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Cobia, a warm water fish, is one of the more suitable candidates for offshore aquaculture.〔Kaiser, J.B. & Holt, G.J. 2004. Cobia: a new species for aquaculture in the US. ''World Aquaculture'', 35: 12–14〕〔 Cobia are large pelagic fish, up to 2 metres (78 inches) long and 68 kilograms (150 pounds) in weight. They are solitary fish except when spawning, found in warm-temperate to tropical waters. Their rapid growth rate in aquaculture, as well as the high quality of their flesh, makes cobia potentially one of the more important potential marine fish for aquaculture production.〔Nhu, V. C., Nguyen, H. Q., Le, T. L., Tran, M. T., Sorgeloos, P., Dierckens, K., Reinertsen H., Kjorsvik, E. & Svennevig, N. (2011) (Cobia ''Rachycentron canadum'' aquaculture in Vietnam: recent developments and prospects ) ''Aquaculture'' 315: 20–25〕 Currently, cobia are cultured in nurseries and grow-out offshore cages in many parts of Asia and off the coast of the United States, Mexico and Panama. In Taiwan cobia weighing 100–600 grams are cultured for 1–1.5 years to reach the 6–8 kilograms needed for export to Japan. Currently, around 80% of marine cages in Taiwan are devoted to cobia culture.〔Liao, I.C., Huang, T.S., Tsai, W.S., Hsueh, C.M., Chang, S.L. & Leano, E.M. (2004) ("Cobia culture in Taiwan: current status and problems" ) ''Aquaculture'', 237: 155–65.〕 In 2004, the FAO reported that 80.6% of the world’s cobia production was by China and Taiwan.〔(''Rachycentron canadum '' ) ''FAO Cultured Aquatic Species Information'', Rome. Updated 23 May 2007.〕 After China and Taiwan, Vietnam is the third largest producer of farmed cobia in the world where production was estimated at 1500 tonnes in 2008.〔 The possibility is also being examined of growing hatchery reared cobia in offshore cages around Puerto Rico and the Bahamas.〔 Greater depths, stronger currents, and distance from shore all act to reduce the environmental impacts often associated with fin fish aquaculture. Offshore cage systems could become some of the most environmentally sustainable methods for commercial marine fish aquaculture.〔Benetti, D.D., Alarcon, J.F., Stevens, O.M., O'Hanlon, B., Rivera, J.A., Banner-Stevens, G. and Rotman, F.J. (2003) (Advances in hatchery and growout technology of marine finfish candidate species for offshore aquaculture in the Caribbean ) ''Proceedings of the Gulf and Caribbean Fisheries Institute'', 54: 475–487〕 However, some problems still exist in cobia culture that needs to be addressed and solved for increasing production. These include high mortality rates due to stress during transport from nursery tanks or inshore cages out to grow-out cages. Also, diseases in the nursery stage and the grow-out culture can result in low survival rates and a poor harvest.〔 ==Production== Wild cobia broodstock are captured by professional fishermen. The fish are transferred into onboard-tanks on a transport vessel for transport to hatchery facilities. They are anesthetized with clove oil if necessary to reduce stress during transportation. They are also treated for ectoparasites on their gills and skin that could proliferate later after transfer to maturation tanks.〔Benetti, D. D., Orhun, M. R., Zink, I., Cavalin, F. G., Sardenberg, B., Palmer, K., Dnlinger, B., Bacoat, D. & O’Hanlon, B. (2007) ("Aquaculture of cobia (''Rachycentron canadum'') in the Americas and the Caribbean" ) ''RSMAS'', p. 1–21〕〔Benetti, D. D., Orhun, M. R., Sardenberg, B., O’Hanlon, B., Welch, A., Hoenig, R. Zink, I., Rivera, J. A., Denlinger, B., Bacoat, D., Palmer, K. & Cavalin, F. (2008) (Advances in hatchery and grow-out technology of cobia ''Rachycentron canadum'' (Linnaeus) ) ''Aquaculture Research,'' 39: 701–711〕 Broodstock are reared in controlled ponds or tanks. These tanks are often stocked with cleaner fish, ''Gobiosoma oceanops'', as a biological control for any remaining ectoparasites. The broodstock diet includes sardines, squid and formulated feeds, as well as vitamin and mineral supplements. The water temperature is used to control spawning.〔〔 The eggs are collected with a surface skimmer using mesh screen bags. The eggs are transferred to incubation tanks where they are disinfected for an hour with 100 ppm formalin.〔 Phytoplankton concentrations are maintained, and enriched ''Artemia'' nauplii and rotifers are fed to the cobia larvae for 3–7 days after they hatch. The larvae require rotifers for at least four days after hatching.〔Faulk, C.K. & Holt, G.J. (2003) (Lipid nutrition and feeding of cobia ''Rachycentron canadum'' larvae ) ''Journal of the World Aquaculture Society'', 34: 368–378〕 The presence of enriched live prey in conjunction with live algae in rearing tanks has been shown to improve the way larvae grow and survive in recirculating systems〔Faulk, C.K. & Holt, G.J. (2005) (Advances in rearing cobia ''Rachycentron canadum'' larvae in recirculating aquaculture systems: live prey enrichment and greenwater culture ) ''Aquaculture'', 249: 231–243〕 Optimal rearing densities are required when rearing larvae. Even though water quality and food can be controlled, it has been shown that high rearing densities may still affect growth and survival of the larvae through responses related to crowding.〔Hitzfelder, G.M., Holt, G.J., Fox, J.M. & McKee, D.A. (2006) ("The effect of rearing density on growth and survival of cobia, ''Rachycentron canadum'', larvae in a closed recirculating aquaculture system" ) ''Journal of the World Aquaculture Society'', 37: 204–209〕 In addition, juveniles exposed to varying salinities exhibited sustained growth and improved health at higher salinities, 15 and 30 ppt.〔Denson, M.R., Stuart, K.R., Smith, T.I.J., Weirich, C.R. & Segars, A. (2003) ("Effects of salinity on growth, survival, and selected hematological parameters of juvenile cobia ''Rachycentron canadum''" ) ''Journal of the World Aquaculture Society'', 34: 496–504〕 Cobia larvae metamorphose to gill respiration 11–15 days post hatching. At 15–25 days post hatching, cobia are weaned onto commercial formulated feeds. Rearing cobia larvae at salinities as low as 15 ppt is possible.〔Faulk, C.K. & Holt, G.J. (2006) ("Responses of cobia ''Rachycentron canadum'' larvae to abrupt or gradual changes in salinity" ) ''Aquaculture'', 254: 275–283〕 Fully weaned fingerlings weighing up to one gram are transferred to juvenile culture tanks.〔〔 Later cobia juveniles can be raised in ponds or shallow, near-shore submerged cages. Juveniles thrive on a wide range of protein and lipid, but there are optimal levels where they get the most benefit. After an 8-week growth trial, juvenile cobia displayed a peak in their weight gain with a dietary protein concentration of 44.5%.〔Chou, R.L., Su, M.S. & Chen, H.Y. (2001) ("Optimal dietary protein and lipid levels for juvenile cobia (''Rachycentron canadum''). ''Aquaculture''" ) 193: 81–89〕 Weight gain is also likely to increase as the lipid content in the diet increases. However, levels exceeding 15–18% produces little practical benefit because of higher fat accretion in the cobia.〔〔Wang, J.T., Liu, Y.J., Tian, L.X., Mai, K.S., Du, Z.Y., Wang, Y. & Yang, H.J. (2005) ("Effect of dietary lipid level on growth performance, lipid deposition, hepatic lipogenesis in juvenile cobia (''Rachycentron canadum'')" ) ''Aquaculture'', 249: 439–447〕 In addition, up to 40% of fish meal protein can be substituted with soybean meal protein before a reduction occurs in growth rates and protein utilization.〔Chou, R.L., Her, B.Y., Su, M.S., Hwang, G., Wu, Y.H. & Chen, H.Y. (2004) ("Substituting fish meal with soybean meal in diets of juvenile cobia ''Rachycentron canadum''" ) ''Aquaculture'', 229: 325–333〕〔Craig, S.R., Schwarz, M.H. & McLean, E. (2006) ("Juvenile cobia (''Rachycentron canadum'') can utilize a wide range of protein and lipid levels without impacts on production characteristics" ) ''Aquaculture'', 261:384–39〕 Cobia has low feed conversion rates, yielding 1 kilogram of fish biomass for 1.8 kilograms of pellets which contain 50% fishmeal.〔Benetti, D. D., O’Hanlon, B., Rivera, J. A., Welch, A. W., Maxey, C. & Orhun, M. R. (2010) ("Growth rates of cobia (''Rachycentron canadum'') cultured in open ocean submerged cages in the Caribbean" ) ''Aquaculture'' 302: 195–201〕 The cobia are then transferred to open ocean cages for final the grow-out when they reach 6–10 kilograms.〔〔 The growth rate and survival rate of cobia during grow-out stages in open water cages throughout the Caribbean and Americas vary from as little as 10% up to 90%.〔 Low survival rates are mainly due to disease, but also to shark attacks which tear holes in the nets of cages in the Bahamas and Puerto Rico and allow caged cobia to escape. However, better growth rates were experienced in offshore cage farms in Taiwan.〔 In addition, cobia are considered to be gonochoristic, with differential growth rates occurring between sexes. Females grow faster and have been shown to be significantly longer and heavier within year classes.〔Franks, J.S., Warren, J.R. & Buchanan, M.V. (1999) ("Age and growth of cobia, ''Rachycentron canadum'', from the northeastern Gulf of Mexico" ) ''Fishery Bulletin'' 97: 459–471〕〔〔 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Aquaculture of cobia」の詳細全文を読む スポンサード リンク
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