Biological control of sclerotial blight of tea using arbuscular mycorrhizal fungus and plant growth promoting rhizobacterium.

B. Chakraborty, U. Chakraborty, U. De, A. Chakraborty
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引用次数: 1

Abstract

Glomus fasciculatum , one of the dominant arbuscular mycorrhizal fungus (AMF) associated with tea root colonization, was selected and maintained in maize plants. Besides AMF, Bacillus amyloliquefaciens TRS6 isolated from tea rhizosphere, which showed in vitro antagonism to a number of tea root rot pathogens as well as siderophore-producing and phosphate-solubilizing activities, was selected for utilization as bioinoculants in tea plants for improvement of health status. The bacterium was applied to the soil as aqueous suspensions, and in case of G. fasciculatum , soil was inoculated with its spores and in joint inoculations, the AMF was inoculated prior to the bacterium. Inoculation of rhizosphere of tea plants of six different varieties (TV-18, T-17, AV-2, T-78, UP-3 and UP-26) with any of two microorganisms increased growth of plants, but the most significant increase was obtained in dual application. Plant growth was measured in terms of increase in height, increase in number of branches and leaves. Similarly, sclerotial blight of tea, caused by Sclerotium rolfsu , was suppressed to certain extent by G. fasciculatum or B. amyloliquefaciens , but significant suppression occurred when G. fasciculatum and B. amyloliquefaciens were applied jointly. Polyphenolics and four major defense enzymes showed enhanced activities during disease suppression. Western blot of the enzjone extracts from control and all treated plants using PAb raised against chitinase revealed strong reaction when disease suppression was evident. Population of S. rolfsu in soil was also determined following immunological techniques using PAb raised against the pathogen. Results of ELISA and dot-blot revealed that application of G. fasciculatum and B. amyloliquefaciens significantly reduced S. rolfsu population.
利用丛枝菌根真菌和促进植物生长的根瘤菌生物防治茶叶菌核枯萎病。
束状真菌(Glomus fasciculatum)是一种与茶根定植相关的显性丛枝菌根真菌(AMF)。除AMF外,从茶根际分离的解淀粉芽孢杆菌TRS6对多种茶根腐病病原菌具有体外拮抗作用,并具有产铁载体和溶磷活性,可作为生物接种剂应用于茶树,改善茶树健康状况。将该细菌作为水悬浮液施用于土壤中,对于束状菌,将其孢子接种于土壤中,在联合接种时,AMF先于细菌接种。对6个不同品种(TV-18、T-17、AV-2、T-78、UP-3和UP-26)的茶树根际接种两种微生物中的任何一种都能促进植株的生长,但双施效果最显著。植物的生长是根据高度的增加、枝叶数量的增加来测量的。同样,束状芽孢菌和解淀粉芽孢菌对茶树菌核枯萎病也有一定的抑制作用,但束状芽孢菌和解淀粉芽孢菌联合施用对茶树菌核枯萎病的抑制作用显著。多酚类物质和四种主要防御酶在疾病抑制过程中表现出增强的活性。用PAb对几丁质酶培养的对照和处理植株的酶提物进行Western blot检测,结果显示,在疾病抑制明显的情况下,酶提物反应强烈。采用免疫技术,采用PAb对病原菌进行免疫培养,测定了土壤中rolfsu的种群数量。酶联免疫吸附和斑点免疫分析结果显示,束状梭菌和解淀粉芽孢杆菌均能显著降低大蠊种群数量。
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来源期刊
CiteScore
1.50
自引率
0.00%
发文量
2558
期刊介绍: The Journal of Tea Science was established in August 1964, approved by the Publicity Department, CCCPC. Its title was inscribed by Zhu De, the chairman of CCCPC. It was discontinued during the Cultural Revolution in 1966, and it was reissued in August 1984, approved by the State Scientific and Technological Commission.Academicians Chen Zongmao and Liu Zhonghuaof the Chinese Academy of Engineering served as the directors of the editorial board. The Journal of Tea Science is managed by the China Association for Science and Technology,sponsored by the China Tea Science Society and the Tea Research Institute of the Chinese Academy of Agricultural Sciences, and edited and published by the editorial office of the Journal of Tea Science. It is the only one of Chinese core journals in the field of tea science that is included in the core library of the Chinese Science Citation Database.Its Domestic Unified Serial Number is CN 33-1115/S, its International Standard Serial Number is ISSN 1000-369X and its International publication name code is CODEN-CHKEF4. At present, the Journal of Tea Science is a bimonthly publication, published in the middle of the month, with a book size of 16.
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