摘要
<正>随着全球水体富营养化的加剧,有害藻类水华的暴发日趋频繁,其造成的环境和经济问题日益引起人们的重视,寻求有效的水华和赤潮防治途径势在必行。溶藻细菌作为水生生态系统中生物种群结构和功能的重要组成部分,对维持浮游植物生物量平衡具有非常重要的作用。不少研究认为水华和赤潮的突然消亡可能与溶藻细菌的感染有关。有些溶藻细菌能够分泌细胞外物质,对宿
引文
[1]Zhao Y J,Liu Y D.Possible microbial control on the adverseimpacts of algae-current information about the relationshipbetween algae and microbes[J].Acta Hydrobiologica Sinica,1996,20(2):173—181[赵以军,刘永定.有害藻类及其微生物防治的基础-菌藻关系的研究动态.水生生物学报,1996,20(2):173—181]
[2]Christopher G P,Tom L D.Infection,growth,and commu-nity-level consequences of a diatom pathogen in a sonorandesert stream[J].Journal of Phycology,1993,29(4):442—452
[3]Caiola M G,Pellegrini S.Lysis of Microcystisaeruginosa byBdellovibrio-like bacteria[J].Journal of Phycology,1984,20(1):471—475
[4]Shilo M.Lysis of blue-green algae by myxobacter[J].Jour-nal of Bacteriology,1970,104(1):453
[5]Lee S J,Kim Y,Kim H G,et al.Alga-lytic activity ofa-mannosidase on harmful marine microalgae[J].Journal ofApplied Phycology,2000,12(2):191—193
[6]Imamura N,Motoike I,Shimada N,et al.An efficientscreening approach for anti-microcystis compounds based onknowledge of aquaticmicrobial ecosystem[J].The Journal ofAntibiotics,2001,54(7):582—587
[7]Shi S Y,Shen Y W,Li D H,et al.Isolation.identification andalgae-lyric characteristic of a bacterium Staphylococcus sp.[J].China Environmental Science,2006,26(5):587—590[史顺玉,沈银武,李敦海,等.溶藻细菌DC21的分离、鉴定及其溶藻特性.中国环境科学,2006,26(5):587—590]
[8]Shi S Y,Liu Y D,Shen Y W.Preliminary research on thealgae lyzing characteristics of bacterium(strain DC23)[J].Acta Hydrobiologica Sinica,2004,28(2):219—221[史顺玉,刘永定,沈银武.细菌溶藻的初步研究.水生生物学报,2004,28(2):219—221]
[9]Lu L L,Li G B,Shen Y W,et al.Isolation,identification andcharacterization of a strain of blue-green algae-lysing bacte-rium from Lake Dianchi[J].Acta Hydrobiologica Sinica,2009,33(5):860—865[卢兰兰,李根保,沈银武,等.溶藻细菌DC-L5的分离、鉴定及其溶藻特性.水生生物学报,2009,33(5):860—865]
[10]Wintermans J F,De Mots A.Spectrophotometric characteris-tics of chlorophylls a and b and their pheophytins in ethanol[J].Biochimic et Biophysica Acta,1965,109(2):448—453
[11]Bennett A,Bogorad L.Complementary chromatic adaptationin a filamentous blue-green alga[J].The Journal of Cell Bi-ology,1973,58(2):419—435
[12]Schreiber U,Gademann R,Ralph P J,et al.Assessment ofphotosynthetic performance of Prochloron in Lissoclinumpatella in hospite by chlorophyll fluorescence measurements[J].Plant and Cell Physiology,1997,38(8):945—951
[13]Liang Y,Feng L X,Yin C L,et al.Effects of high tempera-ture stress on the chlorophyll fluorescence kinetics ofPhaeodactylumtricornutum and Chaetocerosgracilis[J].Pe-riodical of Ocean University of China,2006,27(3):101—104[梁英,冯力霞,尹翠玲,等.高温胁迫对三角褐指藻和纤细角毛藻叶绿素荧光动力学的影响.中国海洋大学学报,2006,27(3):101—104]
[14]Yamamoto Y,Niizuma S,Kuroda N,et al.Occurrence ofheterotrophic bacteria causing lysis of cyanobacteria in a eu-trophic lake[J].Japanese Journal of Phycology,1993,41:215—220
[15]Yamamoto Y,Kouchiwa T,Hodoki Y,et al.Distributionand identification of actinomycetes lysing cyanobacteria in aeutrophic lake[J].Journal of Applied Phycology,1998,10(4):391—397
[16]Wang H,Liu Z P,Wei W,et al.Studies of separation andappraisal of an algae-iysing bacteria and its dissolved algaematter[J].China Environmental Science,2008,28(5):461—465[汪辉,刘兆普,魏微,等.一株溶藻菌的分离、鉴定及其溶藻物质的研究.中国环境科学,2008,28(5):461—465]
[17]Peng C,Wu G,Xi Y,et al.Isolation and identification ofthree algae-lysing bacteria and theirlytic effects on blue-greenalgae(Cyanobacteria)[J].Research of Environmental Sci-ences,2003,16(1):37—40[彭超,吴刚,席宇,等.3株溶藻细菌的分离鉴定及其溶藻效应.环境科学研究,2003,16(1):37—40]
[18]Niu D D,Zheng Q S,Liu Z P,et al.Algicidal effect of analgae-lysing bacterium YZ on Microcysasaeruginosa[J].China Environmental Science,2011,31(2):321—326[牛丹丹,郑青松,刘兆普,等.溶藻细菌YZ对铜绿微囊藻的溶藻特性研究.中国环境科学,2011,31(2):321—326]
[19]Yu H T,Pan W B.Effect of bioactive metabolites of algi-cidal bacteria L8 on photosynthetic characteristics of Ana-baena flos-aqua[J].Environment Pollution&Control,2010,32(11):25—29[于海涛,潘伟斌.溶藻细菌L8的溶藻活性代谢产物对水华鱼腥藻光合特性的影响研究.环境污染与防治,2010,32(11):25—29]