Suppression of southern corn leaf blight by a plant growth-promoting rhizobacterium Bacillus cereus C1L

Southern corn leaf blight (SCLB) is an important foliar disease of maize. In this study, an induced systemic resistance (ISR)-eliciting rhizobacterium Bacillus cereus C1L was used to protect maize against SCLB. Application of B. cereus C1L in maize rhizosphere effectively protected maize from SCLB under greenhouse and field conditions. The protection effect of B. cereus C1L was similar to that of Maneb (2 kg active ingredient per hectare), a recommended fungicide. Furthermore, possible factors of B. cereus C1L to elicit ISR and to promote plant growth were investigated. The results indicate that secreted factors and rhizosphere colonisation ability of B. cereus C1L are involved in ISR elicitation. In addition to biocontrol activity, B. cereus C1L was able to promote growth of maize in field. Compared with a non-treated control, leaf length, leaf width, plant height and fresh and dry weights of B. cereus C1L-treated corn plants significantly increased. Therefore, B. cereus C1L acts as a plant growth-promoting rhizobacterium of maize.     

木霉菌在玉米病害生物防治中的作用机制及应用

目前,世界上共有分属于10个属（Trichoderma,Gliocladium,Chaetomium,Bacillus,Burkhoderia,Streptomyces and Pseudomonas,Pantoea,Enterobacter,Macrobacterium）中的微生物被试验用于玉米病害的生物防治,其中细菌14种,真菌17种,放线菌1种。国际上由木霉菌开发的生物杀菌剂和生物肥料有50余种,其中以哈茨木霉T22菌株开发的产品最为著名。目前在我国也开发出了4种木霉菌剂型（可湿性粉剂、颗粒剂、水分散粒剂和种衣剂）,正式登记的木霉菌杀菌剂有7种,其中6种为可湿粉剂,1种为水分散粒剂,主要登记用于防治番茄、观赏百合、黄瓜的立枯病、猝倒病、根腐病、灰霉病、霜霉病以及小麦的纹枯病,但尚无木霉菌生物农药被登记用于防治玉米病害。以木霉菌为主要成分登记的菌肥产品有11种,其中在玉米上应用的有2种。由课题组研制的木霉菌颗粒剂和种衣剂通过土壤穴施和种子包衣可有效防治玉米茎腐病和纹枯病,其中木霉菌颗粒剂防效达65%-87%。近期研制的木霉菌可湿性粉剂对玉米小斑病的防效达50%-60%。国际上已鉴定出多种可诱导玉米获得系统抗性的木霉菌源激发子,其中包括Sm1、纤维素酶、疏水蛋白和Avr4 /Avr9等效应因子。本课题组近年鉴定出Thc6（锌指蛋白类转录因子）、PAF-AH和Thph1/Thph2的编码产物在系统诱导以JA/ET信号调控的玉米抗弯孢菌叶斑病中具有重要作用,符合植物免疫MAMPs模式,为全面认识木霉菌诱导免疫机理提供了重要理论依据。木霉菌诱导玉米从根至叶片的防御反应系统传导机制还需深入研究。     

Biological control of onion leaf blight disease by bulb and foliar application of powder formulation of antagonist mixture

Abstract

Three antagonists: Pseudomonas fluorescens (Pf1), Bacillus subtilis and Trichoderma viride, were tested alone and in combination for suppression of onion leaf blight (Alternaria palandui) disease under glasshouse and field conditions. The average mean of disease reduction was 24.81% for single strains and 42.44% for mixtures. In addition to disease suppression, treatment with a mixture of antagonists promoted plant growth in terms of increased plant height and ultimately bulb yield. Though seed treatment of either single strain or strain mixtures alone could reduce the disease, subsequent application to root, leaves or soil further reduced the disease and enhanced the plant growth. The mixture consisting of Pseudomonas fluorescens Pf1 plus Bacillus subtilis plus Trichoderma viride was the most effective in reducing the disease and in promoting plant growth and bulb yield in greenhouse and field tests.     

拟康氏木霉胞壁多糖对黄瓜抗病性的诱导作用

为了更全面地认识拟康氏木霉菌（Trichoderma pseudokoningii SDTP1）的抗病机理,为该菌的开发和科学的施用提供依据,通过灌根处理和人工接病的方式研究了拟康氏木霉菌胞壁多糖（TPWS）对黄瓜幼苗抗病性的诱导作用。结果表明用浓度为200mg／L的TPWS处理后对人工接种尖镰孢分生孢子悬液的黄瓜幼苗的保护作用达到53．8％,浓度进一步提高保护作用升高不明显;用200mg／L的TPWS处理后,黄瓜幼苗下胚轴内苯丙氨酸解氨酶（PAL）和多酚氧化酶（POD）的活性及木质素的含量分别于6、30、30h后开始迅速升高,最高值时分别是对照的2．2、3．1、4．4倍;用200mg／L的TPWS处理后需要4d黄瓜幼苗才能表现出抗病性,不仅降低了伤根接种尖孢镰刀菌分生孢子悬液幼苗的枯萎病发病率,也能降低在茎部和叶面穿刺接种灰葡萄孢分生孢子悬液幼苗的灰霉病发病率。而TPWS在体外对两种病原菌无抑制作用,我们认为经处理的幼苗枯萎病和灰霉病发病率的降低与TPWS诱导了幼苗的抗病性有关,且这种抗性是系统的、非特异性的。抗病性可能与木质素含量的升高有关。     

Induction of systemic resistance in rice by leaf extracts of Datura metel against sheath blight disease

The leaf extracts of Datura metel [both aqueous leaf extract (ALE) and ethanolic leaf extract (ELE)] were observed here to find if they can induce systemic resistance in the rice commonly found in Eastern India. The results showed that after the treatment, the enzyme activities of all the defence-related enzymes increased to a certain level even without pathogenic infection in comparison with non-treated seedlings and then, maintain at constant level throughout the study period. When treated seedlings were infected with Rhizoctonia solani, the enzyme activities were increased more than in uninfected seedlings. The elevated enzyme activities gave the indication of an induced systemic resistance in rice. The ELE of D. metel showed better induction effect than ALE.     

Biological control of Fusarium oxysporum f. sp. radicis-cucumerinum by some Trichoderma harzianum isolates

The purpose of this study was to investigate the effects of isolates T₂₂, T₉ and T₆ of Trichoderma harzianum on isolate F₄₂ of Fusarium oxysporum f. sp. radicis-cucumerinum. The effect of T. harzianum isolates on controlling disease was examined under greenhouse conditions. Results showed that these three isolates, respectively, had the high effect on inhibition of pathogen growth. In examining the severity of disease in the greenhouse, it was found that isolate T₂₂ had the greatest effect on controlling the pathogen. The results of volatile compounds showed that these isolates, respectively, were effective in reducing mycelial growth of isolate F₄₂. The highest peroxidase activity was observed on the fourth day in isolate T₆ and the highest phenylalanine ammonia lyase enzyme activity was observed on the fifth day in isolate T₂₂. Based on the results, isolate of T₂₂ showed the greatest effect on the induction of resistance against F₄₂ and may be a successful agent for biological control of root and stem rot of cucumber.     

Biological control of tomato collar rot induced by Sclerotium rolfsii using Trichoderma species isolated in Bangladesh

This study evaluated three Trichoderma strains (T. harzianum TR05, T. virens TR06 and T. asperellum TR08) originating from Bangladesh as potential biological control agents against collar rot of tomato under greenhouse conditions. After seed treatment with TR05, a disease incidence of collar rot (5.36%) was lower than for TR06 (34.2%) and TR08 (20.8%). Germination percentage of tomato was highest for TR05 (90.3%). In soil treatment, inoculation with TR08 resulted in the lowest disease incidence (9.78%), and the disease incidence was statistically no different from that for TR05 (16.4%). Thus, TR05 and TR08 have potential as biological control agents of collar rot in tomato.     

Association of some plant defense enzyme activities with systemic resistance to early leaf blight and leaf spot induced in tomato plants by azoxystrobin and Pseudomonas fluorescens

Abstract

Azoxystrobin at three different concentrations, namely, 31.25, 62.50 and 125 g a.i. ha^?1 mancozeb (1 kg ha^?1) and Pseudomonas fluorescens (10 kg ha^?1) were evaluated for their efficacy in inducing defense enzymes in tomato against Alternaria solani and Septoria lycopersici. The activity of defense enzymes peroxidase (PO), polyphenol oxidase (PPO), phenylalanine ammonia lyase (PAL), β-1, 3 glucanase, chitinase, catalase and defense-inducing chemicals (total phenols) was found to be increased in azoxystrobin and P. fluorescens-treated tomato plants. The activity of these defense enzymes and chemicals was higher in azoxystrobin (125 g a.i. ha^?1) and P. fluorescens-treated tomato plants challenge inoculated with the pathogens compared to other treatments. Increased expression of specific isoforms of PO and PPO was also observed due to ISR induction.     

茉莉酸类化合物:从植物的诱导抗虫防御反应到生长-防御权衡

茉莉酸类化合物(jasmonates, JAs)可外源诱导植物产生抗虫防御反应.因此,JAs在植物生理及植物保护学领域具有十分重要的研究价值.本文归纳了近20年来在约40种植物上外源施用JAs对鳞翅目、半翅目等植食者及其天敌所产生的生态影响,并从JAs诱导植物产生的直接与间接抗虫反应、诱导系统抗性、诱导方法、田间诱导抗虫表现、应用现状等方面对JAs诱导植物抗虫的研究现状进行了系统的总结.同时,本文结合最新研究结果,从植物体内信号交流、JA信号途径节点调控等方面,对植物体内与JA途径相关的生长-防御“权衡”进行了综述.最后,本文对今后外源JAs诱导植物抗虫研究的发展方向与重点方面进行了分析和展望,以期促进相关研究及JAs田间应用的创新发展.     

Biological control of onion neck rot (Botrytis aclada): Protection of wounds made by leaf topping

The efficacy of fungal antagonists in protecting onions from neck rot caused by Botrytis aclada was investigated. Leaf wounds made by topping of onions during harvest, which are considered as important entrance sites for B. aclada, were treated with conidial suspensions (5 × 10⁷ conidia ml^‐1) of antagonists. In field experiments with artificial inoculation with conidia of B. aclada, applications of Trichoderma viride during harvest reduced the incidence of neck rot, assessed after three months’ storage of the onions at 9° C, from 35% to 24% in 1989 and from 28% to 18% in 1990, when onions initially had been stored under favourable conditions for fungal development. Comparable results were obtained with T. hamatum and Gliocladium roseum. A bioassay based on wound treatment of detached onion leaves was developed to select further antagonists. From 40 candidate antagonists tested, 20 strains gave similar or better control than the strain of T. viride applied in the field experiments. Effective antagonists could be found amongst strains of Trichoderma spp. Gliocladium spp. and Penicillium spp. as well as amongst fungi such as Aureobasidium pullulans and yeasts isolated from green leaves of onion or rye.     

Sm2, a paralog of the Trichoderma cerato-platanin elicitor Sm1, is also highly important for plant protection conferred by the fungal-root interaction of Trichoderma with maize

Background

The proteins Sm1 and Sm2 from the biocontrol fungus Trichoderma virens belong to the cerato-platanin protein family. Members of this family are small, secreted proteins that are abundantly produced by filamentous fungi with all types of life-styles. Some species of the fungal genus Trichoderma are considered as biocontrol fungi because they are mycoparasites and are also able to directly interact with plants, thereby stimulating plant defense responses. It was previously shown that the cerato-platanin protein Sm1 from T. virens - and to a lesser extent its homologue Epl1 from Trichoderma atroviride - induce plant defense responses. The plant protection potential of other members of the cerato-platanin protein family in Trichoderma, however, has not yet been investigated.

Results

In order to analyze the function of the cerato-platanin protein Sm2, sm1 and sm2 knockout strains were generated and characterized. The effect of the lack of Sm1 and Sm2 in T. virens on inducing systemic resistance in maize seedlings, challenged with the plant pathogen Cochliobolus heterostrophus, was tested. These plant experiments were also performed with T. atroviride epl1 and epl2 knockout strains. In our plant-pathogen system T. virens was a more effective plant protectant than T. atroviride and the results with both Trichoderma species showed concordantly that the level of plant protection was more strongly reduced in plants treated with the sm2/epl2 knockout strains than with sm1/epl1 knockout strains.

Conclusions

Although the cerato-platanin genes sm1/epl1 are more abundantly expressed than sm2/epl2 during fungal growth, Sm2/Epl2 are, interestingly, more important than Sm1/Epl1 for the promotion of plant protection conferred by Trichoderma in the maize-C. heterostrophus pathosystem.

Electronic supplementary material

The online version of this article (doi:10.1186/s12866-014-0333-0) contains supplementary material, which is available to authorized users.     

Biological control of Sclerotinia sclerotiorum attacking soybean plants. Degradation of the cell walls of this pathogen by Trichoderma harzianum (BAFC 742)

Two experiments of biological control of Sclerotinia sclerotiorum, one in the greenhouse and the other in the field, were carried out with soybean and Trichoderma harzianum as host and antagonist, respectively. Significant control of disease was achieved in both experiments, but there were no significant differences in plant growths. In the greenhouse, the application of T. harzianum as alginate capsules, increased the survival of soybean plants more than 100% with respect to the disease treatment. In the field, T. harzianum treated plants survived 40% more than those from the disease treatment, showing a similar survival level to control plants. Besides, a significant reduction (62.5%) in the number of germinated sclerotia was observed in the Trichoderma treated plot. Chitinase and 1,3-β- glucanase activities were detected when T. harzianum was grown in a medium containing Sclerotinia sclerotiorum cell walls as sole carbon source. In addition, electrophoretic profiles of proteins induced in T. harzianum showed quantitative differences between major bands obtained in the media induced by S. sclerotiorum cell walls and that containing glucose as a sole carbon source. This revised version was published online in June 2006 with corrections to the Cover Date.     

Different mechanisms of Trichoderma virens‐mediated resistance in tomato against Fusarium wilt involve the jasmonic and salicylic acid pathways

In the present study, we investigated the role of Trichoderma virens (TriV_JSB100) spores or cell‐free culture filtrate in the regulation of growth and activation of the defence responses of tomato (Solanum lycopersicum) plants against Fusarium oxysporum f. sp. lycopersici by the development of a biocontrol–plant–pathogen interaction system. Two‐week‐old tomato seedlings primed with TriV_JSB100 spores cultured on barley grains (BGS) or with cell‐free culture filtrate (CF) were inoculated with Fusarium pathogen under glasshouse conditions; this resulted in significantly lower disease incidence in tomato Oogata‐Fukuju plants treated with BGS than in those treated with CF. To dissect the pathways associated with this response, jasmonic acid (JA) and salicylic acid (SA) signalling in BGS‐ and CF‐induced resistance was evaluated using JA‐ and SA‐impaired tomato lines. We observed that JA‐deficient mutant def1 plants were susceptible to Fusarium pathogen when they were treated with BGS. However, wild‐type (WT) BGS‐treated tomato plants showed a higher JA level and significantly lower disease incidence. SA‐deficient mutant NahG plants treated with CF were also found to be susceptible to Fusarium pathogen and displayed low SA levels, whereas WT CF‐treated tomato plants exhibited moderately lower disease levels and substantially higher SA levels. Expression of the JA‐responsive defensin gene PDF1 was induced in WT tomato plants treated with BGS, whereas the SA‐inducible pathogenesis‐related protein 1 acidic (PR1a) gene was up‐regulated in WT tomato plants treated with CF. These results suggest that TriV_JSB100 BGS and CF differentially induce JA and SA signalling cascades for the elicitation of Fusarium oxysporum resistance in tomato.     

Characterization of Trichoderma Isolates from Philippine Rice Fields by UP-PCR and rDNA-ITS1 Analysis: Identification of UP-PCR Markers

Forty-two isolates of Trichoderma from rice fields in four provinces in the Philippines were characterized using rDNA-ITS1 analysis and universally primed polymerase chain reaction (UP-PCR). Two groups were clearly distinguishable on the basis of length and restriction pattern of the internal transcribed spacer (ITS) region of the ribosomal DNA and UP-PCR banding profiles using UP primer, L45. The 40 isolates comprising the largest group were very similar with respect to their UP-PCR banding profiles and were assigned to Trichoderma harzianum Rifai following morphological identification of four of the isolates. The two isolates belonging to the second group were identified as Trichodermaviride Pers. ex. Gray on the basis of their morphology, rDNA-ITS1 analysis and distinct UP-PCR banding profiles. One of the T. harzianum isolates with good cellulolytic and competitive saprophytic abilities was analysed using single and pair-wise combinations of UP primers in order to distinguish it from the remaining 41 isolates. A suitable diagnostic marker was identified and this marker will be valuable for monitoring the isolate in field tests.     

Biological efficacy of <Emphasis Type="Italic">Trichoderma harzianum</Emphasis> isolate to control some fungal pathogens of wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis>) in Turkey

Gaeumannomyces graminis var. tritici, Fusarium culmorum and F. moniliforme are highly important and widespread pathogens of wheat in Turkey. Trichoderma isolates have been used as biocontrol agents to protect plants against soilborne diseases in several crops. The present work was carried out to evaluate the potential of Trichoderma harzianum isolate T1 as biocontrol agents for G. graminis, F. culmorum and F. moniliforme under field conditions in 2001 and 2002. Quantitative differences were found in microbial number in soil. T. harzianum T1 had considerable effect on population densities of the tested pathogens. The total number of G. graminis, F. culmorum and F. moniliforme were lower in the T. harzianum T1 application made to seed. T. harzianum T1 application to seed had increasing affect on the yield components of wheat through better control over pathogens. The greatest counts of T. harzianum T1 were detected on root segments. Seed application by T. harzianum T1 had increasing effect on yield components of wheat.     

Biological control of rice bacterial blight by Lysobacter antibioticus strain 13-1

Bacterial leaf blight (BB) is a worldwide destructive rice disease caused by pathogen Xanthomonas oryzae pv. oryzae (Xoo). A novel strain of Lysobacter antibioticus, which was isolated from the rhizosphere of rice in Yunnan Province of China, can significantly inhibit the growth of various phytopathogenic bacteria and fungi, especially BB pathogen Xoo. In greenhouse experiments, whole bacterial broth culture (WBC) of strain 13-1 was more effective in reducing BB than other components of the culture, with disease suppression efficiency up to 69.7%. However, bacterial cells re-suspended in water, cell-free culture extracts, and heated cultures also significantly reduced BB severity. Suppression efficiencies ranged from 79.0% to 61.8% for undiluted to 100-fold dilution treatments and from 57.6% to 31.7% when the WBC of strain 13-1 (10⁸ CFU/mL) was applied at 3 days and 7 days prior to pathogen inoculation, respectively. In three field trials, strain 13-1 reduced BB incidence by 73.5%, 78.3%, and 59.1%, respectively. Disease suppression by strain 13-1 varied significantly among different rice cultivars, although efficacy was not directly related to the susceptibility level of the cultivars. Efficacy of biocontrol was also affected by different pathogen isolates, with some isolates of Xoo being more sensitive to 13-1 suppression than others. These results suggest that antibiotics and density of colonization on leaves may be involved for biological control of rice BB by strain 13-1. To our knowledge, this is the first report of L. antibioticus being a potential biocontrol agent for rice bacterial blight.