(ed.). Oppdrett <strong>av</strong> lakse<strong>smolt</strong>, Landbruksforlaget, pp 87-113. (In Norwegian). Stefansson, S. O, Tom O. Nilsen, Lars O. E. Ebbesson, Anna Wargelius, Steffen S. Madsen, Björn Thrandur Björnsson and Stephen D. McCormick, 2006. Molecular mechanisms of continuous light inhibition of Atlantic salmon parr<strong>smolt</strong> transformation. Aquaculture 00, 000-000 Stefansson, S. O., Berge, Å. I. And Gunnarsson, G. S., 1998. Changes in seawater tolerance and gill Na+, K+-ATPase activity during de<strong>smolt</strong>ification in Atlantic salmon kept in freshwater at different temperatures. Aquaculture, 168: 271- 278. Sørum, U., Damsgård, B., 2004. Effects of anaesthetisation and vaccination on feed intake and growth in Atlantic salmon (Salmo salar L.). Aquaculture 232, 333- 341. Takle, H., Baeverfjord, G., Helland, S., Kjørsvik, E. and Andersen, O. Hyperthermia induced atrial natriuretic peptide (ANP) expression and deviant heart development in Atlantic salmon Salmo salar embryos. Gen. Comp. Endocrinol., in press Takle, H., Baeverfjord, G., Lunde, M., Andersen, Ø., 2005. The effect of heat and cold exposure on HSP70 expression and development of deformities during embryogenesis of Atlantic salmon (Salmo salar). Aquaculture, 249, 515-524. Teien. H.C, Kroglund. F. Åtland. Å., Rosseland B.O, Salbu B. 2006. Sodium silicate as alternative to liming-reduced aluminium toxicityfor Atlantic salmon (Salmo salar L.) in unstable mixing zones. Science of the Total Environment 358 151– 163 Thorarinsson, R. og Lystad, Y., 2003. Vintersår; Ny kunnskap skaper optimisme. Norsk fiskeoppdrett, 10:34-38. Toften, H., Arnesen, A. M. and Jobling. M., 2003. Feed intake, growth and ionregulation in Atlantic salmon (Salmo salar L.) <strong>smolt</strong>s in relation to dietary addition of a feeding stimulant and time of seawater transfer. Aquaculture: 217: 647-662. Tørud, B. og Hillestad, M., 2004. Hjerterapporten. Fås ved henvendelse til redaktørene. Vågsholm I, Djupvik HO (1999) Risk factors for abdominal adhesions in Atlantic salmon, Salmo salar L. J Fish Dis 22:53–58 Wargelius, A., Fjelldal, P.G., Hansen, T., 2005. Heat shock during early somitogenesis induces caudal vertebral column defects in Atlantic salmon (Salmo salar). Dev. Gen. Evol. 215, 350-357. Whitman, K. A., Backman, S., Bendiktsdottis, E., Coles, M. and Johnson, G., 2000. Isolation and characterization of a new Vibrio spp. (Vibrio wodanis) assosiated with “winter ulser disease” in seawater raised Atlantic salmon (Salmo salar L.) in New Brunswick. Proceedings of the 17th annual meeting of the aquaculture 80
assosiation of Canada. Moncton, NB May Wiggs AJ., Henderson EB., Saunders RL., Kutty MN 1989. Activity respiration and excretion of ammonia by atlantic salmon (Salmo Salar) <strong>smolt</strong> and post<strong>smolt</strong>. Canadian Journal of Fisheries And Aquatic Scienses 46 (5): 790-795 28-31 2000. No 4: 115-117. Witten, P.E., Obach, A., Gil-Martens, L. and Baeverfjord, G. Vertebrae fusion in Atlantic salmon (Salmo salar): Development, aggr<strong>av</strong>ation and pathways of containment. Aquaculture, in press. 81