Your search keyword '"Downy Mildew"' showing total 4 results

1. The Climate-Driven Genetic Diversity Has a Higher Impact on the Population Structure of Plasmopara viticola Than the Production System or QoI Fungicide Sensitivity in Subtropical Brazil.

Author

Santos, Ricardo F., Ciampi-Guillardi, Maisa, Fraaije, Bart A., de Oliveira, Amanda A., and Amorim, Lilian

Subjects

IMPACT craters, POPULATION differentiation, POPULATION genetics, CYTOCHROME b, FUNGICIDES, DOWNY mildew diseases

Abstract

Downy mildew, caused by Plasmopara viticola , is the main disease affecting vineyards in subtropical Brazil. Here, we collected 94 P. viticola isolates from four organic and conventional vineyards in the two main grape-growing states of Brazil to evaluate the sensitivity to the quinone outside inhibitor (QoI) azoxystrobin by pheno- and genotyping assays. The impact of location, production system and sensitivity to QoI fungicides on the population genetics and structure of P. viticola was determined using 10 microsatellite markers. Cytochrome b sequencing revealed that 28 and 100% of the isolates from vineyards under organic and conventional management carried the G143A mutation, respectively. The G143A mutation was associated with high levels of azoxystrobin resistance. Three out of the 94 isolates analyzed carried the M125I alteration, not previously described in P. viticola , which was associated with a five-fold reduction in azoxystrobin sensitivity compared to wild-type isolates. Haplotype network analysis based on cytochrome b gene sequences suggested that the Brazilian populations are more closely related to the European than the North American population. A total of six haplotypes were identified, with two of them carrying the G143A mutation. Microsatellite analysis revealed high allelic and genotypic variation among the four populations. Population differentiation analyses indicated that state of origin directly influences the population biology of P. viticola , while production system and QoI sensitivity have little effect. Great genetic diversity, sexual reproduction and high levels of admixture were observed in Rio Grande do Sul State. In contrast, populations in São Paulo State were dominated by a few clonal genotypes, and no admixed genotype was detected between the two genetic pools identified in the state. This study raises the hypothesis that winter weather conditions influence the overwinter survival strategy with profound effects in the population biology of P. viticola. [ABSTRACT FROM AUTHOR]

Published

2020

2. Population Genetic Structure and Cryptic Species of Plasmopara viticola in Australia.

Author

Taylor, Andrew S., Knaus, Brian J., Grünwald, Niklaus J., and Burgess, Treena

Subjects

*DOWNY mildew diseases, *VITIS vinifera, *MICROSATELLITE repeats, *POPULATION biology, *SPECIES, *CLUSTER sampling

Abstract

Downy mildew of grape caused by Plasmopara viticola is a global pathogen of economic importance to commercial viticulture. In contrast to populations in the northern hemisphere, few studies have investigated the population biology, genetic diversity, and origin of the pathogen in Australian production systems. DNA was extracted from 381 P. viticola samples from Vitis vinifera and alternate hosts collected via fresh and herbarium leaves from populations within Australia and Whatman FTA cards from North America, Brazil, and Uruguay. A total of 32 DNA samples were provided from a French population. The populations were genotyped using 16 polymoiphic microsatellite markers. Representative samples from within Australia, Brazil, and Uruguay were also genotyped to determine which of the cryptic species (clades) within the P. viticola species complex were present. Our findings suggest the Australian and South American populations of P. viticola are more closely related to the European population than the North American population, the reported source of origin of the pathogen. The Western Australian population had similarities to the South Australian population, and the tight clustering of samples suggests a single introduction into Western Australia. P. viticola clade aestivalis was the only clade detected in Australian and South American populations. Analysis of the Western Australian population suggests that it is reproducing clonally, but additional research is required to determine the mechanism as to how this is occurring. [ABSTRACT FROM AUTHOR]

Published

2019

3. First Record of Bremia lactucae Infecting Sonchus oleraceus and Sonchus asper in Brazil and its Infectivity to Lettuce.

Author

Vieira, B. S. and Barreto, R. W.

Subjects

*BREMIA lactucae, *DOWNY mildew of lettuce, *SOW thistles, *WEEDS, *PERONOSPORACEAE, *PLANT diseases, *PHYTOPATHOGENIC microorganisms, *AGRICULTURAL microbiology

Abstract

Bremia lactucae is recorded for the first time causing downy mildew on common sowthistle ( Sonchus oleraceus) and spiny sowthistle ( Sonchus asper) in Brazil. The disease and etiological agent are described. Pathogencity of sporangia obtained from S. oleraceus was tested on 12 species belonging to the Asteraceae, already recorded in the literature as hosts of B. lactucae, and four commonly cultivated varieties of lettuce. All four cultivars of lettuce, S. oleraceus and S. asper showed symptoms of the disease and sporulation of the pathogen 5 days after inoculation. It has been observed that the disease occurs on Sonchus spp. throughout the year in Viçosa (state of Minas Gerais), being more common on these two hosts than on lettuce. Both weeds are very common invaders of vegetable growing areas in Brazil. This indicates that those two hosts for the fungus may be important inoculum reservoirs for disease occurring in lettuce, highlighting the need for control of these weeds as part of the procedures aimed at controlling this disease. These results are also in agreement with the views that B. lactucae is split into host-specific infra-specific taxa. Lettuce and sowthistles are regarded as closely related, belonging to the same subfamily and tribe in the Asteraceae (Subfamily Cichorioideae: Tribe Lactuceae). [ABSTRACT FROM AUTHOR]

Published

2006

4. Sistema de condução em Y com e sem cobertura plástica: microclima, produção, qualidade do cacho e ocorrência de doenças fúngicas na videira 'Niagara Rosada.'.

Author

Júnior, Mário José Pedro, Hernandes, José Luiz, and de Souza Rolim, Glauco

Subjects

GRAPES, AGRICULTURAL climatology, FRUIT diseases & pests, FRUIT quality, HUMIDITY, FIELD research

Abstract

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Published

2011