Screening for potential antagonists of Pseudocercosporella herpotrichoides, the causal agent of eyespot disease of cereals

Bacteria isolated from wheat seedlings, plants or straw from several field sites were screened for antagonism towards the cereal eyespot pathogen Pseudocercosporella herpotrichoides on several media of differing nutrient status. Thirteen out of 348 isolates inhibited pathogen growth on low-nutrient media and several also prevented spore germination or reduced germ tube extension. These were selected for further tests on wheat seedlings inoculated with the eyespot fungus. Twelve known bacterial antagonists of other fungal plant pathogens were tested in vitro using the same methods, and the majority showed some activity towards P. herpotrichoides. Selected isolates were equally inhibitory to both W and R pathotypes of the fungus. Effects of potential antagonists on disease development were assessed by scoring lesions or by counting the number of infection plaques formed by the fungus on leaf sheaths. Two isolates of Pseudomonas fluorescens , along with a commercial strain of Streptomyces griseoviridis , showed activity both in vitro and in subsequent infection trials with plants and may therefore be of potential value as antagonists of P. herpotrichoides.     

印度梨形孢的多种功能及其应用前景

印度梨形孢是一种可进行纯培养的类菌根真菌,该菌以菌丝体、菌丝卷、分枝或者圆形体的方式定殖于寄主植物根的胞间和胞内。已有研究表明:该菌能促进12科24种植物的生长,并能诱导植物产生系统抗性和提高对逆境胁迫的忍耐性,加快插枝侧根的形成和促进微繁殖植物的硬化。该菌在根分化区定殖的量高于根尖片断的量,在该菌与植物根部早期的识别过程中,涉及多种蛋白,但这些蛋白与真菌的作用方式并不清楚。另外,该菌在寄主植物上的成功生长涉及到了寄主细胞的死亡,但并未引起植物的逆境,而是在根的生长与真菌的繁殖之间达到了很好的平衡。     

Pseudocercosporella anguioides, a weakly pathogenic fungus associated with eyespot in winter wheat at a site in England

Pseudocercosporella anguioides is reported for the first time from Britain. Isolates were made from the leaf sheaths of four plants of a sample of 2716 with suspected eyespot lesions taken in April 1986 from a winter wheat crop. The eyespot pathogen, P. herpotrichoides , was isolated from 724 plants in the same sample. P. anguioides was not found in a sample of eyespot-infected straws taken from the same crop in July 1986. In infection tests, the P. anguioides isolates produced no obvious lesions on the leaf sheaths of wheat seedlings grown in pots, but were sometimes reisolated from symptomless leaf sheaths. Although P. anguioides occurred infrequently, care is needed to distinguish it from P. herpotrichoides when monitoring the eyespot pathogen.     

Control of Verticillium Yellows in Chinese Cabbage by the Dark Septate Endophytic Fungus LtVB3

ABSTRACT Three hundred forty-nine fungal endophytes were obtained from a total of 1,214 root segments of eggplant, melon, barley, and Chinese cabbage grown as bait plants in a mixed soil made up of samples from different forest soils in Alberta and British Columbia, Canada. Three of the 349 isolates, when inoculated in axenically reared Chinese cabbage seedlings grown in petri dishes, almost completely suppressed the effects of a postinoculated and virulent strain of Verticillium longisporum. Two isolates effective against the pathogen were Phialocephala fortinii, which had been obtained from the roots of eggplant and Chinese cabbage. The third isolate was a dark septate endophytic (DSE) fungus obtained from barley roots. Hyphae of P. fortinii grew along the surface of the root and formed microsclerotia on or in the epidermal layer. Hyphae of the DSE fungus heavily colonized root cells of the cortex. Seedlings grown for 1 week in the presence of the endophytes were then challenged with the Verticillium pathogen. In DSE-treated roots, some of cell walls in the epidermal and cortical layers showed cell wall appositions and thickenings, which appeared to limit the ingress of the pathogen into adjacent cells. Such marked host reactions were not observed in the root cells colonized by P. fortinii. Chinese cabbage preinoculated with the above endophytes and, for comparison, a previously reported disease-suppressive fungal endophyte, Heteroconium chaetospira, were transplanted into the field and disease symptoms were assessed. The DSE could most effectively inhibit the development of Verticillium yellows, with reductions in the percentages of external and internal disease symptoms of 84 and 88%, respectively. The protective values against the disease are extremely high compared with those of other isolates. Most of the DSE-treated plants in the plots achieved marketable quality.     

Suppression of clubroot (Plasmodiophora brassicae) development in Arabidopsis thaliana by the endophytic fungus Acremonium alternatum

This study investigated the ability of an endophytic fungus Acremonium alternatum to reduce clubroot formation in the model plant Arabidopsis thaliana, which is highly susceptible to Plasmodiophora brassicae . Quantitative PCR demonstrated that A. alternatum colonized the P. brassicae -infected roots and shoots of the host plant. When Arabidopsis plants were co-inoculated with P. brassicae and A. alternatum , gall formation was reduced as shown by the reduction of the disease index (DI) by up to 50% compared to plants only infected with P. brassicae, whereas the infection rate was lowered by about 20% only in several, but not all, experiments. Clubroot was similarly suppressed when plants were inoculated with autoclaved A. alternatum spores or spore extracts, showing that viable spores were not needed. However, A. alternatum spores did not inhibit P. brassicae resting spore germination. Compared to the normal root galls, the smaller root galls on A. alternatum -inoculated plants contained fewer resting spores of the clubroot pathogen. It was thus hypothesized that inoculation with A. alternatum delayed the development of P. brassicae . Using quantitative RT-PCR to monitor the expression of P. brassicae genes differentially expressed during the development of the disease, a delayed pathogen development was corroborated. Furthermore, greenhouse experiments identified a time window in which the endophyte had to be administered, where the latest effective time point was 5 days before inoculation with P. brassicae and the optimum treatment was to administer A. alternatum and P. brassicae at the same time. These results indicate that A. alternatum and perhaps similar endophytes could be useful for the management of clubroot disease.     

Piriformospora indica reduces fusarium head blight disease severity and mycotoxin DON contamination in wheat under UK weather conditions

Piriformospora indica (Sebacinaceae) is a cultivable root endophytic fungus. It colonizes the roots of a wide range of host plants. In many settings colonization promotes host growth, increases yield and protects the host from fungal diseases. Evaluation was made of the effect of P. indica on fusarium head blight (FHB) disease of winter (cv. Battalion) and spring (cv. Paragon, Mulika, Zircon, Granary, KWS Willow and KWS Kilburn) wheat and consequent contamination by the mycotoxin deoxynivalenol (DON) under UK weather conditions. Interactions of P. indica with an arbuscular mycorrhizal fungus (Funneliformis mosseae), fungicide application (Aviator Xpro) and low and high fertilizer levels were considered. Piriformospora indica application reduced FHB disease severity and incidence by 70%. It decreased mycotoxin DON concentration of winter and spring wheat samples by 70 and 80%, respectively. Piriformospora indica also increased aboveground biomass, 1000‐grain weight and total grain weight. Piriformospora indica reduced disease severity and increased yield in both high and low fertilizer levels. The effect of P. indica was compatible with F. mosseae and foliar fungicide application. Piriformospora indica did not have any effects on plant tissue nutrients. These results suggest that P. indica might be useful in biological control of Fusarium diseases of wheat.     

Effects of Simplicillium lanosoniveum on Phakopsora pachyrhizi, the soybean rust pathogen, and its use as a biological control agent

The fungus Simplicillium lanosoniveum was isolated from soybean leaves infected with Phakopsora pachyrhizi, the soybean rust pathogen, in Louisiana and Florida. The fungus did not grow or become established on leaf surfaces until uredinia erupted, but when soybean rust signs and symptoms were evident, S. lanosoniveum colonized leaves within 3 days and sporulated within 4 days. Development of new uredinia was suppressed by about fourfold when S. lanosoniveum colonized uredinia. In the presence of S. lanosoniveum, uredinia became increasingly red-brown, and urediniospores turned brown and germinated at very low rates. Assays using quantitative real time polymerase chain reaction revealed that the fungus colonized leaf surfaces when plants were infected with P. pachyrhizi, either in a latent stage of infection or when symptoms were present. However, when plants were inoculated before infection, there was no increase of DNA of S. lanosoniveum, suggesting that the pathogen must be present in order for the antagonist to become established on soybean leaf surfaces. We documented significantly lower amounts of DNA of P. pachyrhizi and lower disease severity when soybean leaves were colonized with S. lanosoniveum. These studies documented the mycophilic and disease-suppressive nature of S. lanosoniveum.     

Response of Hard Red Winter Wheat to Soilborne wheat mosaic virus Using Novel Inoculation Methods

ABSTRACT Soilborne wheat mosaic virus (SBWMV) is an agronomically important pathogen of wheat that is transmitted by the soilborne plasmodiophorid vector Polymyxa graminis. In the laboratory, attempts to generate SBWMV-infected plants are often hampered by poor infectivity of the virus. To analyze the mechanism for virus resistance in wheat cultivars, we developed novel inoculation techniques. A new technique for foliar inoculation of SBWMV was developed that eliminated wound-induced necrosis normally associated with rub inoculating virus to wheat leaves. This new technique is important because we can now uniformly inoculate plants in the laboratory for studies of host resistance mechanisms in the inoculated leaf. Additionally, wheat plants were grown hydroponically in seed germination pouches and their roots were inoculated with SBWMV either by placing P. graminis-infested root material in the pouch or by mechanically inoculating the roots with purified virus. The susceptibility of one SBWMV susceptible and three field resistant wheat cultivars were analyzed following inoculation of plants using these novel inoculation techniques or the conventional inoculation technique of growing plants in P. graminis-infested soil. The results presented in this study suggest that virus resistance in wheat likely functions in the roots to block virus infection.     

Wheat Diseases in Turkey1

Cereal crop production is one of the most important projects in the agricultural improvement programme for Turkey. Overall, wheat represents 61 % of the cereal crop. While wheat production was almost 4 million tons in 1950, this reached a limit of 10 million tons in 1970. A number of diseases continue to afflict the crop from time to time, causing heavy losses. The most important of these are: bunt ( Tilletia foetida and T. caries ), loose smut ( Ustilago nuda ), rusts ( Puccinia strilformis, P. graminis f. sp. tritici, P. recondita f. sp. tritici ), leaf blotch ( Septoria tritici ), root and foot rots ( Fusarium spp., Drechslera sorokiniana, Pseudocercosporella herpotrichoides, Alternarla alternate, Sclerotium spp. and Rhizoctonia spp.). The diseases appear all over the country. Average losses due to rusts in epidemics are estimated at about 30–35 % in the whole country. Annual losses from covered smut are about 15–20 %, and from loose smut from 0.1 % to almost 20 % depending on the weather conditions of the year, on variety and on locality. Root rots have gained importance in some places, especially in Thrace in the last few years. In addition to the above diseases, several others occur occasionally but are of minor importance: powdery mildew ( Erysiphe graminis f. sp. tritici ), dwarf smut ( Tilletia contraversa ), flag smut ( Urocystis tritici ), take-all ( Gaeumannomyces graminis ) and a wheat mosaic virus (recently observed in a province of Central Anatolia).     

Resistance to Leaf Scald Disease Is Associated with Limited Colonization of Sugarcane and Wild Relatives by Xanthomonas albilineans

ABSTRACT A streptomycin- and rifampicin-resistant mutant of Xanthomonas al-bilineans was used to study symptom expression of leaf scald disease (LSD) and colonization of sugarcane (Saccharum spp.) and its wild relatives by this bacterial pathogen. A total of 40 sugarcane cultivars and 15 clones from the Saccharum complex that differed in resistance to LSD were inoculated by a decapitation technique in both field and greenhouse experiments. In the plant crop, disease severity varied between 0 for the most resistant genotypes and 100 for the most susceptible ones. Resistance to LSD was characterized by limited colonization of the host plant by X. albilineans. Although almost all genotypes were colonized by the pathogen, the greatest bacterial population densities were found in the susceptible cultivars. There was a high correlation between disease severity and pathogen population in the apex. Several genotypes exhibited no or slight symptoms even though they were highly colonized in the upper and/or basal nodes of stalks. Two mechanisms, therefore, may play an important role in resistance to LSD: resistance to colonization of the apex, which is characterized by absence of symptoms, and resistance to colonization of the upper and lower parts of the stalk. In contrast, disease severity and pathogen population densities in the first ratoon crop in the field were nil or very low in the stalks, except for the highly susceptible cv. CP68-1026. Sugarcane ratoons, therefore, may recover from the disease after plant cane infection. Nevertheless, because low levels of the pathogen were still detected in some stalks, it is possible that LSD could develop from latent infections if favorable environmental conditions occur.     

Methods for assessing the resistance of raspberry genotypes to Phytophthora root rot

Zoospores and agar discs of the fungus causing raspberry root rot (Phytophthora fragariae) were used as inoculum to assess the resistance of raspberry genotypes in pot experiments. High zoospore concentrations resulted in more severe symptoms than low concentrations. There was a strong correlation between the results obtained with zoospores and with colonized agar discs as inocula. although disease was generally more severe with the former. The severity of root rot was correlated with a number of other symptoms, in particular growth reductions, stem lesions and leaf wilting, and some of these symptoms could possibly be used as measures of resistance. There was no evidence of physiological specialization with the range of isolates and raspberry genotypes used. Pot tests in general gave results which matched reported resistances in the field, and could be used to assess the resistance of breeding lines and selections.     

Pathogenic and Nonpathogenic Lifestyles in Colletotrichum acutatum from Strawberry and Other Plants

ABSTRACT Anthracnose is one of the major fungal diseases of strawberry occurring worldwide. In Israel, the disease is caused primarily by the species Colletotrichum acutatum. The pathogen causes black spot on fruit, root necrosis, and crown rot resulting in mortality of transplants in the field. The host range and specificity of C. acutatum from strawberry was examined on pepper, eggplant, tomato, bean, and strawberry under greenhouse conditions. The fungus was recovered from all plant species over a 3-month period but caused disease symptoms only on strawberry. Epiphytic and endophytic (colonization) fungal growth in the different plant species was confirmed by reisolation from leaf tissues and by polymerase chain reaction (PCR)-specific primer amplification. C. acutatum was also isolated from healthy looking, asymptomatic plants of the weed genera Vicia and Conyza. Isolates that were recovered from the weeds caused disease symptoms on strawberry and were positively identified as C. acutatum by PCR. The habitation of a large number of plant species, including weeds, by C. acutatum suggests that, although it causes disease only on strawberry and anemone in Israel, this fungus can persist on many other plant species. Therefore, plants that are not considered hosts of C. acutatum may serve as a potential inoculum source for strawberry infection and permit survival of the pathogen between seasons.     

Development of a monoclonal antibody immunoassay for the eyespot pathogen Pseudocercosporella herpotrichoides

A double-antibody-sandwich ELISA test has been developed for the detection of Pseudocercosporella herpotrichoides using a highly specific monoclonal antibody PH-10 as the capture antibody and genus-specific rabbit polyclonal antiserum as the detector antibody. The assay recognizes extracts from plants both artificially and naturally infected with P. herpotrichoides giving at least three-fold higher absorbance values with extracts from Pseudocercosporella-infected tissue than with extracts from healthy tissues or from tissues naturally infected with Microdochium nivale, Rhizoctonia cerealis or material artificially inoculated with P. anguioides. The assay tested positively against all isolates of P. herpotrichoides , including both W-type and R-type isolates. In this assay system, extraction of the antigen from the stem bases of infected plants is a one-step process not requiring any dilution procedures. The assay can be used to detect the pathogen in presymptomatic infected seedlings. The immunogen used to generate the specific monoclonal antibody and the rabbit antiserum was a mycelial extract from which the high-molecular-weight proteins and glycoproteins had been removed by ammonium sulphate precipitation. The high-molecular-weight fraction was shown to contain cross-reactive antigens; it induced antiserum in mice that cross-reacted with the other stem-base fungi even at high dilutions. The monoclonal antibody PH-10 is an IgM antibody. Heat and periodate treatment of the antigen indicate that it is a glycoprotein and that the epitope recognized by the antibody is a protein.     

A Greenhouse Test for Screening Sugar Beet (Beta Vulgaris) for Resistance to Rhizoctonia Solani

Rhizoctonia solani Kühn is a serious plant pathogenic fungus, causing various types of damage to sugar beet (Beta vulgaris L.). In Europe, the disease is spreading and becoming a threat for the growing of this crop. Plant resistance seems to be the most practical and economical way to control the disease. Experiments were carried out to optimise a greenhouse procedure to screen plants of sugar beet for resistance to R. solani. In the first experiment, two susceptible accessions were evaluated for root and leaf symptoms, after being grown in seven different soil mixtures and inoculated with R. solani. The fungus infected all plants. It was concluded that leaf symptoms were not reliable for the rating of disease severity. Statistically significant differences between the soil mixtures were observed, and there were no significant differences between the two accessions. The two soil mixtures, showing the most severe disease symptoms, were selected for a second experiment, including both resistant and susceptible accessions. As in the first experiment, root symptoms were recorded using a 1–7 scale, and a significant expression of resistance was observed. The average severity of the disease in the greenhouse experiment generally was comparable with the infection in field experiments, and the ranking of the accessions was the same in the two types of experiments. It was concluded that evaluation procedures in the greenhouse could be used as a rapid assay to screen sugar beet plants for resistance to R. solani.     

An optimized screening method for identifying levels of resistance to Crinipellis perniciosa in cocoa (Theobroma cacao)

The effects of host age, leaf number, host type (clone or seedling), pathogen spore concentration and incubation time on inoculation with Crinipellis perniciosa (witches' broom disease of cocoa) were studied in greenhouse experiments using susceptible cocoa genotypes. Three methods of inoculation (agar-drop, water-drop and spray) were also tested. An optimized inoculation method was selected and tested for its repeatability as well as its ability to discriminate between various levels of resistance to C. perniciosa in cocoa. The optimized method (350 000 viable basidiospores per mL, 60 h incubation, agar-drop technique) produced 100% infection repeatedly, on both clonal and seedling plants of a susceptible genotype. Seedling age (2–12 months) and leaf number did not significantly affect the percentage of plants with symptoms or broom characteristics. This method discriminated effectively between the various levels of resistance in 14 cocoa genotypes and is recommended as an inoculation method to identify levels of resistance in germplasm collections. Symptom severity was shown to be a better measure of resistance than infection success.     

Classification of a world-wide collection of isolates of Pseudocercosporella herpotrichoides by RFLP analysis of mitochondrial and ribosomal DNA and host range

Two profiles of mitochondrial DNA (mtDNA) were detected among 59 isolates of Pseudocercosporella herpotrichoides from diverse geographical sources. One profile (type II) was present only among isolates pathogenic on rye (R-type), and a second profile (type I) was present in W, C and S-pathotypes of the fungus. Mitochondrial DNA from P. herpotrichoides hybridized strongly to DNA of P. anguioides , but very weakly to DNA from P. aestiva , suggesting that the latter is not closely related to P. herpotrichoides. Fifteen profiles of ribosomal DNA (rDNA) were observed among isolates with type I mtDNA, and five of these were only found among seven isolates from Ireland. The other profiles present among type-I isolates appeared to be largely independent of geographic origin. Three rDNA profiles were observed among R-type (type II mtDNA) isolates.     

Occurrence of Tapesia yallundae, teleomorph of Pseudocercosporella herpotrichoides, on unharvested wheat culms in England

Apothecia of Tapesia yallundae are reported for the first time in the UK. They were observed on decaying stems and leaf sheaths of unharvested wheat near Bristol in January 1989. Isolates from single ascospores produced cultures typical of the W-type form of the anamorph, Pseudocercosporella herpotrichoides . Pathogenicity on wheat was confirmed by inoculation and re-isolation from glasshouse-grown wheat seedlings.     

Comparison of isoenzyme and DNA markers for differentiating W-, R- and C-pathotypes of Pseudocercosporella herpotrichoides

Biochemical differences between the wheat, rye and couch-grass pathotypes of the eyespot pathogen, Pseudocercosporella herpotrichoides, have been identified by comparing isoenzyme profiles and DNA markers from several isolates. The wheat (W) and rye (R) pathotypes were clearly differentiated by both techniques, with isoenzyme profiling also separating the couch-grass isolates from the W- and R-type isolates. The isoenzyme profiles separated the P. herpotrichoides pathotypes from the two related species, P. anguioides and P. aestiva. The isoenzyme profiles of P. anguioides were closer to those of the R-type isolates of P. herpotrichoides than the W-type isolates, whereas the banding pattern of P. aestiva was very different. The isoenzyme profiles of the two German isolates, originally obtained from Nirenberg's laboratory, P. herpotrichoides var. herpotrichoides and var. acuformis, were similar to those of the wheat and rye pathotypes, respectively, isolated from UK-infected material.     

Assessment of blast disease resistance in transgenic PRms rice using a gfp-expressing Magnaporthe oryzae strain

Rice blast caused by the fungus Magnaporthe oryzae (anamorph Pyricularia grisea ) is one of the most devastating diseases of cultivated rice worldwide. In this study, a green fluorescent protein ( gfp )-expressing M. oryzae strain was generated and used to investigate the infection process in a commercial rice cultivar. Expression of the gfp gene did not affect the pathogenicity of the M. oryzae transformants. Confocal microscopy allowed in vivo imaging of this pathogen during infection of rice tissues. Magnaporthe oryzae pathogenicity was examined on both leaf and root tissues. In roots of wild-type plants, the fungus penetrated into epidermal and cortical cells, and colonized the central cylinder and xylem vessels. However, the dimorphic growth pattern typically observed during the biotrophic and necrotrophic stages of leaf colonization was not observed during colonization of root tissues. Furthermore, events occurring during infection of rice plants constitutively expressing the maize pathogenesis-related PRms gene were characterized and compared with those occurring during the interaction of this pathogen with untransformed rice plants. Fungal penetration was drastically reduced and delayed in tissues of PRms plants compared to untransformed plants. These results indicated that the gfp -expressing M. oryzae represents a strategic tool for the assessment of blast disease resistance in transgenic rice which can be also applied to the analysis of the M. oryzae interaction with other cultivars or mutants of important crop species.     

Evaluation of Samplers for Splash-dispersed Fungus Spores1

Sticky glass cylinders, microscope slides under rainshields, funnels and a liquid impinger were evaluated as samplers for spores of the splash-dispersed fungus. Pseudocercosporella herpotrichoides. Weekly spore counts for slides, funnels and the impinger showed a similar seasonal pattern. Funnels, as the largest samplers, generally collected most spores but the impinger collected more spores per unit area of sampling surface. Slides sometimes collected spores when other samplers did not.