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  • 한국과학기술정보연구원(KISTI) 서울분원 대회의실(별관 3층)
  • 2024년 07월 03일(수) 13:30
 

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수온과 염분의 변화에 따른 연령별 대복(Gomphina veneriformis; Bivalvia)의 여과율 변동

The Influence of Water Temperature and Salinity on Filtration rates of the Hard clam, Gomphina veneriformis (Bivalvia)

초록

동해안의 유용 이매패류인 대복 (Gomphina veneriformis; Bivalvia)을 대상으로 기초 생리, 생태적 특성을 파악하기 위해 수온과 염분에 따른 대복의 여과율 변동을 측정하였다. 실험에 사용된 먹이생물은 황색편모조강 Isochrysis galbana (KMCC H-002)를 f/2배지를 이용하여 고농도로 단일배양한 후 사용하였다. 여과율 측정은 간접 측정법을 이용하였고, 실험에 사용된 먹이생물은 광학현미경 하에서 혈구계산판을 이용하여 계수하였다. 수온별 대복의 여과율은 2, 3, 4년생 모두 저온에서 수온이 상승할수록 여과율이 급격히 증가하여 <TEX>$15^{\circ}C$</TEX>에서 최대로 나타났으며, 이 후 감소하는 동일한 경향을 보였다. 염분별 대복의 여과율은 2, 3, 4년생 모두 30-35 psu의 염분범위에서 최대로 나타났다. 연령별 대복의 여과율은 수온, 염분변화에 관계없이 2년생 대복이 가장 높은 여과율을 기록했고, 4년생 대복의 여과율이 가장 낮았다. 다항회귀분석 결과 수온별 대복의 여과율 곡선은 모든 연령군에서 대체적으로 저온 구간으로 치우친 경향을 나타내었고 온도계수 <TEX>$Q_{10}$</TEX> 값 역시 저온에서 높게 나타나 저온의 영향을 많이 받는 것으로 나타났다. 염분별 여과율 곡선은 모든 연령군에서 대체적으로 고염 구간으로 치우친 경향이 나타나 저염분으로 갈수록 여과율이 감소한다는 것을 알 수 있었다. 본 연구의 결과로 조하대 부유섭식 이매패류인 대복은 비교적 저온에서 서식하며 넓지 않은 온도범위에서 서식하는 협온성생물이며, 좁은 염분범위에서 높은 여과율을 보이는 협염성종임을 확인할 수 있었다.

keywords
filtration rate, water temperature, salinity, Gomphina veneriformis

Abstract

The present study was performed to describe the influence of water temperature and salinity on filtration rates of the venus clam, Gomphina veneriformis, a suspension-feeding(filter-feeding) bivalve species. The calms were collected from the eastern coastal area of Sokcho, Gangneung and Jumunjin at Kangwon-do, Korea, during December 2006 and May 2007. Isochrysis galbana(KMCC H-002) cells as food organisms were indoor-cultured by f/2 medium, and were used to measure the filtration rate of clam. Filtration rates of clam were measured by indirect method. Cell concentration of food organisms were determined by direct counting cells used the hemacytometer under the light microscope. The filtration rates of clams by water temperature sharply increased with temperatures up to 15℃ as optimum temperature and above this temperature, the filtration rates decreased exponentially. Venus clams showed very low filtration rates at low salinity (10-15 psu) and maximum values at high salinity (30-35 psu). Regardless of water temperature and salt change, 2-year class clams showed high filtration rates, but low in 4-year-class. Polynomial regression curves with water temperature were shifted to the left in low temperature region. Thermal coefficient Q10 values showed much higher values at low temperature range than at high temperature range, too. These results indicate that the venus clam is more sensitive in cold water. Polynomial regression curves with salinity were shifted to the right in high saline region. According to this study, the venus clam Gomphina veneriformis, subtidal filter-feeding bivalve, was the stenothermal organism, inhabited mainly in low temperature and the stenohaline, in high saline waters.

keywords
Filtration rate, water temperature, salinity, Gomphina veneriformis

참고문헌

1.

국립해양조사원. www.nori.go.kr.

2.

심재형, 김응성. (1996) 동물플랑크톤 생태연구법. pp. 503. 동화기술

3.

윤성규, 홍재상, (1995) 해양생물학-저서생물, pp. 412. 아카데미 서적

4.

이광응, 구혜영, 김원, 양재섭, 윤권상, 이종섭, 최청일, 홍영남.(1993) 생물학: 생명의 과학. pp. 1074. 을유문화사.

5.

해양수산부. (1998) ‘98 통영해역의 바다목장 연구개발용역사업보고서. pp. 234-352. BSPM95005-01-1116-3, 한국해양연구소.

6.

Ali, R.M. (1970) The influence of suspension density and temperature on the filtration rate of Hiatella arctica. Marine Biology, 6: 291-302.

7.

Allen, J.A. (1962) Preliminary experiments on the feeding and excretion of bivalves using Phaeodacytlum labelled with 32P. Journal of the Marine Biological Association of the United Kingdom, 42: 609-623.

8.

Almada-Villela, P.C., Davenport, J and Gruffydd, L.D. (1982) The effects of temperature on the shell growth of young Mytilus edulis L., Journal of Experimental Marine Biology and Ecology, 59: 275-288.

9.

Park, J.J., Lee, J.Y., Lee, J.S. and Chang, Y.J. (2003) Gonadal Development and Gametogenic Cycle of the Equilateral Venus, Gomphina veneriformis (Bivalvia: Veneridae). Journal of the Korean Fisheries Society, 36: 352-357. [in Korean]

10.

Park, J.J. and Lee. J.S. (2003) Cadmium Toxicity on the survival Rate and Activity of the Equilateral Venus, Gomphina veneriformis (Bivalvia: Veneridae). Journal of the Korean Fisheries Society, 36: 463-468. [in Korean]

11.

Lee. J.S. and Park, J.J. (2007) Risk Assessment of Nonylphenol using Sex Ratio, Sexual Maturation, Intersex and Lipofuscin Accumulation of the Equilateral Venus Gomphina veneriformis (Bivalvia: Veneridae). Journal of the Korean Fisheries Society, 40: 16-23. [in Korean]

12.

Park, J.J. and Lee. J.S. (2008) Tributyltin chloride (TBTCI) toxicity on the oxygen consumption rate and histological changes of gill in the equilateral venus, Gomphina veneriformis (Bivalvia: Veneridae). Journal of Fish Pathology, 21: 66-79. [in Korean]

13.

Park, J.J., Jin, Y.G. and Lee. J.S. (2008) Tributyltin chloride (TBTCI) toxicity on the survival rate and burrowing activity of the equilateral venus, Gomphina veneriformis (Bivalvia: Veneridae). Journal of Fish Pathology, 21: 45-56. [in Korean]

14.

Barkai, R. and Griffiths, C.L. (1988) An energy budget for the South African abalone Haliotis midae Linnacus. Journal of Molluscan studies, 54: 43-51.

15.

Bricelj, V.M. and Shumway, S. (1991) Physiology: Energy acqiusition and utilization. In: Scallops: Biology, Ecology and Aquaculture. Developments in Aquaculture and Fisheries Science. (ed. by Shumway, S.E.). pp. 305-346. Vol. 21, Elsevier Science Publishers.

16.

Chaparro, O.R., Montiel, Y.A., Segura, C.J., Cubllos, V.M., Thompson, R.J. and Navarro, J.M. (2008) The effect of salinity on clrarance rate in the suspension-feeding estuarine gastropod Crepipatella dilatata under natural and controlled conditions. Estuarine, coastal and shelf science, 76: 861-868.

17.

Clarke, A. (1998) Temperature and energetics: An introduction to cold Ocean Physiology. In: Cold ocean physiology. (ed. by Playle, R.C). pp. 3-30. Cambridge University Press, Cambridge.

18.

Coughlan, J. (1969) The estimation of filtering rate from the clearance of suspensions. Marine Biology, 2: 356-358.

19.

Cranford, P.J. and Grant, J. (1990) Particle clearance and absorption of phytoplankton and detritus by the sea scallop Placopecten magellanicus (Gmelin). Journal of Experimental Marine Biology and Ecology, 137: 105-121.

20.

Dame, R.F. (1996) Ecology of marine bivalves: An ecosystem approach. pp. 254. CRC marine science series. CRC Press, Boca Raton.

21.

Davenport, J. and Wang, T.M. (1986) Responses of the blood Cockle Anadara granosa(L) Salinity, Hypoxia and Aerial exposure. Aquaculture, 56: 151-162.

22.

Foster-Smith, R.L. (1975) The effect of concentration of suspension on the filtration rates and pseudofaecal production for Mytilus edulis L., Cerastoderma edule (L.) and Venerupis pullastra. Journal of Experimental Marine Biology and Ecology, 17: 1-22.

23.

Fry, F.E.J. (1971) The effect of environmental factors on the physiology of fish. pp. 1-98. In: Fish Physiology, (ed. by Hoar, W.S. and Randall, D.J.) Vol. 9. Academic Press, New York.

24.

Gerdes, D. (1983) The Pacific Oyster Crassostrea gigas Part Ⅰ. Feeding behaviour of larvae and adults. Aquaculture, 31: 195-219.

25.

Griffiths, R.J. (1980) Filtration, respiration and assimilation in the black mussel Choromytilus meridionalis. Marine Ecology Progress Series, 3: 63-70.

26.

Guillard, R.R.L. and Ryther, J.H. (1962) Study of marine planktonic diatoms. 1, Cyclotella nana Hustedt and Detonulla confervacea (Cleve) Gran. Canadian Journal of Microbiology, 8: 229-239.

27.

Guillard, R.R.L. (1983) Culture of phytoplankton for feeding marine invertebrates. In: Carl J. Berg, Jr(ed.), Culture of marine invertebrates-selected readings. pp. 108-132. Hutchinson Ross Publishing Company. Stroudsburg, Pennsylvania.

28.

Hahn, K.O. (1989) Handbook of Culture of Abalone and other Marine Gastropods. pp. 348. CRC Press. Boca Raton, Florida.

29.

Hammond, L.S. (1983) Experimental studies of salinity tolerance, burrowing behavior and pedicle regeneration in Lingula anatina (Brachiopoda, Inarticulata). Journal of Paleontology, 57: 1311-1316.

30.

Higo, S., Collomon, P. and Goto, Y. (1999) Catalogue and Bibliography of the Marine Shell-Bearing Mollusca of Japan. pp. 749. Elle scientific publication. Osaka.

31.

Johons, H.D. Richards, O.G. and Southern, T.A. (1992) Gill dimensions, water pumping rete and body size in the mussel Mytilus edulis L. Journal of Experimental Marine Biology and Ecology, 155: 213-237.

32.

Ju, S.M. (2006) Biological response of the equilateral venus, Gomphina veneriformis (Bivalvia: Veneridae) with zinc bioaccumulation. pp. 50. MS. Thesis of Yosu National University, Yeosu. [in Korean]

33.

Kim, W.S. and Hur, H.T. (1998) Recovery of an endogenous rhythm from the dampened pattern in the Manila clam Ruditapes philippinarum. pp. 320-321. Abstracts 1998. International Year of the Ocean-Memorial Joint Meeting and Symposium of the Korean Societies on Fisheries and Ocean Science.

34.

Laing, I. and Child, A.R. (1996) Comparative tolerance of small juvenile palourdes(Tapes decusstus L.) and Manila clams(Tapes philippinarum Adams & Reeve) to low temperature. Journal of Experimental Marine Biology and Ecology, 195: 267-285.

35.

Lee, B.K. and Chin, P. (1981) Effects of body size, temperature-salinity and starvation on the rates of filtration in Crassostrea gigas and Mytilus edulis. Institute of Marine Sciences, National Fisheries University of Busan, 13: 37-41. [in Korean]

36.

Lee, J.Y. (1996) Study on the Oxygen Consumption of Surfclam, Mactra veneriformis Reeve. Journal of the Korean Fisheries Society, 29: 614-619. [in Korean]

37.

Lee, J.A. (2003) The energy budgets in various environments and enviromental tolerance of ezo abalone, Haliotis discus hannai. Ph.D Thesis of Pukyong National University, Pusan. [in Korean]

38.

Lim, K.H., Shin, H.C. and Yang, J.S. (2005) The Influence of Water Temperature and Food Concentration on the Filtration Rates of the Asiatic Clam, Corbicula fluminea. Korean Journal of Malacology, 21: 19-24. [in Korean]

39.

Lim, K.H., Jang, K.S., Kim, I.S., Lee, J.H. and Shin, H.C. (2008) The Influence of Water Temperature and Salinity on the Filtration Rates of the Hard Clam, Meretrix petechialis. Korean Journal of Malacology, 24: 175-188. [in Korean]

40.

Lyon, G. 1995. Aspects of the physiology of the South African abalone Haliotis midae L., and implications for intensive abalone culture. pp. 85. In: M.Sc. thesis, Rhodes University, Grahamstown.

41.

Matthews, Y.T.G. and Fairweather, P.G. (2004) Effect of lowered salinity on the survival, condition and reburial of Soletellina alba (Lamarch, 1818) (Bivalvia: Psammobiidae). Austral Ecology, 29: 250-257.

42.

Mohlenberg, F. and Riisgard, H.U. (1979) Filtration rate. using a new indirect technique, in thirteen species of suspension- feeding bivalves. Marine Biology, 54: 143-147.

43.

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

44.

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.

45.

Numaguchi, K. (1994) Effect of water temperatue on the filtration rate of Japanese Pearl Oyster, Pinctada fucata martensii. Suisan Zoshoku, 42: 1-6.[in Japanese]

46.

Numaguchi, K. and Tanaka, Y. (1986) Effects of temperature on mortality and growth of the spat of the pearl oyster, Pinctada fucata martensii. Bulletin of National Research Institute of Aquaculture, 9: 35-39. [in Japanese]

47.

Palmer, R.E. (1980) Behavioral and rhythmic aspects of filtration in the bay scallop, Argopecten irradians concentricus (Say), and the oyster, Crassostrea virginica (Gmelin). Journal of Experimental Marine Biology and Ecology, 45: 273-295.

48.

Peck, L.S. (1989) Feeding, growth and temperature in the ormer, Haliotis tuberculata L. Progress in Underwater Science, 14: 95-107.

49.

Quayle, D.B. and Bourne, N. (1972) The clam fisheries of British Columbia. Fisheries Research Board of Canada Bulletin, 179: 42-48.

50.

Ramamoorthi, K., Venkataramanujam, K. and Srikrishnadhas, B. (1973) Mass mortality of Lingula anatina (Lam.)(Brachiopoda) in Porto Novo waters. Current Science, 42: 285-286.

51.

Riisgard, H.U. (1988) Efficiency of particle retention and filtration rate in 6 species of Northeast American bivalves. Marine Ecology Progress Series, 45: 217-223.

52.

Saucedo, P.E., Ocampo, L., Monteforte, M., and Bervera, H. (2004) Effect of temperature on oxygen consumption and ammonia excretion in the Calafia mother-of-pearl oyster, Pinctada mazatlanica (Hanley, 1856). Aquaculture, 229: 377-387.

53.

Schulte, E.H. (1975) Influence of algal concentration and temperature on the filtration rate of Mytilus edulis. Marine Biology, 30: 331-341.

54.

Shin, H.C. (1992) Growth and Population Dynamics of Mactra veneriformis(Bivalvia). pp. 135. Ph.D Thesis of Seoul National University, Seoul.

55.

Shin, H.C. and Shin, S.H. (1999) Population of Biology of Short-necked clam (Ruditapes philippinarum: Bivalvia) in Kwangyang Bay, Southern Coast of Korea. I. Growth and benthic Environments. The Korean Journal of Malacology, 15: 21-30

56.

Shin, H.C. and Lim, K.H. (2003) The Influence of Water Temperature and Salinity on the Filtration Rates of the Short-necked clam, Ruditapes philippinarum. Korean Journal of Malacology, 19: 1-8. [in Korean]

57.

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 the Korean Fisheries Society, 33: 213-218. [in Korean]

58.

Shamseldin, A.A., Clegg, J.S. Friedman, C.S. Cherr, G.N. and PillaI, M.C. (1997) Induced thermotolerance in the pacific oyster, Crassostrea gigas. Journal of shellfish Research, 16: 487-491.

59.

Shumway, S.E., Cucci, T.L., Newell, R.C., Yentsch, C.M. (1985) Particle selection, ingestion, and absorption in filter-feeding bivalves. Journal of Experimental Marine Biology and Ecology, 91: 77-92.

60.

Uki, N. (1981) Feeding behavior of experimental populations of abalone Haliotis discus hannai. Bulletin of Fisheries Resesrch Laboratory, 43: 53-58.

61.

Uki, N. and Kikuchi, S. (1975) Oxygen consumption of the abalone, Haliotis discus hannai in relation to body size and temperature. Bulletin of Fisheries Resesrch Laboratory, 35: 73-84.

62.

Urban, H.J. (1994) Upper temperature tolerance of the bivalve species off Peru and Chile related to El Nino. Marine Ecology Progress Series, 107: 139-145.

63.

Walne, P.R. (1979). Culture of bivalve molluscs; 50 years experience at Conwy. pp. 189. Farnham. Fishing News Books Ltd.

64.

Way, C.M., Hornbach, D.J. Miller-Way, C.A., Payne, B.S. and Miller, A.C. (1990) Dynamics of filter feeding in Corbicula fliminea (Bivalvia:Corbiculidae). Canadian Journal of Zoology, 68: 115-120.

65.

Widdows, J. (1985a) The effect of fluctuating and abrupt change in salinity on the performanceof Mytilus edulis. pp. 555-566. In: Gray, J.S. Christiansen, M.E.(Eds.) Marine Biology of polar regions and effect of stress on marine organism. Wiley-interscience.

66.

Winter, J.E. (1969) Uber den einfluB der nahrungskonzentration und anderer faktoren auf filtrierleistung und nahrungsausnutzung der muscheln Atctica islandica und Mobiolus modiolus. Marine Biology, 4: 87-135.

67.

Winter, J.E. (1973) The filtration rate of Mytilus edulis and its dependence on algal concentration, measured by a continuous automatic recording apparatus. Marine Biology, 22: 317-328.

68.

Winter, J.E. (1978) A review on the knowledge of suspension-feeding in lamellibranchiate bivalves, with special reference to artificial aquaculture systems. Aquaculture, 13: 1-33.

69.

Won, M.S. (1994) Seed production and environmental influence on productivity of the short-necked clam, Ruditapes philinarum. pp. 220. Ph.D. Thesis. National Fisheries University of Pusan. [in Korean]

70.

Yang, M.R. (1994) Growth and Production of Sinonovacula constricta(Bivalvia). Thesis of Seoul National University, Seoul.

71.

Yoo, J.S. (1976) Korean Shells in Color. pp. 196. Iljisa Publishing. Company. Seoul.

72.

Zeuthen, E. (1953). Oxygen uptake as related to body size in organisms. The Quarterly Review of Biology, 28: 1-12.

73.

Zhuang, S. (2006) The influence of salinity, diurnal rhythm and daylength on feeding behavior in Meretrix meretix Linnaeus. Aquaculture, 252: 584-590.

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