220 
Fishery Bulletin 107(2) 
variability in two northern California rockfishes. Fish. 
Bull. 93:710-720. 
Ronnestad, I., R. N. Finn, I. Lein, and O. Lie. 
1995. Compartmental changes in the contents of total 
lipid, lipid classes and their associated fatty acids 
in developing yolk-sac larvae of Atlantic halibut, Hip- 
poglossus hippoglossus ( L . ) . Aquacult. Nutr. 1:119— 
130. 
Saito, H. and Y. Kotani. 
2000. Lipids of four boreal species of calanoid copepods: 
origin of monoene fats of marine animals at higher 
trophic levels in the grazing food chain in the subarctic 
ocean ecosystem. Mar. Chem. 7:69-82. 
Sogard, M. S., S. A. Berkeley, and R. Fisher. 
2008. Maternal effects in rockfishes Sebastes spp.: 
a comparison among species. Mar. Ecol. Prog. Ser. 
360:227-236. 
Tocher, D. R. 
2003. Metabolism and functions of lipids and fatty acids 
in teleost fish. Rev. Fish. Sci. 11(2):107-184. 
Tocher, D. R., and J. R. Sargent 
1984. Analyses of lipids and fatty acids in rope roes 
of some Northwest European marine fish. Lipids 
19(71:492-499. 
Tveiten, H., M. Jobling, and I. Andreassen. 
2004. Influence of egg lipids and fatty acids on egg viabil- 
ity, and their utilization during embryonic development of 
spotted wolf-fish, Anarhichas minor Olafsen. Aquacult. 
Res. 35(21:152-161. 
Watanabe, T. 
1982. Lipid nutrition in fish. Comp. Biochem. Physiol. 
B 73(11:3-15. 
Wootton, R. J. 
1979. Energy costs of egg production and environmental 
determinants of fecundity in teleost fishes. Symp. Zool. 
Soc. Lond. 44:133-159. 
Yamada, J., and M. Kusakari. 
1991. Staging and the time course of embryonic devel- 
opment in kurosai, Sebastes schlegeli. Environ. Biol. 
Fishes 30:103-110. 
Yoklavich, M., and G. W. Boehlert. 
1991. Uptake and utilization of 14 C-glycine by embryos 
of Sebastes melanops. Environ. Biol. Fishes 30:147- 
153. 
