32 resultados para Erysiphe
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Erysiphe aquilegiae (Erysiphaceae) is found for the first time on Catharanthus roseus, in the Apocynaceae. This fungus is previously known only on the Ranunculaceae. A detailed description of this teleomorphic Australian specimen is given, along with its rDNA internal transcribed spacer sequence. © Australasian Plant Pathology Society 2006.
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A powdery mildew with a Pseudoidium anamorph was found on Glycine max in south-east Queensland, Australia. Morphological examination and molecular identification determined this species as Erysiphe diffusa, which is reported for the first time from Australia. © 2012 Australasian Plant Pathology Society Inc.
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El pipián ( Cucurbita pepo.) tiene su origen en el continente americano, por lo que la diversidad genética presente en el continente ha permitido muchas denominaciones populares. El trabajo de investigación se llevó a cabo en la Reserva de Recursos Genéticos de Apacunca, en la comunidad de Asquespalapa, el objetivo fue encontrar opciones de bajo costo y no dañinas a la salud humana y ambiente, para el control de la Cenicilla del Pipián ( Erysiphe cichoracearum), Los tratamientos fueron arreglados en un diseño de bloque completo al azar (B.C.A) con tres réplicas. El ensayo fue establecido en una Area de 100m2. Cada parcela experimental estuvo constituida por 4 surcos de 6 metros de largo con distancia entre plantas de 1 metro. El área total de cada parcela experimental fue de 18 metros cuadrados. La parcela útil estuvo constituida por las 8 plantas centrales de cada parcela experimental. La variedad utilizada para el estudio fue la Criolla. Los tratamientos probados consistieron en tres caldos minerales preventivos y un testigo, se realizó un análisis de varianza con un 95 % de confianza y separación de medias según Tukey LSD (∞= 0.05) y análisis de beneficio costo. Los resultados indican que el caldo vizosa mostró únicamente entre un 5 y 10% de afectación en cuanto a la incidencia y severidad de la enfermedad, en segunda categoría encontramos al caldo bordelés con un 15 y 20 %, de afectación. En cuanto a la relación beneficio costo se determinó que el caldo Vizosa es un producto rentable ad amas de mantener la parcela libre de patógenos da un resultado económico en cuanto a la producción y compensación a la hora de vender en el mercado.
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Tese dout., Ciências Agrárias, Universidade do Algarve, 2006
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O objetivo deste trabalho foi avaliar os aspectos biológicos de Psyllobora confluens alimentada com o fungo Erysiphe cichoracearum em folhas de quiabeiro. Larvas recém-eclodidas de P. confluens foram individualizadas e alimentadas diariamente com hifas e conídios do fungo, em folhas de quiabeiro, a 23,6±3 e 27,4±2ºC e fotófase de 12 horas. A duração dos estágios imaturos, os aspectos reprodutivos e a longevidade de P. confluens foram avaliados. O período de desenvolvimento de larva a adulto foi 20,5 dias a 23,6ºC e 16,6 dias a 27,4ºC. em ambas as temperaturas, 80% das larvas de P. confluens atingiram a fase adulta. Fêmeas de P. confluens apresentaram período de oviposição de 32,7 dias, com capacidade diária e total de oviposição de 16,8 e 439,9 ovos, respectivamente. A longevidade das fêmeas foi de 46,1 dias e a dos machos 58,7 dias. P. confluens, ao se alimentar do fungo E. cichoracearum em folhas de quiabeiro, completa o ciclo de vida e apresenta elevados padrões de sobrevivência e reprodução.
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Pós-graduação em Agronomia (Horticultura) - FCA
Reação de linhagens de ervilha de vagens comestíveis (Pisum sativum L.) ao oídio (Erysiphe pisi DC.)
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Pós-graduação em Agronomia (Proteção de Plantas) - FCA
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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The objective was to analyse population structure and to determine genetic diversity of Erysiphe necator (syn. Uncinula necator) populations obtained from some vineyards located in the South-East Po valley (Italy). Powdery mildew is one of the most important fungal diseases of grapes (Vitis vinifera L.) throughout the world. The causal agent is the haploid, heterothallic ascomycete E. necator. It is an obligate biotrophic fungus and it can be found only on green organs of plants belonging to the family Vitaceae. For this pathogen, two sympatric populations (groups A and B) have been described in Europe and Australia. The two genetic groups differ at multiple genetic loci and previous studies reported a lack of interfertility among isolates of the two groups. There are now several well documented examples of plant pathogen species, such as Leptosphaeria maculans, Gaeumannomyces graminis var. tritici, Botrytis cinerea and Erysiphe syringae, which are indeed composed of genetically differentiated clades, that have led to the description of new groups or even new species. Several studies have suggested that genetic E. necator group A and B correlated with ecological features of the pathogen; some researchers proposed that group A isolates over-winter as resting mycelium within dormant buds, and in spring originate infected shoots, known as Flag shoots, while group B isolates would survive as ascospores in overwintering cleistothecia. However, the association between genetic groups and mode of over-wintering has been challenged by recent studies reporting that flag-shoot may be originated indifferently by group A or group B isolate. Previous studies observed a strong association between the levels of disease severity at the end of the growing season and the initial compositions of E. necator populations in commercial vineyards. The frequencies of E. necator genetic groups vary considerably among vineyards, and the two groups may coexist in the same vineyard. This finding suggests that we need more information on the genetics and epidemiology of E. necator for optimize the crop management In this study we monitored E. necator populations in different vineyards in Emilia – Romagna region (Italy), where the pathogen overwinters both as flagshoots and as cleistothecia. During the grape growing season, symptomatic leaves were sampled early in the growing season and both leaves and berries later during the epidemic growth of the disease. From each sample, single-conidial isolate was obtained. Each isolates was grown on V. vinifera leaf cv. Primitivo and after harvesting the mycelium, the DNA was purified and used as template for PCR amplification with SCAR primers (Sequences Characterised Amplified Region ), -tubulin, IGS sequences and Microsatellite markers (SSR). Amplified DNA from b-tubulin and IGS loci was digested with AciI and XhoI restriction enzymes, respectively, to show single-nucleotide polymorphisms specific for the two genetic groups. The results obtained indicated that SCAR primers are not useful to study the epidemiology. of E. necator conversely the b-tubulin IGS sequences and SSR. Summarize the results obtained with b-tubulin, IGS sequences, in treated vineyards we have found individuals of group B along all grape growing season, whereas in the untreated vineyard individuals of the two genetic groups A and B coexisted throughout the season, with no significant change of their frequency. DNA amplified from ascospores of single cleistothecia showed the presence of markers diagnostic for either groups A and B and were seldom observed also the coexistence of both groups within a claistothecium. These results indicate that individuals of the two groups mated in nature and were able to produced ascospores. With SSR we showed the possibility of recombination between A and B groups in field isolates. During winter, cleistothecia were collected repeatedly in the same vineyards sampling leaves fallen on ground, exfoliating bark from trunks, and from soil. From each substrate, was assess the percentage of cleistothecia containing viable ascospores. Our results confirmed that cleisthotecia contained viable ascospores, therefore they have the potential to be an additional and important source of primary inoculum in Emilia-Romagna vineyards.
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A major locus conferring resistance to the causal organism of powdery mildew, Erysiphe polygoni DC,, in mungbean (Vigna radiata L. Wilczek) was identified using QTL analysis with a population of 147 recombinant inbred individuals. The population was derived from a cross between 'Berken', a highly susceptible variety, and ATF 3640, a highly resistant line. To test for response to powdery mildew, F-7 and F-8 lines were inoculated by dispersing decaying mungbean leaves with residual conidia of E. polygoni amongst the young plants to create an artificial epidemic and assayed in a glasshouse facility. To generate a linkage map, 322 RFLP clones were tested against the two parents and 51 of these were selected to screen the mapping population. The 51 probes generated 52 mapped loci, which were used to construct a linkage map spanning 350 cM of the mungbean genome over 10 linkage groups. Using these markers, a single locus was identified that explained up to a maximum of 86% of the total variation in the resistance response to the pathogen.
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Plants are capable of recognizing phytopathogens through the perception of pathogen-derived molecules or plant cell-wall degradation products due to the activities of pathogen-secreted enzymes. Such elicitor recognition events trigger an array of inducible defense responses involving signal transduction networks and massive transcriptional re-programming. The outcome of a pathogen infection relies on the balance between different signaling pathways, which are integrated by regulatory proteins. This thesis characterized two key regulatory components: a damage control enzyme, chlorophyllase 1 (AtCHL1), and a transcription factor, WRKY70. Their roles in defense signaling were then investigated. The Erwinia-derived elicitors rapidly activated the expression of AtCLH1 and WRKY70 through different signaling pathways. The expression of the AtCHL1 gene was up-regulated by jasmonic acid (JA) but down-regulated by salicylic acid (SA), whereas WRKY70 was activated by SA and repressed by JA. In order to elucidate the functions of AtCLH1 and WRKY70 in plant defense, stable transgenic lines were produced where these genes were overexpressed or silenced. Additionally, independent knockout lines were also characterized. Bacterial and fungal pathogens were then used to assess the contribution of these genes to the Arabidopsis disease resistance. The transcriptional modulation of AtCLH1 by either the constitutive over-expression or RNAi silencing caused alterations in the chlorophyll-to-chlorophyllide ratio, supporting the claim that chlorophyllase 1 has a role in the chlorophyll degradation pathway. Silencing of this gene led to light-dependent over-accumulation of the reactive oxygen species (ROS) in response to infection by Erwinia carotovora subsp. carotovora SCC1. This was followed by an enhanced induction of SA-dependent defense genes and an increased resistance to this pathogen. Interestingly, little effect on the pathogen-induced SA accumulation at the early infection was observed, suggesting that action of ROS might potentiate SA signaling. In contrast, the pathogen-induced JA production was significantly reduced in the RNAi silenced plants. Moreover, JA signaling and resistance to Alternaria brassicicola were impaired. These observations provide support for the argument that the ROS generated in chloroplasts might have a negative impact on JA signaling. The over-expression of WRKY70 resulted in an enhanced resistance to E. carotovora subsp. carotovora SCC1, Pseudomonas syringae pv. tomato DC3000 and Erysiphe cichoracearum UCSC1, whilst an antisense suppression or an insertional inactivation of WRKY70 led to a compromised resistance to E. carotovora subsp. carotovora SCC1 and to E. cichoracearum UCSC1 but not to P. syringae pv. tomato DC3000. Gene expression analysis revealed that WRKY70 activated many known defense-related genes associated with the SAR response but suppressed a subset of the JA-responsive genes. In particular, I was able to show that both the basal and the induced expression of AtCLH1 was enhanced by the antisense silencing or the insertional inactivation of WRKY70, whereas a reduction in AtCLH1 expression was observed in the WRKY70 over-expressors following an MeJA application or an A. brassicicola infection. Moreover, the SA-induced suppression of AtCLH1 was relieved in wrky70 mutants. These results indicate that WRKY70 down-regulates AtCLH1. An epistasis analysis suggested that WRKY70 functions downstream of the NPR1 in an SA-dependent signaling pathway. When challenged with A. brassicicola, WRKY70 over-expressing plants exhibited a compromised disease resistance while wrky70 mutants had the opposite effect. These results confirmed the WRKY70-mediated inhibitory effects on JA signaling. Furthermore, the WRKY70-controlled suppression of A. brassicicola resistance was mainly through an NPR1-dependent mechanism. Taking all the data together, I suggest that the pathogen-responsive transcription factor WRKY70 is a common component in both SA- and JA-dependent pathways and plays a crucial role in the SA-mediated suppression of JA signaling.
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2007
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Resultados sumarizados dos ensaios em rede para controle de oídio (Erysiphe diffusa); Resultados sumarizados dos ensaios em rede para controle do complexo de doenças de final de ciclo (Septoria glycines e Cercospora kikuchii); Resultados sumarizados dos ensaios em rede para controle da mela (Rhizoctonia solani); Resultados sumarizados dos ensaios em rede para controle da ferrugem asiática da soja (Phakopsora pachyrhizi); Resultados dos ensaios em rede das instituições participantes na safra 2004/2005; Avaliação da eficiência de fungicidas para controle da ferrugem asiática da soja em Barreiras, BA; Avaliação da eficiência de fungicidas para controle da ferrugem asiática da soja em Londrina, PR; Avaliação da eficiência de fungicidas para controle da ferrugem asiática da soja em Uberaba, MG; Avaliação da eficiência de fungicidas para controle da ferrugem asiática da soja em Maracajú, MS; Avaliação da eficiência de fungicidas para controle da ferrugem asiática da soja em Ipameri, GO; Avaliação da eficiência de fungicidas para controle da ferrugem asiática da soja em Goiânia, GO, cultivar BRSGO Bela Vista; Avaliação da eficiência de fungicidas para controle da ferrugem asiática da soja em Goiânia, GO, cultivar BRSGO Chapadões; Avaliação da eficiência de fungicidas para o controle do oídio da soja em Goiânia, GO; Avaliação da eficiência de fungicidas para o controle das doenças de final de ciclo da soja em Goiânia, GO; Avaliação da eficiência de fungicidas para o controle da mela da soja em Porto Nacional, TO; Avaliação da eficiência de fungicidas para controle da ferrugem asiática da soja em Capão Bonito, SP; Avaliação da eficiência de fungicidas para controle da ferrugem asiática da soja em Chapadão do Sul, MS; Avaliação da eficiência de fungicidas para controle preventivo da ferrugem asiática da soja em Paulínia, SP; Avaliação da eficiência de fungicidas para controle curativo da ferrugem asiática da soja em Paulínia, SP; Avaliação da eficiência de fungicidas para o controle do oídio e da ferrugem asiática da soja em Paulínia, SP; Avaliação da eficiência de fungicidas para o controle das doenças da soja nos municípios de Riachão, MA, e Tupirama, TO; Avaliação da eficiência de fungicidas para o controle das doenças da soja nos municípios de Riachão, MA, e Bom Jesus, TO; Avaliação da eficiência de fungicidas para o controle de doenças da soja em Ponta Grossa, PR; Avaliação da eficiência de fungicidas para o controle do oídio da soja em Ponta Grossa, PR; Avaliação da eficiência de fungicidas para o controle das doenças de final de ciclo da soja, em Ponta Grossa, PR; Avaliação da eficiência de fungicidas para o controle da ferrugem da soja, em Tamarana, PR; Avaliação da eficiência de fungicidas para o controle da mela, em Diamantino, MT; Avaliação da eficiência de fungicidas para o controle da ferrugem asiática, em Pato Branco, PR; Avaliação da eficiência de fungicidas para o controle do oídio, em Pato Branco, PR; Avaliação da eficiência de fungicidas para o controle da ferrugem asiática da soja, em Planaltina, DF.
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Doenças causadas por fungos: Antracnose (Colletotrichum truncatum), Cancro da haste (Diaporthe phaseolorum var. meridionalis e D. phaseolorum var. caulivora), Crestamento foliar de cercóspora e mancha púrpura (Cercospora kikuchii), Ferrugem (Phakopsora pachyrhizi e P. meibomiae), Mancha alvo e podridão radicular de corinéspora (Corynespora cassiicola), Mancha foliar de ascoquita (Ascochyta sojae), Mancha foliar de mirotécio (Myrothecium roridum), Mancha olho-de-rã (Cercospora sojina), Mancha parda (Septoria glycines), Mela ou requeima (Rhizoctonia solani AG1), Míldio (Peronospora manshurica), Tombamento e morte em reboleira de rizoctonia (Rhizoctonia solani), Tombamento e murcha de esclerócio (Sclerotium rolfsii), Oídio (Erysiphe diffusa), Podridão branca da haste (Sclerotinia sclerotiorum), Podridão de carvão da raiz (Macrophomina phaseolina), Podridão parda da haste (Cadophora gregata), Podridão radicular de roselínia (Rosellinia necatrix), Seca da haste e da vagem (Phomopsis spp.), Podridão radicular de fitóftora (Phytophthora sojae), Podridão vermelha da raiz (Fusarium spp.). Doenças causadas por bactérias: Crestamento bacteriano (Pseudomonas savastanoi pv. glycinea), Fogo Selvagem (Pseudomonas syringae pv. tabaci), Pústula bacteriana (Xanthomonas axonopodis pv. glycines). Doenças causadas por vírus: Mosaico cálico (Alfalfa Mosaic Virus - AMV), Mosqueado do feijão (Bean Pod Mottle Virus - BPMV), Mosaico comum da soja (Soybean Mosaic Virus - SMV), Necrose da haste (Cowpea Mild Mottle Virus - CPMMV), Queima do broto (Tobacco Streak Virus - TSV). Doenças causadas por nematóides: Nematóide de cisto (Heterodera glycines), Nematóides de galhas (Meloidogyne incognita e M. javanica), Nematóide das lesões (Pratylenchus spp.), Nematóide reniforme (Rotylenchulus reniformis). Estádios de desenvolvimento da soja.
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Grapevine is one of the most cultivated fruit crop worldwide with Vitis vinifera being the species with the highest economical importance due to the high quality standards of its berries. Nonetheless, it is also the most susceptible Vitis species to fungal pathogens. Among others, relevant fungal diseases currently threatening grapevine cultures are powdery mildew, caused by Erysiphe necator, and esca, a disease complex comprised of several fungi in which Phaeomoniella chlamydospora and Phaeoacremonium aleophilum participate.(...)