[1] Burkert U, Hyenstrand P, Drakare S, et al. 2001. Effects of the mixotrophic flagellate Ochromonas sp. on colony formation in Microcystis aeruginosa. Aqua Ecol, 35: 9~ 17 [2] Boraas ME, Seale DB, Boxhorn JE. 1998. Phagotrophy by a flagellate selects for colonial prey: A possible origin of multicellularity.Evol Ecol, 12(2): 153~ 164 [3] George DG, Reynolds CS. 1997. Zooplankton-phytoplankton interactions:The case for refining methods, measurements and models.Aqua Ecol, 31:59~71 [4] Haney JF. 1987. Field studies on zooplankton-cyanobacteria interactions. N Zeland J Mar Freshwater Res, 21:467~475 [5] Hessen DO, Van Donk E. 1993. Morphological changes in Scenedesmus induced by substances released from Daphnia. Arch Fur Hydrobiol, 127(2): 129~ 140 [6] Jang MH, Ha K, Joo GJ, et al. 2003. Toxin production of cyanobacteria is increased by exposure to zooplankton. Freshwater Biol, 48:1540~ 1550 [7] Lampert W. 1981. Toxicity of the blue-green Microcystis aeruginosa: Effective defence mechanism against grazing pressure by Daphnia. Int Ver Theor Angew Limnol Verh, 21:1436~ 1440 [8] Lampert W. 1982. Further studies on the inhibitory effect of the toxic blue-green Microcystis aeruginosa on the filtering rate of zooplankton. Arch Hydrobiol, 95: 207~ 220 [9] Larnpert W. 1987. Laboratory studies on zooplankton cyanobacteria interactions. N Zeland J Mar Freshwater Res, 21:483 ~490 [10] Lampert W, Rothhaupt KO, Von Elert E. 1994. Chemical induction of colony formation in a green-alga (Scenedesmus acutus) by grazers (Daphnia). Limnol Oceanog, 39(7): 1543 ~ 1550 [11] 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 dinflagel late red tide. Chin J Appl Ecol (应用生态学报), 5 (3) :314~ 318(in Chinese) [12] Lurling M, Van Donk E. 1996. Zooplankton-induced unicellcolony transformation in Scenedesmus acutus and its effect on growth of herbivore Daphnia. Oecologia, 108: 432~ 437 [13] Lurling M, Van Donk E. 1997. Morphological changes in Scenedesmus induced by infochemicals released in situ from zooplankton grazers. Limnol Oceanog, 42(4) :783~788 [14] Lurling M, van Donk E. 1999. Grazer-induced colony formation in Scenedesmus acutus(Chlorophyceae): Ecomorph expression at different temperatures. J Phycol, 35:1120~ 1126 [15] Lurling M, van Donk E. 2000. Grazer-induced colony formation in Scenedesmus: Are there cost to being colonial? Oikos, 88: 111 ~118 [16] Lurling M. 1998. Effect of grazing-associated infochemicals on growth and morphological development in Scenedesmus acutus Meyen(Chlorophyceae). J Inycol, 34:578 ~ 586 [17] Lurling M. 2001. Grazing-associated infochemicals induce colony formation in the green alga Scenedesmus. Protist, 152(1) :7~ 16 [18] Lurling M. 2003. The effect of substances from different zooplankton species and fish on the induction of defensive morphology in the green alga Scenedesmus obliquus. J Plankton Res, 25 (8): 979 ~989 [19] Lurling M. 2003. Phenotypic plasticity in the green algae Desmodesmus and Scenedesmus with special reference to the induction of defensive morphology. Int J Limnol, 39(2) :85~ 101 [20] Mikheeva TM, Kruchkova HM. 1980. Morphological changes in Chlamydomonas sp. and Scenedesmus acuminatus in the presence of zooplankton. Botanica, 5: 60~ 63 [21] Shi X-L(史小丽),Wang F-P(王凤平),Jiang L-J(蒋丽娟), et al.2003. Effect of temperature on the translocation of exogenous 32P in water column, Microcystis aeruginosa and sediments. Chin J Appl Ecol (应用生态学报), 14(11): 1967 ~ 1970 (in Chinese) [22] Smetacek V.2001.A watery arms race. Nature,411:745 [23] Sun J(孙军), Liu D-Y(刘东艳), Wang Z-L(王宗灵), et al.2003. Microzooplankton herbivory during red tide frequent-occurrence period in Spring in the East China Sea. Chin J Appl Ecol(应用生态学报), 14(7): 1073~1080(in Chinese) [24] Van Donk E, Hessen DO. 1993. Grazing resistance in nutrientstressed phytoplankton. Oecologia, 93: 508~ 511 [25] Van Donk E, Lurling M, Lampert W. 1999. Consumer-induced changes in phytoplankton: Inducibility, costs, benefits and the impact on grazers. In: Harvell D, Tollrian R, eds. Consequences of Inducible Defenses for Population Biology. Princeton, New Jersey:Princeton University Press. [26] Van den Hoek C, Mann DG, Jahns HM. 1995. Algae:An Introduction to Physiology. Cambridge, United Kingdom: Cambridge University Press. 623 [27] Van Holthoon FL, van Beek A, Lurling M, et al. 2003. Colony formation in Scenedesmus :A literature overview and further steps towards the chemical characterization of the Daphnia kairomone.Hydrobiologia, 491: 241 ~ 254 [28] Von Elert E, Franck A. 1999. Colony formation in Scenedesmus:Grazer-mediated release and chemical feature of the infochemical. J Plankton Res, 21: 789~ 804 [29] Von Elert E. 2000. Fatty acids released by Daphnia: Do they induce colony formation in Scenedesmus acutus ? Verhintnat Verein Theor Angew Lim nol, 27: 2128 ~ 2131 [30] Wiltshire KH, Lampert W. 1999. Urea excretion by Daphnia: A colony-inducing factor in Scenedesmus ? Limnol Oceanog, 44:1894~ 1903 [31] Wiltshire K, Boersma M, Meyer B. 2003. Grazer-induced changes in the desmids Staurastrum. Hydrobiologia, 491: 255 ~ 260 [32] Wolfe GV, Steinke M, Kirst GO. 1997. Grazing-activated chemical defence in a unicellular marine alga. Nature, 387:894~897 |