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引起葡萄叶斑病的链格孢种类的初步鉴定 总被引:1,自引:0,他引:1
为明确北京市大兴区、顺义区和山西省襄汾县葡萄树上叶斑病的病原菌,利用组织分离法对病样进行分离纯化,采用多基因系统发育学分析(ITS,Alt a 1和gpd)和形态学对纯化后菌株进行鉴定,并结合柯赫氏法则对其进行验证。结果表明,共获得37株链格孢属真菌菌株,分属链格孢Alternaria alternata、葡萄链格孢A. viniferae和乔木链格孢A. arborescens,柯赫氏法则检测结果显示接种菌株对所接叶片与果穗均具致病性,说明这3种链格孢种均为葡萄叶斑病的病原菌;葡萄链格孢为主要的病原菌,有28株,故将该类病害命名为葡萄链格孢叶斑病;此外,该类菌株在2~40℃之间均能生长,25℃为最适生长温度。 相似文献
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为明确北京市生菜链格孢根腐病的病原菌种类,采用常规组织分离法分离获得病原菌,依据柯赫氏法则对病原菌进行致病力检测,并利用分子生物学技术结合形态学鉴定确定病原菌分类地位。结果显示,从生菜病样组织中分离到2种病原菌共18株,形态学鉴定结果为芸薹链格孢Alternaria brassicae和万寿菊链格孢A. tagetica,分离比例分别为55.6%和44.4%,且二者均能单独侵染生菜根部,前者致病力较后者强,亦能复合侵染。对致病菌株进行GAPDH基因的PCR扩增和测序,并建立了基于GAPDH基因序列的系统发育树,聚类分析结果与形态学鉴定结果一致,因此证实北京市生菜链格孢根腐病是由芸薹链格孢和万寿菊链格孢复合侵染所致。 相似文献
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珠芽魔芋Amorphophallus bulbifer是我国西南地区广泛种植的一种特色经济作物,自2015年开始云南省德宏州及西双版纳州珠芽魔芋种植区发生了一种魔芋新病害。典型症状为早期叶片上出现具黄色晕圈圆形斑点,逐渐形成大斑块,最终整个叶片枯死。本研究采用温室接种致病性测定、形态及分子鉴定等方法对珠芽魔芋叶斑病病原进行研究。结果表明:从各种植区采集的37份叶部病样中分离得到37个生长较一致的真菌分离物;致病性试验证实,均为珠芽魔芋叶斑病病原菌,显微镜下观察该病原菌具有细极链格孢Alternaria tenuissima的形态特征;将其rDNA-ITS、EF-1ɑ和β-tubulin基因序列在GenBank中进行同源性比对分析显示,其序列与A.tenuissima的相似性为99%~100%,分子鉴定与形态学鉴定结果一致。这是国内首次发现由细极链格孢侵染所引起的珠芽魔芋叶斑病。 相似文献
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甘肃省红豆草病原真菌鉴定及病害发生动态调查 总被引:4,自引:1,他引:3
为明确甘肃省红豆草的病害种类、发生动态和危害状况,采用病原物分离与培养、形态学及分子生物学鉴定和致病性测定确定红豆草病害种类,于2012—2013年在通渭、渭源、榆中和碌曲4县调查各病害的发病率以确定发生动态,观察病害田间发生特点并结合调查数据评价其重要性。结果表明,4县共发生真菌性病害12种,分别为大茎点霉叶斑病(病原为大茎点霉属真菌Macrophoma sp.)、壳针孢叶斑病(病原为歪头菜壳针孢Septoria orobina)、炭疽病(病原为白蜡树刺盘孢Colletotrichum spaethianum)、黑秆病(病原为红豆草壳二孢Ascochyta onobrychis、菠菜刺盘孢C.spinaciae和链格孢Alternaria alternata混合侵染)、壳二孢叶斑病、茎点霉叶斑病、尾孢叶斑病、柱格孢白斑病、匍柄霉叶斑病、链格孢黑斑病、锈病和白粉病,其中大茎点霉属真菌、白蜡树刺盘孢和菠菜刺盘孢在红豆草上首次发现;尾孢叶斑病和壳针孢叶斑病为甘肃新记录病害;大茎点霉叶斑病为世界新病害,仅于碌曲县发现。白粉病、锈病、链格孢黑斑病发生于红豆草生长后期,其它病害则始于6月;6—9月危害加重的为黑秆病和柱格孢白斑病,发病率最高达89.7%和96.0%;危害渐轻的为茎点霉叶斑病、壳二孢叶斑病和壳针孢叶斑病,发病率最高达88.7%、57.4%和45.1%。黑秆病和茎点霉叶斑病在甘肃省目前危害最重。 相似文献
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甘肃省药用植物上链格孢属(Alternaria)的种类及分布(Ⅱ) 总被引:1,自引:0,他引:1
对2004年以来甘肃省百合科、苋科、木犀科、大戟科、桔梗科药用植物链格孢属引起的病害进行了鉴定,结果如下:芍药叶斑病病原为细链格孢[Alternaria alternata (Fr.:Fr.)Keissler],青葙叶斑病病原为青葙链格孢[A.ce-losiae (Tassi)O.Sǎvul],连翘灰斑病病原为A.forsythiae Harter,引起连翘灰斑病、甘遂褐斑病病原为甘遂链格孢(A.kansuiae T.Y.Zhang&.Z.Zhang),沙参黑斑病的病原为茄链格孢[A.solani(Ellis et Martin)Sorauer]. 相似文献
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为明确引起洛阳牡丹Paeonia suffruticosa叶部主要病害的病原菌种类及其症状特点,于2016年从洛阳市的4个牡丹种植区采集叶部病害样本,采用组织分离法进行病原菌的分离和纯化,柯赫氏法则回接验证病原菌的致病性,利用形态学与基因序列分析相结合的方法鉴定病原菌的种类。结果表明,洛阳地区牡丹叶部主要病害种类为牡丹红斑病、炭疽病和黑斑病,引起这三种病害的病原菌分别鉴定为枝孢霉菌Cladosporiumsp.、胶孢炭疽菌Colletotrichum gloeosporioides和链格孢菌Alternaria alternata。本研究为牡丹叶部病害的快速诊断与防治提供了理论依据。 相似文献
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Matthew Brown James W. Woodhall Linda K. Nielsen Daniel Tomlinson Arifa Farooqi Rumiana V. Ray 《Plant pathology》2021,70(4):862-874
This study aimed to elucidate the population dynamics of Rhizoctonia, Oculimacula, and Microdochium species, causing the stem base disease complex of sharp eyespot, eyespot, and brown foot rot in cereals. Pathogen DNA in soil, roots, and stem fractions, and disease expression were quantified in 102 English wheat fields in two seasons. Weather data for each site was collected to determine patterns that correlate with assessed diseases. Oculimacula spp. (66%) and R. solani AG 2-1 (63%) were most frequently detected in soil, followed by R. cerealis (54%) and Microdochium spp. (33%). Oculimacula spp. (89%) and R. cerealis (56%) predominated on roots and soil but were not associated with root rot symptoms, suggesting that these species used soil and roots for survival and as inoculum source. M. nivale was more frequently detected than M. majus on stems up to GS 21–30 and co-occurred on plant samples with O. acuformis. O. yallundae had higher DNA concentration than O. acuformis at the lower 5 cm basal region at GS 37–45. R. cerealis predominated in the upper 15 cm above the base beyond stem extension. Brown foot rot by Microdochium spp. was favoured by cool and wet autumns/winters and dominated in English wheat. Eyespot and sharp eyespot disease index by Oculimacula spp. and R. cerealis, respectively, correlated with wet/humid springs and summers. Results suggested that stem base pathogens generally coexisted; however, their abundance in time and space was influenced by favourable weather patterns and host development, with niche differentiation after stem extension. 相似文献
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Creontiades spp. (Hemiptera: Miridae) are sucking pests that attack buds, flowers and young pods in mungbeans, Vigna radiata (L.), causing these structures subsequently to abort. If left uncontrolled, mirids can cause 25-50% yield loss. Traditional industry practice has involved prophylactic applications of dimethoate to control mirids at budding and again a week later. The present trial was initiated to highlight the dangers of such a practice, in particular the risk of a subsequent Helicoverpa spp. lepidopteran pest outbreak. A single application of dimethoate halved the population of important natural enemies of Helicoverpa spp., and caused an above-threshold outbreak of Helicoverpa spp. within 11 days. This shows that even a moderate (e.g. 50%) reduction in natural enemies may be sufficient to increase Helicoverpa spp. populations in mungbeans. As a result, prophylactic sprays should not be used for the control of mirids in mungbeans, and dimethoate should be applied only when mirids are above the economic threshold. Indoxacarb was also tested to establish its effect on Helicoverpa spp., mirids and natural enemies. Indoxacarb showed potential for Helicoverpa spp. control and suppression of mirids and had little impact on natural enemies. 相似文献
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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
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L. Pritchard S. Humphris G. S. Saddler N. M. Parkinson V. Bertrand J. G. Elphinstone I. K. Toth 《Plant pathology》2013,62(3):587-596
This study used a novel computational pipeline to exploit draft bacterial genome sequences in order to predict, automatically and rapidly, PCR primer sets for Dickeya spp. that were unbiased in terms of diagnostic gene choice. This pipeline was applied to 16 draft and four complete Dickeya genome sequences to generate >700 primer sets predicted to discriminate between Dickeya at the species level. Predicted diagnostic primer sets for both D. dianthicola (DIA‐A and DIA‐B) and ‘D. solani’ (SOL‐C and SOL‐D) were validated against a panel of 70 Dickeya reference strains, representative of the known diversity of this genus, to confirm primer specificity. The classification of the four previously sequenced strains was re‐examined and evidence of possible misclassification of three of these strains is presented. 相似文献
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玉米茎腐病病原菌检测方法研究 总被引:4,自引:0,他引:4
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
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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
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K.P. Hebbar M.H. Martel T. Heulin 《European journal of plant pathology / European Foundation for Plant Pathology》1998,104(1):29-36
Burkholderia cepacia (syn. Pseudomonas cepacia) strain PHQM100 applied as a seed coating was tested in growth chamber experiments for its ability to suppress preemergence damping-off, and postemergence damping-off in corn induced by Pythium and Fusarium spp. The symptoms observed in bioassays with soils naturally infested with the fungal pathogens were seed rot with Pythium spp. and mesocotyl and root tissue necrosis in the presence of Fusarium spp. Three corn cultivars that differed in their susceptibility to damping-off pathogens were used. Cultivar L was susceptible to pre- and postemergence damping-off, whereas cv. LPDP and cv. LG11 were moderately resistant and resistant to the damping-off diseases respectively. In the presence of Pythium spp., seed treatment with B. cepacia reduced seed rot, as compared to the untreated seeds, and this reduction was more consistent in the cv. LPDP than in the resistant cv. LG11 or the susceptible cv. L. In soils infested with Fusarium spp., seed treatment significantly reduced root and mesocotyl necrosis as compared to the untreated seeds, and this reduction was more consistent in the resistant cultivars LG11 and LPDP than in the susceptible cv. L. Root colonization levels by B. cepacia were similar in the three corn cultivars tested. Biocontrol efficiency of B. cepacia varied among cultivars mainly due to the differences in their susceptibility to the fungal pathogens. In spite of variability and also irrespective of the soil characteristics, B. cepacia increased seedling emergence and decreased mesocotyl and root necrosis when used as a seed coating. 相似文献
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产抗菌蛋白芽孢杆菌的筛选及抗菌蛋白性质 总被引:23,自引:1,他引:23
对小麦赤霉病菌(JF-12)有拮抗作用的76个芽孢杆菌菌株中有30个能产生抗菌物质。根据无细胞培养滤液对氯仿和热处理的稳定性将30个菌株分成三类。属于类型I的14个菌株中,B3、Ant-27和Ant-64的抗菌物质可以被80%饱和度硫酸铵沉淀,不能通过透析膜。B3的粗提抗菌蛋白对胰蛋白酶、蛋白酶K和RNA酶均不敏感;在pH5.0 ̄10.0范围内,抑菌活性与对照无显著差别;热处理(60℃/30min 相似文献
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Early diagnosis of seedborne fungal pathogens is particularly important, as often, infected seeds appear symptomless; seed diagnosis can avoid uncontrolled propagation of pathogens through long‐distance exchange of such material. This will prevent economic losses and unnecessary use of fungicides, so reducing costs and the introduction of toxic substances into the environment. Traditional techniques for detection of seedborne fungi are based on incubation and grow‐out methods. Although these are frequently used because of their simplicity of application, they are time‐consuming, require mycological skills, and are sometimes not sensitive enough to low levels of seed infection. Recently, new identification techniques, based on DNA analysis, have been applied and are very efficient due to high sensitivity and specificity. The most common technique is conventional PCR, while other recent techniques include nested PCR, to obviate low levels of target pathogens, multiplex PCR, to detect several pathogens simultaneously, real‐time PCR, to quantify fungi on seeds, and magnetic‐capture hybridization PCR. The main drawbacks of molecular methods are the inability to distinguish between vital and non‐vital inocula, and the difficulty in obtaining quality DNA template, due to PCR inhibitors in seeds. To reduce inhibitory effects, several modified PCR protocols, such as loop‐mediated isothermal amplification, and non‐destructive testing methods have been developed. Loop‐mediated isothermal amplification and next‐generation sequencing have been widely applied in nucleic acid analysis and, given the numerous advantages provided, their application can be substantially extended in the future for detection of fungal pathogens in seeds. 相似文献