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Seasonal Changes in Physiology of the abalone Haliotis discus hannai reared from Nohwa Island on the South Coast of Korea
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  • Journal title : The Korean Journal of Malacology
  • Volume 28, Issue 2,  2012, pp.131-136
  • Publisher : The Malacological Society of Korea
  • DOI : 10.9710/kjm.2012.28.2.131
 Title & Authors
Seasonal Changes in Physiology of the abalone Haliotis discus hannai reared from Nohwa Island on the South Coast of Korea
Shin, Yun Kyung; Lee, Won Chan; Kim, Dong Wook; Son, Myung Hyun; Kim, Eung Oh; Jun, Je Cheon; Kim, Seong Hee;
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Growth, oxygen consumption, ammonia excretion, feeding and assimilation rate were examined from May 2010 to February 2011 in order to assess the physiological changes of Haliotis discus hannai in accordance with changes in season. The water temperature was in the range of and the salinity in the range of 31.9-34.1psu during the examination period. The length of shell of Haliotis discus hannai grew from 36.3 mm to 66.1 mm in the 1 year old entities and from 60.6 mm to 66.1 mm for the 2 year old entities, while the weight of the meat increased from 3.16 g to 12.04 g and from 15.8 g to 21.5 g, respectively. The oxygen consumption and ammonia excretion rate displayed trend of increase in accordance with the increase in water temperature, while the feeding rate was high during the period from July to October. The assimilation rate was in the range of 68%-71% without significant difference between the age of the entities and seasons. SFG displayed +value throughout the year for the 1 year old entities of Haliotis discus hannai as well as for the 2 year old entities with the exception of the period of July, thereby showing that they are growing throughout the year. Therefore, there was no environmental effect including water temperature and salinity during the examination period.
Haliotis discus hannai;Growth;Metabolism;Feeding;Assimilation;
 Cited by
수온 및 염분농도에 따른 북방전복, Haliotis discus hannai (Ino, 1952) 의 생존율, 탈락율 및 발의 조직학적 변화,박민우;김혜진;김병학;손맹현;전미애;이정식;

한국패류학회지, 2013. vol.29. 4, pp.303-311 crossref(new window)
북방전복, Haliotis discus hannai의 장거리 수송을 위한 적정 수온 및 염분 조건,양성진;명정인;박정준;신윤경;

한국패류학회지, 2014. vol.30. 4, pp.363-370 crossref(new window)
동합금 조성에 따른 북방전복 (Haliotis discus hannai)의 생존, 호흡 및 중금속 축적률,신윤경;전제천;명정인;양성진;

한국패류학회지, 2014. vol.30. 4, pp.353-361 crossref(new window)
수온 상승에 따른 북방전복, Haliotis discus hannai과 둥근전복, H. discus discus 체액의 생리학적 변화,민은영;이정식;김재원;전미애;강주찬;

한국패류학회지, 2015. vol.31. 1, pp.1-8 crossref(new window)
염화니켈 (NiCl2) 노출에 따른 북방전복 Haliotis discus hannai의 생존율, 탈락률 및 조직학적 지표 변화,김병학;박정준;손맹현;김수지;김혜진;전미애;이정식;

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Optimum environmental condition of live container for long distance transport in live abalone Haliotis discus hannai, The Korean Journal of Malacology, 2014, 30, 4, 363  crossref(new windwow)
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Changes of Survival Rate, Falling Rate and Histological Biomarker in the Abalone Haliotis discus hannai Exposed to Nickel Chloride, The Korean Journal of Malacology, 2016, 32, 2, 111  crossref(new windwow)
Bayne, B.L., Brown, D.A., Burns, K, Dixon, D.R., Ivanovici, A., Livingstone, D.R., Lowe, D.M., Moore, M.N., Stebbing, A.R.D. and Widdows. J. (1985) The effects of stress and pollution on marine animals (Praeger special studies). Praeger Scientific, Westport, C.T. p. 9.

Barkai, R., Griffiths, C.L., 1988. An energy budget for the South African abalone Haliotis midae Linn. Journal of Molluscan Studies, 54: 43-51. crossref(new window)

Barkai, R., Griffiths, C.L., 1987. Consumption, absorption efficiency, respiration and excretion in the South African abalone Haliotis midae. South African Journal of Marine Science, 5: 523-529. crossref(new window)

Bayne, B.L. and Newell, R.C. (1983) Physiological energetics of marine mollusca. In: Saleuddim, ASM. and Wilbur, KM (Eds). The Mollusca 4, Academic press, New York, pp. 407-515.

Chen, J.C. and Chen, W.C. (1999) Temperature tolerance of Haliotis diversicolor supertexta at different salinity and temperature levels. Comparative Biochemistry and Physiology. Part A, 124: 73-80.

Chen, J.C. and Chen, W.C. (2000) Salinity tolerance of Haliotis diversicolor supertexta at different salinity and temperature levels. Aquaculture. 181: 191-203. crossref(new window)

Cheng, W., Yeh, S.P., Wang, C.S. and Chen, J.C. (2002) Osmotic and ionic changes in Taiwan abalone Haliotis diversicolor supertexta at different salinity levels. Aquaculture. 203: 349-357. crossref(new window)

Cho, S.H., Park, J.E., Kim, C.L., Yoo, J.H., Lee, S.M. and Choi, C.Y. (2006) Effect of the various sources of dietary additives on growth, body composition and shell color of abalone Haliotis discus hannai. Journal of Aquaculture, 19(4): 275-280.

Durbin, E.G. and Durbin, A.G. (1981) Assimilation efficiency and nitrogen excretion of a filter feeding planktivore, the atlantic menhaden, Brevoortia tyrannus (Pisces: Clupeidae). Fisheries Bulletin, 601-616.

De Vooys, C.G.N., 1976. The influence of temperature and time of the year on the oxygen uptake of the sea mussel Mytilus edulis. Marine Biology, 36: 25-30. crossref(new window)

Ezgeta-Balic, D., Rinaldi, A., Peharda, M., Prusina, I., Montalto, V., Niceta, N. and Sarà, G. (2011) An energy budget for the subtidal bivalve Modiolus barbatus (Mollusca) at different temperatures. Marine Environmental Research, 71: 79-85. crossref(new window)

Farias A. Zaul G.E. and Maria T.V. (2003) Physiological energetics of the green abalone, Haliotis fulgens, fed on a balanced diet. Journal of experimental marine biology and ecology. 289: 263-276 crossref(new window)

Jeong, S.C., Jee, Y.T. and Son P.W. (1994) Indoor tank culture of the abalone Haliotis discus hannai II. Effect of diets on growth of young abalone. Journal of Aquaculture. 7: 77-87.

Lindberg, D.R. (1992) Evolution, distribution and systematics of Haliotidae. In: Abalone of the World: Biology, Fisheries and Culture. (ed. by Shepherd, S. A., Tenger, M. J. and Gunzmandel Próo, S.A.). pp. 3-18. Fishing News Books, Blackwood Scientific, Oxford.

Mao, Y., Zhou, Y., Yang, H. and Wang, R. (2006) Seasonal variation in metabolism of cultured pacific oyster, Crassostrea gigas, in Sanggou Bay, China. Aquaculture, 253: 322-333. crossref(new window)

National Fisheries Research and Development Institute(NFRDI). (2011) Standard manual of abalone culture, 3rd ed. 11-17.

Newell, R.C. and Branch, G.M. (1980) The influence of temperature on the maintenance of metabolic energy balance in marine invertebrates. Advances in Marine Biology, 17: 329-396. crossref(new window)

Park, I.S., Im, J.H., Lee, Y.D., Kim, B.L. and Han, S.J. (2003) A temperature -dependent index of mitotic interval in Haliotis gigantea and Haliotis discus. Korea Journal of Genetics, 25(1): 15-19.

Peck, L. S., Culley, M.B., Helm, M.M. (1987) A laboratory energy budget for the ormer Haliotis tuberculata L. Journal of Experimental Marine biology and Ecology, 106: 102-123.

Ren, J.S. and Ross, A.H. (2005) Environmental influence on mussel growth: A dynamic energy budget model and its application to the green shell mussel Perna canaliculus. Ecological Modelling, 189: 347-362. crossref(new window)

Sakai, S., (1962) Ecological studies on the abalone Haliotis discus hannai Ino (4). Bulletin of Japanese Society of Scientific Fisheries, 28: 899-904. crossref(new window)

Shin Y.K., Jun J.C., Im J.H., Kim D.W., Son M.H. and Kim EO. 2011. Physiological responses in abalone Haliotis discus hannai with different salinity. Korean Journal of Malacology. 27(4): 283-289. crossref(new window)

Solorzano, L. (1969) Determination of ammonia natural waters by the phenolhypochlorite method. Limnology Oceanogrphy, 14: 799-801. crossref(new window)

Warren, G.E. and Davis, G.E. (1967) Laboratory studies on the feeding, bioenergetics and growth of fish. In: The Biological Basis of Freshwater Fish Production. (ed. by Gerking, S.D.). pp. 175-214. Blackwell Scientific Publications, Oxford.

Yang, H.S., Park, K.I., Hong, C.H. and Choi, K.S. (2008) Effect of salinity stress on the composition of free amino acids of the Pacific abalone Haliotis discus discus. Journal of Aquaculture, 21(4): 218-225.

Yamasaki, M. (1998) Energy budget of laboratory reared juvenile abalone Haliotis discus and Haliotis discus hannai. Bulletin of Tohoku National Fisheries Research Institute, 60: 63-68.

Yoon H.S., Rha S.J., Cha Y.B., Cho J.H., Kim K.Y. and Choi S.D. 2004. Growth and survival rate on density of Haliotis discus hannai in cage culture. Journal of Korean fisheries society, 37(4): 287-294. crossref(new window)