and coho smelts, species-specific differences were detecte
d in brain and especially the heart tissue fatty acid profile. We sugg
est that the fatty acid composition from the heart tissue may be best
suited to differentiate between juvenile chinook and coho, and it is b
elieved that gill tissue is best to differentiate wild and hatchery fi
sh. (C) 1998 Elsevier Science Inc. All rights reserved.