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Physiological Responses in Abalone Haliotis discus hannai with Different Salinity
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  • Journal title : The Korean Journal of Malacology
  • Volume 27, Issue 4,  2011, pp.283-289
  • Publisher : The Malacological Society of Korea
  • DOI : 10.9710/kjm.2011.27.4.283
 Title & Authors
Physiological Responses in Abalone Haliotis discus hannai with Different Salinity
Shin, Yun-Kyung; Jun, Je-Cheon; Im, Jae-Hyun; Kim, Dong-Wook; Son, Maeng-Hyun; Kim, Eung-Oh;
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This study investigated survival rate, osmorality, respiration, excretion and histological response with change of salinity in the abalone, Haliotis discus hannai at . Survival rate was 100% at 37.0 psu whereas all died after 6 days at 19.8 psu and within 24 hours at 12.8 psu, respectively. The 7-day median lethal limit (7day-) was 20.1-28.2 psu with confidence limits of 20.1-28.2 psu. Respiration rate in low salinity groups was lower than control group, but ammonia excretion rate was more increased in comparison to control group. Osmorality was acclimated within 1 hour at above of 26.8 psu but others could not acclimated at each experimental salinity. Histological observation of foot muscle showed hemolymph sinus distension, epidermal destruction and increased infiltration of phagocytes.
Haliotis discus hannai;Physiological response;Salinity;;Histological response;
 Cited by
북방전복 Haliotis discus hannai의 계절별 생리적 변화,신윤경;이원찬;김동욱;손맹현;김응오;전제천;김성희;

한국패류학회지, 2012. vol.28. 2, pp.131-136 crossref(new window)
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)
카드뮴 노출에 따른 북방전복, Haliotis discus hannai (Ino, 1953) 의 hemolymph 및 hepatopancreas의 효소활성의 변화,민은영;이정식;곽인실;김재원;강주찬;

한국패류학회지, 2014. vol.30. 1, pp.41-49 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)
진주배말(Cellana grata)의 수정 및 후기 피면자 유생의 착저단계에 미치는 저염분 영향,윤성진;정주학;김윤배;

Ocean and Polar Research, 2015. vol.37. 1, pp.37-47 crossref(new window)
3년산 북방전복, Haliotis discus hannai의 해상가두리 양성 시 적정 수용밀도,이시우;김병학;김태익;손맹현;

한국패류학회지, 2015. vol.31. 2, pp.93-101 crossref(new window)
수온 증가에 따른 말전복, Haliotis gigantea과 둥근전복, Haliotis discus discus (Reeve, 1846) hemolymph의 생리학적 변화,민은영;김신후;황인기;김경욱;박보미;이정식;강주찬;

한국패류학회지, 2015. vol.31. 3, pp.187-194 crossref(new window)
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Influence of elevated temperatures on the physiological response of hemolymph from two species of abalone, Haliotis gigantea and Haliotis discus discus (Reeve, 1846), The Korean Journal of Malacology, 2015, 31, 3, 187  crossref(new windwow)
Low Salinity Effects on the Fertilization and Settlement of Post Veliger Larvae in the Limpet Cellana grata, Ocean and Polar Research, 2015, 37, 1, 37  crossref(new windwow)
Almada-villela P.C. (1984) The effects of reduced salinity on the growth of small Mytilus edulis. Journal of Marine Biological Association United Kingdum, 64: 171-182. crossref(new window)

Bohle B. (1972) Effects of adaptation to reduced salinity on filtration activity and growth of mussels (Mytilus edulis). Journal of Experimental Marine Biological Ecology, 10: 41-49. crossref(new window)

Chen J.C. and W.C. Chen. (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.I., 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.

Finney D.J. (1971) Probit Analysis, 3rd ed. Cambridge University Press. London, pp. 333.

Hand S.C. and Stickle W.B. (1977) Effects of tidal fluctuations of salinity on pericardial fluid composition of the American Crassostrea virginica. Marine Biology, 42: 259-271. crossref(new window)

Jeong S.C., Jee Y.J. and Son P.W. (1994) Indoor Tank culture of the abalone Haliotis discus hannai. I. Effects of tank shape and stocking density on the growth of young abalone. Journal of Aquaculture, 7(1): 9-20.

Kim T.H., Yang M.H., Choe M.K., Han S.J. and Yeu I.K. (2005) Physiological studies on acute water-temperature stress of juvenile abalone, Haliotis discus hannai. Journal of Aquaculture, 18(1): 7-12.

Kim T.H., Kim K.J., Choe M.K. and Yeo I.K. (2006) Physiological changes of junvile abalone, Haliotis sieboldii exposed to acute water-temperature stress. Journal of Aquaculture, 19(2): 77-83.

Kinne O. (1966) Physiological aspects of animal in estuaries with special reference to salinity. Neth. J. Sea Res., 3: 222-244. crossref(new window)

Livingstone D.R., Widdow J. and Feith P. (1979) Aspects of nitrogen metabolism of the common mussel Mytilus edulis: adaptation to abrupt and fluctuating changes in salinity. Marine Biology, 53: 41-45. crossref(new window)

Moon T.S. and Shin Y.K. (2010) Efffects of salinity on survival and metabolism of ark shell, Tegillarca granosa. Korean Journal of Malacology, 26(3): 171-177.

Navarro J.M. and Gonzalez C.M. (1998) Physiological responses of the Chilean scallop Argopecten purpuratus to decreasing salinities. Aquaculture, 167: 315-327. 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. Korean Journal of Genetics, 25(1): 15-19.

Pierce S.K. and Greenberg M.J. (1972) The nature of cellular volume regulation in marine bivalves. Journal of Experimental Biology, 57: 681-692.

Sadok S., Uglow R.F. and Haswell S.J. (1997) Haemolymph and mantle fluid ammonia and ninhydrin positive substance variation in salinity-challenged mussels (Mytilus edulis L.). Journal of Experimental Marine Biological Ecology, 212: 195-212.

Sastry A.N. and Vargo S.L. (1977) Variations in the physiological response of crustacean larvae to temperature. In: Vernberg, F.J., Calabrese, A., Thurberg, F.P., Vernberg W.B.(Eds.), Physiological response of marine biota to pollutants. Academic Press, New York., pp. 410-424.

Shin Y.K., Kim Y., Chung E.Y. and Hur S.B. (2000) Temperature and salinity tolerance of the manila clam, Ruditapes philippinarum, Journal of Korean Fisheries Science, 33(3): 213-218.

Shin Y.K., Kim B.H., Oh B.S., Jung C.G., Sohn S.G. and Lee J.S. (2006) Physiological responsses of the ark shell Scapharca broughtonii (Bivalvia: Arcidae) to decreases in salinity. Journal of Fisheries Science and Technology, 9(4): 153-159 crossref(new window)

Shin Y.K., Lee W.C., Jung R.H., Kim S.Y. and Park J.J. (2009) Survival of the ark shell Scapharca subcrenata and physiological and histological changes at decreasing salinity. Fisheries and Aquatic Science, 12(3): 209-218. crossref(new window)

Shin Y.K. and Wi C.H. (2004) Effects of temperature and salinity on survival and metabolism of the hard shelled mussel Mytilus coruscus, Bivalve; Mytilidae. Journal of Aquaculture, 17: 103-108.

Shumway, S. (1977) The effects of fluctuating salinity on the tissue water content of eight species of bivalve mollusks. Journal of Comperative Physiology, 116: 269-285. crossref(new window)

Singhagraiwan T., Doi M. and Sasaki M. (1992) Salinity tolerance of juvenile donkey's ear abalone, Haliotis asinina Linne. Thailand Marine Fisheries Reserch Bulletin. 3: 71-77.

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

Tucker L.E. (1970) Effects of external salinity on Scutus breviculus (Gastropoda, Prosobranchia)-I. Body weight and blood composition. Comperative Biochemistry and Physiology, 36: 301-319. crossref(new window)

Yang H.S., Park K.I., Hong C.H. and Choi K.S. (2008) Effects of salinity stress on the composition of the free amino acids of the pacific abalone Haliotis discus discus. Journal of Aquaculture, 2(4): 218-225.

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)

Widdows J. (1985) The effects of fluctuating and abrupt changes in salinity on the performance of Mytilus edulis. In: Gray, J. S., Christiansen, M.E. (Eds.), Marine Biology of Polar Regions and Effects of stress on marine organism. Wiley-Interscience, 555-566.