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引用本文:林伟,陈騳,刘秀云.海洋微藻培育系统抗弧菌作用机理.海洋与湖沼,2001,32(1):7-14.
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海洋微藻培育系统抗弧菌作用机理
林伟, 陈騳, 刘秀云
中国科学院海洋研究所 青岛266071
摘要:
于1996年1—6月在中国科学院海洋研究所对微藻培育系统抗弧菌作用机理进行研究。结果表明,球等鞭金藻3011、三角褐指藻2038、扁藻1040及小球藻1061等4种饵料微藻中与藻共存细菌单菌株及群落均无限制弧菌生长作用;各培养时期除菌微藻3011不能限制弧菌生长;除菌微藻2038具有微弱限制弧菌生长能力,处于生长指数后期时作用相对较强;与藻共存细菌群落回加除菌微藻3011及2038,则恢复排斥弧菌能力,细菌先于弧菌加入时(如先加入3d)排斥能力显现较快,反之则较慢。另外还发现,除菌藻2038代谢产物(0.65μm滤膜过滤获得)无限制弧菌生长能力,4种饵料微藻(自然藻菌混和体)代谢产物(0.2及0.65μm滤膜过滤获得)无限制弧菌生长作用。因此,微藻培育系统抗弧菌机理可归结为:以微藻为基础的微小生物群落因优先占有生态空间而对弧菌菌群具有排它性。
关键词:  自然及除菌微藻  与藻共存细菌  协同除菌  生态空间
DOI:
分类号:
基金项目:农业部重点科研项目合同资助项目,渔95-13-96-06-06号
附件
THE ANTIVIBRIO MECHANISM OF MICROALGAE CULTIVATION SYSTEM
LIN Wei, CHEN Dou, LIU Xiu-Yun
Institute of Oceanology,The Chinese Academy of Sciences,Qingdao,266071
Abstract:
January to June 1996 experiments in IOCAS showed that algae-concomitant bacteria (single strains or communities) isolated from the nonaxenic algae Isochrysis galbana 3011, Phaeodatylum tricornutum 2038, Platymonas sp. 1040 and Chlorella sp. 1061 can not inhibit growth of the four vibrio strains (Vibrio alginolyticus one, V. anguillarum one and V. parahaemolyticus two). Axenic algae 3011 can not restrict growth of the vibrios during its whole generation. Axenic algae 2038 has faint antivibrio function, especially in the late phase of exponential growth. Mixtures of the two axenic algae with their respective bacteria community (algae-concomitant bacteria were reintroduced into the bacteria-free microalgae) can resume antivibrio function significantly, which appears fast when axenic algae meets algae-concomitant bacteria before the vibrios (3d, for example), appears slowly if the vibrios are added in the axenic algae before the algae-concomitant bacteria. Filtrate of axenic algae 2038 lost antivibrio function. In addition filtrates of the four nonaxenic algae (algae-concomitant bacteria free or not) can not restrict growth of the four vibrio strains. Therefore, it is concluded that nonaxenic microalgae can play an antivibrio role because the algae-concomitant bacteria have priority in occupying ecological space.
Key words:  Nonaxenic and axenic microalgae, Algae-concomitant bacteria, Antivibrio cooperation, Ecological space
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