NOTE Fnedland et a\ Relationship between smolt and postsniolt growth in Salmo salai 



155 



Merita, S. H., K. Morita, and H. Sakano. 



2001. Growth of chum salmon [Oncorhynchiis keta) 

 correlated with sea-surface salinity in the North 

 Pacific. ICES J. Mar. Sci. 58:1335-1339. 



Nicieza, A. G, and F. Braniia. 



1993. Relationships among smolt size, marine growth, 

 and sea age at maturity of Atlantic salmon iSahno 

 salar) in northern Spain. Can. J. Fish. Aquat. Sci. 

 50:1632-1640. 



Niva, T., and J. Jokela. 



2000. Phenotypic correlation of juvenile growth rate 

 between different consecutive foraging environments 

 in a salmonid fish: a field experiment. Evol. Ecol. 

 14:111-126. 



Ouellet, P. 



1997. Characteristics and vertical distribution of Atlantic 

 cod {Gadus morhua) eggs in the northern Gulf of St. 

 Lawrence, and the possible effect of cold water tem- 

 perature on recruitment. Can. J. Fish. Aquat. Sci. 

 54:198-210. 

 Poole, W. R., D. T. Nolan, T. Wevers, M. Dillane, D. Cotter, and 

 O. Tully. 



2003. An ecophysiological comparison of wild and hatch- 

 ery-raised Atlantic salmon (Salmo salar L.) smolt from 

 the Burrishoole system, western Ireland. Aquaculture 

 222:301-314. 

 Salminen, M. 



1997. Relationships between smolt size, postmolt growth 

 and sea age at maturity in Atlantic salmon ranched in 

 the Baltic Sea. J. Appl. Ichthyol. 13:121-130. 

 Salminen, M., E. Erkamo, and J. Salmi. 



2001. Diet of post-smolt and one-sea-winter Atlantic 

 salmon in the Bothnian Sea, Northern Baltic. J. Fish 

 Biol. 58:16-35. 



Salminen, M., S. Kuikka, and E. Erkamo. 



1994. Divergence in the feeding migration of Baltic salmon 

 i Sal mo salar L.I; the significance of smolt size. Nord. 

 J. Freshw. Res. 69:32-42. 



1995. Annual variability in survival of sea-ranched Baltic 

 salmon, Salmo salar L.: Significance of smolt size and 

 marine conditions. Fish. Manag. Ecol. 2:171-184. 



Skilbrei, O. T. 



1989. Relationships between smolt lengths and growth 

 and maturation in the sea of individually tagged Atlantic 

 salmon iSalmo salar). Aquaculture 83:95-108. 

 Sturlaugsson, J. 



1994. Food of ranched Atlantic salmon iSalmo salar L. I 

 postsmolts in coastal waters. West Iceland. Nord. J. 

 Freshw. Res. 69:43-57. 

 Swansburg, E, G. Chaput, D. Moore, D. Cassie, and N. El-Jabi. 

 2002. Size variability of juvenile Atlantic salmon: links to 

 environmental conditions. J. Fish Biol. 61:661-683. 

 Ward, B. R. 



2000. Declivity in steelhead ( Oncorhyncbus mykiss ) recruit- 

 ment at the Keogh River over the past decade. Can. J. 

 Fish. Aquat. Sci. 45:298-306. 

 Ward, B. R., and P. A. Slaney. 



1988. Life history and smolt-to-adult survival of Keogh 

 River steelhead trout (So/mo gairdneri) and the rela- 

 tionship to smolt size. Can. J. Fish. Aquat. Sci. 45: 

 1110-1122. 

 Wedemeyer G.A., R. L. Saunders, and W. C. Clarke. 



1980. Environmental factors affecting smoltification and 

 early marine survival of anadromous salmon. Mar. 

 Fish. Rev. 42:1-14. 

 West, C. J., and P. A. Larkin. 



1987. Evidence for size-selective mortality of juvenile sock- 

 eye salmon ( Oncorhynchus nerka I in Babine Lake, British 

 Columbia. Can. J. Fish. Aquat. Sci. 44:712-721. 



