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.     

绿色木霉TV41对尖孢镰刀菌FW0在西瓜植株空间分布和枯萎病防控效果的影响

【目的】为进一步探究盆栽试验条件下绿色木霉TV41 (Trichoderma viride TV41)对尖孢镰刀菌FW0 (Fusarium oxysporum FW0)在西瓜植株空间分布的影响以及对西瓜枯萎病的防控效果。【方法】通过定期检测不同处理西瓜根际/根表尖孢镰刀菌的数量、西瓜植株根内/茎内尖孢镰刀菌的数量以及植株侧根被侵染比例和尖孢镰刀菌在植株内的侵染进程,进行多次盆栽试验并统计发病率。【结果】当绿色木霉和尖孢镰刀菌接种量均为5×105孢子/g基质时,绿色木霉TV41在西瓜根际/根表的定殖数量明显高于尖孢镰刀菌FW0的数量,接种了绿色木霉TV41的处理,根际/根表尖孢镰刀菌的数量(103/g基质)显著低于仅接种FW0的对照(104/g基质);绿色木霉TV41不仅能够有效减缓尖孢镰刀菌在西瓜植株内的侵染进程,而且能够有效降低西瓜植株根内、茎内尖孢镰刀菌的数量。与对照(只接种FW0)相比,接种绿色木霉后西瓜枯萎病的发病率从66%降低到27%。【结论】绿色木霉TV41能够通过影响尖孢镰刀菌FW0在西瓜植株的空间分布,从而有效防控西瓜枯萎病的发生,防控效果达到60%。     

Alleviation of Fusarium oxysporum induced oxidative stress in wheat by Trichoderma viride

Trichoderma viride (Pers.) pre-inoculated wheat seedlings infected with Fusarium oxysporum Schlecht. (co-stressed) did not show wilting symptoms compared to Fusarium infected seedlings. Antagonistic activity of T. viride could be demonstrated against Fusarium infection by dual culture experiment. After seven days post infection, morphological and physiological parameters such as, root and shoot length, fresh and dry weight, relative water content, total soluble protein, total chlorophyll and carotenoid contents were observed to be increased in co-stressed compared to Fusarium infected seedlings. Accumulation of hydrogen peroxide was enhanced in Fusarium infected tissues compared to co-stressed. Trichoderma mediated activation of antioxidant enzymes such as, catalase, guaiacol peroxidase, ascorbate peroxidase, superoxide dismutase in co-stressed seedlings indicated their involvement in enhanced resistance against Fusarium infection, which is suggestive of playing crucial role in mitigating cellular toxicity developed due to excess H₂O₂. Thus, Trichoderma pre-inoculation protected wheat against Fusarium infection by stabilising oxidative stress.     

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%。     

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.     

Biocontrol efficacy of Trichoderma asperellum MSST against tomato wilting by Fusarium oxysporum f. sp. lycopersici

Tomato is a popular vegetable widely grown in the tropics, which is mainly attacked by fusarium wilt incited by Fusarium oxysporum f. sp. lycopersici (FOL). In the present scenario, an ecofriendly alternative strategy such as use of fungi from rhizosphere is being explored to combat the phytopathogen invasion. This study was carried out to evaluate the efficacy of Trichoderma asperellum MSST to promote the growth and yield parameters of tomato S-22, a susceptible variety. This study was also undertaken to manage fusarium wilt disease under in vitro and in vivo conditions. Significant increase in vegetative parameters like root length, shoot length, plant weight and chlorophyll content 60 days after sowing (DAS) was observed. There was reduction in the incidence of fusarium wilt in tomato up to 85%. Increase in the level of total phenol, peroxidase, polyphenoloxidase and phenylalanine ammonium lyase activity at 10th day of pathogen inoculation showed enhancement of plant defence mechanism by T. asperellum MSST against FOL. Overall study revealed that isolate MSST was proven to be potential biocontrol agent showing induced resistance against FOL.     

pH控制下绿色木霉（Trichoderma viride）流加发酵生产纤维素酶

绿色木霉（Trichodermaviride）在pH控制发酵条件下,采用流加葡萄糖发酵策略,可显著提高综合滤纸酶活力（FPA）和内切酶（endo—β—1,4-glucanase,EG）、外切酶exo—β-1,4-glucanase,CBH）、纤维二糖酶（cellobiase,CB）酶活。在5L发酵罐中采用pH控制和流加葡萄糖工艺,可提高CB酶含量,改变酶组分之间的比例,使得FPA、EG、CB和CBH酶活分别达到50．0U／mL,210．0U／mL,4．0U／mL和2．5U／mL,比摇瓶发酵分别提高了6．7．4．2、19、2．5倍。     

Properties of uracil transport by vegetative mycelium of Trichoderma viride

The transport of radioactively labelled uracil into submerged mycelium of T. viride was measured by means of a membrane filtration technique. It was found to be time-dependent (up to 90 min) and concentration-dependent (up to 8 mmol l-1). Its concentration dependence was biphasic and consisted from the saturatable part (at the uracil concentration below 0.2 mmol l-1) with KM = 0.08 +/- 0.02 mmol l-1 and Vmax = 1.74 +/- 0.3 nmol (mg dry wt.)-1 h-1, and from the region at higher uracil concentration which showed only a weak saturatability with the substrate. The transport measured in the saturatable part of the curve was also pH- and temperature-dependent. The optimal pH was between 5.4 and 6.4 and the optimal temperature was at 37 degrees C. The activation energy of 54 kJ mol-1 and the temperature quotient of Q10 = 2.1 could be calculated from the temperature dependence. The entry of uracil was in part inhibited by nucleobases and their analogues, nucleosides, nucleotides and amino acids. The inhibitors had similar inhibitory efficiency about 50% at 0.2 mmol l-1. 3,3',4',5-tetrachlorosalicylanilide (TCS), the uncoupling agent, significantly inhibited the uracil transport, but its inhibitory efficiency decreased upon increasing the uracil concentration. Ionophore antibiotics valinomycin and monensin also inhibited the uracil transport. Inhibitors of RNA-polymerase, rifamycin and rifampicin were without effect. The results suggest that at low uracil concentrations (below 0.2 mmol l-1), its transport is mediated by a carrier and is driven by the electrochemical potential of protons. At higher uracil concentrations, the transport may be driven by the concentration difference of uracil with the contribution of the protonmotive force. It is feasible that inhibitors of uracil transport tested exert their inhibition by the dissipation of the driving force rather than by the direct competition with the substrate-binding site.     

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.     

Integrated and biological control of gladiolus corm rot and wilt caused by Fusarium oxysporum f.sp. gladioli

An isolate of Trichoderma virens Miller, Giddens & Foster, carboxin and a combination of both were evaluated for the control of gladiolus corm rot and wilt caused by Fusarium oxysporum f.sp. gladioli in glasshouse and field experiments. All treatments significantly reduced disease incidence in both glasshouse and field conditions. T. virens gave control at least as good as carboxin in all experiments. Control was significantly improved in two field experiments by combining the biological and chemical treatments.     

Evaluation of Pseudomonas aeruginosa Z5 for biocontrol of cotton seedling disease caused by Fusarium oxysporum

Plant growth-promoting bacteria-mediated biocontrol of plant pathogens is renowned to enhance the growth of the plants using different direct or indirect mechanisms. The goal of the present investigation was the evaluation of Pseudomonas aeruginosa Z5 isolated from cotton grown in Pakistani soils for the suppression of Fusarium oxysporum associated with cotton seedling disease. In dual culturing techniques, four bacterial strains inhibited fungal pathogens, i.e. F. oxysporum, Fusarium moniliforme, Fusarium solani and Rhizoctonia solani, significantly with percent inhibition ranging from 25% to 91.5%. P. aeruginosa Z5 showed maximum suppression of all the tested pathogens. Net-house experiments showed that the application of P. aeruginosa Z5 both separately and in combination with Bacillus fusiformis S10 significantly reduced the disease incidence by suppressing F. oxysporum (the causal agent of cotton seedling disease) up to 64–65% and improved the percent germination as compared to the infected control plants. The production of antibiotics, proteases and siderophores may be the contributing factors for its antagonistic properties. Highest bacterial population (8.9 CFU/g root) observed on roots of cotton plants inoculated with P. aeruginosa Z5 showed its good colonisation aptitudes even in the presence of high inoculation of soil with F. oxysporum. Confocal laser scanning microscopy supported the root colonisation of cotton plants with fluorescently labelled P. aeruginosa Z5. Because of innate fungicidal potential, growth promoting P. aeruginosa Z5 can be used as a bioinoculant and an antagonist to suppress the growth of cotton root-associated fungal pathogen.     

Enhanced rhizosphere competence of Trichoderma viride grown in solid state fermentation on corn cob residue

Abstract

A process has been disclosed in the present investigation for the production of a formulation of mycopesticide with enhanced shelf life of Trichoderma viride. A comparative evaluation of talc-based and corn cob formulations in the form of seed coat and soil treatment brought to light that the soil treatment significantly enhanced the plant growth performance of pea, green gram and pigeon pea. Among the two formulations, the corn cob formulation proved to be better as the rhizosphere competence of corn cob formulation was superior to that of talc formulation. Our results suggest that corn cob residue is a better substrate owing to high cellulase and spore production. Solid-state fermentation in batch cultures. The biocontrol ability of both formulations was tested against Fusarium in Cajanus species and it was found that the disease incidence was reduced by 86% when the corn cob formulation was given as soil application.     

绿色木霉ZY-1固态发酵产纤维素酶

利用筛选的绿色木霉ZY-1（Trichoderma viride ZY-1）固态发酵产纤维素酶,采用稻草和麸皮为底物,考察稻草与麸皮比例随发酵时间对产酶的影响。结果表明：底物中,在m（稻草）：m（麸皮）为0：5和1：4时,发酵48h,pH保持4．5左右,还原糖量急剧上升,胞外蛋白产量最低;仅以稻草作底物时,整个发酵过程中pH约为7,还原糖量最低,胞外蛋白产量较高而滤纸酶活、羧甲基纤维素酶（CMCase）和β-葡萄糖苷酶（β-Gase）酶活均较低;在m（稻草）：m（麸皮）为3：2时,发酵96h,滤纸酶活达最大值5．01U／g干曲;m（稻草）：m（麸皮）为1：4时,发酵96h,β-Gase酶活达最大值4．6U／g干曲;m（稻草）：m（麸皮）为4：1时,发酵72h,CMCase酶活达最大值6．01U／g干曲。因此,底物中存在适量的稻草和麸皮有利于Trichoderma viride ZY—1产纤维素酶。     

Biocontrol of onion white rot by application of Trichoderma species formulated on wheat bran powder

In vitro, Trichoderma album, Trichoderma harzianum, Trichoderma koningii, Trichoderma viride and Trichoderma virens showed antagonistic effect against the most pathogenic isolate (Sc2) of Sclerotium cepivorum, the cause of onion white rot disease. Five Trichoderma preparations of each Trichoderma sp. were prepared on wheat bran powder to be used for controlling white rot disease of onion. Greenhouse and field experiments followed the same trend where T. harzianum and T. koningii were the most effective in reducing the incidence and severity of white rot disease compared with the control. Trichoderma species preparations caused promotion to vegetative parameters of onion plants in pots and increase bulb productivity in filed. In this regard, T. harzianum and T. koningii were the most effective. A positive correlation was found between the biocontrol activity of Trichoderma species preparations and enhancement of peroxidase, polyphenoloxidase and chitinase enzymes in onion plants to resist infection with S. cepivorum.     

Salinity tolerant Trichoderma harzianum reinforces NaCl tolerance and reduces population dynamics of Fusarium oxysporum f.sp. ciceri in chickpea (Cicer arietinum L.) under salt stress conditions

The antagonistic potential of salinity tolerant (ST) Trichoderma (Th) isolates against Fusarium oxysporum f.sp. ciceri (foc) was tested, along with their capability to induce relative salt stress tolerance in chickpea with the aim to exploit their use as biological agents in reducing deleterious effects of salinity and controlling Fusarium wilt of chickpea under saline soil conditions. Under laboratory conditions, salt stress was created by supplementing nutrient medium with different concentrations of NaCl viz. 0, 70, 150 and 240?mM NaCl and a pot experiment was conducted using natural saline soil (EC – 6.6 dS?m^?1). Out of 45 Th isolates studied, only five isolates viz. Th-13, Th-14, Th-19, Th-33 and Th-50 were selected to be ST as these were able to grow and sporulate in growth medium containing up to 240?mM NaCl. In saline medium, ST isolates greatly surpassed salinity sensitive (SS) isolate with respect to growth rate, mycelial dry weight, sporulation and biological proficiency against foc. Out of five ST isolates that retained their tolerance to different salt stress levels, Th-14 and Th-19 showed maximum antagonism against foc. Under greenhouse conditions, chickpea plants obtained from seeds bioprimed with Th-14 and Th-19 performed well both at germination and seedling stage in comparison to control in saline soil. As compared to untreated plants, characterisation of Th treated plants confirmed that they had reinforced contents of proline along with relatively higher levels of total phenols, membrane stability index and superoxide dismutase activity while lower accumulation of hydrogen peroxide and malondealdehyde contents. ST isolates, Th-14 and Th-19 significantly reduced foc-induced wilt disease incidence in chickpea plants. The population density of both the Th isolates in rhizosphere far exceeded that of foc under both saline and non-saline soils. However, Th-14 was found more efficient in increasing relative salt stress tolerance in chickpea and reducing the foc growth in rhizosphere under present materials and conditions. These findings provide a novel paradigm for developing alternative, environmentally safe strategy to alleviate salt stress and manage fungal diseases such as foc that aggravates under saline soils.     

Co-denitrification by the denitrifying system of the fungus Fusarium oxysporum

Abstract Nitrogen compounds such as azide, salicylhydroxamic acid, and possibly ammonium ions were converted to nitrous oxide (N₂O) or dinitrogen (N₂) by Fusarium oxysporum under denitrifying conditions. Nitrogen atoms in these compounds were combined with another nitrogen atom from nitrite to form a hybrid N₂O species. The fungus exhibited much higher converting activities as compared with similar reactions catalyzed by bacterial denitrifiers. We thus propose the phenomenon be called co-denitrification, which means that such nitrogen compounds are denitrified by the system induced by nitrite (or nitrate) but are incapable by themselves of inducing the denitrifying system.     

利用木霉与根霉两步发酵秸秆制备L-乳酸研究

以秸秆为原料进行生物转化大量制备有机酸意义重大.在秸秆汽爆法预处理的基础上,以绿色木霉为菌种转化制备秸秆糖,对降解单糖接种米根霉进行二次发酵制备L-乳酸.试验结果表明,第一步绿色木霉固态培养制备纤维素酶时,控温30℃、通气0.12L/(L.min)、发酵40h后制备干曲,后按10g干曲/L汽爆液的配比进行55℃酶解36h,五、六碳糖累积浓度达到86g/L.第二步米根霉发酵时,控制温度32℃、通气0.4L/(L·min)、转速450r/min,发酵48h,最终产L-乳酸累积浓度为81.6g/L.秸秆制备L-乳酸的两步发酵法发酵工艺具有推广价值.     

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.     

西葫芦根腐病菌拮抗细菌的防病促生作用

【目的】获取促生的同时可抑制尖孢镰刀菌(Fusarium oxysporum)的拮抗菌并明确其防治效果。【方法】平板对峙生长法测定前期分离的19株促生菌对尖孢镰刀菌的抑制作用,温室条件下接种微生物菌剂对西葫芦根腐病的防治作用;田间条件下接种复合菌剂代替部分化肥对西葫芦生长的影响。【结果】可有效拮抗尖孢镰刀菌的菌株有9株,其中,菌株FX2的抑菌活性较好,抑制率达到66.80%。在温室盆栽中,接种微生物菌剂(LHS11+FX2)对西葫芦根腐病抑制率达到57.14%。在田间试验中,微生物菌剂配施化肥对西葫芦的生物量和根系形态影响显著,以85%化肥+复合菌剂处理效果较优,其对西葫芦成熟期的产量显著提高27.13%。【结论】复合菌剂(LHS11+FX2)对西葫芦根腐病具有较好的防治作用;85%化肥+复合菌剂对西葫芦的促生作用明显,在一定程度上节约了化肥投入成本,提高了增产效益。