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NTIS 바로가기Ocean science journal : OSJ, v.42 no.2, 2007년, pp.117 - 127
Affan, Abu (Faculty of Applied Marine Science, College of Ocean Sciences, Cheju National University) , Lee, Joon-Baek (Faculty of Applied Marine Science, College of Ocean Sciences, Cheju National University) , Kim, Jun-Teck (Faculty of Applied Marine Science, College of Ocean Sciences, Cheju National University) , Choi, Young-Chan (Faculty of Applied Marine Science, College of Ocean Sciences, Cheju National University) , Kim, Jong-Man (Marine Resources Research Department, KORDI) , Myoung, Jung-Goo (Marine Resources Research Department, KORDI)
The dynamics of phytoplankton abundance with seasonal variation in physicochemical conditions were investigated monthly at 10 stations around the Chagwi-do off the west coast of Jeju Island, Korea, including inshore, middle shore, and offshore in the marine ranching are a from September 2004 to Nove...
Affan, A. and J.B. Lee. 2004. Seasonal characteristics of phytoplankton dynamics and environmental factors in the coast of Mara-do and U-do, Jeju Island, Korea. Algae, 9, 235-245
Chisholm, S.W. 1992. Phytoplankton size. p. 213-237. In: Primary productivity and biogeochemical cycles in the sea, ed. by P.G. Falkowski and A.D. Woodhead. Plenum Press, New York
Field, C.B., M.J. Behrenfeld, J.T. Randerson, and P.G. Falkowski. 1998. Primary production of the bio-sphere: Integrating terrestrial and oceanic components. Science, 281, 237-240
Gin, K.Y.H., S. Zhang, and Y.K. Lee. 2003. Phytoplankton community structure in Singapore's coastal waters using HPLC pigment analysis and flow cytometry. J. Plankton Res., 25, 1507-1519
Grover, J.P. 1989. Phosphorus-dependent growth kinetics of 11 species of freshwater algae. Limnol. Oceanogr., 34, 341-348
Hambright, K.D. and T. Zohary. 2000. Phytoplankton species diversity controlled through competitive exclusion and physical disturbances. Limnol. Oceanogr., 45, 110-122
Harris, P.H. 1986. Phytoplankton ecology. Chapman and Hall, London. 384 p
Hoshiai, G., T. Suzuki, T. Kamiyama, M. Yamasaki, and K. Ichimi. 2003. Water temperature and salinity during the occurrence of Dinophysis fortii and D. acuminate in Kesennuma Bay, northern Japan. Fish. Sci., 69, 1303-1315
Hyun, K.H. and I.C. Pang. 1998. Abnormally low salinity waters around Cheju in summer. Bull. Mar. Res. Inst. Cheju Nat. U., 22, 69-78
Hyun, K.H., I.C. Pang, J.H. Lee, and H.K. Rho. 1997. Water mass analysis in the East China Sea in summer and the northward route of the Tsushima Current. Bull. Mar. Res. Inst. Cheju Nat. Univ., 21, 85-101
Lee, J.B., B. Shynn, and D.W. Kang. 1999. Water mass properties and phytoplankton community dynamics in the East China Sea in the summer seasons, 1997-1998. p. 49-59. In: Proc. 2nd international workshop on oceanography and fisheries in the East China Sea, 'the East China Sea'v. 2. Nagasaki University
Litchman, E. and C.A. Klausmeyer. 2001. Competition of phytoplankton under fluctuating light. Am. Nat., 157, 170-187
Lovejoy, C., L. Legendre, and N.M. Price. 2002. Prolonged diatom blooms and microbial food web dynamics: experimental results from an Arctic polynya. Aquat. Microb. Ecol., 29, 267-278
Lund, J.W.C. 1949. Studies on Asterionella formosa. I. The origin and nature of the cells producing seasonal maxima. J. Ecol., 37, 389-419
Mask, A.C. and J. O'Brien. 1998. Wind-driven effects on the Yellow Sea Warm Current. J. Geophys. Res., 103, 30713-30729
Ondrusek, M.E., R.R. Bidigare, S.T. Sweet, D.A. Defreitas, and J.M. Brooks. 1991. Distribution of phytoplankton pigments in the North Pacific Ocean in relation to physical and optical variability. Deep-Sea Res., 38, 243-266
Padisak, J. 1993. The influence of different disturbance frequencies on the species richness, diversity and equitability of phytoplankton in shallow lakes. Hydrobiologia, 249, 135-156
Park, Y.H. 1986. Water characteristics and movements of the Yellow Sea Warm Current in winter. Prog. Oceangor., 17, 243-254
Parsons, T.R., L. Maita, and C.M. Lalli. 1984. A manual of chemical and biological methods for seawater analysis. Pergamon Press, New York. 137 p
Reolke, D.L., P.M. Eldridge, and L.A. Cifuentes. 1999. A model of phytoplankton competition for limiting and nonlimiting nutrients: Implication for development of estuarine and near shore management schemes. Estuaries, 22, 92-104
Reynolds, C.S., M. Dokulil, and J. Padisak. 2000. Understanding the assembly of phytoplankton in relation to the trophic spectrum: Where are we now? p. 147-152. In: The trophic spectrum revised: the influence of trophic state on the assembly of phytoplankton communities, ed. by C.S. Reynolds, M. Dokulil and J. Padisak. Development in Hydrobiology 150. Kluwer Academic Publishers, London
Shannon, C.E. and W. Weaver. 1949. The mathematical theory of communication. The University of Illinois Press, Urban. 117 p
Sommer, U. 1995. An experimental test of the intermediate disturbance hypothesis using cultures of marine phytoplankton. Limnol. Oceanogr., 40, 1271-1277
Sommer, U. and S. Floder. 1999. Diversity in planktonic communities: An experimental test of the intermediate disturbance hypothesis. Limnol. Oceanogr., 44, 1114-1119
Steele, J.H. 1985. A comparison between terrestrial and marine ecological systems. Nature, 313, 355-358
Suh, H.L., Y.K. Cho, Y.H. Soh, and D.H. Kim. 1998. The 1996 mass mortality of macro benthic animals in Cheju Island: A possible role of physical oceanographic factor. Korean J. Environ. Biol., 17, 175-182
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