한국해양학회지:바다 (The Sea:JOURNAL OF THE KOREAN SOCIETY OF OCEANOGRAPHY)

  • 제12권2호
  • /
  • Pages.81-85
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  • 2007
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  • 1226-2978(pISSN)
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  • 2671-8820(eISSN)
한국해양학회 (The Korean Society of Oceanography)
권호 표지

사육환경과 연어치어 성장과의 관계에 관한 연구

The Relationship Between Environmental Conditions and Growth of Chum Salmon Fingerlings

  • 성기백 (국립수산과학원 영동내수면연구소) ;
  • 김주경 (국립수산과학원 영동내수면연구소)
  • Seong, Ki-Baik (Yeongdong Inland Fisheries Research Institute, National Fisheries Research and Development Institute) ;
  • Kim, Ju-Kyung (Yeongdong Inland Fisheries Research Institute, National Fisheries Research and Development Institute)
  • 발행 : 2007.05.31
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초록

사육지별 치어의 수용마리수는 $1,003{\sim}1,865$천마리로 큰 차이를 나타냈고, 가랑이체장은 $3.20{\sim}3.78cm$, 체중은 $0.34{\sim}0.49g$의 크기를 나타냈다. 일일 평균 사육 수온은 사육 중반기인 1월에서 3월까지의 수온은 사육 초반기와 후반기에 비해 $2{\sim}3^{\circ}C$ 정도 낮아 성장에 부적합한 수온을 보였다. pH는 2월 초순에서 중순은 $6.0{\sim}6.3$, 2월 하순은 6.5, 3월은 $6.5{\sim}7.0$을 나타냈다. 시간대별 용존산소의 변화는 오전 6시 이후 급격히 감소하였으며, $8{\sim}18$시 사이에 최저값을 보였다. 18시 이후에는 급격히 증가하였고, 21시에서 06시까지는 최대값을 보였다. 시간대별 연어치어의 폐사율을 보면, 용존산소가 높은 야간보다 급격히 하강하는 오전 및 주간에 폐사율이 5배 이상 높았다. 연어치어의 성장에 영향을 미치는 환경 요인으로는 1일 치어 1마리당 사료공급량, 사육지의 배수구 용존산소 및 사육수온이 5% 수준에서 유의한 것으로 나타났다.

Early growth of chum salmon was investigated in terms of rearing pond condition. The number of fingerling showed big differences by rearing pond $1,003,000{\sim}1,865,000$. The fork length of fingerlings ranged from $3.20{\sim}3.78cm$ and body weight ranged $0.34{\sim}0.49g$. Daily temperature of rearing water in January to March was $6{\sim}8^{\circ}C$, which is inadequate for salmon growth. pH was $6.0{\sim}6.3$ in early and mid February, 6.5 in late February and $6.5{\sim}7.0$ in March. Dissolved oxygen concentration was lowest from 8 a.m. to 6 p.m. and increased after 6 p.m. The maximum value was seen from 9 p.m. to 6 a.m. The mortality of fingerlings was 5 times higher in the daytime than at night because of dissolved oxygen. Growth of fingerlings was affected by daily ration, concentration of dissolved oxygen and rearing temperature.

키워드

참고문헌

  1. 성기백, 문정용, 김성철, 주태근, 1992. 산천어 양식기술개발시험. 수진 사업보고, 91호, 27-35
  2. 정문기, 1977. 한국어류도감. 일지사, 서울, pp 727
  3. 歸山雅秀, 1986. サケの呼吸と循環, 恒星社恒星閣. pp. 20-36
  4. 野山秀樹, 八木澤 功, 1994. サケ稚魚の適正な飼育環境. 北海道サケ.マスふ化硏報, 48: 31-39
  5. 野村 稔, 1969. 流水池の生産力と注水量, 密度效果との關係につぃて. 全國湖沼川養殖硏究會第26回養준部會要錄, 29-35
  6. 野村 稔, 1980. 流水池の環境と魚類生産. 水産學シリ-ズ32. 淡水養魚と用水, 恒星社恒星閣. pp. 64-83
  7. 千葉健治, 1970. II. 魚類の生長に關與する諸要因. II-1. 淡水養鯉池における環境とコイの生長. 日水誌, 36: 297-303
  8. 板澤靖雄, 1970. 呼吸, 魚類生理, 恒星社 恒星閣. pp. 45-88
  9. Brett, J.R, and J. M. Blackburn, 1981. Oxygen requirements for growth of young coho and sockeye salmon at 15. Can. J. Fish. Aquat. Sci., 38: 399-404 https://doi.org/10.1139/f81-056
  10. Fagerlund, U.H.M,. J.R. McBride, and E.T. Stone, 1981. Stressrelated effects on hatchery rearing density on coho salmon. Trans. Am. Fish. Soc., 110: 644-649 https://doi.org/10.1577/1548-8659(1981)110<644:SEOHRD>2.0.CO;2
  11. Groot, C. and L. Margolis, 1991. Pacific Salmon Life Histories. Published in co-operation with the Government of Canada, Department of Fisheries and Oceans, pp. 233-250
  12. Hemnann, R.B., C.E. Warren, and P. Doudoroff, 1962. Influence of oxygen concentration on the growth of juvenile coho salmon. Trans. Am. Fish. Soc., 91: 155-167 https://doi.org/10.1577/1548-8659(1962)91[155:IOOCOT]2.0.CO;2
  13. Kaeriyama, M., and S. Urawa, 1992. Future research by the Hok- kaido Salmon Hatchery for the proper maintenance of Japan salmonid stocks. National Research Institute of Far Sea Fisheries, Shimizu, Japan. pp. 57-62
  14. Kobayashi, T., 1980. Salmon propagation in Japan. In salmon ranching. Academic Press, London. pp. 91-107
  15. Martin, R., and A. Wertheimer, 1989. Adult production of chinook salmon reared at different densities and released as two smolt sizes. Prog. Fish-Cult., 51: 194-200 https://doi.org/10.1577/1548-8640(1989)051<0194:APOCSR>2.3.CO;2
  16. Mayama, H., 1985. Technical innovations in chum salmon enhancement with special reference to fry condition and timing release. NOAA Tech. Rep. NMFS, 27: 83-86
  17. Papoutsoglou, S.E., E. Papaparaskeva-Papoutsoglou, and M.N. Alexis, 1987. Effect of density on growth rate and production of rainbow trout over a full rearing period. Aquaculture, 66: 9-17 https://doi.org/10.1016/0044-8486(87)90279-1
  18. Refstie, T., 1977. Effect of density on growth and survival of rainbow trout. Aquaculture, 11: 329-334 https://doi.org/10.1016/0044-8486(77)90082-5
  19. Wedemeyer, G.A., F.P. Meyer, and L. Smith, 1976. Environmental stress and fish diseases. T.F.H. Publ., New Jersey. pp. 1-192
  20. Westers, H., and K. M.Pratt, 1977. Rational design of hatcheries for intensive salmonid culture, based on metabolic characteristics. Prog. Fish-Cult., 39: 157-165 https://doi.org/10.1577/1548-8659(1977)39[157:RDOHFI]2.0.CO;2
  21. Whitworth, W.R., 1968. Effects of diurnal fluctuations of dissolved oxygen on the growth of brook trout. J. Fish. Res. Board Can., 25: 579-584 https://doi.org/10.1139/f68-048