바로가기메뉴

본문 바로가기 주메뉴 바로가기

ACOMS+ 및 학술지 리포지터리 설명회

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

logo

메뉴

참굴, Crassostrea gigas의 대사율에 미치는 수온 및 개체크기의 영향

Effect of Temperature and Body Size on Oxygen Consumption and Aammonia Eexcretion of oyster, Crassostrea gigas

초록

수온 및 염분에 따른 굴의 일반적인 대사경향을 알아보기 위하여 수온과 개체크기에 따른 산소소비율과 암모니아 질소 배설률을 측정하였으며, O:N원자비를 산출하였다. 산소소비율과 암모니아 질소배설률은 개체의 크기가 작을수록 높았으며, 수온증가에 따라 증가하였다. O:N 원자비는 일반해수에서 8-40의 범위에 있었으며, 수온 <TEX>$25^{\circ}C$</TEX>에서 O:N 원자비는 8로 감소하였는데, 이는 산란기에 주요 대사기질로서 단백질을 이용하며, 단백질의 요구가 큰 것으로 추정된다. 이 결과는 굴양식장의 지속적인 관리 및 적정 수용력 산정을 위한 기초자료로 활용이 가능하다.

keywords
Oyster, Oxygen consumption, Ammonia excretion, Temperature, O:N ratio

Abstract

Oxygen consumption and ammonia excretion were measured and O:N ratio were calculated from February 2007 to September 2008 to investigate tendency of metabolism in oyster, Crassostrea gigas with temperature and body size. The relationship between oxygen consumption and body weight has been examined in C. gigas. The weight-specific oxygen consumption rate (mg O2/g/h) varied inversely with size. Oxygen consumption and ammonia excretion increased with an increase in water temperature. O:N ratio measured in this study ranged from 8 to 40 under ordinary sea water and O:N ratio showed 8 at 25℃ and 16 at 10℃. This indicates that oyster mainly use the protein as the primary catabolic substrate during gametogenesis. The lower O:N ratio in winter suggest that oysters have to meet their energy demand by metabolizing protein to survive in stressful conditions such as low temperature and lack of sufficient food supply. This studies will provide the basic data for assessment of carrying capacity and sustainable management of oyster culture farm.

keywords
oyster, oxygen consumption, ammonia excretion, temperature, O:N ratio

참고문헌

1.

Bayne,B.L, (1971) Oxygen Consumption by Three Species of Lamellibranch Mollusc in Declining Ambient Oxygen Gension, Comparative Biochemical Physiology

2.

Bayne, B.L, (1976) The Physiological Ecology of Mytilus californianus: Conrad 1. Metabolism and Energy Balance, Oecologia Berl

3.

Bayne, B.L, (1985) The Effects of Stress and Pollution on Marine Animals, Praeger press, New York

4.

Beiras, R, (1995) Short term and long term alterations in the energy budget of young oyster Ostrea edulis L. in response to temperature change, Journal of Experimental Marine Biology and Ecology

5.

Berg, K, (1959) The Respiration of Freshwater Snails, Journal Experimental Biology

6.

Bougrier, S, (1995) Allometric Relationships and Effects of Temperature on Clearance and Oxygen Consumption Rates of Crassostrea gigas Thunberg, Aquaculture

7.

Breitburg, D.L, (2000) Oyster Reef Restoration: Convergence of Harvest and Conservation Strategies, Journal of Shellfish Research

8.

Brett,J.R, (1979) Environmental Factors and Growth. In: Hoar, W.S., Randall, D.J. and Brett, J.R. (Editors), Fish Physiology, Vol. 8, Academic Press, New York, NY

9.

Brumbaugh, R.D, (2000) Marking a Case for Community-Based Oyster Restoration: An Example from Hampton Roads, Virginia, USA, Journal of Shellfish Research

10.

Cho, E.I, (1996) Estimation of Carring Capacity in Kamak Bay, Journal of Korean Fisheries Society

11.

Choi, D.L, (2003) First Record of Mycoplasma-like Organism in Pacific Oyster, Crassostrea gigas in Korea, Journal of Korean Fisheries Society

12.

Choi, Y.H, (2003) Gametogenic Cycle and Fine Structure of Ripe Germ Cells in the Pacific Oyster, Crassostrea gigas on the South Coast of Korea, Journal of Fisheries Science and Technology

13.

Colt, J.E, (1981) Nitrogen Toxicity to Fish, Crustaceans and Mollusks, Proceedings of the Bio-Engineering Symposium for Fish Culture. American Fisheries Society, Fish Culture Section, Bethesda, MD

14.

Dabrowski,K.R, (1986) Active Metabolism in Larval and Juvenile Fish: Ontogenetic Changes, Effect of Water Temperature and Fasting, Fish Physiology and Biochemistry

15.

Davies,P.S, (1966) Physiological Ecology of Patella. I. The Effect of body Size and Temperature on Metabolic Rate, Journal of Marine Biology

16.

Fry,F.E.J, (1971) The Effects of the Environmental Factors on the Physiology of Fish, Fish Physiology

17.

Gerritsen, J, (1994) Suspension-Feeding Bivalves and the Fate of Primary Production: an Estuarine Model Applied to Chesapeake, Estuaries

18.

Jobling,M, (1981) Some Effects of Temperature, Feeding and Body Weight on Nitrogenous Excretion in Young Plaice. Pleuronectessa L, Journal of Fish Biology

19.

Kim, W.S, (2002) Endogenous Rhythm in Oxygen Consumption by the Pacific Oyster Crassostrea gigas (Thunberg), Journal of Fisheries Science and Technology

20.

Lee, W.C, (2002) Modification of an Ecosystem Model for Carrying Capacity of Shellfish System, Journal of Korean Fisheries Society

21.

Mallin, M.A, (2000) North and South Carolina coasts, Marine Pollution Bulletin

22.

Mao, Y, (2006) Seasonal Variation in Metabolism of Cultured Pacific Oyster, Crassostrea Gigas, in Sanggou Bay, China, Aquacultue

23.

Mayzaud, P, (1988) O/N Atomic Ratio as a Tool to Describe Zooplankton Metabolism, Marine Ecology Progress Series

24.

Newell, R.I.E, (1980) Seasonal Changes in the Physiology, Reproductive Condition and Carbohydrate Content of the Cockle Cardium (=Cerastoderma) Edule (Bivalvia: Cardiidae), Marine Biology

25.

Park, J.S, (2002) Estimating the Carrying Capacity of a Coastal Bay for Oyster Culture, Journal of Korean Fisheries Society

26.

Park, M.S, (1989) Study on Marteilioides chungmuensis Comps et al. 1986 Parasite of the Pacific Oyster, Crassostrea gigas, Journal of Fish Pathology

27.

Park, M.S, (1999) Investigation on the Cause of Bad Natural Seed Collection of the Pacific Oyster, Crassostrea gigas. Relationships between the Conditions of Mother Shell and the Viability of the Released Egg and Larvae Based on the Pathological and Embryological Survey, Journal of Korean Fisheries Society

28.

Piper, R.G, (1982) Fish Hatchery Management. US Department of the Interior, Fish and Wildlife Service Washington DC

29.

Posey, M.H, (1999) Use of Oyster Reefs as Habitat for Epibenthic Fish and Decapods, Oyster Reef Habitat Restoration: A Synopsis and Synthesis of Approaches. Virginia Institute of Marine Sciece, Williamsburg, VA

30.

Ren, J.S, (2000) Functional descriptions of feeding and energetics of the Pacific oyster Crassostrea gigas in New Zealand, Marine Ecological Progressive Series

31.

Shin, Y.K, (2002) Seasonal changes of biochemical composition in cultured bivalves, Korean Journal of Malacology

32.

Solorzane,L, (1969) Determination of Amonia in Natural Waters by the Phenol Hypochloride Method, American Society of Limnologists and Oceanographers

33.

Wang, R, (1998) Study on the Respiration and Excretion of Argopecten Irradians and Crassostrea Gigas, Journal of Ocean University Oingdao

34.

Widdows,J, (1978) Combined Effects of Body Size, Food Concentration and Season on the Physiology of Mytilus edulis, Journal of Marine Biology

logo