JOURNAL BROWSE
Search
Advanced SearchSearch Tips
The Effect of Water Temperature and Salinity on Settlement of Pacific Oyster, Crassostrea gigas Pediveliger Larvae
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
  • Journal title : The Korean Journal of Malacology
  • Volume 28, Issue 1,  2012, pp.21-28
  • Publisher : The Malacological Society of Korea
  • DOI : 10.9710/kjm.2012.28.1.021
 Title & Authors
The Effect of Water Temperature and Salinity on Settlement of Pacific Oyster, Crassostrea gigas Pediveliger Larvae
Jeon, Chang-Young; Hur, Young-Baek; Cho, Kee-Chae;
  PDF(new window)
 Abstract
The combined effects of water temperature and salinity on the settlement rate and density (spats/) of Crassostrea gigas pediveliger larvae were studied under the hatchery conditions. Four water temperatures (20.0, 23.0, 26.0 and ) were tested at three salinities (20.0, 30.0 and 40.0). The optimum water temperature by salinity conditions were and 20.0, 30.0 which significantly (P < 0.05) the highest mean () larval settlement rate of , , respectively. But the combination of water temperatures and salinities for settlement density was not effected, but each factor as water temperature (), salinity (40.0) was shown significantly high and low settlement density, respectively (P < 0.05). The statistics result of settlement density frequency was appeared: mode (), Mean (), Range () and the lowest variance was obtained 0.4 at water temperature by salinity 30.0, but by 20.0 was the highest (1.1). The best condition at this results for the larvae setting under the artificial seed collection of C. gigas was and 20.0-30.0.
 Keywords
settlement rate;settlement density;frequency;larvae;Crassostera gigas;oyster;
 Language
Korean
 Cited by
1.
서해 지역별 굴 Crassostrea gigas 성장 특성, 유생 출현량 및 채묘율,임현정;백상호;임매순;최은희;김수경;

한국패류학회지, 2012. vol.28. 3, pp.259-267 crossref(new window)
2.
굴 Crassostrea gigas 부착기 유생의 부착에 미치는 신경전달물질종의 영향,허영백;조규태;변순규;전창영;조기채;

한국패류학회지, 2013. vol.29. 2, pp.139-146 crossref(new window)
3.
굴, Crassostrea gigas 정자의 냉동보존,박미선;민병화;박정준;임현정;명정인;정민환;

한국패류학회지, 2013. vol.29. 3, pp.251-258 crossref(new window)
4.
굴, Crassostrea gigas 부착기 유생의 부착에 미치는 신경전달물질종의 영향,허영백;조규태;변순규;문태석;

한국패류학회지, 2014. vol.30. 4, pp.343-351 crossref(new window)
1.
Regional Variations in Pacific Oyster, Crassostrea gigas Growth and the Number of Larvae Occurrence and Spat Settlement along the West Coast, Korea, The Korean Journal of Malacology, 2012, 28, 3, 259  crossref(new windwow)
2.
Cryopreservation of Pacific Oyster, Crassostrea gigas Sperm, The Korean Journal of Malacology, 2013, 29, 3, 251  crossref(new windwow)
 References
1.
Andrews, W.R., Targett, N.M. and Epifanio, C.E. (2001) Isolation and characterization of the metamorphic inducer of the common mud crab, Panopeus herbstii. Journal of Experimental Marine Biology and Ecology, 261: 121-134. crossref(new window)

2.
Angell, C.L. (1986) The Biology and Culture of Tropical Oysters. ICLARM Technical Report, No. 13: 42. Manila, Philippines.

3.
Bonar, D.B., Coon, S.L., Walch, M., Weiner, R.M. and Fitt, W. (1990) Control of oyster settlement and metamorphosis by endogenous and exogenous chemical cues. Bulletin of marine Science, 46: 484-498.

4.
Cann-Moisan, C., Nicolas, L. and Robert, R. (2002) Ontogenic changes in the contents of dopamine, norepinephrine and serotonin in larvae and postlarvae of the bivalve Pecten maximus. Aquatic Living Resources, 15: 313-318. crossref(new window)

5.
Coon, S.L., Bonar, D.B. and Weiner, R.M. (1985) Induction of settlement and metamorphosis of the Pacific oyster, Crassostrea gigas (Thunberg), by L-DOPA and catecholamines. Journal of Experimental Marine Biology and Ecology, 94: 211-221 crossref(new window)

6.
Crisp, D.J. (1984) Overview of research on marine invertebrate larvae. In: Grant, P.T. and Mackie, A.M. Eds., Chemoreception in Marine Organisms, vol. 1. 177-265. Academic Press, London.

7.
Devakie, M.N. and Ali, A.B. (2000) Salinity-temperature and nutritional effects on the setting rate of larvae of the tropical oyster, Crassostrea iredalei (Faustino). Aquaculture, 184: 105-114. crossref(new window)

8.
Doroudi, M.S. and Southgate, P.C. (2002) The effect of chemical cues on settlement behaviour of blacklip pearl oyster (Pinctada margaritifera) larvae. Aquaculture, 209: 117-124. crossref(new window)

9.
Faimali, M., Garaventa, F., Terlizzi, A., Chiantore, M. and Cattaneo-Vietti, R. (2004) The interplay of substrate nature and biofilm formation in regulating Balanus amphitrite Darwin, 1854 larval settlement. Journal of Experimental Marine Biology and Ecology, 306: 37-50. crossref(new window)

10.
Ganesan. A.M., Alfaro A.C., Brooks J.D. and Higgins C.M. (2010) The role of bacterial biofilms and exudates on the settlement of mussel (Perna canaliculus) larvae. Aquaculture, 306: 388-392. crossref(new window)

11.
Garcia-Lavandeira, M., Silva, A., Abad, M., Pazos, A.J., Sanchez, J.L. and Perez- Paralle, M.L. (2005) Effects of GABA and epinephrine on the settlement and metamorphosis of the larvae of four species of bivalve molluscs. Journal of Experimental Marine Biology and Ecology, 316: 149-156. crossref(new window)

12.
Hadfield, M.G., 1978. Metamorphosis in marine molluscan larvae: an analysis of stimulus and response. In: Chia, F.S. and Rice, M.E. Eds, Settlement and Metamorphosis of Marine Invertebrate Larvae. 165-175. Elsevier, New York.

13.
Hadfield, M.G. (1984) Settlement requirement of molluscan larvae: new data on chemical and genetic roles. Aquaculture, 39: 283-298. crossref(new window)

14.
Hadfield, M.G. and Paul, V.J. (2001). Natural chemical cues for settlement and metamorphosis of marine-invertebrate larvae. In: McClintock, J.B., Baker, B.J. (Eds.), Marine Chemical Ecology. 431-461. CRC press, New York.

15.
Henderson, B.A. (1983) Handling and Remote Setting Techniques for the Pacific oyster larvae, Crassostrea gigas. Master's thesis, Department of Fisheries and Wildlife, 37. Oregon State University. OR

16.
Hidu, H. and Haskin, H. (1971) Setting of the American oyster related to environmental factors and larval behaviour. Proceeding of National Shellfish Association, 61: 35-49.

17.
Hur, Y.B., WI, C.H., KIM, T.I., Chun, C.Y., Hwang, M.S., Kim, Y.O. and Choe, S.W. (2002). Effect of hardening on growth survival of spats of the Pacific oyster, Crassostrea gigas artificially produced in Autumn season. bulletin of National Fisheries Research and Development Agency, 61: 77-84.

18.
Hur, Y.B., Min, K.S., Kim, T.E., Lee, S.J. and Hur, S.B. (2008) Larvae growth and biochemical composition change of the Pacific oyster Crassostrea gigas, larvae during artificial seed production. Journal of Aquaculture, 21: 203-212.

19.
Jensen, R.A., Morse, D.E., Petty, R.L. and Hooker, N. (1990) Artificial induction of larval metamorphosis by free fatty acids. Marine Ecological Progress of Service, 67: 55-71. crossref(new window)

20.
Johnson, C.R., Muir, D.G. and Reysenbach, A.L. (1991) Characteristic bacteria associated with surfaces of coralline algae: a hypothesis for bacterial induction of marine invertebrate larvae. Marine Ecological Progress of Service, 74: 281-294. crossref(new window)

21.
Jones, G.G. and Jones, B.L. (1988) Advances in Remote Setting of Oyster Larvae. 88. Aquaculture Association of BC, Nanaimo, BC.

22.
Keough, M.J. and Raimondi, P.T. (1996) Responses of settling invertebrate larvae to bioorganic films: Effects of large-scale variation in films. Journal of Experimental Marine Biology and Ecology, 207: 59-78. crossref(new window)

23.
Laing, I. (1995) Effect of food supply on oyster spat fall. Aquaculture, 131: 315-324. crossref(new window)

24.
Leitz, T. and Wagner, T. (1993) The marine bacterium Alteromonas espejiana induces metamorphosis of the hydroid Hydractinia echinate. Marine Biology, 115: 173-178. crossref(new window)

25.
Lund, D.S. (1971) Laboratory studies on setting of the Pacific Oyster Crassostrea gigas. Master's thesis, Department of Fisheries and Wildlife, 85. Oregon State University, OR.

26.
Maki, J.S., Rittschof, D., Schmidt, A.R., Snyder, A.G. and Mitchell, R. (1989) Factors controlling attachment of bryozoan larvae: a comparison of bacterial films and unfilmed surfaces. Biological Bulletin, 177: 295-302. crossref(new window)

27.
Martinez, G., Aguilera, C. and Campos, E.O. (1999) Induction of settlement and metamorphosis of the scallop Argopecten purpuratus Lamarck by excess K+ and epinephrine: energetic costs. Journal of Shellfish Research, 18: 41-46.

28.
Min, K.S., Chang, Y.J., Park, D.W., Jung, C.G., Kim, D.H. and Kim, G.H. (1995) Studies on rearing conditions for mass seedling production in Pacific oyster larvae, Crassostrea gigas (Thunberg). bulletin of National Fisheries Research and Development Agency, 49: 91-111.

29.
Min. S.K., Kim, T.I., Hur, S.B., Hur, Y.B., Chun, C.Y. and Kim, D.H. (1999) Growth and survival of the artificial and natural seeding in the Pacific oyster, Crassostrea gigas (Thunberg). bulletin of National Fisheries Research and Development Agency, 57: 43-53.

30.
Morse, D.E. (1990) Recent progress in larval settlement and metamorphosis: closing the gaps between molecular biology and ecology. Bulletin of marine Science, 46: 465-483.

31.
Paul, J.D. (1980) Salinity-temperature relationship in queen scallop Chlamys opercularis. Marine Biology, 56: 295-300. crossref(new window)

32.
Pawlik, J.R. (1992) Chemical ecology of the settlement of benthic marine invertebrate. Oceanogr. Marine Annual Review, 30: 273-335.

33.
Qian, P.Y. (1999) Larval settlement of polychaetes. Hydrobiologia, 402: 239-253. crossref(new window)

34.
Quayle, D.B. and Newkirk, G.F. (1989) Farming Bivalve Molluscs: Methods for Study and Development. Advances in World Aquaculture, Vol. 1. The World Aquaculture Society In Assoc. with The International Development Research Centre. 294. The World Aquaculture Society. Baton Rouge, LA.

35.
Rodriguez, S.R., Ojeda, F.P. and Inestrosa, N.C. (1993) Settlement of benthic marine invertebrates. Marine Ecological Progress of Service, 97: 193- 207. crossref(new window)

36.
Supan, J. (1987). Using Remote Setting to produce Seed Oyster in Louisiana and the Gulf Coastal Region. Louisiana Sea Grant College Program. 47. Louisiana State University, Baton Rouge, LA.

37.
Swanson, R.L., de Nys, R., Huggett, M.J., Green, J.K., Steinberg, P.D. (2006) In situ quantification of a natural settlement cue and recruitment of the Australian sea urchin Holopneustes purpurascens. Marine Ecological Progress of Services, 314: 1-14. crossref(new window)

38.
Tamburri, M.N., Zimmer-Faust, R.K. and Tamplin, M.L. (1992) Natural sources and properties of chemical inducers mediating settlement of oyster larvae: a re-examination. Biological Bulletin, 183: 327-338. crossref(new window)

39.
Tan, S.H. (1993) Aspects on Biology and Larval Development of Tropical Oyster, Crassostrea belcheri (Sowerby). Master's thesis, School of Biological Sciences University. 221. Sc. Malaysia.

40.
Tettelbach, S.T. and Rhodes, E.W. (1981) Combined effects of temperature and salinity on embryos and larvae of the northern bay scallop, Argopecten irradians irradians. Marine Biology, 63: 249-256. crossref(new window)

41.
Todd, C.D. (1985) Settlement-timing hypothesis: reply to Grant and Williamson. Marine Ecological Progress of Services, 23: 197-202. crossref(new window)

42.
Walch, M., Weiner, R.M., Colwell, R.R. and Coon, S.L. (1999) Use of l-DOPA and soluble bacterial products to improve set of Crassostrea virginica (Gmelin, 1791) and C. gigas (Thunberg, 1793). Journal of Shellfish Research, 18: 133-138.

43.
Weiner, R.M., Walch, M., Labare, M.P., Bonar, D.B. and Colwell, R.R. (1989) Effect of biofilms of the marine bacterium Alteromonas colwelliana (LST) on set of the oysters Crassostrea gigas (Thunberg, 1793) and C. virginica (Gmelin, 1791). Journal of Shellfish Research, 8: 117-123.

44.
Yu, X., He, W., Gu, J.D., He, M. and Yan, Y. (2008) The effect of chemical cues on settlement of pearl oyster Pinctada fucata martensii (Dunker) larvae. Aquaculture, 277: 83-91. crossref(new window)

45.
Zhao, B. and Qian, P.Y. (2002) Larval settlement and metamorphosis in the slipper limpet Crepidula onyx (Sowerby) in response to conspecific cues and the cues from biofilm. Journal of Experimental Marine Biology and Ecology, 269: 39-51. crossref(new window)

46.
Zimmer-Faust, R.K. and Tamburri, M.N. (1994) Chemical identity and ecological implications of a waterborne, larval settlement cue. Limnology and Oceanography, 39: 1075-1087. crossref(new window)

47.
유성규. 2000. 천해양식. p 118-119, 구덕출판사, 부산