부상 건조사료(EP) 습사료(MP)의 만복 및 제한 공급이 넙치 치어의 성장 및 체조성에 미치는 영향

Effect of Extruded and Moist Pellets at Different Feeding Rate on Growth and Body Composition of Juvenile Flounder, Paralichthys olivaceus

  • 서주영 (강릉대학교 해양생명공학부) ;
  • 이종하 (국립수산과학원 동해수산연구소 어류연구센터) ;
  • 김근업 (강원도 수산 양식시험장) ;
  • 이상민 (강릉대학교 해양생명공학부)
  • Seo Joo-Young (Faculty of Marine Bioscience and Technology, Kangnung Natinonal University) ;
  • Lee Jong Ha (National Fisheries Research and Development Institute) ;
  • Kim Gun-Up (Gangwon Province Marine Culture Experimental Station) ;
  • Lee Sang-Min (Faculty of Marine Bioscience and Technology, Kangnung Natinonal University)
  • 발행 : 2005.02.01

초록

본 연구는 부상 건조사료와 습사료의 효능을 비교함과 동시에 이들 사료의 적정 공급률(만복 및 제한 공급)을 조사하기 위해 수행되었다 평균 체중 27 g의 넙치를 각 수조마다 500 마리씩 2반복으로 수용하여 부상 건조사료(EP1과 EP2)와 넙치용 분말사료(우성 사료)와 냉동 전갱이를 1:3의 무게 비율(습중량 기준)로 혼합하여 성형한 moist pellet (MP)을 만복 및 만복의 $85\%$로 공급하면서 10주간 사육하였다. 생존율은 모든 실험구에서 $94\%$ 이상이었으며, 증중량은 EP2를 만복 공급한 실험구가 가장 높았지만, EP1을 만복 공급한 실험구와 MP를 만복 및 제한 공급한 실험구들과는 유의한 차이가 없었다(P>0.05). 사료효율은 EPI과 EP2를 제한으로 공급한 실험구가 가장 높은 결과를 보였으며(P<0.05),동일한 사료 공급률에 있어 MP를 공급한 실험구가 EP1과 EP2를 공급한 실험구에 비해 유의적으로 낮은 결과를 보였다(P<0.05). 일일사료섭취율은 만복 및 제한 공급구 각각에서 MP를 공급한 실험구가 EP1 및 EP2을 공급한 실험구보다 유의하게 높았다(P<0.05). 단백질효율은 만복 및 제한 공급에 관계없이 MP를 공급한 실험구가 EPI 및 EP2를 공급한 실험구보다 유의하게 낮았다(P<0.05). 에너지 축적효율은 사료종류 및 공급률에 영향을 받지 않았다(P>0.05). 전어체의 수분, 단백질 및 회분의 함량은 모든 실험구에서 유의적인 차이를 보이지 않았다. 반면에 지질의 함량은 EP2와 MP의 만복 공급구에서 가장 높았고, EP1의 만복 공급구에서 가장 낮은 값을 보였다. 본 실험의 결과로부터, 본 연구에 사용된 EP 사료들은 현재 양식현장에서 사용하고 있는 생사료를 대체할 수 있을 것으로 생각되며, 사료는 만복으로 공급되는 것이 좋을 것으로 판단된다.

A 10-week feeding trial was conducted to determine the optimum feeding rate of two extruded pellets (EP1 and EP2) and raw fish-based moist pellet (MP) for juvenile flounder. Two replicate groups of the fish (average weight of 27 g) were fed EP and MP three times daily at different feeding rate (satiation and $85\%$ satiation). Weight gain of fish was not affected by diet, but affected by feeding rate. Weight gain with satiation feeding group showed :t tendency to higher compared to that of fish with $85\%$ satiation feeding at the same diet. Feed efficiency of fish was affected by diet, but not feeding rate. Feed efficiency of fish fed the EP1 and EP2 was higher than that of fish fed the MP at the same feeding rate. Daily feed intake was affected by diet and feeding rate. Daily feed intake of fish fed with satiation was higher than that of fish with $85\%$ satiation at same diet, and this variable of fish fed the MP was higher than that of fish fed the EP 1 and EP2. Protein efficiency ratio of fish fed the MP was significantly lower than that of fish fed the EP1 and EP2 regardless of feeding rate. Lipid content of whole body was affected by diet, and that of fish fed the EP2 and MP at satiation feeding was the highest. It can be concluded that satiation feeding will be good and EP is better than MP for growth of juvenile flounder grown from 27 g to 51 g.

키워드

참고문헌

  1. Adebayo, O. T., A. M. Balogun and O. A. Fagbenro, 2000. Effects of feeding rate on growth: body composition and economic performance of juvenile clariid catfish hybrid ( Clarias gariepinus x Heterobranchus bidorsalis). J. Aquae. Trop., 15,109-117
  2. AOAC, 1990. Official Methods ofAnalysis. 15th edition. Association of Official Analytical Chemists. Arlington, Virginia, 1298pp
  3. Azzaydi, M., F. J. Martines, S. Zamora, F. J. Sanchez-Vazquez and J. A. Madrid, 2000. The influence of nocturnal vs. diurnal feeding under winter conditions on growth and feed conversion of European sea bass (Dieentrarehus labrax L.). Aquaculture, 182, 329-338 https://doi.org/10.1016/S0044-8486(99)00276-8
  4. Ballestrazzi, R., D. Lanari and E. D'Agaro, 1998. Performance, nutrient retention efficiency, total ammonia and reactive phosphorus excretion of growing European sea bass (Dieentrarehus labrax L.) as affected by diet processing and feeding level. Aquaculture, 182, 329-338
  5. Brett, J. R., 1979. Environmental factors and growth. (In) Fish Physiology, (eds) W. S. Hoar., D. J. Randall and J. R. Brett, Bioenergetics and Growth, vol. 8. Academic Press, New York, USA, pp. 599-675
  6. Clark, J. H., W. O. Watanabe and D. H. Eranst, 1990. Effect of feeding rate on growth and feed conversion of Florida red tilapia reared in reared in floating marine cages. J. World Aquac.Soc., 21, 16-24 https://doi.org/10.1111/j.1749-7345.1990.tb00949.x
  7. De Silva, S. S., M. R. Gunasekera and C. Keembiyahetty, 1986. Optimum ration and feeding frequency in Oreochromis nilotieus young. (In) The first Asian Fisheries Forum, (eds) J. L Maclean., L. B. Dizon and L. V Hosillos, Asian Fisheries Society, Manila, Philippines, pp. 559-564
  8. Duncan, D. B., 1955. Multiple-range and multiple F tests. Biometrics, 11, 1-42 https://doi.org/10.2307/3001478
  9. Eroldogan, O. T., 2003. Acclimation of sea bass (Dicentrarchus labrax) to freshwater and determination of its optimal feeding rates in freshwater. Ph. D. thesis, University of Cukurova, Adana, Turkey
  10. Fiogbe, E. D. and P. Kestemont, 2003. Optimum ration for Eurasian perch Perea jluviatilis L. reared at its optimum growing temperature. Aquaculture, 216, 243-252 https://doi.org/10.1016/S0044-8486(02)00409-X
  11. Hung, S. S. O. and P. B. Lutes, 1987. Optimum feeding rate of hatchery-produced juvenile white surgeon (Aeipenser transmontanus) at 20C. Aquaculture, 65, 307-317 https://doi.org/10.1016/0044-8486(87)90243-2
  12. Hung, S. S. O., F. S. Conte and E. K. Hallen, 1993. Effects of feeding rates on growth, body composition and nutf.ent metabolism in striped bass (Marone saxatilis) fingerlings. Aquaculture, 112, 349-361 https://doi.org/10.1016/0044-8486(93)90395-F
  13. Lee, S.-M., 1997. Effects of feeding rates on growtt., feed frequency and body composition of the juvenile Korean rockfish (Sebastes sehlegeli). Kor. J. Anim. Nutr. Feed, 21, 327-334
  14. Lee, S.-M., U.-G. Hwang and S. H. Cho, 2000a. Effects of feeding frequency and dietary moisture content on growth, body composition and gastric evacuation of juvenile Korean rockfish (Sebastes sehlegeli). Aquaculture, 187, 399-409 https://doi.org/10.1016/S0044-8486(00)00318-5
  15. Lee, S.-M., S. H. Cho and K.-D. Kim, 2000b. Effects of dietary protein and energy levels on growth and body composition of juvenile flounder Paraliehthys olivaeeus. J. World Aquac.Soc., 31, 306-315
  16. Mihelakakis, A., C. Tsolkas and T. Yoshimatsu, 2002. Optimization of feeding rate of hatchery-produced juvenile gilthead sea bream Sparus aurata. J. World Aquac. Soc., 33, 169-175 https://doi.org/10.1111/j.1749-7345.2002.tb00491.x
  17. Mills, B. J. and P. I. McCloud, 1983. Effects of stocking and feeding rates on experimental pond production of the cryfish Cherax desimctor Clark (Decapoda: Paratacidae). Aquaculture., 34, 51-72 https://doi.org/10.1016/0044-8486(83)90291-0
  18. Ng, W. K., K. S. Lu, R. Hashim and A. Ali, 2000. Effects of feeding rate on growth, feed utilization and body composition of a tropical bagrid catfish. Aquac. Int., 8, 19-29 https://doi.org/10.1023/A:1009216831360
  19. Sedgwick, R. W., 1979. Effects of ration size and feeding frequency on growth and food conversion of juvenile Penaeus merguiensis de Man. Aquaculture, 16, 279-298 https://doi.org/10.1016/0044-8486(79)90069-3
  20. Tsevis, N., S. Klaoudatos and A. Coides, 1992. Food conversion budget in sea bass, Dieentrarehus labrax, fingerlings under two different feeding frequency patterns. Aquaculture, 101, 293-304 https://doi.org/10.1016/0044-8486(92)90032-G
  21. Viyakarn V., T. Watanabe, H. Aoki, H. Tsuda, H. Sakamoto, N. Okamoto, N. Iso, S. Satoh and T. Takeuchi, 1992. Use of soybean meal as a substitute for fish meal in a newly developed soft-dry pellet for yellowtail. Nippon Suisan Gakkaishi, 58, 1991-2000 https://doi.org/10.2331/suisan.58.1991
  22. Watanabe T., V. Viyakarn, H. Kimura, T. Ogawa, N. Okamoto and N. Iso, 1992. Utilization of soybaen meal as a pm:ein source in a newly developed soft-dry pellet for yellowtail. Nippon Suisan Gakkaishi, 58, 1761-1773 https://doi.org/10.2331/suisan.58.1761
  23. Webster, C. D., K. R. Thompson and L. Muzinic, 2002. Feeding fish and how feeding frequency affects sunshine bass. World Aquac., 33, 20-24
  24. Xiao-Jun, X. and S. Ruyung, 1992. The bioenergetics of be southern catfish (Seohthalmus nwximus). Aquaculture, 217, 547-558 https://doi.org/10.1016/S0044-8486(02)00411-8