石灰碳铵熏蒸与施用生物有机肥对连作黄瓜和西瓜枯萎病及生物量的影响

采用稀释涂布平板计数法,研究了石灰碳铵及碳铵熏蒸对黄瓜和西瓜连作土壤尖孢镰刀菌数量的影响,以及熏蒸后施用生物有机肥对黄瓜和西瓜枯萎病的防控效果及植株生长的影响.结果表明:与对照相比,石灰碳铵及碳铵熏蒸后,连作土壤中黄瓜尖孢镰刀菌的数量分别下降95.4%及71.4%,西瓜尖孢镰刀菌的数量分别下降87.2%及64.2%;多因素方差分析表明,熏蒸、施用有机肥及作物种类均对土壤中尖孢菌数量、枯萎病发病率、防控率及生物量有显著影响;与未熏蒸施用普通有机肥对照相比,石灰碳铵熏蒸后施用生物有机肥能显著减少后茬黄瓜或西瓜土壤中尖孢镰刀菌的数量并显著降低枯萎病发病率,防控率高达91.9%及92.5%,同时显著增加了植株的株高、茎粗、SPAD值及干质量.表明石灰碳铵熏蒸及施用生物有机肥能够降低土壤中尖孢镰刀菌数量,有效防控黄瓜和西瓜枯萎病的发生并促进其植株生长.     

Effect of dsRNA-containing and dsRNA-free hypovirulent isolates of Fusarium oxysporum on severity of Fusarium seedling disease of soybean in naturally infested soil

In the sandy soils of eastern Virginia, soybean seedlings are colonized by hypovirulent and virulent isolates of Fusarium oxysporum and F. solani. Our objectives were to determine if prior inoculation of soybean seeds with hypovirulent F. oxysporum isolates reduced severity of seedling disease in naturally infested soil, and to determine if there was an association between the presence of dsRNA mycovirus and hypovirulence in isolates of F. oxysporum and F. solani from soybean plants. The presence of dsRNA was not associated with hypovirulence in F. oxysporum since some hypovirulent isolates contained dsRNA while other hypovirulent isolates did not. Furthermore, of six dsRNA-containing F. oxysporum isolates, three were hypovirulent and three were virulent. Four segments of dsRNA, with sizes of 4.0, 3.1, 2.7 and 2.2 kb were detected in extracts of all six F. oxysporum isolates. No hypovirulent or dsRNA-containing of F. solani isolates were found. Prior inoculation of cv. Essex soybean seeds with conidia of dsRNA-free hypovirulent F. oxysporum isolates significantly (P < 0.05) reduced disease severity on cotyledons and hypocotyls, and increased the rate of seedling emergence in field soil, compared to control plants. No significant (P > 0.05) differences were found between dsRNA-containing and dsRNA-free hypovirulent F. oxysporum isolates in their effects on reducing disease severity. Hypovirulent isolates that colonize soybean tissues may play a role in reducing Fusarium seedling disease of soybean in natural soils.     

Fusarium rot in cucumber greenhouses of Jiroft region

The present work was done to identify Fusarium species that cause Fusarium rot in greenhouse cucumber crop in Jiroft region (Kerman, Iran), in 2006–2007. During these years, a vast sampling was done from several greenhouses of Jiroft. The plants with rot symptoms as well as the soil samples of greenhouse were transferred to lab. The isolates of plants and soil samples were detached by direct isolation of the infected tissue and soil suspension methods, respectively. Totally 120 isolates were obtained, which were classified into the following six species according to their morphological and physiological characteristics: Fusarium oxysporum, Fusarium solani, Fusarium culmorum, Fusarium monoliforme, Fusarium sambucinum, Fusarium subglutinans. It is the first time that three of these taxons, i.e. F. culmorum, F. monoliforme and F. subglutinan are reported in cucumber of Iran. Pathogenesis studies of the isolates were done by mycelium placement and spore suspension injection methods in sterile soil under greenhouse conditions. Then the disease symptoms were investigated.     

应用PCR-RFLP和巢式PCR检测黄瓜尖镰孢菌

以3株黄瓜尖镰孢菌(Fusarium oxysporum f.sp.cucumarinum)、23株镰孢菌属(Fusariumspp.)真菌和分离自土壤的20株真菌、6株细菌和7株放线菌为材料,采用化学裂解法提取总DNA,进行PCR-RFLP和巢式PCR检测,试验证明PCR-RFLP程序不能完全区分Fusarium属内不同种,而巢式PCR对黄瓜尖镰孢菌具有特异性.运用优化的PCR-RFLP和巢式PCR检测程序对染病黄瓜组织进行了检测,结果表明,两种方法均可在接种发病早期(未显症时)检测出黄瓜枯萎病菌,PCR-RFLP在感病品种接种后3d即可检测到病原菌,而巢式PCR在接种后5d才能检测到病原菌.     

Novel mode of resistance to Fusarium infection by a mild dose pre-exposure of cadmium in wheat.

Exposure of healthy wheat seeds (Triticum aestivum var Sonalika) to mild dose of cadmium (Cd(2+)) given as 50 microM CdCl(2) for 48 h and then washed off Cd(2+) offered resistance to the subsequent infection by Fusarium oxysporum inoculum. Seven days old seedlings having two primary leaves were aseptically inoculated with fungus, F. oxysporum (1 x 10(6)) spores. The seedlings pre-exposed to low level of Cd(2+) survived the Fusarium infection, while plantlets without Cd(2+) stress wilted and then perished due to Fusarium infection. The stress associated proteins induced by Cd(2+) (50 microM), F. oxysporum and by the co-stress (50 microM Cd(2+) and then with F. oxysporum) treatments were observed to be of same molecular weight (51 kDa). Antibody was raised against the purified Cd(2+)-stress associated protein (CSAP). Immuno-gold labeling of wheat seedling root tissue showed the presence of this CSAP in Cd(2+) pre-exposed and in co-stressed tissues and to be located predominantly on the inner linings of the cell membranes. We also observed that the anti-CSAP-antibody also labeled the root tissue of only Fusarium inoculated seedlings and the gold labeling was intensely located on the membrane. This cross-reaction of anti-CSAP suggests that Fusarium-induced stress protein (FISP) possibly has close homology to CSAP. We thus show for the first time the over expression of a high molecular mass protein by mild dose of Cd(2+) pre-exposure to wheat seeds which subsequently provided protection against Fusarium infection. This mode of resistance developed by an abiotic stress-causing agent against pathogen infection is novel.     

对黄瓜枯萎病具防效的海洋源芽孢杆菌Y3F的鉴定

【目的】对一株从连云港海域海藻样品中获得的拮抗细菌Y3F进行鉴定并且研究菌株Y3F对黄瓜土传枯萎病害的控制效果。【方法】对Y3F进行形态、生理生化特征和16S r RNA基因序列分析,采用平板对峙法测定菌株Y3F的活菌液和无菌滤液的抑菌活性,利用盆栽试验测定Y3F对黄瓜枯萎病害的防治效果。【结果】初步鉴定该菌属于蜡样芽孢杆菌(Bacillus cereus),用2216E培养基振荡培养24 h的Y3F的无菌滤液对黄瓜尖孢镰刀菌有较强的抑菌活性,表明菌株能分泌抑制病原菌生长的活性物质。盆栽试验表明,种植30 d后,浸种和灌根同时处理(JG)的防治效果达到50.46%,对黄瓜枯萎病害有明显的控制效果,显著提高黄瓜植株生物量,显著降低黄瓜根际土的真菌和尖孢镰刀菌数量,增加根际的细菌和放线菌数量。【结论】菌株Y3F能有效防治黄瓜枯萎病害,改善根际微生物结构,具有进一步开发应用的前景。     

Multi-energy metabolic mechanisms of the fungus Fusarium oxysporum in low oxygen environments

The fungus Fusarium oxysporum produces energy under hypoxic and anoxic conditions by denitrification (nitrate respiration) and ammonia fermentation respectively. Here we found that glucose repressed both of these metabolisms, whereas it supported another anoxic metabolism, hetero-lactic acid fermentation. Ammonia fermentation occurred only after the glucose present in the medium was metabolized to ethanol via alcohol fermentation. During this transition, clear diauxic growth was observed. Glucose regulated the activity of the enzymes involved in ammonia fermentation, hetero-lactic acid fermentation, and denitrification. Highest cell growth was supported by hetero-lactic acid fermentation, followed by denitrification and ammonia fermentation. These results indicate that the energy metabolisms of F. oxysporum are dependent not only on environmental O(2) tension but also on the carbon source, and that ammonia fermentation is an adaptative mechanism acting physiologically as a secondary fermentative mechanism replacing the primary hetero-lactic acid fermentation.     

生防菌根系定殖竞争作用对西瓜枯萎病发病机理的影响

【目的】西瓜枯萎病是由西瓜专化型尖孢镰刀菌(Fusarium oxysporum f.sp.niveum)引起的一种常见的毁灭性土传病害,对镰刀菌同属非致病性菌株与致病性菌株存在的竞争作用进行研究,有助于获得新的具有生防效果的菌株,从而拓宽西瓜枯萎病生物防治的手段。【方法】利用选择性培养基和稀释平板计数法对温室盆栽试验中西瓜根际和非根际土壤及植物组织中非致病性轮枝镰刀菌菌株(Fusarium verticillioides XA)与致病性尖孢镰刀菌(Fusarium oxysporum LD)进行计数,确定其在西瓜植株根际和组织中的定殖情况。【结果】将从田间西瓜枯萎病发病植株根部分离获得的菌株XA和LD接入健康土壤中,接种菌株XA既不会引起西瓜枯萎病发病症状,也不会影响西瓜植株生物量,但接种菌株LD导致严重发病症状。与单接种LD处理相比较,双接种(XA+LD)处理地上部鲜重和地上部干重都分别增加了151.2%和110%。XA菌株能成功定殖于西瓜根系,但在茎基部没有检测到。在接种菌株LD的处理中植物组织和土壤中致病性镰刀菌的数量达到(1.58 4.85)×104CFU/g。与单接种LD处理相比,双接种菌株XA和LD处理植物茎基部、根系、根际土壤和土体土壤致病性镰刀菌的数量分别下降63.3%、66.1%、3.3%和24.4%,根系、根际土壤和土体土壤非致病性镰刀菌的数量增加到(0.35 3.84)×104CFU/g;双接种处理对西瓜枯萎病的防效达57.8%。【结论】非致病性轮枝镰刀菌菌株XA可有效降低致病性尖孢镰刀菌LD对西瓜植株的定殖侵染能力,对西瓜枯萎病具有一定的生防效果。     

黄瓜枯萎病拮抗放线菌的筛选、鉴定及发酵条件优化

【背景】黄瓜枯萎病是由尖孢镰刀菌(Fusarium oxysporum f. sp. cucumerinum)黄瓜专化型引起的土传真菌性病害,严重制约着黄瓜产业的发展。【目的】从河西走廊敦煌地区盐碱土壤中分离筛选出一株对黄瓜枯萎病病菌有良好拮抗效果的放线菌菌株,探究其分类地位及其最优发酵条件。【方法】采用稀释平板涂布法分离放线菌,平板对峙法、抑制菌丝生长速率法筛选拮抗菌株,通过培养特征、生理生化试验及16SrRNA基因序列分析确定其分类地位,利用单因素试验和正交试验方法确定其最优发酵配方及培养条件。【结果】菌株16-3-10鉴定为链霉菌属(Streptomyces sp.)菌株,最优发酵配方(g/L):小米10.0,乳糖20.0,蛋白胨1.0,NaCl 5.0,CaCO3 6.0,最优发酵条件:培养温度28°C,装瓶量50/250 mL,培养3 d,起始pH 10.0,抑菌率达82.50%,比优化前增加153.43%。【结论】菌株16-3-10对黄瓜枯萎病病菌具有显著的拮抗效果,有较好的应用前景。     

Induced Resistance in Cucumbers against Fusarium oxysporum f. sp. cucumerinum and Rhizoctonia solani AG2–2 by Infection of the Cotyledons

Localized infection in cucumber cotyledons with Colletotrichum lagenarium induced resistance against infection after challenge inoculation with Rhizoctonia solani AG2–2 and Fusarium oxysporum f. sp. cucumerinum in the roots. The plants were unprotected in soil that was infested heavily with R. solani or in contact with the mycelium, and induced resistance was not observed. Wounding of the root also negated the effect of induced resistance to F. oxysporum .     

Fusarium foetens, a new species pathogenic to begonia elatior hybrids (Begonia x hiemalis) and the sister taxon of the Fusarium oxysporum species complex

A new disease recently was discovered in begonia elatior hybrid (Begonia × hiemalis) nurseries in The Netherlands. Diseased plants showed a combination of basal rot, vein yellowing and wilting and the base of collapsing plants was covered by unusually large masses of Fusarium macroconidia. A species of Fusarium was isolated consistently from the discolored veins of leaves and stems. It differed morphologically from F. begoniae, a known agent of begonia flower, leaf and stem blight. The Fusarium species resembled members of the F. oxysporum species complex in producing short monophialides on the aerial mycelium and abundant chlamydospores. Other phenotypic characters such as polyphialides formed occasionally in at least some strains, relatively long monophialides intermingled with the short monophialides formed on the aerial mycelium, distinct sporodochial conidiomata, and distinct pungent colony odor distinguished it from the F. oxysporum species complex. Phylogenetic analyses of partial sequences of the mitochondrial small subunit of the ribosomal DNA (mtSSU rDNA), nuclear translation elongation factor 1α (EF-1α) and β-tubulin gene exons and introns indicate that the Fusarium species represents a sister group of the F. oxysporum species complex. Begonia × hiemalis cultivars Bazan, Bellona and Netja Dark proved to be highly susceptible to the new species. Inoculated plants developed tracheomycosis within 4 wk, and most died within 8 wk. The new taxon was not pathogenic to Euphorbia pulcherrima, Impatiens walleriana and Saintpaulia ionantha that commonly are grown in nurseries along with B. × hiemalis. Inoculated plants of Cyclamen persicum did not develop the disease but had discolored vessels from which the inoculated fungus was isolated. Given that the newly discovered begonia pathogen is distinct in pathogenicity, morphology and phylogeny from other fusaria, it is described here as a new species, Fusarium foetens.     

Auxin signaling and transport promote susceptibility to the root-infecting fungal pathogen Fusarium oxysporum in Arabidopsis

Fusarium oxysporum is a root-infecting fungal pathogen that causes wilt disease on a broad range of plant species, including the model plant Arabidopsis thaliana. Currently, very little is known about the molecular or physiological processes that are activated in the host during infection and the roles these processes play in resistance and susceptibility to F. oxysporum. In this study, we analyzed global gene expression profiles of F. oxysporum-infected Arabidopsis plants. Genes involved in jasmonate biosynthesis as well as jasmonate-dependent defense were coordinately induced by F. oxysporum. Similarly, tryptophan pathway genes, including those involved in both indole-glucosinolate and auxin biosynthesis, were upregulated in both the leaves and the roots of inoculated plants. Analysis of plants expressing the DR5:GUS construct suggested that root auxin homeostasis was altered during F. oxysporum infection. However, Arabidopsis mutants with altered auxin and tryptophan-derived metabolites such as indole-glucosinolates and camalexin did not show an altered resistance to this pathogen. In contrast, several auxin-signaling mutants were more resistant to F. oxysporum. Chemical or genetic alteration of polar auxin transport also conferred increased pathogen resistance. Our results suggest that, similarly to many other pathogenic and nonpathogenic or beneficial soil organisms, F. oxysporum requires components of auxin signaling and transport to colonize the plant more effectively. Potential mechanisms of auxin signaling and transport-mediated F. oxysporum susceptibility are discussed.     

丛枝菌根真菌对黄瓜枯萎病的影响

Pot experiment was conducted to explore whether nursery inoculation of cucumber with Glomus etunicatum could alleviate fusarium wilt caused by Fusarium oxysporum f. sp. cucumerinum. Four-week-old seedlings inoculated with Glomus etunicatum were infected with F. oxysporum f. sp. cucumerinum by pouring conidial suspension. Biomass, contents of malonaldehyde (MDA), soluble sugar and free proline in roots, as well as the quantity of bacteria and fungi in rhizosphere were determined. The results indicated that the root dry weight of seedlings preinoculated with Glomus etunicatum increased by 9.3%; contents of soluble sugar and free proline in roots increased, and the quantity of fungi in rhizosphere decreased significantly. The disease incidence and disease index of Fusarium wilt were reduced. On the contrary, root dry weight of seedlings without inoculation with Glomus etunicatum was reduced by 28.0%. It is concluded that Glomus etunicatum is beneficial to biocontrol of Fusarium wilt of cucumber seedlings.     

瓜类枯萎病研究进展(综述)

瓜类枯萎病是由尖孢镰刀菌Fusarium oxysporum侵染引起,在全球大部分瓜类产区均有发生。该病已成为影响我国瓜类品质和产量的重要病害。本文从瓜类作物枯萎病的防治方法、致病机理和分子生物学研究等方面综述其研究现状,并对今后的研究方向进行展望。     

丛枝菌根真菌对黄瓜枯萎病的影响

盆栽条件下播种黄瓜Cucumis sativus同时接种丛枝菌根真菌Glomus etunicatum,4周后对接种处理和对照黄瓜苗分别浇灌Fusairum oxysporum f.sp.cucumerinum分生孢子悬液,2周后测定幼苗生物量、根内丙二醛、可溶性糖与游离脯氨酸含量及根围真菌和细菌数量。结果表明:接种Glomus etunicatum根系干重增加了9.3%,提高了根内可溶性糖和游离脯氨酸含量,显著减少了根围真菌数量,降低了黄瓜枯萎病的发病率和病情指数。而不接种Glomus etunicatum的黄瓜苗根系干重减少了28.0%。研究认为AM真菌Glomus etunicatum对黄瓜枯萎病具有一定的生防价值。     

微白黄链霉菌G-1发酵液抗真菌特性研究和发酵条件优化

为明确微白黄链霉菌(Streptomyces albidoflavus)G-1发酵液抗真菌特性和较优发酵条件,本研究采用平板对峙法、生长速率法、单因素试验、RDA分析和响应面CCD设计分别对其抗真菌特性、产抗菌物质关键限制因子和发酵条件较优组合进行了探究.结果 表明:S.albidoflavus G-1发酵液对马铃薯早...     

尖孢镰刀菌致病机理和化感作用研究进展

尖孢镰刀菌引起的枯萎病在生产中的防控相当困难。通过总结国内外相关文献,综述近年来有关尖孢镰刀菌致病机理和化感作用的研究进展。尖孢镰刀菌通过分泌毒素和细胞壁降解酶共同致病,谱系特异性区域的存在是其致病性强和宿主范围广的主要原因;在尖孢镰刀菌各专化型中已分离出大量致病相关基因;其他植物和拮抗微生物(木霉菌、丛枝菌根真菌、非致病性尖孢镰刀菌以及植物生长促生菌)可以分泌化感物质,作用于宿主植物和尖孢镰刀菌,直接抑制尖孢镰刀菌的生长或激活宿主植物的防御反应。未来有关尖孢镰刀菌致病机理研究应该在基因组测序基础上构建精细的遗传图谱;对化感作用的研究应当深入探讨分子机理,利用高通量测序等技术在转录组或蛋白组水平上明确宿主植物抗枯萎病相关基因,同时利用分子标记辅助育种来筛选新的抗枯萎病品种。     

香蕉上的镰孢菌种类及其系统发育关系(英文)

镰孢菌属真菌是香蕉上的重要病原菌,主要引起香蕉枯萎病以及香蕉冠腐病,在我国已明确引起香蕉枯萎病的病原为尖孢镰孢古巴专化型 Fusarium oxysporum f. sp. cubense(FOC)1号和4号生理小种,但是引起香蕉冠腐病的镰孢菌种类还未明确。为了解香蕉上镰孢菌在种间及种内水平上的多样性,2008–2011 年间作者从华南地区不同的水果市场及香蕉果园采集香蕉样品90份,分离得到143株镰孢菌。通过形态学观察及基于 EF-1α基因的系统进化分析鉴定出10种镰孢菌,即F. oxysporum、F. solani、F. camptoceras、F. pallidoroseum、F. stiloides、F. chlamydosporum、F.verticillioides、F. proliferatum、F. concentricum、F. sacchari,以及藤仓赤霉复合种(Gibberella fujikuroi species complex,GFC)中 3 个未定名的类群。轮纹镰孢 F. concentricum 及甘蔗镰孢 F.sacchari 是香蕉果实中最常见种,前菌为我国首次报道,后菌是首次报道与香蕉有关。对从香蕉上分离的藤仓赤霉复合种(GFC)及尖孢镰孢复合种(FOSC)的EF-1α序列进行了系统发育分析,其GFC中的27个菌株组成的单系群可分为7个不同的亚群,分别为 F.verticillioides、F. proliferatum、F. concentricum、F. sacchari 以及3个没有描述过的菌系 Fusarium sp. 1、Fusarium sp.2和 Fusarium sp.3;FOSC中的50个菌株形成2大分枝共12个谱系,分离自我国华南地区的21株尖孢镰孢形成7个谱系,其中 13株已知的香蕉枯萎病病原菌分布在3个谱系中,我国大陆的香蕉枯萎病病原菌菌株与来源于台湾地区及东南亚的菌株亲缘关系较近,FOC1号生理小种的遗传分化大于4号生理小种,FOC 1号生理小种与分离自香蕉果实上的尖孢镰孢菌的亲缘关系比与FOC 4号生理小种的亲缘关系更近。研究结果表明,我国香蕉上存在着丰富的镰孢菌种类,而且种内遗传多样性丰富。     

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%。     

Specific detection of the toxigenic species Fusarium proliferatum and F. oxysporum from asparagus plants using primers based on calmodulin gene sequences

Fusarium proliferatum and Fusarium oxysporum are the causal agents of a destructive disease of asparagus called Fusarium crown and root rot. F. proliferatum from asparagus produces fumonisin B1 and B2, which have been detected as natural contaminants in infected asparagus plants. Polymerase chain reaction (PCR) assays were developed for the rapid identification of F. proliferatum and F. oxysporum in asparagus plants. The primer pairs are based on calmodulin gene sequences. The PCR products from F. proliferatum and F. oxysporum were 526 and 534 bp long, respectively. The assays were successfully applied to identify both species from the vegetative part of the plants.