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1.
Pintye A Bereczky Z Kovács GM Nagy LG Xu X Legler SE Váczy Z Váczy KZ Caffi T Rossi V Kiss L 《Phytopathology》2012,102(7):707-716
Pycnidial fungi belonging to the genus Ampelomyces are common intracellular mycoparasites of powdery mildews worldwide. Some strains have already been developed as commercial biocontrol agents (BCAs) of Erysiphe necator and other powdery mildew species infecting important crops. One of the basic, and still debated, questions concerning the tritrophic relationships between host plants, powdery mildew fungi, and Ampelomyces mycoparasites is whether Ampelomyces strains isolated from certain species of the Erysiphales are narrowly specialized to their original mycohosts or are generalist mycoparasites of many powdery mildew fungi. This is also important for the use of Ampelomyces strains as BCAs. To understand this relationship, the nuclear ribosomal DNA internal transcribed spacer (ITS) and partial actin gene (act1) sequences of 55 Ampelomyces strains from E. necator were analyzed together with those of 47 strains isolated from other powdery mildew species. These phylogenetic analyses distinguished five major clades and strains from E. necator that were present in all but one clade. This work was supplemented with the selection of nine inter-simple sequence repeat (ISSR) markers for strain-specific identification of Ampelomyces mycoparasites to monitor the environmental fate of strains applied as BCAs. The genetic distances among strains calculated based on ISSR patterns have also highlighted the genetic diversity of Ampelomyces mycoparasites naturally occurring in grapevine powdery mildew. Overall, this work showed that Ampelomyces strains isolated from E. necator are genetically diverse and there is no indication of strict mycohost associations in these strains. However, these results cannot rule out a certain degree of quantitative association between at least some of the Ampelomyces lineages identified in this work and their original mycohosts. 相似文献
2.
Orsolya Szentiványi Krisztina Varga Rebecca Wyand Hannah Slatter Levente Kiss 《European journal of plant pathology / European Foundation for Plant Pathology》2006,115(3):351-356
Since 2001, several isolates of Blumeria graminis, the causal agent of cereal powdery mildew, maintained on detached leaves at the John Innes Centre, Norwich, UK, have spontaneously become infected with an unknown filamentous fungus whose mycelia have quickly overgrown the powdery mildew colonies and destroyed them completely. A total of five isolates of the contaminant were obtained and identified as Paecilomyces farinosus based on morphological characteristics and rDNA ITS sequence data. To determine whether these P. farinosus isolates can be considered as biocontrol agents (BCAs) of powdery mildews, we studied the interactions between P. farinosus and the following four powdery mildew species: B. graminis f.sp. hordei infecting barley, Oidium neolycopersici infecting tomato, Golovinomyces orontii infecting tobacco and Podosphaera fusca infecting cucumber. The powdery mildew colonies of all these four powdery mildew species were quickly destroyed by P. farinosus in leaf cultures but neither conidial suspensions nor cell-free culture filtrates of P. farinosus isolates could suppress the spread of powdery mildew infections on diseased barley, tomato, tobacco or cucumber plants in the greenhouse. It is concluded that P. farinosus cannot be considered as a promising BCA of powdery mildew infections although it can destroy powdery mildew colonies in detached leaf cultures and can be a menace during the maintenance of such cultures of cereal, apple, cucurbit and tomato powdery mildew isolates. 相似文献
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Oidium neolycopersici causes severe powdery mildew on all aerial parts of tomato, excluding the fruit. The objective of the present work was to examine factors that influence the development of O. neolycopersici on tomato and to identify potential methods for managing tomato powdery mildew. Under controlled conditions, the highest rates of conidial germination were observed at 25 degrees C, 99% relative humidity (RH) and minimal light, and the lowest on leaves adjacent to fruits. Optimal conditions for appressoria formation were 25 degrees C, RH ranging from 33 to 99%, and 1,750 lux light intensity. More conidia were formed at 20 degrees C, 70 to 85% RH, and 5,150 lux light intensity than at 16 and 26 degrees C, 99% RH, and 480 to 1,750 lux, respectively. Conidia survived and remained capable of germination for over four months when initially incubated at lower temperatures and higher RH, as compared with their fast decline under more extreme summer shade conditions. In growth chamber experiments, disease did not develop at 28 degrees C. Within the range of 70 to 99% RH, disease was less severe under the higher RH than the drier conditions. Disease was also less severe at lower light intensities. Data collected in three commercial-like greenhouse experiments involving various climate regimes were used to draw correlations regarding the effects of temperature and RH on the development of epidemics. Severity of powdery mildew was positively correlated with the duration of the range 15 to 25 degrees C, 1 to 4 weeks before disease evaluation (BDE), RH levels of 60 to 90% at 2 to 4 weeks BDE, and RH of 50 to 60% during the week BDE. Conversely, disease was negatively correlated with the duration of temperatures in the low and high ranges (5 to 15 degrees C and 35 to 40 degrees C) at 1 to 4 weeks BDE, with the duration of RH levels of 40% and below at 1 to 4 weeks BDE, and with 50 to 60% RH during the third week BDE. High (90 to 100%) RH was also negatively correlated with disease severity. These results suggest that the combination of high temperatures and low RH may help reduce O. neolycopersici powdery mildew severity in greenhouse tomatoes. 相似文献
5.
南瓜白粉病不同病情等级下叶际细菌群落结构和多样性 总被引:2,自引:0,他引:2
南瓜白粉病是一种危害严重的真菌病害,研究不同病情等级下细菌群落组成的异同对进一步研究南瓜白粉病的生物防治具有重要意义。采集来自3个不同发病等级的南瓜白粉病叶片(R1、R2和R3),运用高通量测序方法分析比较了不同发病等级的南瓜叶片的细菌群落结构和多样性,发现三个不同病情等级下细菌群落结构存在显著差异。在门水平上,三个病情等级下优势门均为Actinobacteria(放线菌门)、Bacteroidetes(拟杆菌门)、Proteobacteria(变形菌门)和Firmicutes(厚壁菌门);在属水平上,R1病情等级下优势属是Methylobacterium、Sphingomonas和Acinetobacter,R2病情等级下为Acinetobacter、Kluyvera和Pantoea,R3病情等级下为Methylobacterium、Kluyvera和Pantoea。南瓜白粉病菌可以改变南瓜叶际细菌群落结构,影响细菌群落多样性。Kluyvera、Pantoea和Erwinia的相对丰度与病情等级呈正相关,随着病情严重发生,丰度得到增强,表明它们可能与白粉菌存在协同作用。这些结果对进一步研究南瓜叶际微生态从而防控白粉病提供了科学参考依据。 相似文献
6.
Lettuce (Lactuca sativa) is the major leafy vegetable that is susceptible to powdery mildew disease under greenhouse and field conditions. Quantitative trait loci (QTLs) for resistance to powdery mildew under greenhouse conditions were mapped in an interspecific population derived from a cross between susceptible L. sativa cultivar Salinas and the highly susceptible L. serriola accession UC96US23. Four significant QTLs were detected on linkage groups LG 1 (pm‐1.1), LG 2 (pm‐2.1 and pm‐2.2) and LG 7 (pm‐7.1), each explaining between 35 to 42% of the phenotypic variation. The four QTLs are not located in the documented hotspots of lettuce resistance genes. Alleles for the disease resistance at the four QTLs originated from both parents (two from each), demonstrating that even highly susceptible accessions may provide alleles for resistance to powdery mildew. These QTLs appeared to operate during limited periods of time. Results of the field trials with F2:3 and F3:4 families derived from a Soraya (moderately resistant) × Salinas cross demonstrated effective transfer of resistance to powdery mildew in this material. An integrated rating approach was used to estimate relative levels of resistance in 80 cultivars and accessions tested in a total of 23 field and greenhouse experiments. Generally, very low resistance was observed in crisphead‐type lettuces, while the highest relative resistance was recorded in leaf and butterhead types. Comparison of two disease assessment methods (percentage rating and the area under the disease progress steps, AUDPS) for detection of QTLs shows that the two approaches complement each other. 相似文献
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在感病的小麦品种上影响白粉病菌(Ery siphe graminis f.sp.tritici)侵染机率变化的主要因素是平均温度(T)和平均相对湿度(RH)。平均温度与侵染机率的关系符合ŷ=X/(a+bX+cX2)的二次抛物线函数关系,最适温度范围在5.15-10℃之间。平均相对湿度与侵染机率的关系一般符合直线关系,最适湿度范围在81.15-97.0%之间。通经分析表明,平均相对湿度较平均温度对白粉病菌侵染机率的直接影响更大。 相似文献
8.
Overwintering of Ampelomyces mycoparasites on apple trees and other plants infected with powdery mildews 总被引:1,自引:0,他引:1
Apple shoots and aerial parts of 13 other plant species infected with powdery mildews during the previous season were collected in late winter and early spring between 1998 and 2003 at a total of 34 sample sites in Hungary. Samples were examined for the presence of overwintering structures of Ampelomyces, common mycoparasites of powdery mildews. Pycnidia and resting hyphae resembling those of Ampelomyces were found on six plant species, including apple. Their viability and subsequent mycoparasitic activity of the hyphae emerging from the overwintered fungal structures were studied in vitro to determine whether they can serve as sources of primary inocula of Ampelomyces in the spring. Overwintered pycnidia of Ampelomyces collected in the spring, and produced in both the ascomata and the conidiophores of powdery mildews during the previous season, initiated the life cycle of these mycoparasites when placed close to fresh powdery mildew colonies in vitro. Similarly, thick-walled resting hyphae, found in the dried powdery mildew mycelia which covered the overwintered aerial parts of the host plants, also germinated and gave rise to new intracellular pycnidia of Ampelomyces when powdery mildew colonies were inoculated with them in vitro. On apple trees, Ampelomyces mycoparasites overwintered as resting hyphae in the dried powdery mildew mycelia covering the shoots and in the parasitized ascomata of Podosphaera leucotricha on the bark and the scales of the buds. Approximately 31% of the field samples collected from apple trees in spring between 1998 and 2003 contained overwintered structures of Ampelomyces. Artificial bursting of apple buds in the laboratory showed that both P. leucotricha and Ampelomyces start their life cycle during or soon after bud burst, but Ampelomyces can only slowly follow the spread of its mycohost on infected leaves. Most probably, the mycoparasites did not overwinter in the dormant hyphae of P. leucotricha in the buds, but only on the bark and the bud scales, as their hyphae were not found in the young hyphae of apple powdery mildew that appeared on the leaf tissues during bud burst. This study demonstrated that Ampelomyces mycoparasites can survive the winter in the field as pycnidia and as resting hyphae in the dried mycelia of their mycohosts. 相似文献
9.
Michal Brand Yoel Messika Yigal Elad Dalia Rav David Abraham Sztejnberg 《European journal of plant pathology / European Foundation for Plant Pathology》2009,124(2):309-329
The effects of several spray and climate treatments on Leveillula taurica were tested under controlled and commercial greenhouse conditions either alone or combined with a climate treatment. Ampelomyces quisqualis AQ10 inhibited the germination of conidia on leaves, but not on glass. Trichoderma harzianum T39 inhibited germination on both surfaces. Neither the examined biological control agents (BCAs) nor the two tested mineral
oils (AddQ and JMS Stylet-Oil) affected the viability of conidia. Sulphur drastically limited the germination and viability
of L. taurica. In experiments at 15–25°C, AQ10 alone reduced hyphal leaf colonisation at 25°C. T. harzianum T39 significantly reduced leaf colonisation at all temperatures but significantly reduced disease only at 20–25°C. The oils
significantly reduced leaf colonisation and sulphur reduced both leaf colonisation and disease at all temperatures. Results
were confirmed in an experimental greenhouse. In a field experiment, azoxystrobin, polyoxin AL, neem extract, and T39 were
effective; sulphur was superior to them. Under severe epidemic conditions the disease had a negative impact on yield; late
fungicide treatments at spring-time were found unnecessary. Chemical sprays applied in alternation was compared with the ‘friendly’
spray regime (alternation of Heliosoufre, T. harzianum T39 + JMS Stylet oil, A. quisqualis AQ10+AddQ oil and Neemgard) in two climates i.e. (i.) day warm climate and (ii.) regular (cool) day climate regimes. In the
warm climate, there was no significant difference in the performance of the ‘friendly’ spray regime and the chemical spray
regime. However, in the cooler climate, the ‘friendly’ spray programme was not as effective as the chemical spray programme.
It was concluded that a change in the greenhouse climate may affect the development of powdery mildew and, at the same time,
promote the activity of BCAs and render a pathogen more vulnerable to these control agents, allowing for better disease suppression. 相似文献
10.
T. Hijwegen 《European journal of plant pathology / European Foundation for Plant Pathology》1992,98(4):221-225
In growth cabinet and greenhouse experiments the efficacy ofTilletiopsis minor in controlling cucumber powdery mildew decreased as humidity was lowered. This effect could be counteracted by formulation of the mycoparasite with lipophilic substances, like Hora Oleo 11E and lipids from milk. These formulations, without the mycoparasite, were also found to be deleterious to powdery mildew development. In the long run, however, formulations withT. minor gave better biological control of cucumber powdery mildew than formulations alone. 相似文献
11.
Nikolett Réka Aranyi Ildikó Varga Péter Poczai István Cernák Gyula Vida Márta Molnár-Láng Borbála Hoffmann 《European journal of plant pathology / European Foundation for Plant Pathology》2014,139(1):19-25
This work is a detailed study of the infection of fungal biotrophic pathogens causing powdery mildew diseases on introgression lines originating from the intergeneric hybridisation between wheat and barley (Triticum aestivum L. × Hordeum vulgare L.). Powdery mildew fungi are among the most widespread biotrophic pathogens of plants also and infect dicot and monocot species. Most powdery mildew species are strictly host specific. They colonize only a narrow range of species or one particular host species. The intergeneric hybridisation between wheat and barley could result in expansions of host ranges of the barley powdery mildew. Our experiments covered natural infections in the field and artificial infections under greenhouse conditions. Formae speciales of powdery mildew were identified on the basis of the sequencing results of ribosomal internal transcribed spacer sequences (rDNA-ITS). We identified Blumeria graminis f.sp. tritici isolate 14 (HM484334) on the wheat parent and all wheat-barley introgression lines and B. g. f. sp. hordei isolate MUMH1723 (AB 273556) on the barley parent, respectively. The wheat-barley introgression lines were inoculated with barley powdery mildew under greenhouse conditions. According to our results the added barley chromosomes (or segments) do not cause host range expansion of barley powdery mildew. 相似文献
12.
Sphaerotheca fusca was confirmed, by the formation of cleistothecia on artificially inoculated detached cotyledons of melon in Petri dishes, as the main powdery mildew pathogen on Cucurbitaceae in Crete during 1993–94. Among 41 single-spore isolates of S. fusca from Cucumis sativus, C. meto, Cucurbita pepo and Cucurbita sp., two races (1 and 2) were identified, in an approximately equal ratio, by using four melon differential lines. All 41 single-spore isolates of S. fusca were grouped into two mating types, indicating that the fungus is bipolarly heterothallic and that both mating types are present in Greece. By examining mycelial and conidial features, one single-spore isolate of powdery mildew from C. pepo was identified as belonging to Erysiphe cucurbitacearum. 相似文献
13.
Spore-forming bacteria isolated from oilseed rape (OSR) roots were tested for biological control activity against Rhizoctonia solani damping-off of OSR, using a simple slurry coat formulation. From a total of 239 strains which were tested, Bacillus subtilis 205 was selected as the most promising biocontrol agent (BCA). A known isolate of B. subtilis (NCIMB 12376), which had previously shown activity against R. solani in cotton, was used as a standard comparison throughout. In an in vivo screening, pre-emergence damping-off disease control by B. subtilis 205 was excellent, with plant stands being almost as high as non-diseased controls. However, post-emergence survival was less good, although the surviving plants exhibited significantly reduced hypocotyl rot. Growth-room trials which assessed the effect of ambient temperature on the biological control efficacy of B. subtilis strains 12376 and 205 showed that isolate 205 was more effective at lower temperatures. Disease control by isolate 205 at 15°C/10°C (day/night) suggests that this bacterium could operate under autumn sowing field conditions. Further investigations also indicated that the addition of iron (III) to the BCA formulation may enhance disease control by both bacilli. The potential of bacterial BCAs for the control of seedling diseases is discussed. 相似文献
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Tomoko Suzuki Shougo Nishimura Kazuhiro Yagi Ryousuke Nakamura Yoshihiro Takikawa Yoshinori Matsuda Koji Kakutani Teruo Nonomura 《Phytoparasitica》2018,46(1):31-43
The lengths of conidiophores in fungal colonies of the melon powdery mildew pathogen Podosphaera xanthii Pollacci KMP-6 N cultured under greenhouse (natural) conditions differed markedly from those cultured in a growth chamber. We hypothesized that light wavelength was responsible for the differences in conidiophore length. In this study, we examined the effects of light-emitting diode (LED) irradiation (purple, blue, green, orange, and red light) and white light on colony development and conidiophore formation in KMP-6 N using a stereomicroscope and a high-fidelity digital microscope. Colonies on leaves were flat under greenhouse conditions and under red LED light irradiation but were stacked under growth chamber conditions and under purple, blue, green, and orange LED light irradiation. In addition, KMP-6 N formed catenated conidia comprising six conidia per conidiophore under greenhouse conditions and red light but more than seven conidia per conidiophore under growth chamber conditions and purple, blue, green, and orange light. Furthermore, almost none of the conidia on top of the conidiophores grown under blue light were fully constricted. Therefore, these fungi could not scatter their conidia and spread infection. This is the first report of the effects of LED lights on conidiophore formation in the melon powdery mildew fungus P. xanthii. The results provide insight into the mechanisms underlying the responses of conidiophores to light of specific wavelengths and conidial scatter from conidiophores of melon powdery mildew fungi. 相似文献
15.
M. R. Hajlaoui R. R. Bélanger 《European journal of plant pathology / European Foundation for Plant Pathology》1991,97(4):203-208
Three reported antagonists of cucumber powdery mildew,Stephanoascus flocculosus, Stephanoascus rugulosus, andTilletiopsis washingtonensis, were tested and compared under different environmental conditions for their potential for controlling rose powdery mildew, caused bySphaerotheca pannosa var.rosae. Under controlled conditions in vitro, all three fungi induced a rapid collapse of conidia, conidiophores and hyphae ofS. pannosa var.rosae on detached leaflets of miniature roses within 48 h following their application, as observed under a SEM. Both temperature and relative humidity (r.h.) affected the activity of the antagonists differently. The colonization of powdery mildew was maximal at 26 °C, especially forSt. rugulosus andT. washingtonensis. Maximal colonization was achieved at the highest r.h. tested (90%) for all three antagonists but onlySt. flocculosus maintained a colonization of 80% or better under lower r.h. These observations stress the importance of considering environmental conditions when assessing the activity of antagonistic microorganisms. 相似文献
16.
ABSTRACT Bacterial speck of tomato, caused by Pseudomonas syringae pv. tomato, continues to be a problem for tomato growers worldwide. A collection of nonpathogenic bacteria from tomato leaves plus P. syringae strains TLP2 and Cit7, P. fluorescens strain A506, and P. syringae pv. tomato DC3000 hrp mutants were examined in a greenhouse bioassay for the ability to reduce foliar bacterial speck disease severity. While several of these strains significantly reduced disease severity, P. syringae Cit7 was the most effective, providing a mean level of disease reduction of 78% under greenhouse conditions. The P. syringae pv. tomato DC3000 hrpA, hrpH, and hrpS mutants also significantly reduced speck severity under greenhouse conditions. The strains with the greatest efficacy under greenhouse conditions were tested for the ability to reduce bacterial speck under field conditions at locations in Alabama, Florida, and Ontario, Canada. P. syringae Cit7 was the most effective strain, providing a mean level of disease reduction of 28% over 10 different field experiments. P. fluorescens A506, which is commercially available as Blight-Ban A506, provided a mean level of disease reduction of 18% over nine different field experiments. While neither P. syringae Cit7 nor P. fluorescens A506 can be integrated with copper bactericides due to their copper sensitivity, there exist some potential for integrating these biological control agents with "plant activators", including Actigard. Of the P. syringae pv. tomato DC3000 hrp mutants tested, only the hrpS mutant reduced speck severity significantly under field conditions. 相似文献
17.
防治西葫芦和黄瓜白粉病的生物制剂的筛选 总被引:2,自引:0,他引:2
瓜类白粉病是蔬菜上的重要病害之一,为加大对该病害的生物防治力度,本研究采用课题组研发的1×109cfu/g玫瑰黄链霉菌水剂和10亿芽胞/g枯草芽胞杆菌悬浮剂以及市场上常用的枯草芽胞杆菌、哈茨木霉菌、寡雄腐霉、武夷菌素、多抗霉素等多种生物制剂进行田间药效试验,比较几种生物制剂的防治效果。结果表明,供试生物制剂对西葫芦白粉病的防效为57.65%~84.98%,其中3%多抗霉素水剂600倍液的防效最好,为84.98%,且具有明显的促生长作用,增产率达12.65%。其次为1 000亿芽胞/g枯草芽胞杆菌可湿性粉剂(武汉天惠)400倍液、2%武夷菌素水剂600倍液和3×108 cfu/g哈茨木霉菌可湿性粉剂300倍液,可作为西葫芦白粉病防治的选用药剂。1×109 cfu/g玫瑰黄链霉菌水剂对西葫芦和黄瓜白粉病均具有较好的防效,分别为78.68%和73.59%,具有开发和应用的市场价值。 相似文献
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Zifu Yan Oene Dolstra Theo W. Prins Piet Stam Peter B. Visser 《European journal of plant pathology / European Foundation for Plant Pathology》2006,114(3):301-308
Powdery mildew (Podosphaera pannosa) is the most important fungal disease in greenhouse roses and is in practice controlled by fungicides. The creation of novel
cultivars with durable resistance to powdery mildew is highly desirable. To understand the inheritance of mildew resistance,
a tetraploid rose population with a size of 181 seedlings was obtained by crossing two tetraploid genotypes each having partial
resistance. The population and its parents were tested under greenhouse conditions with two well-defined monospore isolates
(2 and F1) using artificial inoculation with spore suspensions. Disease score at 11 days post-inoculation, latent period and
rate of symptom development were used to describe seedling resistance. The tests for both isolates exhibited a wide and significant
variation among genotypes for resistance. The distribution of the genotypic means of the disease scores was continuous and
showed a considerable transgression. Statistical analysis, scatter plot of disease scores for the isolates, and correlation
analyses indicated that the two isolates differed in pathogenicity. The outcome of the tests showed that the inoculation assay
with spore suspensions was a reliable and effective way to screen large numbers of genotypes under greenhouse conditions for
genetic and breeding studies. This is the first report on spore-suspension inoculation to be used successfully in rose. 相似文献
20.
Comparisons of single versus multiple bacterial species on biological control of anthurium blight 总被引:1,自引:0,他引:1
ABSTRACT Effects of single versus multiple biological control agents (BCAs) on suppression of bacterial blight of anthurium were studied using a bioluminescent strain (V108LRUH1) of Xanthomonas campestris pv. dieffenbachiae. When five BCAs (GUT3, GUT4, GUT5, GUT6, and GUT9) were coinoculated in various combinations with V108LRUH1 into filter-sterilized guttation fluids of anthurium plants, a mixture of all five strains or four strains without GUT9 was most inhibitory to V108LRUH1. None of the individual BCAs inhibited V108LRUH1 in the guttation fluid. When BCAs were sprayed at congruent with10(8) CFU/ml on the foliage of a susceptible cultivar 1 day prior to inoculation with V108LRUH1, GUT6 alone and any mixtures containing GUT6 were highly effective in suppressing wound invasion and subsequent leaf infection by V108LRUH1. When tested on several cultivars that differed in susceptibility to the disease, the mixture of five strains or four strains without GUT9 consistently suppressed leaf infection regardless of the cultivars. In some cultivars, BCAs completely suppressed both wound and hydathode invasion by V108LRUH1, resulting in no infection in many leaves. These results indicate that application of bacterial mixtures provides anthurium cultivars with bacterial communities suppressive to X. campestris pv. dieffenbachiae. The results also suggest that selecting an effective mixture of BCAs first and then removing ineffective strains may be a better general approach to finding the most effective BCAs than finding individual strains and combining them. 相似文献