[1] Burkill PH, Edwards ES, Sleigh MA. 1995. Microzooplankton and their role in controlling phytoplankton growth in the marginal ice zone of the Bellingshausen Sea.Deep-Sea Res II,42:1277~1290 [2] Burkill PH, Leaky RJG, Owens NJP,et al. 1993.Synechococcus and its importance to the microbial food web of the northwestern Indian Ocean.Deep-Sea Res II, 40:773~782 [3] Edwards ES, Burkill PH, Stelfox CE. 1999. Zooplankton herbiovry in the Arabian Sea during and after the SW monsoon, 1994.Deep-Sea Res,46:843~863 [4] Eppley RW, Reid FMH, Strickland JDH. 1970. The ecology of the plankton off La Jolla, California, in the period of April Through September 1967.Bull Scripps Inst Oceanogr,17:33~42 [5] Froneman PW, Pakhomov EA, Perissinotto R,et al. 1997. Dynamics of the plankton communities of the Lazarev Sea (Southern Ocean) during ice melt.Mar Ecol Prog Ser,149:201~214 [6] Froneman PW, Perissinotto R, McQuaid CD. 1996a. Seasonal variations in microzooplankton grazing in the region of the Subtropical Convergence.Mar Biol,126:433~442 [7] Fronemann PW, Perissinotto R. 1996b. Microzooplankton grazing and protozooplankton community structure in the south Atlantic and in the Atlantic sector of the Southern ocean.Deep-Sea Res I, 43:703~721 [8] Fukuyo Y, Takano H, Chihara M,eds.1990. Red Tide Organisms in Japan-An Illustrated Taxonomic Guide. Tokyo: Uchida Rokakuho. 1~430 [9] Gifford DJ. 1988. Impact of grazing by microzooplankton in the northwest arm of Halifax Harbor, Nova Scotia.Mar Ecol Prog Ser, 47:249~258 [10] Hargraves PE. 2002. The ebridian flagellates Ebria and Hermesinum. Plankton Biol Ecol,49(1):9~16 [11] Harrison WG, Head EJH, Horne EPW,et al. 1993. The western North Atlantic bloom experiment.Deep-Sea Res II, 40:279~305 [12] James MR, Hall JA. 1998. Microzooplankton grazing in different water masses associated with the Subtropical Convergence round the South Island, New Zealand. Deep-Sea Res I,45:1689~1707 [13] Jeffrey SW, Humphrey GF. 1975. New spectrophotometric equations for plants, algae and natural phytoplankton.Biochem Physiol Pflanzen (BPP), BD, 167:191~194 [14] Jiang T-J (江天久), Qi S(杞桑). 1994. The grazing of Acartia spinicauda Giesbrecht on Alexandrium catenella Taylor in Dapen bay, Guangdong.J Jinan Univ(暨南大学学报), 15(3):99~105 (in Chinese) [15] Jrgensen SE, Nielsen SN, Jrgensen LA. 1991. Handbook of Ecological Parameters and Ecotoxicology. Amsterdam: Elsevier. 43~50 [16] Kofoid CA, Swezy O. 1921. The free-living unarmored dinoflagellata.Mem Univ Calif, 5:1~562 [17] Landry MR. 1993a. Estimating rates of growth and grazing mortality of phytoplankton by the dilution method. In: Kemp PF, Sherr BF, Cole JJ, eds. Handbook of Methods in Aquatic Microbial Ecology. Boca Raton: Lewis. 715~722 [18] Landry MR, Hassett RP. 1982. Estimating the grazing impact of marine microzooplankton.Mar Biol,67:283~288 [19] Landry MR, Constantinou J, Kirshtein J. 1995a. Microzooplankton grazing in the central equatorial Pacific during February and August, 1992.Deep-Sea Res, 42:657~671 [20] Landry MR, Monger BC, Selph KE. 1993b. Time-dependancy of microzooplankton grazing and phytoplankton growth in the subarctic Pacific. Progr Oceanogr,32:205~222 [21] Landry MR, Peterson WK, Lorenzen CJ. 1995b. Zooplankton grazing, phytoplankton growth, and export flux: inferences from chlorophyll tracer methods.ICES J Mar Sci,52:337~345 [22] Lehman JT. 1976. The filter-feeder as an optimal forager, and the predicted shapes of feeding curves.Limnol Oceanogr, 21:501~516 [23] Li C-L (李超伦), Sun S (孙松), Ji P(吉鹏),et al. 2000. Herbivorous activity and nitrogen excretion of microzooplankton in the marginal ice zone of the Prydz Bay, Antarctic.Oceanol Limnol Sin(海洋与湖沼), 31(6):657~663 (in Chinese) [24] Lin Y(林昱), Zhuang D-F(庄栋法), Chen X-L(陈孝麟),et al. 1994. A preliminary analysis on the enclosed experimental results of red tide formation II. Phytoplankton succession and dinoflagellate red tide.Chin J Appl Ecol(应用生态学报),5(3): 314~318 (in Chinese) [25] McManus GB, Ederington-Cantrell MC. 1992. Phytoplankton pigments and growth rates, and microzooplankton grazing in a large temperate estuary.Mar Ecol Prog Ser,87:77~85 [26] Murrell MC, Hollibaugh JT. 1998. Microzooplankton grazing in northern San Francisco Bay measured by the dilution method.Aquat Microb Ecol,15:53~63 [27] Paranjape MA. 1987. Grazing by microzooplankton in the eastern Canadian arctic in summer 1983.Mar Ecol Prog Ser,40:239~246 [28] Parsons TR, Maita Y, Lalli CM. 1984. A Manual of Chemical and Biological Methods for Seawater Analysis. Oxford: Pergamon. 1~173 [29] Putland JN. 2000. Microzooplankton herbivory and bacterivory in Newfoundland coastal waters during spring, summer and winter.J Plankton Res,22(2):253~277 [30] Qi Y, Zhang Z, Hong Y,et al. 1993. Occurrence of red tides on the coasts of China. In: Smayda TJ, Shimizu Y, eds. Toxic Marine Phytoplankton. Amsterdam: Elsevier. 43~46 [31] Reckermann M, Veldhuis MJW. 1997. Trophic interaction between picophytoplankton and micro- and nanozooplankton in the western Arabian Sea during the NE monsoon 1993.Aquat Microb Ecol,12:263~273 [32] Rivkin RB, Putland JN, Anderson MR,et al. 1999. Microzooplankton bacterivory and herbivory in the NE subarctic Pacific.Deep-Sea Res II, 46:2579~2618 [33] Sautour B, Artigas LF, Delmas D,et al. 2000. Grazing impact of micro- and mesozooplankton during a spring situation in coastal waters off the Gironde estuary.J Plankton Res,22(3):531~552 [34] Strom SL, Strom MW. 1996. Microplankton growth, grazing and community structure in the northern Gulf of Mexico.Mar Ecol Prog Ser,130:229~240 [35] Strom SL, Welschmeyer NA. 1991. Pigment-specific rates of phytoplankton growth and microzooplankton grazing in the open subarctic Pacific ocean.Limnol Oceanogr,36:50~63 [36] Sun J (孙军), Liu D-Y (刘东艳), Qian S-B (钱树本). 1999. Study on phytoplankton biomass I. Phytoplankton measurement biomass from cell volume or plasma volume.Acta Oceanol Sin(海洋学报),21(2):75~85 (in Chinese) [37] Sun J(孙军), Liu D-Y (刘东艳), Qian S-B (钱树本). 2002. A quantitative research and analysis method for marine phytoplankton: An introduction to Utermhl method and its modification.J Oceanogr Huanghai Bohai Seas(黄渤海洋),20(2):105~112 (in Chinese) [38] Sun J(孙军), Liu D-Y (刘东艳). 2002. The preliminary notion on nomenclature of common phytoplankton in China Sea waters.Oceanol Limnol Sin(海洋与湖沼),33(3):271~286 (in Chinese) [39] Sun L(孙雷), Qi S(杞桑). 1993. The feeding rate of copepod Acartia spinicauda on Prorocentrum micans.J Jinan Univ(暨南大学学报), 14(3):74~79 (in Chinese) [40] Verity PG, Stoecker DK, Sieracke ME,et al. 1993a. Abundance, biomass and distribution of heterotrophic dinoflagellates during the North Atlantic spring bloom.Deep-Sea Res,40:227~244 [41] Verity PG, Stoecker DK, Sieracke ME,et al. 1996. Microzooplankton grazing of primary production at 140°W in the equatorial Pacific.Deep-Sea Res II, 43:1227~1255 [42] Verity PG, Stoecker DK, Sieracki ME,et al.1993b. Grazing, growth and mortality of microzooplankton during the 1989 North Atlantic spring bloom at 47°N, 18°W.Deep-Sea Res,40:1793~1814 [43] Wang J-Q (王金秋), Li D-S (李德尚). 1998. Feeding effect of yeast and yeast-alga mixture on Brachionus calyciflorus.Chin J Appl Ecol(应用生态学报),9(3):301~304 (in Chinese) [44] Wang Y(王岩), Zhang H-Y (张鸿雁). 1999. Ingestion of copepodes on Prorocentrum mican in seawater experimental enclosures.Chin J Appl Ecol(应用生态学报),10(4):489~491 (in Chinese) [45] Yang J-M (杨纪明), Li H-L (李红玲). 1997. A preliminary study on the feeding of Bohai Sea Labidocera euchaeta. Chin J Appl Ecol(应用生态学报),8(3):299~203 (in Chinese) [46] Zhang W-C (张武昌), Wang R (王荣). 2000. Microzoopankton and their grazing pressure on phytoplankton in Bohai Sea.Oceanol Limnol Sin(海洋与湖沼),31(3):252~258 (in Chinese) [47] Zhou M-J (周名江),Zhu M-Y (朱明远),Zhang J(张经). 2001. State of harmful algal blooms and related research activities in China.Chin Bull Life Sci(生命科学),13(2):54~59 (in Chinese) [48] Zou J-Z (邹景忠). 1992. The red tide causative organism and its harmfulness. In: Zeng C-K(曾呈奎) ed. Research and Development of Chinese Marine Science.Qingdao: Qingdao Press.284~287 (in Chinese) [49] Zou J, Dong L, Qin B. 1985. Preliminary studies on eutrophication and red tide problems in Bohai Bay.Hydrobiologia, 127:27~30 |