抗油桐枯萎病木霉菌的分离鉴定及抑菌作用研究

油桐是我国重要的木本油料植物,其生产的桐油作为天然的优良干性油在工业上具有广泛用途。但由油桐专化型尖孢镰孢菌Fusarium oxysporum f. sp. fordiis（Fof-1）侵染引起的枯萎病给油桐产业造成了毁灭性灾害,目前尚无有效防治手段。众多实践证明,利用生防菌可以有效防治土传枯萎病。本研究发现,在抗病油桐根围土壤中木霉菌的相对丰度较高,并从中分离获得了16株木霉菌;通过形态学鉴定和ITS-TEF1双基因联合构建系统进化树,鉴定出4种木霉菌：拟康宁木霉Trichoderma koningiopsis（TkonT1）、螺旋木霉T. spirale（TspiT2）、深绿木霉T. atroviride（TatrT3）和哈茨木霉T. harzianum（TharT4）;通过对峙培养试验,发现木霉菌株TkonT1、TharT4和TspiT2具有较好的抑菌效果;进一步显微观察发现菌株TkonT1和TatrT3可缠绕在尖孢镰孢菌菌丝体上或穿入菌丝体内营寄生生长,吸收病菌菌丝体养分进而导致病菌菌丝体破裂和细胞原生质消解。结果表明,从抗病油桐根围土壤中获得的拮抗木霉菌株可用于油桐枯萎病的生物防治。     

接种木霉菌对黄瓜幼苗生长和根际土壤AM真菌侵染的影响

在盆栽试验中分别接种3株长枝木霉菌株Trichoderma longibrachiatum MF-1、MF-2和MF-3,以不接种木霉菌处理作为对照,研究木霉菌接种对土著AM真菌和黄瓜幼苗生长的影响。结果表明,菌株MF-1和MF-2显著提高了AM真菌侵染率和根外菌丝密度,与对照相比,AM真菌侵染率分别提高了26.85%和54.66%,根外菌丝密度分别是对照的3.94和3.76倍。接种菌株MF-2使植株地上部生物量显著提高了39.07%。菌株MF-3显著提高土壤pH和土壤有效磷含量。Pearson相关分析发现,添加木霉菌后,AM真菌侵染率与根外菌丝密度和孢子密度均呈显著正相关关系,土壤pH与植株地上部生物量和土壤有效磷含量均呈显著正相关关系。研究表明,3株长枝木霉与土著AM真菌的联合作用效果有明显差异,菌株MF-1和MF-2显著促进AM真菌生长,菌株MF-2更有利于黄瓜幼苗生长,而菌株MF-3主要改善土壤pH和有效磷含量。将几种木霉菌复合应用,有助于达到联合促生和改善土壤环境的综合效果。     

Antagonistic activity and hyphal interactions of Trichoderma spp. against Fusarium proliferatum and F. oxysporum in vitro

Trichoderma is a well-known antagonist against soilborne plant pathogens. However, the species and even various isolates have different biocontrol potential. To evaluate the antagonistic activities of Trichoderma harzianum, T. harzianum strain T100 (T100), T. viride and T. haematum against Fusarium oxysporum and F. proliferatum, we used dual culture and productions of volatile and non-volatile metabolites in three different phases in vitro. An analysis of the data in dual culture tests represented T. viride, T. haematum and T100 as effective antagonists of Fusarium while T100 was the only fungus being able to lyse the confronting mycelia. Similar results were obtained in the volatile metabolites tests also. In contrast with the two previous tests, the non-volatile metabolites produced by T. harzianum inhibited Fusarium mycelial growth the most, and T100 acted moderately. It was also clearly showed that the antagonistic effect of Trichoderma spp. was more on F. proliferatum than on F. oxysporum. Finally, because Trichoderma spp. was most effective in the second phase, we recommend to use T100 against F. proliferatum at the initial stages of infection as its mycoparasitism on F. oxysporum was observed microscopically through forming apressoria structures without any coiling around the pathogen.     

Studies on the transmission of some Fusarium spp. to potato progeny tubers from mother plants and its biological control

Fusarium spp. attack potato roots causing root-rot, damping-off and wilt disease in Assuit Governorate. Forty-five Fusarium isolates were isolated from F. nygamai, F. acutatum, F. solani, F. proliferatum, F. subglutinans, and F. oxysporum. Isolates were tested for their pathogenic capability on Burn potato variety during growing season 2007/2008. Isolates infect potato plants causing either damping-off or wilt symptoms. Isolates varied in their virulence. Role of potato tuber seed in the transmission of the causal pathogen to daughter using Electrophoresis. Protein profiles of the tested isolates divided into four sub-clusters at similarity levels 93.79, 91.55 and 92.62% while isolate of Fusarium profile No. 11 formed separate sub-clusters at similarity level 69.79%. F. nygamai and F. solani were notable exception because profile No. 4 of F. nygamai from roots and profile No. 4 from sprouts were almost identical (similarity level 96.81%); similarity level between profile No. 8 from roots and profile no/8 from sprouts was 95.44%. Results prove that F. nygamai and F. solani are potato tuber seed-borne fungus. T. harzianum, T. viride, T. longibrachiatum, G. virens and E. nigrum or its filtrate inhibited the growth of F. nygamai, F. acutatum, F. solani, F. proliferatum, F. subglutinans and F. oxysporum. The formulation of T. harzianum, T. longibrachiatum and G. virens against tested pathogenic fungi reduce disease incidence under greenhouse conditions.     

Biocontrol efficacy of Trichoderma spp. against sesame wilt caused by Fusarium oxysporum f. sp. sesami

Sesame (Sesamum indicum L.) is one of the most important oilseed crops in Egypt and worldwide. It is being infected with many pathogens, among these pathogens Fusarium oxysporum f.sp. sesami (Zap.) Cast is causing severe economic losses on sesame. In this study, antagonistic capability of 24 isolates of Trichoderma spp. was assessed in vitro against F. oxysporum f.sp. sesami. Two strains; T. harzianum (T9) and T. viride (T21) were revealed to have high antagonistic effect against F. oxysporum f.sp. sesami in vitro with inhibition percentage about 70 and 67%, respectively. These two isolates proved to have high ability to control Fusarium wilt disease under greenhouse conditions. The highest reduction in disease severity was achieved with T. viride followed by T. harzianum with reduction in disease severity about 77 and 74%, respectively. This study revealed that the time of application of bioagents is a decisive factor in determining the efficacy of Trichoderma isolates to control Fusarium wilt of sesame. It was revealed that the highest reduction in the disease severity was achieved when either Trichoderma viride or T. harzianum were applied 7 days before challenging with the F. oxysporum f.sp. sesami.     

木霉菌合成银纳米粒子条件的优化及其对甜瓜尖孢镰刀菌抑制作用

随着绿色环保观念的普及,生物合成金属纳米粒子的方法备受青睐。纳米银(Silver nanoparticles,AgNPs)由于其抗菌活性强且不易产生抗药性等特点在农业病害防治中越来越受到关注。文中利用橘绿木霉Trichoderma citrinoviride和毛簇木霉Trichoderma velutinous研究了AgNPs的最适合成条件和AgNPs对尖孢镰刀菌抑菌活性。结果表明,所有合成的AgNPs均在400–500 nm处有吸收峰,两种木霉生物合成AgNPs的最适合成条件为CL法(菌丝滤液)静置光照培养,底物AgNO₃浓度为2.0mmol/L,pH值为7,反应温度为45℃。橘绿木霉和毛簇木霉合成的AgNPs均对尖孢镰刀菌有抑制作用,抑菌效果随浓度的增加而增大,AgNPs在浓度为200 mg/L时,抑菌率分别达到33.745%和36.083%。     

In vitro studies on the potential for biological control of Aspergillus flavus and Fusarium moniliforme by Trichoderma species

Culture filtrates of Trichoderma viride and Trichoderma harzianum were inhibitory of Fusarium moniliforme and, to a lesser extent, Aspergillus flavus. The degree of inhibition was, however, dependent on the carbon or nitrogen source incorporated into the medium. Scanning electron microscopy revealed the development of abnormal fruiting structures on exposure to some Trichoderma culture filtrate, while macroscopically, growth restriction and, in the case of A. flavus, altered colony colouration were observed. Based on the results of inverted colony culture, it would appear that some isolates of Trichoderma produce inhibitory volatile compounds. The production of possible antibiotics was also demonstrated. The aggressive behaviour (towards A. flavus and F. moniliforme) demonstrated by Trichoderma spp. may be partly explained by the liberation of extracellular enzymes by these fungi. An isolate of T. viride exhibited amylolytic, pectinolytic, proteolytic and cellulolytic activity. Based on the results of the present investigation, Trichoderma spp. are potential candidates for biocontrol of some mycotoxin-producing fungi, but there exists some doubt as to their osmotolerance within the air-dry seed. This revised version was published online in August 2006 with corrections to the Cover Date.     

Sensitivity of Clonostachys rosea and Trichoderma spp. as Potential Biocontrol Agents to Pesticides

Clonostachys rosea 47 (CR47), Trichoderma atroviride 59 (TA59), T. atroviride 312 (TA312), Trichoderma harzianum 24 (TH24), Trichoderma longibrachiatum 9 (TL9), T. longibrachiatum 144 (TL144) and Trichoderma viride 15 (TV15) were tested to evaluate their in vitro sensitivity towards five fungicides (carboxin, guazatine, prochloraz, thiram and triticonazole) and four herbicides (chlorsulfuron, chlorotoluron, flufenacet and pendimethalin). All antagonists showed low sensitivity to carboxin and thiram and high sensitivity to prochloraz. For mycelial radial growth, TV15 was highly sensitive to guazatine, prochloraz and triticonazole and TH24 moderately insensitive to carboxin, guazatine and thiram. For conidial germination TL144 was the most sensitive to the fungicides, for mycelial radial growth and conidial germination CR47 was the least sensitive. None of the antagonists showed any mycelial radial growth inhibition in presence of the herbicides at field dose, except for TL144. Most antagonists did not show any conidial germination inhibition by the herbicides. The in vitro toxicity of prochloraz, guazatine and triticonazole towards the antagonists was confirmed by light and scanning electron microscope showing hyphal disruptions and extrusion of cytoplasmic content. A mixture of CR47 and/or TA312 with carboxin, thiram and triticonazole, applied to wheat seeds, was able to control Fusarium culmorum artificially inoculated to wheat seedlings in growth chambers. In the field, the antagonists applied along with triticonazole or thiram, at 1/10 of the field dose to seeds naturally infected by F. culmorum, gave a disease control comparable to that induced by triticonazole at full field dose. Our results demonstrate how an integration of microorganisms with pesticides makes the control of wheat foot rot possible.     

木霉属真菌分离培养的研究进展

木霉属真菌（Trichoderma spp.）种类众多、分布广泛,在农业、工业和环境修复领域应用广泛。因此,木霉属真菌的分离培养具有重要的研究价值。本文通过详尽的文献查找和分析对木霉属真菌的分离培养研究进展予以综述,从生存环境、不同分离基质和分离方法的样品前处理方法等总结了木霉属真菌的分离基质及预处理方法;详细回顾了木霉属真菌分离培养基研究的发展历程和主要原理;简要介绍了目前木霉属真菌的纯化与保存方法;并从开展多种抗菌物质和表面活性剂探索角度对未来木霉属真菌分离培养进行了展望,以期为木霉属真菌资源开发提供参考。     

两株芽孢杆菌对花生幼苗生长及其根际土壤微生物群落结构的影响

【背景】贝莱斯芽孢杆菌(Bacillus velezensis)和坚强芽孢杆菌(Bacillus firmus)对花生的促生作用及促生机制研究尚未见报道。【目的】从微生物群落结构和土壤氮磷钾有效养分两个方面综合解析两株芽孢杆菌(贝莱斯芽孢杆菌HP9和坚强芽孢杆菌HP10)对花生的促生机制。【方法】以两株芽孢杆菌为研究对象,通过单独灌根或混合灌根盆栽花生,测定其对花生生长及根际土壤氮磷钾有效养分的影响;利用高通量测序技术分析灌根组与对照组花生根际土壤的细菌和真菌群落结构及多样性。【结果】与对照组相比,3个灌根处理组均明显促进了花生幼苗茎部的伸长及鲜重的增加,根际土壤碱解氮含量显著提高,有效磷和速效钾含量有不同程度增加。芽孢杆菌对花生根际土壤的微生物多样性无显著影响,但影响了细菌和真菌的群落结构组成。灌根处理组根际土壤的拟杆菌门及Mortierellomycota等相对丰度显著增加,在属水平上,农杆菌属、节杆菌属、芽孢杆菌属、伯克霍尔德氏菌属、黄杆菌属、Pedobacter、极地单胞菌属、假单胞菌属、鞘脂单胞菌属、寡养单胞菌属等属的相对丰度明显提高,而且无色杆菌属、短波单胞菌属、金黄色杆菌...     

Quantitative Fusarium spp. and Microdochium spp. PCR assays to evaluate seed treatments for the control of Fusarium seedling blight of wheat

AIMS: To develop sensitive quantitative PCR assays for the two groups of pathogens responsible for Fusarium seedling blight in wheat: Fusarium group (Fusarium culmorum and Fusarium graminearum) and Microdochium group (Microdochium nivale and Microdochium majus); and to use the assays to assess performance of fungicide seed treatments against each group. METHODS AND RESULTS: Primers conserved between the species within each group were used to develop competitive PCR assays and used to quantify DNA of each group in wheat seed produced from inoculated field plots. Seed was used in seed treatment efficacy field experiments and the amount of DNA of each group was determined in emerged seedlings. The performance of treatments towards each group of pathogens was evaluated by comparison of the reduction in DNA in seedlings emerged from treated seed compared with untreated seed. CONCLUSIONS: DNA from the two groups of pathogens causing Fusarium seedling blight of wheat can be quantified separately using the competitive PCR assays. These assays show improved sensitivity compared with those previously reported for the individual species and allowed the quantification of pathogen DNA in seed and seedlings. Significant reductions in pathogen DNA were evident for each seed treatment. SIGNIFICANCE AND IMPACT OF THE STUDY: Quantification of DNA for each group allows the evaluation of seed treatment performance towards the two components of Fusarium seedling blight disease complex. The approach taken and the assays developed in this study will be of use for the study of other Fusarium disease complexes and their control. Based on the results reported here on the seedling stage of crop development, further studies that examine the control of seed-borne pathogens through fungicide seed treatments throughout the growing season are warranted.     

木霉菌对3种致病真菌的作用关系研究

采用室内生长速率法测定了木霉菌 (Trichodermaspp .)与 3种致病真菌的互作关系 ,结果表明 ,木霉菌与 3种致病真菌间均存在明显的互作关系 ,但其互作类型与作用强度各不相同 :木霉菌与立枯丝核菌 (Rhi zoctoniasolani)间存在拮抗作用 ,但抑制强度不大 ;木霉菌与腐霉菌 (Pythiumaphanidermatum)不仅存在拮抗作用 ,且对腐霉菌的抑制强度较大 ;木霉菌与镰刀菌 (Fuariumspp .)间存在明显的协生作用。经进一步多方面考察后 ,有可能将该木霉菌用于病害防治     

木霉(Trichoderma spp.)对三种引起大棚蔬菜病害病原菌的影响

通过木霉属(Trichoderma) 3菌株与双鸭山蔬菜大棚中的黄瓜枯萎病菌(FusariumoxysporumSchlecht.f.cucumerinum)、黄瓜果腐病菌(PhytophthoracapsiciLeonian)、菜豆叶枯病菌(Cladosporiumsp .)的对峙培养试验,结果表明:绿色木霉1(TrichodermaviridePers.exGray 1)可作为双鸭山蔬菜大棚中的黄瓜枯萎病、黄瓜果腐病、菜豆叶枯病3种病害的生物防治拮抗菌加以利用,该拮抗菌对菜豆叶枯病菌抑制效果最好;绿色木霉2 (Tricho dermaviride 2 )对黄瓜果腐病菌抑制效果最好;而哈茨木霉(TrichodermaharzianumRifai)对以上3种病原菌都有抑制效果,对菜豆叶枯病菌抑制效果最好。从试验结果还可看出,绿色木霉2对黄瓜枯萎病菌和菜豆叶枯病菌的生长有促进作用。     

Control of chickpea wilt (Fusarium oxysporum f.sp. ciceris) using Trichoderma spp. in Ethiopia

Thirty-two Trichoderma isolates were collected from soils grown with chickpea in central highlands of Ethiopia. The eight isolates were identified by CAB-International as Trichoderma harzianum, T. koningii and T. pseudokoningii. In in vitro tests, all Trichoderma isolates showed significant (P < 0.05) differences in their colony growth and in inhibiting the colony growth of Fusarium oxysporum f.sp. ciceris, race 3. In potted experiment, four Trichoderma isolates were tested as seed treatment on three chickpea cultivars (JG-62 susceptible, Shasho moderately susceptible and JG-74 resistant) against F. oxysporum f.sp. ciceris, race 3. The result showed that T. harzianum and unidentified Trichoderma isolate T23 significantly reduced wilt severity and delayed disease onset. The degree of wilt severity and delay of disease onset varied with chickpea cultivars. Our study revealed that biological control agents such as Trichoderma can be a useful component of integrated chickpea Fusarium wilt management.     

Genetics of resistance to Fusarium oxysporum f.sp. cucumerinum races 1 and 2 in cucumber line Wisconsin-2757

The mode of inheritance of resistance to Fusarium oxysporum f.sp. cucumerinum races 1 and 2 in Wisconsin-2757 (WI-2757), a gynoecious cucumber (Cucumis sativus L.), was determined by analysing segregation of F₁, F₂ and BC₁ populations of crosses with susceptible cultivar Straight-8. Resistance to either race 1 or race 2 in WI-2757 was conferred by a single dominant gene. In allelism tests, resistance to either race in WI-2757 was determined by the gene Fcu-1, which also confers resistance in line SMR-18.     

食用菌与木霉菌互作机制研究进展

在食用菌生产中木霉菌不仅污染食用菌培养料,而且感染其菌丝体和子实体,常造成巨大的经济损失。本文综述了食用菌与木霉菌互作的形态学特征和生物化学基础,介绍了食用菌抗病性遗传及抗性机制研究现状,提出了未来宿主与病原菌互作机制研究的方向。     

Effects of infection time and moisture on development of ear blight and deoxynivalenol production by Fusarium spp. in wheat

Wheat ears were inoculated with conidia of Fusarium spp. at different growth stages between ear emergence and harvest and moist conditions were maintained for up to 7 days subsequently by mist irrigation. Of the fungi tested (Fusarium culmorum, F. avenaceum, F. tricinctum, F. sporotrichioides and Microdochium nivale), only F. culmorum produced ear blight symptoms and grain samples were found subsequently to contain deoxynivalenol. Most ear infection and deoxynivalenol formation occurred following inoculation at about mid-anthesis. Small amounts of deoxynivalenol were formed and some F. culmorum was isolated even in the absence of ear blight symptoms. An overnight wet period was sufficient to initiate infection and deoxynivalenol formation but both were increased by extending the wet period up to at least 3 days. Recovery of Fusarium spp. from harvested grain was usually possible whether or not symptoms developed. F. culmorum usually persisted and often increased to moderately high levels after storage for 7 wk in a range of moisture conditions.     

根癌农杆菌介导的木霉遗传转化及应用进展

木霉作为土传植物病原菌的生防真菌,研究其功能基因具有重要的意义。根癌农杆菌介导的遗传转化(ATMT)为木霉功能基因的研究提供了一个强有力的工具。对根癌农杆菌介导木霉遗传转化的机理、特点、方法及其在木霉中的应用进行了综述。     

Relationship of in vitro and in planta screening: improving the selection process for biological control agents against Fusarium root rot in row crops

Fusarium root rot in row crops is typically managed by cultural practices and fungicide seed treatments. Biological control using microbial agents is another option but needs further development for improved disease management. Screening to identify biocontrol agents are crucial. However, relationships among the steps and how to improve the screening process are unresolved questions. Strains of Burkholderia (4), Bacillus (5) and Trichoderma (26) were studied in vitro against six Fusarium pathogens. All the bacteria and five selected Trichoderma strains were tested in planta in the greenhouse against diseases of Fusarium graminearum and Fusarium oxysporum. Burkholderia ambifaria C628, Bacillus simplex R180, and all Trichoderma isolates showed high reduction in disease levels in corn, soybean and wheat, ranging from 16 to 63%. Responses of the biocontrol agents during in vitro and in planta screening did not always correlate. In vitro and in planta tests should be considered independently in selecting biocontrol candidates.     

Evaluation of Streptomyces spp. and Bacillus spp. for biocontrol of Fusarium wilt in chickpea (Cicer arietinum L.)

A study was carried out to test direct and indirect antagonistic effect against Fusarium wilt, caused by Fusarium oxysporum f. sp. ciceri (FOC), and plant growth-promoting (PGP) traits of bacteria isolated from rhizosphere soils of chickpea (Cicer arietinum L.). A total of 40 bacterial isolates were tested for their antagonistic activity against FOC and of which 10 were found to have strong antagonistic potential. These were found to be Streptomyces spp. (five isolates) and Bacillus spp. (five isolates) in the morphological and biochemical characterisation and 16S rDNA analysis. Under both greenhouse and wilt sick field conditions, the selected Streptomyces and Bacillus isolates reduced disease incidence and delayed expression of symptoms of disease, over the non-inoculated control. The PGP ability of the isolates such as nodule number, nodule weight, shoot weight, root weight, grain yield and stover yield were also demonstrated under greenhouse and field conditions over the non-inoculated control. Among the ten isolates, Streptomyces sp. AC-19 and Bacillus sp. BS-20 were found to have more potential for biocontrol of FOC and PGP in chickpea. This investigation indicates that the selected Streptomyces and Bacillus isolates have the potential to control Fusarium wilt disease and to promote plant growth in chickpea.