1 |
Ryther J.H. and Goldman J.C, 1975. Microbes as food in mariculture.
Ann. Rev. of Microbiol. 29: 429-433.
DOI
ScienceOn
|
2 |
Hyun K.H. and Pang I.C. 1998. Abnormally low salinity waters around Cheju Island in summer. Bull. Mar. Res. Inst. Cheju Nat. Univ. 22: 69-78. (in Korean)
|
3 |
Guillard R.R.L. and Ryther J.H. 1962. Studies of marine planktonic diatoms. I. Cyclotella nana Hustedt and Detonula conferoacea (Cleve.) Gran. Can. J. Microbiol. 8: 229-239.
DOI
ScienceOn
|
4 |
Lee J.B.,Go Y.B. and Choa J.H. 1990. The structure and dynamics of phytoplankton communities around the coastline of Cheju Island, Korea. Korean J. Phycol. 5: 159-171. (in Korean)
|
5 |
Park H.K., Cheon S.U. and Ryu J.K. 1993. Growth characteristics of bloom-forming blue-green algae. Korean J. Phycol. 8: 47-54. (in Korean)
|
6 |
Lee J.H. and Huh H.T. 1983. A study on the phytoplankton and red-tide in Deukryang Bay. Bulletin of KORDI. 5: 21-26. (in Korean)
|
7 |
Feyn B. 1934. Lebenszyklus, cytologie und sexualitiit der Chlorophyceae Cladophora suhriana Kiitzhing. Arch. Protistenk. 83: 1-56.
|
8 |
Lee J.B., Choi Y.C. and Go Y.B. 1989. Primary production of phytoplankton around the coast line of Cheju Island. J. Korean Earth Sci. Soc. 10: 62-67. (in Korean)
|
9 |
Loosanoff V.L. and Davis H.C. 1963. Rearing of bivalve mollusks. In: Russell F.S. (ed.), Advances in Marine Biology. Vol. 1. Academic Press, London. 135 pp.
|
10 |
Suh H.L., Cho Y.K., Soh H.Y. and Kim D.H. 1999. The 1996 mass mortality of macrobenthic animals in Cheju Island: a possible role of physical oceanographic factor. Korean J. Environ. Biol. 17: 175-182. (in Korean)
|
11 |
Stein J.R (ed.) 1973. Handbook of Phycological Methods: Culture Methods and Growth Measurements. Cambridge University Press, London. 448 pp.
|
12 |
Shim J.H. and Park Y.H. 1984. Community structure and spatial distribution of phytoplankton in the southwestern sea of Korea, in early summer. J. Oceanol. Soc. Korea. 19: 68-81.
|
13 |
Thomas J.H. 1966. Effects of temperature and illuminance on cell division rates of three species of tropical oceanic phytoplankton. J. Phycol. 2: 17-22.
DOI
|
14 |
Parsons T.R, Maita Y. and Lalli C.M. 1984. A Manualof Chemical and Biological Methods for Seawater Analysis. Pergamon Press, Oxford. 173 pp.
|
15 |
Huguenin J.E. 1974. Development of a marine aquaculture research complex. 1974 Annual Meeting American Society of Agricultural Engineers. St. Joseph, Michigan. p.16.
|
16 |
Bunt J. 1968. Some characteristics of microalgae isolated from Antarctic Sea ice. Biology of Antarctic Seas III, pp. 1-14.
|
17 |
Lee J.B., Koh H.B., Go Y.B.and Choi Y.C. 1995. Biological studies of the northern coastal area in Cheju Island - phytoplankton dynamics primary productivity at the Hamduk area. Bull. Mar. Res. Inst. Cheju Nat. Univ. 19: 103-113. (in Korean)
|
18 |
Chang M., Cho J.H., Shin K., Lee W. S. and Lee T.K. 1998. Changes of biochemical composition of Prorocentrum minimum causing red tide in different temperatures. Korean J. Environ. Biol. 16: 397-401. (in Korean)
|
19 |
Cho J.H., Lee T.K., Shim K., Lee W.S. and Chang M. 1998. Changes of biochemical composition of Prorocentrum minimum causing red tide in different light intensities. Korean J. Environ. Biol. 16: 391-396. (in Korean)
|
20 |
Park J.E. and Hur S.B. 2000. Optimum culture conditions of four species of microalgae as live food from China. J. Aquaculture. 13: 103-117. (in Korean)
|
21 |
Pirt S.J. 1975. Principles of Microbe and Cell Cultivation. Blackwell Scientific Publications, Oxford. 274 pp.
|