Biology Reference
In-Depth Information
Komourdjian, M.P., R.L. Saunders and J.C. Fenwick. 1976b. The effect of porcine somatotropin
on growth and survival in seawater of Atlantic salmon,
Salmo salar
L. Canadian Journal
of Zoology 54: 531-535.
Kudo, H., Y. Tsuneyoshi, M. Nagae, S. Adachi, K. Yamauchi, U. Ueda and H. Kawamura. 1994.
Detection of thyroid hormone receptors in the olfactory system and brain of wild masu
salmon, Oncorhynchus masou (Brevoort) during smolting by
in vitro
autoradiography.
Aquaculture and Fisheries Management 25: 171-182.
Kunz, Y.W. 1987. Tracts of putative ultraviolet receptors in the retina of the two-year-old brown
trout (
Salmo trutta
) and the Atlantic salmon (
Salmo salar
). Experientia 43: 2102-2104.
Kunz, Y.W., G. Wildenburg, L. Goodrich and E. Callaghan. 1994. The fate of ultraviolet receptors
in the retina of the Atlantic salmon (
Salmo salar
). Vision Research 11: 1375-1383.
Langdon, J.S. and J.E. Thorpe. 1984. Responses of gill Na+,K+ATPase activity, succinic
dehydrogenase activity and chloride cells to seawater adaptation in Atlantic salmon,
Salmo salar
L., parr and smolt. Journal of Fish Biology 24: 323-331.
Langdon, J.S., J.E. Thorpe and R.J. Roberts. 1984. Effects of cortisol and acth on gill Na+/K+-
ATPase, SDH and chloride cells in juvenile atlantic salmon
Salmo salar
L. Comparative
Biochemistry and Physiology A 77: 9-12.
Langhorne, P. and T.H. Simpson. 1986. The interrelationship of cortisol, gill (Na+KATPase),
and homeostasis during the parr-smolt transformation of atlantic salmon (
Salmo salar
L.). General and Comparative Endocrinology 61: 203-213.
Larsen, D.A., P. Swanson, J.T. Dickey, J. River and W.W. Dickhoff. 1998.
In vitro
thyrotropin-
releasing activity of corticotropin-releasing hormone-family peptides in coho salmon,
Oncorhynchus kisutch
. General and Comparative Endocrinology 109: 276-285.
Lasserre, P., G. Boeuf and Y. Harache. 1978. Osmotic adaptation of
Oncorhynchus kisutch
Walbaum. I. Seasonal variations of the gill Na
+
-K
+
ATPase activity in coho salmon, 0
+
age and yearling, reared in freshwater. Aquaculture 14: 365-382.
Leatherland, J.F., B.A. McKeown and T.M. John. 1974. Circadian rhythm of plasma prolactin,
growth hormone, glucose and free fatty acid in juvenile kokanee salmon, Oncorhynchus
nerka. Comparative Biochemistry and Physiology A 47: 821-828.
Lema, S.C. and G.A. Nevitt. 2004. Evidence that thyroid hormone induces olfactory cellular
proliferation in salmon during a sensitive period for imprinting. Journal of Experimental
Biology 207: 3317-3327.
Loretz, C.A., N.L. Collie, N.H. Richman and H.A. Bern. 1982. Osmoregulatory changes
accompanying smoltifi cation in coho salmon. Aquaculture 28: 67-74.
MacLatchy, D.L. and J.G. Eales. 1990. Growth hormone stimulates hepatic thyroxine
5'monodeiodinase activity and 3, 5, 3'-triiodothyronine levels in rainbow trout (
Salmo
gairdneri
). General and Comparative Endocrinology 78: 164-172.
Madsen, S.S. 1990a. Effect of repetitive cortisol and thyroxine injections on chloride cell
number and Na+-K+ ATPase activity in gills of freshwater acclimated rainbow trout,
Salmo gairdneri
. Comparative Biochemistry and Physiology A 95: 171-175.
Madsen, S.S. 1990b. Enhanced hypoosmoregulatory response to growth hormone after cortisol
treatment in immature rainbow trout,
Salmo gairdneri
. Fish physiology and Biochemistry
8: 271-279.
Madsen, S.S. 1990c. The role of cortisol and growth hormone in seawater adaptation and
development of hypoosmoregulatory mechanisms in sea trout parr (
Salmo trutta
trutta
).
General and Comparative Endocrinology 79: 1-11.
Madsen, S.S. 1990d. Cortisol treatment improves the development of hypoosmoregulatory
mechanisms in sea trout parr (
Salmo trutta
trutta
). Fish Physiology and Biochemistry 8:
45-52.
Madsen, S.S. and B. Korsgaard. 1989. Time-course effects of repetitive estradiol-17β and
thyroxine injections on the natural spring smolting of Atlantic salmon,
Salmo salar
L.
Journal of Fish Biology 35 : 119-128.
