The Atlantic salmon (Salmo salar), which is the most commonly farmed salmon, is a boned finfish that migrates between fresh and salt water. Salmon parra hatch from eggs laid in river beds and mature in the Atlantic Ocean before returning to their river of origin to spawn.
Consumer demand for seafood, including salmon, is increasing. Salmon meat is prized for its distinct flavor and pink coloration. While some diners prefer wild salmon, farmed salmon is considerably more affordable and better able to meet growing public demand for seafood in a sustainable manner.1
While recreational fishing of salmon in rivers and streams is still supported, most commercial ocean fishing grounds in America are closely managed (by the North Atlantic Salmon Conservancy Organization) due to low or declining stocks. The majority of Atlantic salmon available in retail outlets is now produced by aquaculture or "fish farming." The Atlantic salmon is one of the most well established and widely farmed species of fish.2 Commercial salmon farming where fish are raised from hatch to slaughter began in 1960 and increased dramatically in scale during the 1980s and 90s led by industry developments in Norway. Atlantic salmon are now farmed in many different countries including Chile, the United Kingdom, Canada and the United States.3 The top three world markets for salmon are Europe, Japan and the United States.4 The United States is a net importer of Atlantic salmon.
Farmed salmon grow faster than wild salmon5 and may exhibit reduced fear and flight behaviors.6 Their overall development and ecological needs, however, are the same as wild salmon and farming systems must simulate the conditions required for their fresh and saltwater life stages. Eggs and sperm are placed into fresh water. Small fry hatch are raised in freshwater tanks. These fish undergo a process of "smoltification" during which they adapt to live in salt water. The growing "smolt" are typically moved to large floating sea nets or cages,7 although they can be raised in land-based saltwater tanks. Salmon are slaughtered at around two years of age and usually shipped to market within 24 hours.
a. "Parr" are young salmon during their first two years of life, when they live in fresh water.
1. Food and Agricultural Organization The State of World Fisheries and Aquaculture 1998 (Food and Agricultural Organization, Rome, 1999).2. Gaudet D. Atlantic salmon: a white paper. Alaska department of Fish and Game: http://www.ak.goc/faq accessed 17th June 2009'3. Asche F. Trade disputes and productivity gains: the curse of farmed salmon production? Marine Resource Economics 1997;12:67-73.4. Asche F. Testing the effect of anti-dumping duty: the US salmon market. Empirical Economics 2001;26:343-355.5. Fleming IA, Agustsson T, Finstad B et al. Effects of domestication on growth physiology and endocrinology of Atlantic salmon (Salmo salar). Can J Fish Aquatic Sci 2002;59:1323-1330.6. Johnsson JI, Hojesjo J, Fleming IA. Behavioural and heart rate responmses to predation risk in wild and domesticated Atlantic salmon. Can J Fish Aquatic Sci 2001;58:788-794.7. Kocik JF, Sheehan TF. Atlantic salmon. Status of Fishery Resources of the Northeastern U.S. Revised December 2006, (http://www.nefsc.noaa.gov/sos/spsyn/pg/cod/#gom. Accessed June 17th, 2009.8. Animal welfare aspects of husbandry systems for farmed Atlantic salmon - Scientific Opinion of the Panel on Animal Health and Welfare, Question number: EFSA-Q-2006-033 Available at: http://www.efsa.europa.eu/EFSA/efsa_locale-1178620753812_1211902014109.htm Accessed June 8th, 20099. Wilkinson RJ, Porter MP, Woolcott H et al. effects of aquaculture related stressors and nutritional restriction on circulating growth factors (GH, IGF-I and IGF-II) in Atlantic salmon and rainbow trout. Comp Biochem Phys A 2006, 145, 214-224.10. Ashley PJ. Fish welfare: current issuesin aquaculture. Appl Anim Behav Sci 2007;104:199-235.11. Johansson D, Ruohonen K, Kiessling A et al. Effect of environmental factors on swimming depth and preferences of Atlantic salmon (Salmo salar L.) and temporal and spatial variations in oxygen levels in sea cages at a fjord site. Aquaculture 2006;254:594-605.
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