海洋微生物的多样性在赤潮调控中的利用

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[1]	Bratbak G, Egge J K,Heldal M. Viral moratality of the marine alga Emiliania huxleyi (Haptophyceae) and termination of algal blooms[J].Mar Ecol Prog Ser, 1993,83:273-280.
[2]	克钧.能消灭赤潮藻类的绿藻[J].今日科技,1999,12:15-16.
[3]	Perez E, Saw yers W G. Lysis of Gymondinium breve by cultures of green alga Nanochloris eucaryotum[J].Cytobios,2001, 104(405):25-31.
[4]	Caiola M G, Pellcgriai S.Lysis of Microcystis aeruginosa by Bdellovibrio-like bacteria[J]. J Phycol, 1984, 20(1):471 -475.
[5]	Shilo M. Lysis of Blue-Green algae by Myxobacter [J]. J Bacteriol, 1970, 104(1):453-461.
[6]	Imamura N, I Motoike, N Shimada, et al. An efficient screening apprcach for anti-Microcystis compounds based on knowledge of aquatic microbial eccsystem[J]. J Antibiotics, 2001, 54(6):582-587.
[7]	赵以军 刘永定.有害藻类及其微生物防治的基础:藻菌关系的研究动态[J].水生生物学报,:.
[8]	Lovejoy C, Bowman J P. Algieidal effects of a novel marine Pseudoalteromonas isolate (class Proteobacteria, gamma subdivision) on harmful Algal bloom species of the Genera Chattonella, Gymnodinium, and Heterosigma [J]. Appl Environ Microbiol,1998,64(8):2 806-2 813.
[9]	Daft M J, Sterwart W D. Ecological studies on algallysing bacteria in fresh waters [J]. Freshwat Bio, 1975, 5:577-596.
[10]	Shio M. Lysis of blue-green algae by myxobater[J].J Bacteriol,1970, 140: 453-461,
[11]	Sawayama S, Sako Y, Ishida Y. Purification and structure determination of the bacterial mating inhibitor for Chlamydomonas reinhardtii and Alexandrium catenella[J].Nippon Suisan Gakkaishi, 1991,57: 307-314.
[12]	Imai I, Sawayama S, Ishida Y. Isolation of a marine gliding bacterium that kills Chattonella antiqua (Raphidophyceae)[J]. Nippon Suisan Gakkaishi, 1991,57:1 409.
[13]	Sawayama S, Sako Y , Ishida Y. Bacterial inhibitor for mating reaction in Chlamydomonas reinhardtii and Alexandrium catenella[J]. Nippon Suisan Gakkalshl,1990,56:1 847-1 852.
[14]	Dakhama A. Isolation and identification of antialgal substances produced by Pseudomonas aeruginosa[J].J Appl Phycol,1993, 5:297-306.
[15]	Reim R L. The characterization of a B.cillus capable of blue-green bactericidal activity[J].Can J Microbiol,1974,20:981-986.
[16]	Middleboe M, Sondergard M, Letarte Y. Attached and free living bacteria: Production and polymer hydrolysis during adiatom bloom[J].Microbial Ecology, 1995,29:231-248.
[17]	Dakhama A. Stimulatory and inhibitory effects of Pseudomonoas on the growth of algae[J].Can Tech Rep Fish Aquat Sci, 1989,1 714:46-51.
[18]	Imai I, Ishia Y, Sakaguchi K,et al.Algicidal marine bacteria isolated from northern Hiroshima Bay[J].Japan Fisheries Science, 1995, 61(4): 628-636.
[19]	Hayashida S. Isolation of anti-algal Pseudomonas stutzeri strains and the itlethal activity for Chattonella antiqua[J].Agrie Biol Chem, 1991, 55(3):787-790.
[20]	徐金森 郑天凌 等.两种海洋细菌对赤潮藻的细胞生物量的影响研究[J].海洋科学,2002,26(12):58-60.
[21]	刁洪成 江建华.浅淡赤潮的危害及防治[J].山东环境,1998,5:52-53.
[22]	郑天凌 徐金森 徐美珠 等.微生物调控赤潮原因种塔玛亚历山大藻的实验研究[J].海洋学报,2003,10(增刊2):221-225.
[23]	Shinsaku H. Isolation of anti-algal Pseudomonas stutzeri strains and their lethal activity for Chattonella antiqua[J].Agric Biol Chem, 1991, 55(3) :787-790.
[24]	苏建强 俞志明 等.海洋细菌对赤潮藻生长及其产毒量的影响[J].海洋与湖沼,2003,34(1):44-49.
[25]	李福东 张诚.细菌在浮游植物生长过程中的作用[J].海洋科学,:.
[26]	连玉武 郑天凌.赤潮科学中藻菌关系研究的若干进展[J].海洋科学,:.
[27]	苏建强 郑天凌 胡忠 徐金森 俞志明 宋秀贤.不同pH和盐度下海洋细菌对赤潮藻生长和产毒的影响[J].应用生态学报,2003,14(7):1161-1164.
[28]	俞建銮 李瑞香.渤海和黄海浮游植物形态学上的研究[J].黄渤海海洋,1993,3:52-59.
[29]	张汉光.赤潮现象[J].生物学通报,:.
[30]	Wolf A, Zheng Tim-ling , Witzel K P, et al. Impact of initial phage/host ratio and nutrient addition on coexistence in a phage-host system[J]. Aquatic Microbial Ecology,2004,35: 131-139.
[31]	Bergh Q K Y, Borsheim G B, Heldal M. High abudance of viruses found in aquatic environment[J]. Nature, 1989, 340:467-468.
[32]	谢志雄 陈向东.细菌感受态细胞摄取和分泌DNA的相关性研究[J].遗传,:.
[33]	陈向东 陈琪 谢志雄 等.枯草芽孢杆菌在琼脂平板上进行的自然遗传转化[J].微生物学报,2000,40(1):95-99.
[34]	许传东 沈萍.大肠杆菌核酸分泌及其转化活性的研究[J].武汉大学学报：自然科学版,1996,生物工程专刊:77-80.
[35]	Caiola M G, Peilegrini S. Lysis of microcystis aeruginosa by Bdellovibrio-like bacteria [J].J Phcol,1984,20:471-475.
[36]	Fukami K. Isolation and properties of a bacterium inhibiring the growth of Gymnodinium nagasakiense [J].Nippon Suisan Gakkaishi, 1992,58(6): 1 073-1 077.
[37]	杨小茹 郑天凌 苏建强.海洋病毒——一种新的、潜力巨大的赤潮防治工具[J].,2005，11(5):651-656.
[38]	赵以军 裴达 石正丽 程凯.藻类病毒研究40年[J].华中师范大学学报：自然科学版,2003,37(3):399-404.
[39]	Safferman R S, Morris M E.Algal viruses:isolation[J].Science, 1963, 140:679- 680.
[40]	Safferman R S, Cannon R E, Desjardins P R, et al. Classification and nomenclature of viruses of cyanobacteria[J]. Intervirology, 1983,19:61-66.
[41]	Van Etten J L .Phycodnaviridae[A].Van Regenmortel M N V,Fauquet C M, Bishop D H L,et al. Virus taxonomy,classification and nomenclature of viruses, seventh report[C].San Diego: Academic Press, 2000.184-193.
[42]	洪华生 徐立.香港与厦门港湾沉积物研究[M].厦门：厦门大学出版社,1997.165—170.
[43]	王斐 郑天凌 洪华生.海洋病毒在微食物环中的重要作用[J].海洋科学,1998,22(4):41-43.
[44]	Weissenr W, Schnepf E, Start R C. Algae, environment and human affairs[M]. Bristol: Biopress Ltd, 1995. 143-158.
[45]	Nagasaki K, Ando M, Imai I. Virus like particles in Heterosigma akashiwo (Raphidophyceae): apossiblercd tide distintegration mechanic[J].Marine Biology, 1994,119:307-312.
[46]	Nagasaki K, Yamaguchi M. Isolation of a virus infections to the harmful bloom causing microalga Heterosigma akashiwo(Raphido phyceae)[J].Aquatic Microbial Ecology,1997,13:135-140.
[47]	Nagasaki K, Tarutani K, Yamaguchi M. Growth characteristics ofHeterosigma akashiwo virus and its possible use as a microbiological agent for red tide control[J]. Appl Environ Microbiol, 1999, 65(3): 898-902.
[48]	黄邦钦 徐鹏.单种及混合培养条件下Fe,Mn对赤潮生物塔玛亚历山大藻（Alexan …[J].环境科学学报,2000,20(5):537-541.
[49]	郑天凌 田蕴 等.海洋赤潮生物与厦门海域几种细菌的生态关系研究[J].生态学报,2002,22(12):2063-2070.
[50]	孙昌魁 冯静 等.海洋微生物多样性的研究进展[J].生命科学,:.
[51]	杨永华 姚健.分子生物学方法在微生物多样性研究中的应用[J].生物多样性,2000，8(3):337-342.
[52]	Dykhuizen D E. Santa Rosalia revisited: why are there so many species of bacteria? [J]. Antonie Van Leeuwenhoek,1998,73(1):25-33.
[53]	Torsvik V, Ooksoyr J, Daae F L. High diversity of DNA of soil bacteria[J]. Appl Environ Microbiol, 1990,56:782-787.
[54]	李艳华 张利平.海洋微生物资源的开发与利用[J].微生物学通报,2003,30(3):113-114.
[55]	Doucette G J, Trick C G. Characterization of bacteria associated with different isolates ofAlexandrium tamarense [A]. Lassus P, Arzul G, Erard E ,et al. Harmful Marine Algal Blooms[C]. Paris: Lavoisier Science Publ,1995.33-38.
[56]	Sawayama S, Sako Y. Bacterial inhibitions for the mating reaction of Alexandium catenella (Dinophyceae)[A].Smayda T L, Shimizu Y. Toxic Phytoplankton blooms in the Sea[C]. BV, Amsterdam: Elsevier Sci Publ, 1993.177-181.
[57]	Furuki M, Kobayashi M. Interaction between Chattonella and bacteria and prevention of this red tide[J].EMECS ,1991, 90 (23): 189-193.
[58]	Fukami K, Nishijima T, Murata H, et al. Distribution of bacteria influential on the development and the decay of Gymnodinium nagasaklense red tide and their effects on algal growth[J]. Nippon Suisan Gakkaishi 1991,57:2 321-2 326.
[59]	Fukami K, Sakaguchi K, Kanou M,et al. Effect of bacterial assemblages on the succession of blooming phytoplankton from Skeletonema costatum to Heterosigma akashiwo[A].Yasumoto T, Oshima T, Fukuyo Y. Harmful and Toxic Algal Blooms[C]. Paris: Inter-Governmental Oceanographic Commission of UNESCO, 1996.335-338.
[60]	郑天凌 薛雄志.海洋微生物在生态环境中的作用[J].海洋科学,:.
[61]	郑天凌 苏建强.海洋微生物在赤潮生消过程中的作用[J].水生生物学报,2003,27(3):291～295.
[62]	Riquelme C E, Fukami K, Ishida Y. Growth response of bacteria to extracellular products of bloom algae[J]. Nippon Suisan Gakkaishi, 1989, 55:349-355.
[63]	Silva E S. Marine algae in pharmaceutical science [M].New York: W.Deruyter&Co, 1982.2: 269-288.
[64]	Kodama M, Ogata T, Sato S. Bacterial production of saxitoxin [ J ].Agric Biol Chem,1988, 52(4):1 075-1 077.
[65]	Leftley J. Harmful marine algal blooms[J]. Journal of Experimental Marine Biology and Ecology, 1996,2(202):260-262.

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