Screening and Identification of Cotton Verticillium Wilt Antagonistic Bacteria Strain 7-30

[Objective]The aim of this study was to screen the antagonistic spore-forming bacteria of Verticillium dahliae and identify its physiological and biochemical characteristics.[Method]Taking the cotton verticillium wilt pathogen Verticillium dahliae V-190 as the test microorganism,the antagonistic spore-forming bacteria were screened.Through the preliminary screening and secondary screening,an antagonistic bacteria strain 7-30 with stronger antibacterial activity was obtained,and its morphological characteristics,physiological and biochemical characteristics were also identified.[Result]84 antagonistic bacteria strains were isolated from soil in various places by the preliminary screening.Especially,18 strains with better antagonistic ability were screened again,so an antagonistic bacteria strain 7-30 with the diameter of inhibition zone 18.9 mm and stronger antibacterial activity was obtained.According to its morphological characteristics,physiological and biochemical characteristics,the antagonistic bacteria strain 7-30 was identified as Bacillus subtilis primarily.[Conclusion]The strain 7-30 was obtained as the antagonistic spore-forming bacteria of Verticillium dahliae.

Screening of Soil Antagonistic Bacteria for Watermelon Fusarium Wilt

[Objective] The aim of this study was to screen bacteria strains with stable antagonistic effect against watermelon fusarium wilt from soil and investigate the biological control of watermelon fusarium wilt by applying the antagonistic bacteria strains into soil.[Method] Actinomycete strains,fluorescent bacteria strains and bacillus strains were isolated from soil samples by the dilution-plate method,then its resistance was screened respectively by the improved confront culture method after colonies were purified.Finally,bacteria strains with better antagonistic effect were identified.[Result] 29 bacteria strains with stable antagonistic effect against watermelon fusarium wilt were screened from 39 soil samples,which contained 15 fluorescent bacteria strains,5 bacillus strains and 9 actinomycete strains.Furthermore,three antagonistic bacteria strains of FM2,FM3 and FM4 with the strongest antagonism were identified primarily.[Conclusion] According to cultural characteristics,morphological observation,biochemical and physiological tests,FM2 belongs to bacillus subtilis,while FM3 and FM4 belong to micrococcus.

Screening of Antagonistic Bacteria against Phytophthora infestans and Its Inhibition Effect

[ Objective ] The paper was to screen bacterial strain with significant antagonistic effect against Phytophthora infestans, so as to provide basis for further development and utilization of antagonistic bacteria to inhibit P. infestans and control potato late bright. [ Method] Plate dual culture and filter paper method were used to determine the inhibition effect of strains in vivo, fermentation broth and bacterial liquid of 61 strains against P. infestans and the resistance-induction effect of SR13-2 strain. [ Result] The inhibition rate of 24 strains among 61 tested strains against mycelial growth of P. infestans was greater than 60%, and the inhibi- tion effect of HT-6 strain was the strongest with the inhibition rate of 89.92%. However, fermentation broth of all tested strains had no significant inhibition effect against P. infestans, while the inhibition effect of bacterial liquid of most strains was significantly higher than strain in vivo; the inhibition effect of $34-1 strain was the strongest with inhibition rate of 91.50%. The bacterial liquid of SR13-2 strain was found to have significant resistance-induction effect with protective rate of 60%. [ Conclusion] The inhibition effect of strains in vivo and fermentation broth of antagonistic strains S34-1 and SR13-2 had no relationship with each other, while bacterial liquid had great application potential in controlling potato late bright.

Screening and Identification of Antagonistic Bacteria against Soil-borne Diseases of Tomato

[Objective] This study was conducted to screen resources for biological control of soil-borne diseases of tomato. [Method] Antagonistic bacteria against Ral- stonia solanacearum and Fusarium oxysporum were isolated and purified from soil samples by dilution plating and confronting incubation on PDA plates, then the antibacterial spectrum and metabolic secretions of the bacterial isolates were measured, and their species were identified by establishing phylogenetic trees with Neighbor-Joining method. [Result] From the 60 soil samples, 10 of 59 antagonistic bacteria isolates against R. solanacearum showed inhibition zone diameter 〉 25 mm, and 4 of 30 strains against F. oxysporum exhibited inhibition rate 〉 30%. The bacteriostatic substances and antibacterial spectrum analysis on above 14 isolates revealed that four strains N23-2, N58-2, NF59-3 and NF61-1 had good antago- nism against pathogenic bacteria and fungi; 12 strains produced cellulose, 11 strains produced proteases, and 6 strains produced siderophores. The molecular identification experiments indicated that four strains were members of Paenibacillus, three strains of Streptomyces, three strains of Pseudomonas strains, and four strains of Bacillus strains.

Determination of Growth-promoting and Antagonistic Action of Endophytic Bacteria Strains Itb57 and Itb295 of Tobacco

[ Objective ] The paper was to study the growth-promoting and antagonistic action of endophytic bacteria strains Itb57 and Itb295 of tobacco to explore their functions in biological control. [ Method] The growth-promoting effects of bacterial suspension ~ff endophytic bacteria Itb57 and Itb295 on tobacco seedling un- der different treatment modes were studied using potting method in greenhouse. The antagonistic action of bacterial suspension of endophytic bacteria Itb57 and Itb295 on Phytophthora nicotianae, Alternaria alternata and Botrytis cinerea were measured by duel culture method. [ Result] Bacterial suspensions of enduphytic bacteria Itb57 and Itb295 had certain growth-promoting effects on tobacco seedling, which could significantly increase the fresh weight and dry weight in aerial part; the growth-promoting effect of soaking ＋ spraying and irrigating treatment was the best. Itb57 strain had good antagonistic action against P. nicotianae. A. alterna- ta and B. cinerea, while Itb295 strain only had good antifungal effect against P. nicotianae. [ Conclusion] The results provided basis for the study and application of tobacco endophytic bacteria strains Itb57 and Itb295 in biocontrol of tobacco diseases.

Genetic Diversity of Antagonistic Endophytic Bacteria Isolated from Sophora alopecuroide

[ Objective ] The paper was to study and analyze the genetic diversity of 48 endophytic bacteria isolated from Sophora alopecuroide with strong antagonis- tic effect against Fusarium oxysporum and Verticillium dahliae, and carry out sequence measurement and phylogenetic analysis on 10 representative strains. [ Meth- od] Using total DNA ERIC-PCR and 16S rRNA sequencing analysis method, a total of 48 endophytic bacteria were carried out genetic diversity and phylogenetic analysis. [Result] ERIC-PCR fingerprint map showed that 48 endophytic bacteria were divided into 6 ERIC groups and 2 strains with independent groups at Wat- son distance of 0.31. Representative strains were selected from each group to determine 16S rRNA gene for phylogenetic analysis, and the results showed that these strains belonged to Bacillus atrophaeus, Bacillus subtilis, Bacillus cereus, Bacillus megaterium, Bacillus pumilus and Serratia marcescens, respectively. [ Conclu- sion ] The genetic diversity of 48 strains of bacteria was obvious. Determination of 48 strains of bacteria on diversity and phylogenetic status could lay foundation for study on mechanism of F. oxysporum and V. dahliae, which could also provide new strain sources for biological control of diseases in cotton production.

Diversity of Gram negative bacteria antagonistic against major pathogens of rice from rice seed in the tropic environment

With the use of a seed washing technique, more than 4000 Gram negative bacteria were isolated by two improved isolation methods from 446 batches of 1 kg rice seed samples obtained from 22 provinces in the Philippines. They were initially characterized on the basis of colony morphology and results of biochemical and pathogenicity tests. Six hundred and fifty two strains were further identified by Biolog, from which 133 were selected for fatty acid methyl ester (FAME) analysis together with 80 standard reference!strains. Sixteen species or types of Pseudomonas and 17 genera of non pseudomonads were identified, more than one third of which have not been recorded in rice. The most predominant species observed were P. putida and P. fulva. About 17% of the strains of Pseudomonas and 2% of the non pseudomonads were antagonistic to one or more fungal or bacterial pathogens of rice. Rice seed is an important source of biological control agents.

Gram-Positive Bacteria Associated with Rice in China and Their Antagonists Against the Pathogens of Sheath Blight and Bakanae Disease in Rice

It is necessary to understand the bacterial populations associated with rice so as to provide more information and natural resources for effective management of major diseases in rice. A survey on screening and identification of gram-positive bacteria was conducted during 1998 2004. Seven hundred and fifty-six rice samples were collected from Zhejiang, Jiangsu, Fujian and Yunnan Provinces, China. Over 1000 bacterial isolates were isolated and tested for colony morphology, pathogenicity, and some characteristics of bacteriology including Gram staining, fluorescent pigment on Kings medium B and microscopic observation for endospore. Together with five standard reference strains, 74 representative gram-positive bacterial isolates were confirmed by Biolog and gas chromatographic analysis of fatty acid methyl esters. Five bacterial species of Bacillus and other three genera were identified and isolates from Bacillus sublitis and Bacillus megaterium, exhibited the most effective inhibition against the pathogens of sheath blight and bakanae disease of rice. A few isolates from Bacillus pumilus and Bacillus megaterium showed weak virulent on rice together with some virulent isolates, risk should be considered when isolates from these species were screened for biocontrol agents.

Screening,identification and antagonistic effect of antagonistic bacteria JTFM1001 against aflatoxin contamination in corn

Aflatoxin is a strong carcinogenic and toxic fungal toxin produced by Aspergillus flavus and other Aspergillus species,and can seriously threaten the health of consumers,thus becoming a global concern.Corn,as an important oil and economic crop,is highly susceptible contaminated by aflatoxin.In this study,antagonistic bacteria with strong inhibitory effect on aflatoxin were screened to provide support for the treatment aflatoxin contamination control in corn.Ten strains which have strong antagonistic effects against A.flavus were isolated from healthy corn from different corn producing areas in China.Among them,the antagonistic bacteria JTFM1001 through corn kernels in vivo and field experiment,the inhibition effect of aflatoxin contamination reached above 70%and 55%,respectively.And the strain was identified as Bacillus subtilis based on its morphological,physiological and biochemical characteristics and phylogenetic analysis of 16S rDNA.In addition,our data showed that it can colonize in the rhizosphere and survive for a long time,forming the dominant flora,with broad application prospect.Finally,we were surprised to find that the antibacterial metabolites secreted by the antagonistic bacteria was one of the mechanisms of its inhibition of A.flavus and aflatoxin.This will provide us with new ideas and perspectives on the effective prevention and control of aflatoxin contamination in corn and corn oil.

Antagonistic Effects of Sphingomonas and Pseudomonas aeruginosa on 4 Kinds of Pathogenic Bacteria of Ginseng

[Objectives]To explore effective biocontrol methods for diseases in the process of ginseng cultivation,and develop an efficient and environmentally friendly biocontrol agent.[Methods]In this study,2 strains were isolated from biogas slurry,and Cylindrocarpon destructans(XF),Fusarium solani(GF),Botrytis cinerea Pers(HM)and Alternaria panax Whetz(HB)were used as test materials.The strains were isolated and identified by dilution plate method,16S rDNA sequence identification method,confrontation culture method,filter paper method and ultraviolet spectrophotometer method,and the bacteriostatic activity and bacteriostatic rate were tested.[Results]Strain 15(Sphingomonas)and strain 19(Pseudomonas aeruginosa)were screened out through identification and analysis,and they grew stably within 8-10 d.The bacteriostatic rates of strain 15 against A.panax and B.cinerea were 47.37%and 43.40%,respectively,and the bacteriostatic rates of strain 19 against A.panax and B.cinerea were 62.30%and 63.27%,respectively.The bacteriostatic activity of the extract of strain 19 increased with the increase of OD_(600) value,and the bacteriostatic effect was optimal when the OD_(600) value was in the range of 0.8-1.0,up to 70%,so it had a strong biocontrol potential.[Conclusions]This experiment provides convenience for more effective inoculation,establishes a fast,simple and accurate method for the determination of the best bacteriostatic rate of P.aeruginosa culture solution to HM,and lays a foundation for large-scale culture of P.aeruginosa culture solution.Besides,it is expected to provide a theoretical basis for the efficient control of ginseng B.cinerea in field production,use it for the prevention and control of ginseng shoot diseases,and provide a reference for the efficient and diverse development of biocontrol agents for ginseng shoot diseases.

Isolation of Antagonistic Bacteria against Fusarium graminearum and Its Antagonistic Activity

[ Objective] To develop biological control resources of endophytic bacteria in wheat, the bacteria with antagonistic effect against Fusarium graminearum were screened and their antagonistic activity was studied. [ Method] The endophytic bacteria of wheat with antagonistic effect were screened using plate confrontation method; the antagonistic bacteria were identified through physiological and biochemical characteristics and 16S rDNA sequence analysis; the antagonistic spectrum of antagonistic bacteria was studied using plate confrontation method. [ Result] The antagonistic bacterium XY-3 was isolated from wheat leaves, and was identified as Bacillus amyloliquefaciens according to the physiological and biochemical characteristics and 16S rDNA sequence analysis. [ Conclusion] XY-3 had antagonistic effect against four kinds of common pathogenic fungi, presenting broad spectrum antagonistic activity against plant pathogenic fungi.

Screening of Antagonistic Bacillus spp. Strains against Phytophthora infestans (Mont.) de Bary and Isolation of lipopeptide Substances

[ Objective] The paper was to screen the antagonistic Bacillus spp. strains against Phytophthora infestans （Mont.） de Bary and analyze its lipepeptide substances. [ Methods] Using flat isolation and culture method, the bacteria that could produce Bacillus spp. were isolated from rhizosphere soil, and carried out primary and secondary screening by confrontation culture. The lipopeptide substances of Y-3 strain with better antifungal effect were carried out I-IPLC analysis. [Result] Nine strains of bacteria had certain antagonistic effects against P. infestans in primary screening, Y-1 and Y-3 strains had significant inhibition effect against the growth of P. infestans in secondary screening, with inhibition rate higher than 80% ; the crude extract of lipepeptide produced by Y-3 strain had better antagonistic effect against P. infestans, with inhibition rate higher than 90%. HPLC analysis showed that the crude extract of lipepeptide mainly contained 8 components. [ Conclusion] The lipopeptide substances produced by Y-3 strain had significant inhibition effect, which had potential application value for biological control of potato late blight.

Performance of Natural Antagonists and Commercial Microbiocides towards <i>in Vitro</i>Suppression of Flower Bed Soil-Borne <i>Fusarium oxysporum</i>

Fusarium oxysporum is the causal agent for wilt diseases of many major ornamental and horticultural crops. In this study, we plated a local cut flower grower’s soil, with a persistent history of Fusarium wilt of scented stock, Matthiola incana but not the lettuce rotational crop. This yielded culture plates with characteristic pink to carmine red fungi, together with a mixed bacterial population, a percentage of which was visibly antagonistic to the Fusarium. Using molecular analyses via Polymerase Chain Reaction (PCR) assays, we identified that Fusarium oxysporum, Fusarium culmorum, Fusarium equiseti and Fusarium venenatum were prevalent in the soil. The co-habiting bacterial colonies that exhibited strong antagonistic activity (zone of clearance) towards the soil fungi corresponded to Bacillus subtilis, Bacillus amyloliquefaciens and Paenibacillus polymyxa species. Our results arising from an in vitro study involving Kirby-Bauer disc-diffusion agar assays, coupled with bio-imaging software techniques demonstrated that the three native soil bacteria were effective inhibitors of all Fusarium species tested, while Bacillus subtilis exhibited the highest antagonism towards the Fusarium oxysporum. Bioassay tests of micro-biocides Prestop (Gliocadium catenulatum), Serenade Max (Bacillus subtilis QST713) and commercial seaweed extract, AlgiVyt suppressed in vitro growth of Fusarium oxysporum infecting the scented stock flower to a greater extent, whilst fresh aqueous extracts of garlic (Allium sativum) and meadowsweet (Filipendula ulmaria) flowers were ineffective towards soil pathogen suppression. This scoping study offers cut flower growers additional options of tapping into populations of antagonistic bacteria found in soil persistently infected with the opportunistic soil phytopathogen Fusarium oxysporum, affecting cut flower crops, such as M. incana.

Diversity and Plant Growth Promoting Ability of Culturable Endophytic Bacteria in Nepalese Sweet Potato

There is no information on Nepalese sweet potato endophytes. We isolated 243 endophytic bacteria belonging to 34 genera in six classes from 12 locations of Nepal. Among them, the predominant classes were Bacilli and Gammaproteobacteria. The principal component analysis revealed that the composition of bacterial classes was unrelated to the environmental parameters of the sampling sites. Regarding their plant growth promoting potentials, 57% of the strains demonstrated indole-3-acetic acid (IAA) producing ability while 5% strains had nitrogen fixing gene (nifH) and acetylene reduction assay (ARA) activity. The representative strains in all six classes showed antagonistic effect against bacterial pathogens while only Bacillus strain showed the effect against fungal pathogen. For endophytic traits, cellulase activity was observed in 5 classes, while pectinase activity was only in Proteobacteria. Fresh weight and vine length of sweet potato increased by inoculating mixed cultures of the isolates from each location.

大豆镰刀菌根腐病拮抗菌的筛选及生防效果

【目的】镰刀菌根腐病是世界范围内大豆生产上最具破坏性的土传病害之一,为获得对禾谷镰刀菌Fusarium graminearum具有较好拮抗效果的生防菌株。【方法】从健康大豆根际土壤分离细菌,平板对峙法筛选拮抗菌株,通过形态观察、生理生化特性、胞外酶活性及促生特性对菌株进行鉴定分析,采用盆栽试验进一步测定菌株生防及促生效果。【结果】筛选出的4株芽孢杆菌和1株假单胞杆菌对F.graminearum的抑菌率均达到60%以上,对F.oxysporum,F.solani,F.longifundum以及F.equiseti也均有一定的抑制作用,其发酵液及挥发代谢物均会影响F.graminearum的生长。5株拮抗菌具有产蛋白酶、纤维素酶以及葡聚糖酶的活性,解磷、解钾、固氮以及产铁载体的能力。综合以上测试结果,菌株20-8具有较强的抑菌及大豆促生效果。根据形态特征及16S rRNA序列分析,将菌株20-8鉴定为暹罗芽孢杆菌(Bacillus siamensis)。该菌株的发酵上清液可以破坏F.graminearum菌丝体结构,无细胞发酵上清液可以显著抑制孢子萌发。室内盆栽防效测定结果表明,20-8的稀释发酵液对F.graminearum引起大豆根腐病的防效可达46.08%,并且促进大豆植株生长。【结论】筛选鉴定的暹罗芽孢杆菌20-8具有解磷、解钾、固氮以及产铁载体及多种胞外酶功能,其稀释发酵液具有较强的抗真菌活性及大豆促生能力,菌株20-8可以用于防治F.graminearum引起的大豆根腐病。

一株降解黄曲霉毒素B_(1)、拮抗黄曲霉的菌株鉴定及应用研究

目的筛选、鉴定一株降解黄曲霉毒素B_(1)(aflatoxin B_(1),AFB_(1))及拮抗黄曲霉的菌株,并进行应用研究。方法以青岛市海洋、陆地、河流等不同地区的土壤、水质微生物为研究对象,利用平板划线法、AFB_(1)降解率和黄曲霉对峙试验法筛选得到有效菌;通过形态学观察和同源性分析,鉴定有效菌的种类;分离该菌的上清液、悬菌液、胞内液并对各组分的AFB_(1)降解率进行测定;提取有效菌的活性物质,对其提取物进行抑菌试验;主动侵染花生籽仁,验证有效菌对降解AFB_(1)及抑制黄曲霉生长的效果。结果通过筛选,得到有效菌株LE160。综合形态学特征和16S rRNA基因分析结果,鉴定菌株LE160为毕节假单胞菌(Pseudomonas bijieensis),命名为毕节假单胞菌LE160。该菌株胞外上清液、菌悬液和胞内液对AFB_(1)降解率分别为80.4%、16.3%、11.9%。该菌降解AFB_(1)不是依赖细菌胞体的吸附作用,而是细菌代谢产生并分泌至胞外的活性物质主导的生物降解作用。菌株提取液对黄曲霉菌有明显抑制作用。花生应用试验结果表明该菌株的发酵液对降解AFB_(1)及抑制黄曲霉生长有一定效果。结论菌株LE160对AFB_(1)具有良好的降解效果,能有效拮抗黄曲霉的生长,具有应用的潜力。本研究结果为深入研究该菌的降解机制奠定了基础,也为花生等农产品防控黄曲霉侵染提供了新思路。

物理诱变技术在提升有益微生物拮抗香蕉真菌病原菌方面的研究进展

香蕉真菌性病害是香蕉生产中的主要病害之一,可严重阻碍香蕉产业的可持续发展。而生物防治技术,尤其是利用生防菌的策略,为该问题提供了一个可持续的解决方案。尽管生物防治具有潜在的应用前景,但生防菌在田间的有效定殖和稳定防病能力仍是挑战。本研究聚焦于物理诱变技术对生防菌的改良效果,旨在提升其对香蕉真菌性病原的拮抗能力。利用物理诱变技术对生防菌株进行诱变改良可显著提高生防菌对寄主的定殖能力和病害的防治效果。为了明确物理诱变技术对提升生防菌田间防效的作用,本文综合分析了不同物理诱变技术的类型、作用机理以及它们在提升生防菌拮抗真菌病原体中的应用。同时,文中还探讨了突变菌株筛选与鉴定的方法,并对比了各技术的优缺点。特别指出了传统物理诱变技术在控制突变方向、提高效率及稳定性方面的局限,并提出了离子束、脉冲强光和空间诱变等新型物理诱变技术的潜在优势。通过归纳现有研究和展望未来发展方向,本文旨在为物理诱变技术在增强生防菌对植物病害防治效果的应用提供理论依据,并对其在未来香蕉真菌性病害管理中的应用潜力进行展望。

栝楼根腐病镰孢菌拮抗菌SJ1623发酵代谢物的抑制活性

检测了6株拮抗菌发酵上清液对栝楼根腐病菌的抑制活性,采用菌丝生长速率法测定优势拮抗菌不同接种量和发酵时间对发酵上清液抑菌活性的影响,测定了不同稀释倍数的发酵上清液和脂肽粗提物对栝楼根腐病菌的抑制活性。结果表明,对栝楼根腐病菌抑制活性最高的拮抗菌为SJ1623,种子液培养时间为10 h,0.75%(体积比)的接种量效果较好;发酵上清液稀释10倍对病菌的抑制率为87.6%,脂肽粗提物50倍稀释液对病菌的抑制率为83.1%。

花生白绢病菌拮抗细菌的分离鉴定及其温室抑菌促生效果

由齐整小核菌Sclerotium rolfsii Sacc.侵染引起的土传真菌性病害——花生白绢病,严重威胁花生的生产。为挖掘对花生白绢病有较好防治效果的拮抗细菌,利用稀释涂布法从感染S.rolfsii的植株根际土壤中分离得到570株细菌,采用平板对峙法筛选出32株S.rolfsii拮抗细菌,结合16S rRNA基因序列、形态学及生理生化特征,确定细菌的分类学地位。通过S.rolfsii与拮抗细菌的发酵液共培养和盆栽试验结果表明:在所筛选的32株拮抗细菌中,4株细菌HNZZ23、HNKF5、HNXX14和HNXX169对S.rolfsii的抑制时间长,抑制效果好,其发酵液对S.rolfsii菌丝生长的抑制率分别为85.30%、85.88%、85.16%和91.00%,对S.rolfsii菌核萌发的最大抑制率分别为100%、85.33%、82.67%和93.33%。菌株HNZZ23和HNXX14的发酵液对盆栽花生白绢病的防治效果分别为30.50%和25.73%,且菌株HNZZ23对花生植株的生长具有显著的促进作用。经分类学鉴定,菌株HNZZ23、HNKF5、HNXX14和HNXX169分别为萎缩芽孢杆菌Bacillus atrophaeuse、短小芽孢杆菌B.pumilus、铜绿假单胞菌Pseudomonas aeruginosa和枯草芽孢杆菌B.subtilis。本研究结果表明,感病花生根际细菌HNZZ23、HNKF5、HNXX14和HNXX169对花生白绢病原菌S.rolfsii具有良好的拮抗作用和生防潜力,可为花生白绢病的生物防治提供优质菌种资源。

一株香蕉枯萎病菌拮抗菌的筛选鉴定及盆栽防治效果

[目的]从香蕉根际土壤等材料中分离筛选获得对香蕉枯萎病菌有抑制作用的拮抗菌,为香蕉枯萎病生物防治提供理论基础及菌株资源。[方法]采用稀释平板分离法,从香蕉枯萎病罹病土壤、桑蚕和发酵藻等材料中分离得到微生物,再分别采用平板划线法和单孢分离法对细菌、真菌进行分离和纯化,以香蕉枯萎病菌亚热带4号生理小种(Foc STR4)为靶标菌,采用平板对峙法进行拮抗菌的筛选试验,对抑制效果最好的菌株进行基因测序鉴定、生理生化指标测定;以只接种Foc STR4为对照进行防治香蕉枯萎病的盆栽试验。[结果]从罹病的香蕉根际土壤中筛选得到1株对Foc STR4有明显抑制效果的拮抗细菌TU3-1,抑制率为56.18%,在试验中发现TU3-1对香蕉炭疽病菌等其他13种供试植物病原菌有抑制作用,其中对香蕉炭疽病菌的抑制效果最好,抑制率为75.99%。盆栽试验结果显示,与只接种Foc STR4处理相比,对香蕉枯萎病的防治效果为51.81%。经基因测序、序列比对和生理生化实验观测,TU3-1菌株被鉴定为贝莱斯芽孢杆菌属(Bacillus),该菌株为革兰氏阳性菌,厌氧性,可水解淀粉和纤维素,产生氨气和蛋白酶,最适宜培养基为PDA培养基,最适培养温度为30℃,最适生长pH为7。[结论]筛选鉴定得到1株对Foc STR4抑制率为56.18%、对香蕉枯萎病防治效果为51.81%的拮抗细菌TU3-1,被鉴定为B.velezensis,TU3-1对其他10种植物病原真菌及3种植物病原细菌也有抑制作用,表现出广谱抑菌活性,可进一步开发作为生防菌种质资源。