Modeling Oyster Populations Dynamics -I. Effect of Available Food on Growth of the Pacific Oyster Crassostrea gigas in Goseong Bay, Korea-
![]() |
Oh Kyung Hee
(School of Applied Marine Science, Cheiu National University)
Pang Ig Chan (School of Applied Marine Science, Cheiu National University) HOFMANN Eileen E. (Center for Coastal Physical Oceanography, Old Dominion University Norfolk) Kim Yoon (National Fisheries Research And Development Institute) Kim Sung Yeon (National Fisheries Research And Development Institute) Park Yoon Jung (National Fisheries Research And Development Institute) Choi Kwang Sik (School of Applied Marine Science, Cheiu National University) |
1 | Thompson, J.K. and F.H. Nichols. 1988. Food availability controls seasonal cycle of growth in Macoma balthica (L.) in San Francisco Bay, California. J. Exp. Mar. Biol. Ecol., 116, 43-61 DOI ScienceOn |
2 | Ventilla, R.F. 1984. Recent developments in the Japanese oyster culture industry. Adv. Mar. Biol., 21, 1-57 DOI |
3 | Widdows, J., P. Fieth and C.M. Worrall. 1979. Relationship between seston, available food, and feeding activity in the common mussel Mytilus edulis, Mar. Biol. (Berl.), 50, 195-207 DOI |
4 | Wilson-Ormond, E.A., E.N. Powell and S.M. Ray. 1997. Short-term and small-scale variation in food availability to natural oyster populations: food, flow and flux. P.S.Z.N. Mar. Ecol. 18, 1-34 DOI ScienceOn |
5 | Powell, E.N., J.M. Klinck, E.E. Hofmann, E.A. Wilson-Ormond and M.S. Ellis. 1995. Modeling oyster population V. Declining phytoplankton stocks and the population dynamics of American oyster (Crassostrea virginica) population. Fisheries Res., 24, 199-222 DOI ScienceOn |
6 | Quayle, D.B. 1988. Pacific oyster culture in British Columbia. Can. Bull. Fish. Aquat. Sci., 218, 1-231 |
7 | Raillard, O. and A. Menesguen. 1994. An ecosystem box model for estimating the carrying capacity of a macrotidal shellfish system. Mar. Ecol. Prog. Ser., Vol., 115, 117-130 DOI |
8 | Ropert, M. and P. Goulletquer. 1999. Comparative physiological energe-tics of two suspension feeders: Polychaete annelid Lanice conchilega (Pallas 1766) and Pacific cupped oyster Crassostrea gigas (Thunberg 1795). Aquaculture, 181, 171-189 DOI ScienceOn |
9 | Smaal, A.C., T.C. Prince, N. Dankers and B. Ball. 1998. Minimum requirements for modelling bivalve carrying capacity. Aquat. Ecol., 31, 423-428 DOI ScienceOn |
10 | Soniat, T.M., S.M. Ray and L.M. Jeffrey. 1984. Components of the seston possible availb food for oysters in Galveston Bay, Texas. Contrib. Mar. Sci., 27, 127-141 |
11 | Soniat, T.M., and S.M. Ray. 1985. Relationships between possible available food and the composition, condition and reproductive state of oysters from Galveston Bay, Texas. Contrib. Mar. Sci., 28, 109-121 |
12 | Soniat, T.M., E.N. Powell, E.E. Hofmann and J.M. Klinck. 1998. Understanding the success and failure of oyster populations: the importance of sampled variables and sample timing. J. Shellfish Res., 17, 1149-1165 |
13 | Spark, A.K. and K.K. Chew. 1959. Preliminary report on growth and survival of Pacific oyster in Washington waters. Proc. Natl. Shell-fish. Assoc., 50, 125-132 |
14 | Klinck, J.M., E.N. Powell, E.E. Hofmann, E.A. Wilson and S.M. Ray. 1992. Modeling oyster population: The effect of density and food supply on production. Pro. Adv. Mar. Tech. Conf., 5, 85-105 |
15 | Kobayashi, M., E.E. Hofmann, E.N. Powell, J.M. Klinck and K. Kusaka. 1997. A populatio dynamics model for the Japanese oyster, Crassostrea gigas. Aquaculture, 149, 285-321 DOI ScienceOn |
16 | Kusuki, Y. 1977. Fundamental studies on the deterioration of oyster growing grounds-I Production of fecal materials by the Japanese oyster. Bull. Jap. Soc. of Sci. Fish., 4, 163-166 (in Japanese) |
17 | Lee, C.H. 1999. Growth and reproduction of the Pacific oyster Crassostrea gigas at Kamakman in Yeosu. M.S. thesis. Cheju National University (in Korean) |
18 | Lee, W.C. 2001. Modification and application of an ecosystem model for carrying capacity in oyster culturing ground. Ph. D. Disser-tation, Pukyong National University (in Korean) |
19 | Newell, R.IE. and SJ. Jordan. 1983. Preferential ingestion of organic material by the American oyster Crassostrea virginica. Mar. Ecol. Prog. Ser., 13, 47-53 DOI |
20 | Park, M.S., H.J. Lim, Q. Jo, J.S. Yoo and M.J. Jeon. 1999. Assessment of reproductive health in the wild seed oysters, Crassostrea gigas, from two locations in Korea. J. Shellfish. Res., 18, 445-450 |
21 | Parsons, T.R., K. Stephens and J.D.H. Strickland. 1961. On the chemical composition of eleven species of marine phytoplankton. J. Fish. Res. Bd. Canada, 18, 1001-1016 DOI |
22 | Powell, E.N., E.E. Hofmann, J.M. Klinck and S.M. Ray. 1992. Modeling oyster populations I. A commentary on filtration rate. Is faster always better? J. Shellfish Res., 11, 387-398 |
23 | Powell, E.N., J.M. Klinck, E.E. Hofmann and S.M. Ray. 1994. Modeling oyster populations IV. Rates of mortality, population crashes, and management. Fish. Bull., 92, 347-373 |
24 | Haven, D.S. and R. Morales-Alamo. 1970. Filtration of particles from suspension by the American oyster Crassostrea virginica. Biol. Bull. Woods Hole, 139, 248-264 DOI ScienceOn |
25 | Heral, M. 1993. Why carrying capacity models are useful tools for management of bivalve molluscs culture ? Bivalve filter feeders in esturine and coastal ecosystem processes, NATO ASI series, 33, 455-478 |
26 | Hofmann, E.E., E.N. Powel, J.M. Klinck and E.A. Wilson. 1992. Modeling oyster populations III. Critical feeding periods, growth and reproduction. J. Shellfish Res., 11, 399-416 |
27 | Hofmann, E.E., J.M. Klinck, E.N. Powell, S. Boyles and M. Ellis. 1994. Modeling oyster populations II. Adult size and reproductive effort. J. Shellfish Res., 13, 165-182 |
28 | Hofmann, E.E., E.N. Powell, J.M. Klinck and G. Saunders. 1995. Modeling diseased oyster populations I. Modeling Perkinsus marinus infections in oysters. J. Shellfish Res., 14, 121-151 |
29 | Hyun, K.H., I.G. Pang, J.M. Klinck, K.S. Choi, J.B. Lee, E.N. Powell, E.E. Hofmann and E.A. Bochenek. 2001. The effect of food composition on Pacific oyster Crassostrea gigas (Thunberg) growth in Korea: A modeling study. Aquaculture, 199, 41-62 DOI ScienceOn |
30 | Jeong, W.G. 1998. Studies on proper management of oyster farms in Pukman Bay, Korea. Ph.D. Dissertation, Cheju National University (in Korean) |
31 | Kang, C.K., M.S. Park, P.Y. Lee, W.J. Choi and W.C. Lee. 2000. Seasonal variations in condition, reproductive activity and biochemical composition of the Pacific oyster, Crassostrea gigas (Thunberg), in suspended culture in two coastal bays of Korea. J. Shellfish Res., 19, 771-133 |
32 | Kang, S.G. 2001. Quantification of Reproduction output in the Pacific oyster, Crassostrea gigas, using Immunological method. M.S. thesis. Cheju National University (in Korean) |
33 | Agius, C., V. Jaccarini and D.A. Ritz. 1978. Growth trials of Crassostrea gigas and Qstrea edulis in inshore waters of Malta. Aquaculture, 15, 195-218 DOI ScienceOn |
34 | Arakawa, K.Y. 1990a. Commercially important species of oysters in the world. Mar. Behav. Physiol., 17, 1-13 DOI ScienceOn |
35 | Arakawa, K.Y. 1990b. Competitors and fouling organisms in the hanging culture of the Pacific oyster, Crassostrea gigas (Thunberg). Mar. Behav. Physiol., 17, 67-94 DOI ScienceOn |
36 | Baldwin, B.S. and R.I.E. Newell. 1991. Ominvorous feeding by planktotrophic larvae of the eastern oyster Crassostrea virginica. Mar. Ecol. Prog. Ser., 78, 285-301 DOI |
37 | Berg, J.A. and R.I.E. Newell. 1986. Temporal and spatial variations in the composition of seston available to the suspension feeder Crassostrea virginica. Estuar. Coast. Shelf Sci., 23, 375-386 DOI |
38 | Cho, E.I. 1996. The estimation of carrying capacity for marine culture grounds using an eco-hydrodynamic model. Ph. D. Dissertation, Pukyung National University (in Korean) |
39 | Choi, W.J., K.Y. Chun, J.H. Park and Y.C. Park. 1997. The influence of environmental characteristics on the fatness of Pacific oyster, Crassostrea gigas, in Hansan-Koje Bay. Bull. Korean. Fish. Soc., 30, 794-803 (in Korean) |
40 | Grant, J., E.T. Enright and A. Griswold. 1990. Resuspension and growth of Ostrea edulis: A field experiment. Mar. Biol., 104, 51-59 DOI |
![]() |