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1.
为从青蒿(Artemisia annua L.)内生真菌中筛选有促生作用的菌株,用组织分离法从青蒿侧枝中分离内生真菌并进行分子鉴定,对其中1株真菌深绿木霉对青蒿幼苗的促生作用进行了研究。结果表明,从青蒿侧枝中获得23株内生真菌,鉴定出16种,以炭疽菌属占优势。深绿木霉发酵液对青蒿种子发芽和幼苗生长具有显著抑制作用;深绿木霉液体发酵菌丝体在4-5月对青蒿幼苗生长具有显著的促进作用,但7月以后没有明显促进作用。因此,深绿木霉可作为青蒿苗肥,与化肥配合可施用于成株。  相似文献   

2.
【背景】木霉是广泛分布于自然界中的一类真菌,能产生多种酶类和次生代谢产物,具有促进植物生长、提高土壤肥力、拮抗多种土传病原菌等作用。【目的】优化3株植物根际促生真菌(长枝木霉MD30、桔绿木霉JS84及贵州木霉NJAU4742)的固体发酵条件,探究不同发酵条件对木霉产孢量的影响,为木霉菌的生产提供参考。【方法】采用单因素试验和响应面法,对3种木霉在不同发酵条件下的产孢量进行测定并优化,分析了氮源添加、初始pH、物料厚度、接种量、温度等因子对固体发酵的影响。【结果】单因素试验表明,长枝木霉MD30、桔绿木霉JS84与贵州木霉NJAU4742固体发酵时,最佳发酵温度均为28℃、最优木霉菌液接种量均为10%、物料发酵厚度均为3.0 cm,但最佳的初始物料pH与氨基酸水解液添加量有所不同,其中,长枝木霉MD30与贵州木霉NJAU4742发酵最佳的初始pH值为5.0,而桔绿木霉JS84为3.0;长枝木霉MD30与贵州木霉NJAU4742发酵最佳的氨基酸水解液添加量为10%,而桔绿木霉JS84为5%。通过试验分析,确定初始pH、物料厚度、温度为影响产孢量的3个重要因素。响应面分析得到最佳发酵条件:...  相似文献   

3.
为提高贵州木霉NJAU4742固体发酵产孢能力,本研究拟用稻草秸秆和氨基酸水解液为原料进行固体发酵获得高分生孢子含量的固体菌种,将该固体菌种添加到含有不同比例氨基酸水解液的有机肥中进行二次发酵研制新型生物有机肥,并利用盆栽试验研究该生物有机肥对番茄的促生作用.结果表明: 在利用稀释30倍的氨基酸水解液浸泡秸秆过夜后调节秸秆为初始pH 3.5、75%含水量、30%玉米粉添加量的条件下,贵州木霉NJAU4742所产分生孢子数量高达2.40×1010 CFU·g-1.接种2%固体木霉菌种于含有20%氨基酸水解液的腐熟有机肥后,该处理中木霉活菌数和吲哚乙酸(IAA)含量均达到最高,分别为6.40×109 CFU·g-1和38.66 mg·kg-1,与对照相比分别增加了1142.30和1.42倍.盆栽试验表明,木霉氨基酸生物有机肥(AT)与氨基酸有机肥(AA)处理跟对照(CK)相比株高分别增加了98.8%和23.8%,茎粗分别增加了58.9%和10.3%,叶绿素、叶长、叶宽等指标也显著增加.利用稻草秸秆和氨基酸水解液进行浅盘固体发酵生产木霉分生孢子,克服了工厂化生产固体木霉菌种的瓶颈,以此制备的新型木霉氨基酸有机肥(AT)与等养分的氨基酸有机肥(AA)和对照(CK)处理相比,对番茄的促生效果显著,在集约化农业生产中具有良好的应用前景.  相似文献   

4.
【背景】新疆是全国最大的盐渍化土壤分布区,土壤盐渍化严重影响作物生长,耐盐促生菌可以有效改善土壤肥力,提高作物抗逆性,促进植物生长,提高土壤利用率。【目的】分离筛选获得木碱蓬(Suaeda dendroides)根际土壤中耐盐促生菌菌株,对优良促生作用的菌株进行分子鉴定,挖掘微生物资源,为微生物菌剂的研制奠定基础。【方法】采用传统的分离方法筛选获得木碱蓬根际耐盐微生物,采用"三级筛选体系"筛选获得耐盐促生菌菌株,用CTAB法提取菌株DNA,对菌株16S rRNA基因测序进行系统发育分析,确定耐盐促生菌菌株的分类地位。【结果】从木碱蓬根际共分离获得耐盐微生物58株,8株具有固氮活性,解磷活性菌株12株,具有解钾活性菌株15株,产IAA活性的菌株3株,具有较强产氨活性的菌株2株。经过促生平板筛选,菌株GTZW50-5和MH-F促进了拟南芥生长,表现出较好的促生效果,通过小麦盆栽试验,菌株GTZW50-5对小麦的根长以及株高具有显著的促生作用,在一定程度上提高了植物体内的叶绿素含量。MH-F菌株对小麦的根系具有较显著的促生作用,且对小麦的叶绿素及脯氨酸含量在不同盐浓度下都有所提高。经过系统发育分析,GTZW50-5与Bacillus vallismortis (AY603658)序列相似度达到99.43%,鉴定属于Bacillus vallismortis,MH-F与Enterobacterludwigii(JTLO01000001)序列相似度为98.34%,鉴定属于Enterobacter属。【结论】菌株GTZW50-5与MH-F均具有较好的促生效果,这为耐盐微生物资源的开发和利用提供了理论依据。  相似文献   

5.
采用温室盆栽试验测定了不同浓度长枝木霉T6菌株孢子悬浮液对南方根结线虫的防治及在黄瓜根际的定殖作用.结果表明:根际定殖处理10周后黄瓜根际土壤和根系中长枝木霉T6菌株菌落数量显著增加,且处理土壤和根系中菌落数量变化显著,浓度为1.5×10~7CFU·m L~(-1)处理的根际土壤和根系中菌落数量达到7.8×10~7和6.3×10~5CFU·m L~(-1).温室防治试验中,不同浓度长枝木霉T6菌株孢子悬浮液对南方根结线虫不同虫态具有较强的防治效果,且防治效果随着孢子悬浮液浓度的增加而增加.长枝木霉T6菌株孢子悬浮液对被南方根结线虫侵染的黄瓜株高、根系长度和鲜质量具有显著的促生作用.表明长枝木霉T6菌株在黄瓜根际具有较强的定殖作用,对南方根结线虫具有较好的防治作用,并对黄瓜植株生长具有显著的促生作用.  相似文献   

6.
植物根际促生菌的筛选及其对玉米的促生效应   总被引:6,自引:1,他引:5  
[目的]以不同植物根及根际土壤为研究材料,进行植物根际促生菌(PGPR)的筛选,并探索其植物促生作用机制.[方法]以解磷、固氮、产氨、产IAA和拮抗3种常见病原真菌为筛选标准,测定了初筛菌株的多项促生能力,并通过对这些菌分别单独回接和多菌混接的玉米盆栽试验,测定了其对玉米的促生效应.[结果]从渭南、成阳、安康、商洛和榆林5地分离得到的158株菌中有17株茵具有上述多种植物促生作用的菌株.盆栽试验的测定结果表明:单独接种和多菌混合接种在玉米株高、根长、茎长、茎平均直径和干重方面与对照组相比较都有所增加,尤其是在多个指标上,多菌混合接种所显示出的促生效应均明显优于单菌接种.[结论]所筛选到的具有多种促生能力的菌株,可以为进一步构建植物根际促生菌(PGPR)菌群提供良好的种质资源.  相似文献   

7.
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。  相似文献   

8.
稻镰状瓶霉Falciphora oryzae是本实验室从野生稻根系分离获得的一株DSE,具有促生、防病等作用。本研究旨在对其促生机制进行初探。在室内平板共培养条件下,对水稻种子接种稻镰状瓶霉菌饼(4个/皿),测定植株生长指标、营养元素含量及营养吸收相关基因表达量;温室盆栽条件下,将稻镰状瓶霉以菌肥形式(60g/桶)与水稻进行盆栽共培养,测定植株农艺性状指标。结果表明,接种稻镰状瓶霉后,平板上的水稻幼苗的株高、叶宽和茎秆直径显著增加,根长并未受影响。稻镰状瓶霉能够促进水稻根系对营养元素的吸收,提高地上部分和根系组织中N、P、K、S、Fe和Mg元素的含量,诱导根部与营养元素吸收相关的调控基因OsPTR9OsAMT3;2OsPT4OsSULTR3;1OsMRS2-8OsHAK16OsYSL15OsIRO2的显著上调表达。盆栽试验表明,稻镰状瓶霉显著提高了水稻各农艺性状指标,包括叶宽、茎秆直径、植株鲜重、植株干重、叶绿素含量和光合强度。结果表明,稻镰状瓶霉的根部定殖能够诱导营养元素吸收相关基因的上调表达,从而促进根系对营养元素的吸收,进而促进水稻植株的生长。  相似文献   

9.
为进一步开发植物促生菌,该研究以巨菌草根部为主要材料进行巨菌草促生菌的筛选,采用解磷、固氮和产IAA等筛选标准对初筛菌株分别进行多项促生能力的测定。通过形态观察、生理生化特性和 16S rDNA序列同源性分析对促生效果最好的菌株YB-07进行分类和鉴定,分别测定其促生能力后从中筛选出促生效应强的11个菌株进行盆栽试验,并通过对这些菌株单独回接和多菌混接的小麦盆栽试验测定其对小麦的促生效应。结果表明:从巨菌草根部分离得到了101株促生菌株,分类鉴定结果显示菌株YB-07归属于根瘤菌属(Rhizobium),其溶磷量为20.1 mg·L-1、产IAA量为23.7 mg·L-1,同时具有产氨能力。盆栽试验测定结果显示,多菌混合接种对小麦的促生效应在株高、干重、鲜重和叶绿素含量上,分别较对照组增加了24.49%、31.84%、28.06%和34.14%。单菌接种对小麦的促生表现在株高、干重、鲜重和叶绿素含量上,分别较对照组增加了13.54%、20.45%、16.84%和35.19%。所筛选到的菌株具有良好的促生长作用,能为进一步构建巨菌草促生菌菌群提供良好的种质资源。  相似文献   

10.
以杉木种子为材料,研究不同浓度(0.003、0.03、0.3、3、30、300 mg·L-1)哈茨木霉和绿色木霉溶液对杉木种子萌发和幼苗生长的影响.结果表明: 各浓度木霉溶液处理对杉木种子萌发和幼苗生长均有一定的促进作用,其促进效果随着处理浓度的增加均呈先升后降的趋势.与对照相比,0.03 mg·L-1哈茨木霉和绿色木霉处理对提高杉木种子的发芽率、发芽势、发芽指数、活力指数、根长、苗高和鲜质量效果最佳,分别提高了57.6%、125.0%、51.0%、209.2%、114.3%、16.1%、24.6%和42.7%、76.7%、43.9%、185.4%、113.8%、8.6%、22.6%;0.3 mg·L-1哈茨木霉和绿色木霉显著提高杉木幼苗超氧化物歧化酶和过氧化物酶活性,分别增加了157.6%、179.9%和127.5%、116.2%,而丙二醛含量降低了86.1%和72.4%. 0.03~0.3 mg·L-1浓度的哈茨木霉和绿色木霉不仅能显著促进杉木种子的萌发和幼苗生长,而且能够提高其抗氧化酶活性,增强杉木幼苗的抗逆性.  相似文献   

11.
Many beneficial effects of Trichoderma spp. on plant growth and/or resistance to biotic/abiotic stresses can result from the production of bioactive compounds including volatile organic compounds (VOCs). We evaluated the effects of the volatile mixtures from 13 strains of different Trichoderma species on induction of tolerance to salt stress (100 mM NaCl) as well as growth promotion of Arabidopsis thaliana. Plants responded differently due to the presence of VOCs from various Trichoderma species ranging from both growth promotion and induction of salt tolerance to no significant changes under any of the conditions tested. In plants exposed for 2 weeks to VOCs of the selected strain, i.e. Trichoderma koningii, there was less H2O2 accumulation under salt stress compared to that in control plants. This result may reflect the possible role of VOCs of this strain in plant protection against oxidative damage under salt stress. Together, induction of salt tolerance using VOCs should be added to the known mechanisms of plant vigor enhancement by Trichoderma spp.  相似文献   

12.
木霉菌防治植物真菌病害研究进展   总被引:9,自引:0,他引:9  
木霉菌是一种重要的植物病害生防因子,尤其在防治植物病原真菌病害中一直受到极大的关注。木霉菌依靠其菌株在包括趋向生长、识别、接触、缠绕与穿透等步骤的真菌寄生过程中分泌产生的几丁质酶、葡聚糖酶、纤维素酶、蛋白酶等一系列细胞壁降解酶,进行重寄生作用,拮抗其他植物病原菌,行使其生防功能。我们简要概述了木霉菌的种类、拮抗对象、抑菌机制、诱导抗性、促生作用、基于分子生物学的转基因工程研究,以及木霉菌在植物病原真菌生物防治中的应用。  相似文献   

13.
Two Trichoderma isolates (T. hamatum LU592 and T. atroviride LU132) were tested for their ability to promote the growth and health of commercially grown Pinus radiata seedlings. The colonisation behaviour of the two isolates was investigated to relate rhizosphere competence and root penetration to subsequent effects on plant performance. Trichoderma hamatum LU592 was shown to enhance several plant health and growth parameters. The isolate significantly reduced seedling mortality by up to 29%, and promoted the growth of shoots (e.g. height by up to 16%) and roots (e.g. dry weight by up to 31%). The introduction of LU592 as either seed coat or spray application equally improved seedling health and growth demonstrating the suitability of both application methods for pine nursery situations. However, clear differences in rhizosphere colonisation and root penetration between the two application methods highlighted the need for more research on the impact of inoculum?densities. When spray-applied, LU592 was found to be the predominant Trichoderma strain in the plant root system, including bulk potting mix, rhizosphere and endorhizosphere. In contrast, T. atroviride LU132 was shown to colonise the root system poorly, and no biological impact on P. radiata seedlings was detected. This is the first report to demonstrate rhizosphere competence as a useful indicator for determining Trichoderma bio-inoculants for P. radiata. High indigenous Trichoderma populations with similar population dynamics to the introduced strains revealed the limitations of the dilution plating technique, but this constraint was alleviated to some extent by the use of techniques for morphological and molecular identification of the introduced isolates.  相似文献   

14.
Microbes that are beneficial to plants are used to enhance the crop growth, yield and are alternatives to chemical fertilizers. Trichoderma and Bacillus are the predominant plant growth-promoting fungi and bacteria. The objective of this study was select, characterize, and evaluate isolates of Trichoderma spp. and Bacillus spp. native from the northern region of Sinaloa, Mexico, and assess their effect on growth promotion in maize (Zea mays L.). In greenhouse conditions, four Trichoderma isolates and twenty Bacillus isolates, as well as two controls, were tested in a completely randomized design with three replicates. We selected the two best strains of Trichoderma and Bacillus: TB = Trichoderma asperellum, TF = Trichoderma virens, B14 = Bacillus cereus sensu lato and B17 = Bacillus cereus, which were evaluated in the field in a completely randomized blocks in factorial arrangement design with three replicates applying different rates of nitrogen fertilizer (0, 150 kg N/ha, and 300 kg N/ha). Treatments 5 (B17 = B. cereus) and 11 (TF = T. virens) both fertilized with 150 kg N/ha showed similar yields and they did not reveal significant differences from the treatments fertilized with 300 kg N/ha. This indicated that treatment 5 (B17= B. cereus with 150 kg N/ha) and treatment 11 (TF= T. virens with 150 kg N/ha) were efficient as growth promoters, by not showing significant differences in root volume and dry weight of foliage. The results indicated a reduction of 50% in the rate of nitrogen to fertilizer required for maize (Zea mays L.) crops. These microorganisms Trichoderma and Bacillus could be an alternative to reduce the use of chemical fertilizers in maize.  相似文献   

15.
提高木霉逆境适应性与生物防治效果的基因工程研究进展   总被引:1,自引:0,他引:1  
木霉生存范围广、生长繁殖迅速,对其他真菌有一定的拮抗能力,并能促进植物生长、诱导植物对病原菌产生抗性,是迄今开发最成功的植物病害生防真菌。目前,运用基因工程的方法对木霉进行遗传改良,提高它对环境的适应性与对致病菌的防治能力,已经取得了很大的进展,就近年来采用基因工程的方法对木霉进行改良的研究进行综述。  相似文献   

16.
Five strains of Trichoderma with known biocontrol activities were assessed for their effect upon pea growth and their antagonistic activity against large Pythium ultimum inocula. The effect of Trichoderma inocula upon the indigenous soil microflora and soil enzyme activities in the presence and absence of Pythium is assessed. In the absence of Pythium, Trichoderma strain N47 significantly increased the wet shoot weight by 15% but did not significantly affect the dry weight, whilst strains T4 and N47 significantly increased the root weights by 22% and 80%) respectively. Strains TH1 and N47 resulted in significantly greater root lengths. Pythium inoculation significantly reduced the root length and the number of lateral roots and nodules, and significantly increased the root and rhizosphere soil fungal populations. Pythium inoculation significantly reduced the plant wet and dry shoot weights and significantly increased the wet and the dry shoot/root ratio. All the Trichoderma strains reduced the number of lesions caused by Pythium and increased the number of lateral roots. The effect of the Pythium on emergence and shoot growth was significantly reduced by all the Trichoderma strains except strain To10. Inoculation with Trichoderma strains TH1 and T4 resulted in significantly greater wet root weights (62% and 57%, respectively) in the presence of Pythium compared to the Pythium control. Strain N47 significantly increased the shoot/root ratio compared to the Pythium control. Inoculation with Trichoderma strains T4, T12 and N47 significantly reduced Pythium populations. Pythium increased the activity of C, N and P cycle enzymes, whilst four Trichoderma strains reduced this effect, indicating reduced plant damage and C leakage. Overall, strains T4 and N47 had the greatest beneficial characteristics, as both these strains improved plant growth in the absence of Pythium and reduced plant damage in the presence of Pythium. The dual properties of these strains improve the commercial application, giving them an advantage over single action inocula, especially in the absence of plant pathogens.  相似文献   

17.
Members of the fungal genus Trichoderma stimulate growth and reinforce plant immunity. Nevertheless, how fungal signaling elements mediate the establishment of a successful Trichoderma?plant interaction is largely unknown. In this work, we analyzed growth, root architecture and defense in an Arabidopsis?Trichoderma co‐cultivation system, including the wild‐type (WT) strain of the fungus and mutants affected in NADPH oxidase. Global gene expression profiles were assessed in both the plant and the fungus during the establishment of the interaction. Trichoderma atroviride WT improved root branching and growth of seedling as previously reported. This effect diminished in co‐cultivation with the ?nox1, ?nox2 and ?noxR null mutants. The data gathered of the Arabidopsis interaction with the ?noxR strain showed that the seedlings had a heightened immune response linked to jasmonic acid in roots and shoots. In the fungus, we observed repression of genes involved in complex carbohydrate degradation in the presence of the plant before contact. However, in the absence of NoxR, such repression was lost, apparently due to a poor ability to adequately utilize simple carbon sources such as sucrose, a typical plant exudate. Our results unveiled the critical role played by the Trichoderma NoxR in the establishment of a fine‐tuned communication between the plant and the fungus even before physical contact. In this dialog, the fungus appears to respond to the plant by adjusting its metabolism, while in the plant, fungal perception determines a delicate growth?defense balance.  相似文献   

18.
Biocontrol mechanisms of Trichoderma strains.   总被引:8,自引:0,他引:8  
The genus Trichoderma comprises a great number of fungal strains that act as biological control agents, the antagonistic properties of which are based on the activation of multiple mechanisms. Trichoderma strains exert biocontrol against fungal phytopathogens either indirectly, by competing for nutrients and space, modifying the environmental conditions, or promoting plant growth and plant defensive mechanisms and antibiosis, or directly, by mechanisms such as mycoparasitism. These indirect and direct mechanisms may act coordinately and their importance in the biocontrol process depends on the Trichoderma strain, the antagonized fungus, the crop plant, and the environmental conditions, including nutrient availability, pH, temperature, and iron concentration. Activation of each mechanism implies the production of specific compounds and metabolites, such as plant growth factors, hydrolytic enzymes, siderophores, antibiotics, and carbon and nitrogen permeases. These metabolites can be either overproduced or combined with appropriate biocontrol strains in order to obtain new formulations for use in more efficient control of plant diseases and postharvest applications.  相似文献   

19.
Trichoderma: the genomics of opportunistic success   总被引:2,自引:0,他引:2  
Trichoderma is a genus of common filamentous fungi that display a remarkable range of lifestyles and interactions with other fungi, animals and plants. Because of their ability to antagonize plant-pathogenic fungi and to stimulate plant growth and defence responses, some Trichoderma strains are used for biological control of plant diseases. In this Review, we discuss recent advances in molecular ecology and genomics which indicate that the interactions of Trichoderma spp. with animals and plants may have evolved as a result of saprotrophy on fungal biomass (mycotrophy) and various forms of parasitism on other fungi (mycoparasitism), combined with broad environmental opportunism.  相似文献   

20.
重寄生菌哈茨木霉的研究及其在植病生防中的应用   总被引:1,自引:0,他引:1  
综述了国内外对哈茨木霉菌产生的抑菌活性物质的研究概况,包括几丁质酶、葡聚糖酶和蛋白酶在内的细胞壁降解酶和抗生素,以及哈茨木霉菌生防产品的应用现状,并提出了其在植病生防中的研究展望。  相似文献   

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