Development of Stem-base Pathogens on Different Cultivars of Winter Wheat Determined by Quantitative PCR     

P. Nicholson  A.S. Turner  S.G. Edwards  G.L. Bateman  L.W. Morgan  D.W. Parry  J. Marshall  M. Nuttall 《European journal of plant pathology / European Foundation for Plant Pathology》2002,108(2):163-177

The progress of development of stem-base pathogens in crops of second winter wheat was plotted in nine experiments in three years. The amount of each pathogen present was determined by quantitative PCR. Where Tapesia yallundae was present in quantifiable amounts, it usually developed earlier than the other eyespot pathogen, T. acuformis. Both species were usually present in greater amounts on cultivars which are more susceptible to eyespot. The sharp eyespot pathogen, Rhizoctonia cerealis, developed more erratically than either of the Tapesia spp. and there were no consistent effects on different cultivars. Fusarium spp., the cause of brown foot rot, were rarely present in quantifiable amounts, but Microdochium nivale was usually present as one or both of the varieties nivale and majus. Late-season (after anthesis) decreases in M. nivale suggest that any brown foot rot symptoms attributable to this fungus would have fully developed earlier. Cultivar differences in amounts of M. nivale were most clear in stems during internode extension and when relatively large amounts of DNA were present. Such differences approximately reflected eyespot susceptibility, cv. Soissons containing most and cv. Lynx containing least DNA. The results emphasise the difficulty in relating diagnoses, by quantitative PCR or other means, at early growth stages when decisions to apply fungicides against stem-base disease are made, to later disease severity.  相似文献   

Molecular identification and pathogenicity of Fusarium and Alternaria species associated with root rot disease of wolfberry in Gansu and Ningxia provinces,China     

Constantine Uwaremwe  Liang Yue  Yang Liu  Yuan Tian  Xia Zhao  Yun Wang  Zhongkui Xie  Yubao Zhang  Zengtuan Cui  Ruoyu Wang 《Plant pathology》2021,70(2):397-406

Wolfberry (Lycium barbarum) ranks in the top 10 best-selling medicinal plants in China and it has been used for centuries as a medicine and a food supplement. It is suggested to have benefits on human health due to the rich content of polysaccharides, carotenoids, flavonoids, and alkaloids contained in its fruits, leaves, and root bark. Recently, severe root rot diseases have been causing plant losses in major growing areas. Here, we report fungi causing root rot disease in Chinese wolfberry plants. The analysis of nucleotide sequences of the internal transcribed spacer (ITS) region revealed a total of 92 isolates isolated from both soil and plant material samples. Fusarium spp. were the most abundant (58%), followed by Penicillium spp. (9%), and Alternaria spp. (5%). Fusarium spp. included F. oxysporum (36%), F. solani (30%), F. chlamydosporum (9%), F. nematophilum (9%), and F. tricinctum (8%). Sequences from the translation elongation factor 1-α gene (TEF-1α) were used to confirm the identity of Fusarium spp. and showed the predominance of F. oxysporum and F. solani. To confirm the pathogenicity of isolates, four isolates belonging to Fusarium spp. and one isolate belonging to Alternaria spp., isolated from wolfberry root tissues with root rot symptoms, were tested in outdoor and laboratory conditions. Results revealed that the five tested isolates were pathogenic with varying degrees of aggressiveness and ability to induce symptoms of root rot in wolfberry seedlings. The five isolates were recovered from inoculated seedlings, completing Koch's postulates. This is the first report on causative agents of root rot in Chinese wolfberry.  相似文献   

Differential seedling resistance to the eyespot pathogens,Oculimacula yallundae and Oculimacula acuformis,conferred by Pch2 in wheat and among accessions of Triticum monococcum     

C. Burt  T. W. Hollins  N. Powell  P. Nicholson 《Plant pathology》2010,59(5):819-828

Eyespot is an economically important stem‐base disease of wheat caused by two fungal species: Oculimacula yallundae and Oculimacula acuformis. This study investigated the efficacy of two sources of resistance, viz. the genes Pch1, introgressed into hexaploid wheat from Aegilops ventricosa, and Pch2, identified in wheat cv. Cappelle Desprez, against O. yallundae and O. acuformis separately. In a series of seedling bioassays Pch1 was found to be highly effective against both species. Although Pch2 was found to confer resistance against both pathogen species, it was significantly less effective against penetration from O. yallundae than O. acuformis. Furthermore, a quantitative trait locus (QTL) analysis was not able to locate any resistance to O. yallundae on chromosome 7A of Cappelle Desprez. This has important implications for the use of Pch2 in commercial cultivars as it is necessary to have genes that confer resistance to both pathogens for effective eyespot control. In addition, a set of 22 T. monococcum accessions was screened for resistance to both O. yallundae and O. acuformis to identify potentially novel resistances and to assess the accessions for evidence of differential resistance to the eyespot species. Significant differences in resistance to the two pathogens were identified in four of these lines, providing evidence for differential resistance in T. monococcum. This study demonstrates that future screening for novel sources of eyespot resistance should investigate both pathogen species.  相似文献   

Brachypodium distachyon exhibits compatible interactions with Oculimacula spp. and Ramularia collo‐cygni,providing the first pathosystem model to study eyespot and ramularia leaf spot diseases     

A. Peraldi  L. L. Griffe  C. Burt  G. R. D. McGrann  P. Nicholson 《Plant pathology》2014,63(3):554-562

Brachypodium distachyon (Bd) has established itself as an essential tool for comparative genomic studies in cereals and increasing attention is being paid to its potential as a model pathosystem. Eyespot and ramularia leaf spot (RLS) are important diseases of wheat, barley and other small‐grain cereals for which very little is known about the mechanisms of host resistance despite urgent requirements for plant breeders to develop resistant varieties. This work aimed to test the compatibility of interaction of two Bd accessions with the cereal pathogens Oculimacula spp. and Ramularia collo‐cygni, the causal agents of eyespot and RLS diseases, respectively. Results showed that both Bd accessions developed symptoms similar to those on the natural host for all pathogen species tested. Microscopy images demonstrated that R. collo‐cygni produced secondary conidia and both Oculimacula spp. formed characteristic infection structures on successive tissue layers. Visual disease assessment revealed that quantitative differences in disease severity exist between the two Bd accessions. The results presented here provide the first evidence that Bd is compatible with the main causal agents of eyespot and RLS diseases, and suggest that future functional genetic studies can be undertaken to investigate the mechanisms of eyespot and RLS disease resistance using Bd.  相似文献   

Mining the Watkins collection of wheat landraces for novel sources of eyespot resistance     

C. Burt  L. L. Griffe  A. P. Ridolfini  S. Orford  S. Griffiths  P. Nicholson 《Plant pathology》2014,63(6):1241-1250

Eyespot is an economically important stem base disease of wheat caused by the soilborne fungal pathogens Oculimacula yallundae and Oculimacula acuformis. The most effective method of controlling the disease is host resistance. However, there are only three genetically characterized resistances in wheat varieties and further sources of resistance are required. Previous studies have identified resistances in wild relatives, but use of these resistances has been limited by linkage drag with deleterious traits exacerbated by low rates of recombination. Therefore, the identification of novel resistances in hexaploid wheat germplasm is desirable. The Watkins collection currently consists of 1056 hexaploid wheat landraces that represent global wheat diversity at the time of its collection in the 1920s and 1930s. As such, it may contain beneficial agronomic traits such as eyespot resistance. The Watkins collection was screened for resistance to O. yallundae based on a glasshouse test of all 1056 accessions and a polytunnel test of 44 accessions selected from a previous field trial. Resistant lines identified in these tests were retested against both O. yallundae and O. acuformis. This identified 17 accessions with resistance to one or both of the pathogen species. From these, two accessions (1190094.1 and 1190736.3) provided a high level of resistance to both pathogen species. An F₄ population derived from accession 1190736.3 indicated that the resistance to O. acuformis in this accession is conferred by a single gene and therefore would be suitable for introgression into elite wheat varieties to provide an alternative source of eyespot resistance.  相似文献   

Relationship between brown foot rot and DNA of Microdochium nivale, determined by quantitative PCR, in stem bases of winter wheat     

A. S. Turner  P. Nicholson  S. G. Edwards  G. L. Bateman †  L. W. Morgan  A. D. Todd  D. W. Parry  J. Marshall  M. Nuttall 《Plant pathology》2002,51(4):464-471

Relationships between the incidence and severity of brown foot rot and of pathogenic fungi, determined by diagnostic and quantitative PCR, were investigated during the growth of nine winter wheat crops in three cropping seasons. Microdochium nivale vars nivale and majus were the only brown foot rot pathogens present in significant amounts. Relationships between disease symptoms and amounts of pathogen DNA were often weak in early spring (when shoot-base symptoms are usually most difficult to ascribe to particular pathogens by visual examination) because of indistinct symptoms and small amounts of pathogen. Relationships were strongest during stem elongation. The amount of M. nivale in the tissues tended to decline in the summer as the plants matured, apparently disappearing partially from necrotic lesions to which it contributed, resulting in a weakened relationship between symptoms and pathogen DNA. Regression analyses of brown foot rot on amounts of M. nivale DNA for different wheat cultivars generally produced lines with similar slopes but were often most significant for the cultivar with most eyespot resistance (i.e. with least confounding eyespot) or most apparently genuine brown foot rot. DNA of Fusarium spp. was rarely present in amounts sufficient to quantify.  相似文献   

Effect of benomyl on soil fungi associated with rye. 1. Effect on the incidence of sharp eyespot caused by Rhizoctonia cerealis     

E. P. van der Hoeven  G. J. Bollen 《European journal of plant pathology / European Foundation for Plant Pathology》1980,86(3):163-180

Effects of benomyl on incidence of pathogens affecting the culm base of rye were studied in field trials and growth chamber experiments. Spraying of the crop with the fungicide at a high dosage (2.4 kg.ha^–1) resulted in a tenfold increase of sharp eyespot caused byRhizoctonia cerealis and reduced foot rot symptoms caused by fusaria by 50%. In a field trial at a low dosage (0.24 kg.ha^–1) a slight increase of sharp eyespot was observed. In one year, probably because of wet conditions during the infection period, sharp eyespot did not occur in either benomyl-treated or untreated plots, but eyespot caused byPseudocercosporella herpotrichoides was abundant. Its occurrence was reduced from 74% affected culm bases in untreated plots to 8% and 1% in plots that received 0.24 and 2.4 kg.ha^–1 of the fungicide, respectively.In growth chambers seedlings were grown in two sandy soils inoculated withR. cerealis. The soil was kept dry at about 35% of the moisture holding capacity. In plots with benomyl (1 mg.kg^–1; moisture content 11% of fresh weight), fewer seedlings emerged than in plots without the fungicide. This result was highly significant (P<0.01) for one soil but not for the other. The number of seedlings that remained free of disease symptoms was higher (P<0.01) in untreated than in fungicide-treated plots of both soils.Isolates of pathogens obtained from diseased culms were tested for their sensitivity to benomyl. Growth of all of them includingR. cerealis was inhibited, although not always completely suppressed, at 10 g.ml^–1 on potato-dextrose agar. ED₅₀ values of most isolates ofR. cerealis were between 2.2 and 3.1 g.ml^–1. The fungus was slightly but consistently less sensitive thanF. culmorum. Mycelial growth ofF. nivale was appreciably more sensitive than that of the otherFusarium spp. from cereals.P. herpotrichoides andF. nivale were the most sensitive pathogens tested with ED₅₀ values of <1 g.ml^–1. Accordingly,F. nivale was absent on culms from treated plots. In a growth chamber experiment, seedlings were protected from infection by supplying the fungicide (1 mg.kg^–1) to previously inoculated soil.In a laboratory assay the effect of benomyl on microbial antagonism toR. cerealis was estimated for rhizosphere soil. Enhanced incidence of sharp eyespot in treated crops was associated with adverese effects of the fungicide on microbial antagonism. There is presumptive evidence thatR. cerealis is suppressed by bacteria after wet periods during the vegetation period of the crop and by fungi after dry periods. Only fungal antagonism, which may be less effective, is affected by benomyl. The response to benomyl of the microflora in different soils varied. Reasons for this inconsistency are suggested.Samenvatting In veldproeven en in een klimaatkamer werd de invloed van benomyl op het optreden van voetziekten in rogge onderzocht. In veldjes die bespoten waren met een hoge dosis van het fungicide (in totaal 2.4 kg.ha^–1) bleken tienmaal zoveel halmen met scherpe oogvlekken, veroorzaakt doorRhizoctonia cerealis, voor te komen dan in onbespoten veldjes. Daarentegen was voetrot veroorzaakt doorFusarium-soorten met 50% verminderd. In een volgende veldproef, waarbij een voor de praktijk geadviseerde dosis (0.24 kg.ha^–1) was toegepast, werd een lichte toename van scherpe oogvlekken waargenomen.In een ander jaar trad scherpe oogvlekkenziekte in het geheel niet op, ook niet in met benomyl behandelde veldjes. De vochtige omstandigheden tijdens de infectieperiode zijn daarvan waarschijnlijk de oorzaak. Daarentegen werd de oogvlekkenziekte, welke doorPseudocercosporella herpotrichoides werd veroorzaakt, veel aangetroffen. In de onbehandelde veldjes waren 74% van de halmen aangetast tegen 8 en 1% in de veldjes die met het fungicide waren behandeld in doseringen van 0.24 en 2.4 kg.ha^–1.De invloed van het fungicide op de aantasting van kiemplanten werd in klimaatkamerproeven onderzocht. Daartoe werden twee zandgronden metR. cerealis geënt. De grond werd droog gehouden (op 35% van het waterhoudend vermogen). In grond met fungicide (1 mg.kg^–1) was de opkomst minder dan in grond zonder fungicide. Dit was zeer significant (P<0.01) voor één van de beide zandgronden, maar niet voor de andere. Het aantal gezonde kiemplanten was in beide gevallen duidelijk hoger (P<0.01) voor de onbehandelde grond.De isolaten van ziekteverwekkers uit aangetaste halmen werden op hun gevoeligheid voor het fungicide getoetst. Op aardappel-glucoseagar werden alle isolaten in hun groei geremd bij een benomyl-concentratie van 10 g.ml^–1.R. cerealis was iets minder gevoelig danF. culmorum. Voor het overgrote deel van de isolaten vanR. cerealis lag de ED₅₀ waarde tussen 2,2 en 3,1 g.ml^–1. De myceliumgroei vanF. nivale werd meer geremd dan die van de andereFusarium-soorten.P. herpotrichoides enF. nivale waren met een ED₅₀ waarde van <1 g.m.^–1 de gevoeligste pathogenen die uit de halmvoeten werden geïsoleerd. Dat de populatie vanF. nivale in benomylhoudende grond wordt onderdrukt, blijkt uit (1) het feit dat de schimmel niet voorkwam op halmen uit behandelde veldjes en (2) de bescherming tegen infectie van kiemplanten als aan de besmette grond fungicide (1 mg.kg^–1) was toegevoegd.In laboratoriumproeven werd de invloed van benomyl op het microbiële antagonisme in rhizosfeergrond tegenR. cerealis bepaald. Een toename in het optreden van scherpe oogvlekkenziekte in behandelde gewassen bleek gepaard te gaan met een remming van het antagonisme tegen de ziekteverwekker. Er zijn sterke aanwijzingen datR. cerealis na vochtige perioden tijdens de vegetatieperiode door bacteriën wordt onderdrukt en na droge perioden door schimmels. Het antagonisme van de laatste groep lijkt minder effectief te zijn en alleen dit antagonisme wordt door benomyl verlaagd. Tenslotte wordt een mogelijke oorzaak aangegeven voor de ongelijke respons op het fungicide van het microbieel antagonisme in verschillende gronden.  相似文献   

Evolution of fungicide resistance in the cereal eyespot fungi Tapesia yallundae and Tapesia acuformis in France     

Pierre Leroux  Michel Gredt 《Pest management science》1997,51(3):321-327

Field isolates of the cereal eyespot pathogen can be divided into two groups which are now considered as two species: Tapesia yallundae and Tapesia acuformis. In both species the first case of acquired resistance was observed with benzimidazole fungicides in the early 1980s. At the same time, a number of sterol C-14 demethylation inhibitors (DMIs), such as the imidazole prochloraz and several triazoles, including flusilazole, were introduced. Surprisingly T. acuformis appeared intrinsically resistant to the triazole derivatives in comparison to T. yallundae, but both species were sensitive to prochloraz. The intensive use of these DMIs led to the development of acquired resistance towards triazoles in T. yallundae and towards prochloraz in T. acuformis. Today all the strains in both species appear equally sensitive to the anilinopyrimidine cyprodinil. ©1997 SCI  相似文献   

Characterization of isolates of binucleate Rhizoctonia spp. associated with strawberry black root rot complex using fatty acid methyl ester (FAME) profiles     

Masaru Matsumoto  Takemi Yoshida 《Journal of General Plant Pathology》2006,72(5):318-322

Black root rot is an important disease of strawberry caused by a complex of fungi that includes species of Rhizoctonia. In this study, a modified MIDI method (Microbial Identification System) was investigated for its utility to differentiate isolates of the three different anastomosis groups (AGs) of binucleate Rhizoctonia spp., associated with strawberry black root rot complex representing AG-A, AG-G, and AG-I. A total of 11 fatty acids were detected, and the FAME profiles for isolates of the three different AGs of Rhizoctonia spp. varied quantitatively and qualitatively. Moreover, the modified MIDI method will be a useful discriminatory tool for fungal identification and classification of the AGs of binucleate Rhizoctonia spp. associated with strawberry black root rot complex.  相似文献   

Development of disease symptoms and fungal pathogens on shoot bases in continuous winter wheat, and effects of fungicides   总被引：2，自引：1，他引：1  

G. L. BATEMAN 《Plant pathology》1993,42(4):595-608

Field plots in three consecutive crops of winter wheat were sampled at approximately 2-week intervals from April to July in 1989, 1990 and 1991. Culm and stem bases were examined for symptoms of eyespot, sharp eyespot and brown foot rot. The W-type and R-type of Pseudocercosporella herpotrichoides, P. anguioides, Fusarium culmorum, F. avenaceum and Microdochium nivale grown from this plant material on agar were identified. Eyespot was most severe in 1991, when plant development was least rapid following cool weather in late winter and the summer was relatively cool and wet. Sharp eyespot was most severe in 1990, which had a warm summer with moderate rainfall. The other warm summer, 1989, was drier and these conditions favoured late development of brown foot rot, associated mainly with F. culmorum which was scarce at other times. Sharp eyespot sometimes increased where prochloraz, which decreased eyespot, was applied. Distinct symptoms of more than one disease occurred less frequently on the same stem than expected from the individual total occurrences, but co-occurrences of different fungi were often more frequent than expected. In July 1990, Fusarium spp. co-occurred with R-type, but not W-type, P. herpotrichoides more frequently than expected, and in July 1990 and 1991 M. nivale and both W-type and R-type co-occurred more frequently than expected. Fusarium spp. and M. nivale were more frequent, especially in the earlier samples, on nodes than on internodes, whilst P. herpotrichoides normally infected at the internodes. The results suggest that stems weakened or altered by a primary colonizer are often a suitable substrate for a secondary colonizer, often a Fusarium sp., which may begin infection at a distance from the original lesion and often not cause distinct symptoms itself.  相似文献   

Visual disease and PCR assessment of stem base diseases in winter wheat   总被引：3，自引：0，他引：3  

Turner  O'hara  Rezanoor  Nuttall  Smith  & Nicholson 《Plant pathology》1999,48(6):742-748

Stem base disease (eyespot, sharp eyespot and brown foot rot) was assessed visually and by the polymerase chain reaction (PCR) technique on single plants sampled at four-week intervals in two crops of winter wheat grown in the UK in 1992–3. PCR assays were conducted for Fusarium avenaceum , F. culmorum , both varieties of Microdochium nivale , both eyespot-causing species of Tapesia and Rhizoctonia cerealis . PCR diagnoses were compared with visual diagnoses at each time point. Eyespot was caused principally by T. acuformis (R-type) and developed rapidly late in the season. Visual diagnoses of eyespot were largely confirmed by PCR but T. acuformis was detected in many plants lacking eyespot symptoms. R. cerealis was detected at relatively low incidences on both sites, and sharp eyespot visual diagnoses did not correlate with the incidence of any of the pathogens assayed by PCR. Brown foot rot, caused principally by Microdochium nivale var . majus , accumulated earlier in the season than eyespot. Overall, visual diagnoses of stem base disease coincided poorly with PCR data until after growth stage (GS) 30.  相似文献   

Reaction of six Musa genotypes to root-parasitic nematodes     

M. Araya  D. De Waele 《国际虫害防治杂志》2013,59(3):229-238

The reaction of six Musa genotypes to root-parasitic nematodes was evaluated under field conditions, together with the horizontal, and vertical distributions of the neomatodes within the soil profile. The numbers of Radopholus similis, Helicotylenchus spp., Meloidogyne spp. and of all nematodes in the excavated soil quadrant varied with Musa genotype. All genotypes were very susceptible to at least one nematode. Yangambi km5, Pisang Jari Buaya and FHIA-23 supported the lowest number of R. similis and Pisang Jari Buaya, the lowest number of Helicotylenchus spp. These three cultivars supported high numbers of Meloidogyne spp. Furthermore, FHIA-23 supported high numbers of Helicotylenchus spp. The horizontal and vertical distributions of R. similis in the root system of Valery, Gros Michel and FHIA-18 were very similar. By constrast, the distributions of Helicotylenchus spp., Meloidogyne spp. and the number of all nematodes varied slightly among the genotypes. Because Musa genotypes susceptible to a particular nematode showed a similar horizontal and vertical nematode distribution with populations concentrated in the vicinity of the plant base (0–30 cm horizontal distance and 30 cm depth), sampling at this site would be sufficient for the identification of the Musa plant reaction.  相似文献   

Identification and pathogenicity of Botryosphaeriaceae species associated with root and stem rot of sweet potato in Brazil     

Juliana F. de Mello  Amanda C. Q. Brito  Janiele C. B. Vieira  Marcos P. S. Câmara  Sami J. Michereff  Cristina M. de Souza-Motta  Alexandre R. Machado 《Plant pathology》2021,70(7):1601-1615

The sweet potato (Ipomoea batatas) is characterized by the production of tuberous roots rich in starch and is one of the most produced and consumed vegetables in Brazil. Botryosphaeriaceae, among other fungi, are known to cause root and stem rot of sweet potato. However, no representative and accurate study has been performed for the correct identification of these fungal species in sweet potato in Brazil. Therefore, this study aimed to identify the Botryosphaeriaceae species associated with root and stem rot of sweet potato and confirm their pathogenicity. Tuberous roots and stems of sweet potato with rot symptoms were collected in production fields and markets and used for fungal isolations. The identification of fungi was based on the morphology of reproductive structures and phylogenetic analyses of the gene regions ITS, tef1-α, and rpb2. The following species were identified: Lasiodiplodia theobromae, L. hormozganensis, Macrophomina phaseolina, M. euphorbiicola, M. pseudophaseolina, and Neoscytalidium dimidiatum. For the pathogenicity test, one representative isolate for each species was inoculated in healthy tuberous roots and in 30-day-old healthy seedlings. Black and necrotic lesions on tuberous roots and stems were observed in all replications and resulted in the death of some seedlings. This is the first report of L. hormozganensis, M. pseudophaseolina, and M. euphorbiicola, as causal agents of the stem and root rot of sweet potato and N. dimidiatum as a causal agent of stem rot worldwide.  相似文献   

黄淮海夏玉米主产区穗腐病病原菌的分离鉴定   总被引：6，自引：0，他引：6  

孙华  张海剑  郭宁  石洁  陈丹  马红霞 《植物保护学报》2017,44(5):796-802

为明确我国黄淮海夏玉米主产区玉米穗腐病的病原菌种类、优势种群及虫害、年度、省份对病原菌的影响,以形态学为基础,结合分子生物学方法对2013、2015年随机采自河南、河北、山东3省的155份玉米穗腐病样品进行分离鉴定。结果表明,引起黄淮海夏玉米主产区玉米穗腐病的主要致病菌为镰孢菌Fusarium spp.,包括拟轮枝镰孢F.verticillioides、禾谷镰孢F.graminearum、层出镰孢F.proliferatum、木贼镰孢F.equiseti及藤仓镰孢F.fujikuroi,分离频率分别为49.7%、28.4%、12.3%、3.9%和1.3%;其次为木霉菌Trichoderma spp.,包括哈茨木霉T.harzianum、绿色木霉T.viride和棘孢木霉T.asperellum,分离频率分别为8.4%、3.2%和5.2%;青霉菌Penicillium spp.分离频率较低,为14.2%;曲霉菌Aspergillus spp.包括黑曲霉A.niger和黄曲霉A.flavus,分离频率分别为2.6%和1.9%。研究表明,黄淮海主产区玉米穗腐病优势病原菌为拟轮枝镰孢、禾谷镰孢和木霉菌,不同省份不同年度间病原菌种类及优势病原菌存在差异,虫害能加重玉米穗腐病的发生。  相似文献   

玉米茎腐病病原菌检测方法研究   总被引：4，自引：0，他引：4  

马红霞  张海剑  孙华  石洁  陈丹  郭宁 《植物保护》2017,43(3):149-153

为提高玉米茎腐病病原菌检测结果的准确性和可信度,以组织分离法做对比,采用分子检测法,对采自田间的189个玉米茎腐病病株进行真菌种类的鉴定和数量的统计。结果表明,分子检测法对腐霉Pythiumspp.的检出频率为29.24%,对镰孢菌Fusariumspp.的检出频率为73.68%,组织分离法对腐霉的检出频率仅为0.58%,对镰孢菌的检出频率为60.82%,两方法的符合率最高仅为35.92%,最低为0。因此,采用组织分离和分子检测相结合的方法可提高玉米茎腐病病原菌鉴定结果的准确性。  相似文献   

Clostridium bifermentans and C. subterminale are associated with kiwifruit vine decline,known as moria,in Italy     

Patrizia Spigaglia  Fabrizio Barbanti  Fabio Marocchi  Marco Mastroleo  Marco Baretta  Patrizia Ferrante  Emilia Caboni  Simona Lucioli  Marco Scortichini 《Plant pathology》2020,69(4):765-774

Since 2012, a new pathogenic syndrome has frequently been observed in many areas of kiwifruit cultivation in Italy. The main symptoms include an initial withering of the leaves followed by a total and sudden collapse of plants, mainly occurring during summer. The withered leaves fall and the main and secondary feeder roots appear rotten, sometimes showing a reddish-brown discoloration. The disease, that affects both the green and yellow-fleshed cultivars, has been called kiwifruit vine decline and is locally known as moria. The syndrome has been found consistently associated with soil waterlogging, which frequently occurs either after the traditional agronomical practice of irrigating orchards through surface irrigation or after very heavy rainfall. So far, the role played by bacteria in this syndrome has not been investigated. In the present study, Clostridium spp. were isolated from both rotten roots and soils obtained from Italian kiwifruit orchards affected by the syndrome, indicating for the first time that anaerobic bacteria are able to cause damage to woody crops. C. bifermentans and C. subterminale incited symptoms in kiwifruit in both in vivo and in vitro pathogenicity tests. Soil waterlogging seems to potentially favour colonization of kiwifruit roots by anaerobic bacteria, probably because saturation of the soil can facilitate proliferation and persistence of these bacteria during long periods of the vegetative growth of the crop. The occurrence of anaerobic bacteria does not exclude the possibility that other microorganisms can play additional/synergic role(s) in causing the kiwifruit vine decline.  相似文献   

Detection and quantification of Rhizoctonia cerealis in soil using real-time PCR   总被引：1，自引：0，他引：1  

Yingpeng Guo  Wei Li  Haiyan Sun  Ning Wang  Hanshou Yu  Huaigu Chen 《Journal of General Plant Pathology》2012,78(4):247-254

Rhizoctonia cerealis E.P. van der Hoeven (anamorph of Ceratobasidium cereale D.I. Murray and Burpee), which causes sharp eyespot in wheat, is a major soilborne fungal pathogen that severely impairs yield and quality of winter wheat in China. Because the pathogen is difficult to identify and quantify in soil using conventional methods, a rapid and reliable method is needed to detect and quantify the fungus. In this study, we developed an SYBR Green-based quantitative real-time polymerase chain reaction assay for specific, sensitive detection and quantification of R. cerealis in soil samples. Using a specific primer pair based on the β-tubulin gene of the fungal DNA sequence, we could specifically detect R. cerealis at quantities as low as 100?fg of purified pathogen DNA. Using the real-time PCR assays, we were able to quantify R. cerealis in artificially and naturally infested soil samples. This new technique to quantify R. cerealis is rapid and accurate and will be a useful tool for future studies of pathogenic R. cerealis.  相似文献   

A TaqMan real-time PCR assay for <Emphasis Type="Italic">Rhizoctonia cerealis</Emphasis> and its use in wheat and soil     

J. W. Woodhall  M. J. Brown  K. Perkins  E. Somoza Valdeolmillos  N. Boonham  R. V. Ray 《European journal of plant pathology / European Foundation for Plant Pathology》2017,148(2):237-245

Rhizoctonia cerealis causes sharp eyespot in cereals and the pathogen survives as mycelia or sclerotia in soil. Real-time Polymerase Chain Reaction (qPCR) assays based on TaqMan chemistry are highly suitable for use on DNA extracted from soil. We report here the first qPCR assay for R. cerealis using TaqMan primers and a probe based on a unique Sequence Characterised Amplified Region (SCAR). The assay is highly specific and did not amplify DNA from a range of other binucleate Rhizoctonia species or isolates of anastomosis groups of Rhizoctonia solani. The high sensitivity of the assay was demonstrated in soils using a bulk DNA extraction method where 200 μg sclerotia in 50 g of soil were detected. DNA of the pathogen could also be amplified from asymptomatic wheat plants. Using the assay on soil samples from fields under different crop rotations, R. cerealis was most frequently detected in soils where wheat was grown or soil under pasture. It was detected least frequently in fields where potatoes were grown. This study demonstrates that assays derived from SCAR sequences can produce specific and sensitive qPCR assays.  相似文献   

Fungicide resistance status in French populations of the wheat eyespot fungi Oculimacula acuformis and Oculimacula yallundae     

Pierre Leroux  Michel Gredt  Florent Remuson  Annie Micoud  Anne‐Sophie Walker 《Pest management science》2013,69(1):15-26

Eyespot, caused by Oculimacula acuformis and Oculimacula yallundae, is the major foot disease of winter wheat in several European countries, including France. It can be controlled by chemical treatment between tillering and the second node stage. The fungicides used include antimicrotubule toxicants (benzimidazoles), inhibitors of sterol 14α‐demethylation (DMIs) or of succinate dehydrogenase (SDHIs), the anilinopyrimidines cyprodinil and the benzophenone metrafenone. Since the early 1980s, a long‐term survey has been set up in France to monitor changes in the sensitivity of eyespot populations to fungicides. Resistance to benzimidazoles has become generalised since the early 1990s, in spite of the withdrawal of this class of fungicides. In the DMI group, resistance to triazoles is generalised, whereas no resistance to the triazolinethione prothioconazole has yet developed. Resistance to the imidazole prochloraz evolved successively in O. acuformis and O. yallundae and is now well established. Specific resistance to cyprodinil has also been detected, but its frequency has generally remained low. Finally, since the early 2000s, a few strains of O. yallundae displaying multidrug resistance (MDR) have been detected. These strains display low levels of resistance to prothioconazole and SDHIs, such as boscalid. Knowledge of the spatiotemporal distribution in France of O. acuformis and O. yallundae field strains resistant to fungicides allows resistance management strategies for eyespot fungi in winter wheat to be proposed.© 2012 Society of Chemical Industry  相似文献   

烯效唑在棉花及土壤中的残留及消解动态   总被引：1，自引：1，他引：0  

马婧玮  李通  周玲  张军锋  周娟  吴绪金 《农药学学报》2017,19(3):374-380

建立了烯效唑在棉花叶片、棉籽和土壤中残留的高效液相色谱-串联质谱（HPLC-MS/MS）检测方法,并运用该方法对烯效唑在棉花叶片和土壤中的残留消解规律进行了研究。样品用乙腈-水提取,经Cleanert NH2固相萃取柱净化,电喷雾正离子多反应监测模式HPLC-MS/MS检测,外标法定量。结果表明:烯效唑在棉花叶片、棉籽和土壤中的平均添加回收率在74%~101%之间,相对标准偏差（RSD）在1.2%~10%之间（n=5）。烯效唑在3种基质中的检出限（LOD）均为0.01 ng,定量限（LOQ）均为0.01 mg/kg。该方法准确、灵敏、简单,适用于棉花样品中烯效唑残留的检测。田间试验结果表明:烯效唑在棉花叶片和土壤中的消解半衰期分别为4.2~5.0 d及15.8~19.7 d;于收获期采样,烯效唑在棉籽和土壤中的最终残留量分别为0.01 mg/kg和0.022 mg/kg。  相似文献