43 results on '"Gadoury, David"'
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2. Use of Germicidal UV Light to Suppress Grapevine Diseases and Arthropod Pests
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Gadoury David M., Sapkota Surya, Cadle-Davidson Lance, Underhill Anna, McCann Tyler, Gold Kaitlin M., Gambhir Nikita, Combs David B., and Nyrop Jan P.
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Microbiology ,QR1-502 ,Physiology ,QP1-981 ,Zoology ,QL1-991 - Published
- 2022
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3. Physiological and Environmental Aspects of Ascospore Discharge in Gibberella zeae (Anamorph Fusarium graminearum)
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Trail, Frances, Xu, Haixin, Loranger, Rachel, and Gadoury, David
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- 2002
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4. Applications of Germicidal Ultraviolet Light as a Tool for Fire Blight Management (Erwinia amylovora) in Apple Plantings.
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Yannuzzi, Isabella M., Gadoury, David M., Davidson, Alexandra, and Cox, Kerik D.
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ERWINIA amylovora , *FUNGAL diseases of plants , *FIRE management , *ULTRAVIOLET radiation , *PHYTOPATHOGENIC microorganisms , *BIOPESTICIDES - Abstract
Nighttime applications of germicidal UV light (UV-C) have been used to suppress several fungal diseases of plants, but less is known of UV-C's potential to suppress bacterial plant pathogens. Fire blight of apple and pear, caused by the bacterium Erwinia amylovora, is difficult to suppress using cultural practices, antibiotics, and host resistance. We therefore investigated the potential of UV-C as an additional means to manage the disease. Laboratory assays confirmed that in vitro exposure of cultures E. amylovora to UV-C at doses ranging from 0 to 400 J/m² in the absence of visible light was more than 200% as effective as cultures exposed to visible light after the same UV-C treatments. In a 2-year orchard study, we demonstrated that with only two nighttime applications of UV-C at 200 J/m² made at bloom resulted in an incidence of blossom blight and shoot blight equivalent to the results viewed when antibiotic and biopesticide commercial standards were applied. In vitro dose-response studies indicated consistency in pathogen response to suppressive UV-C doses, including pathogen isolates that were resistant to streptomycin. Based on these results, UV-C may be useful in managing bacterial populations with antibiotic resistance. Concurrent measurements of host growth after UV-C applications indicated that the dose required to suppress E. amylovora had no significant (P > 0.05) effects on foliar growth, shoot extension, internode length, or fruit finish but substantially reduced epiphytic populations of E. amylovora on host tissues. [ABSTRACT FROM AUTHOR]
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- 2023
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5. Mycophagous Mites and Foliar Pathogens: Leaf Domatia Mediate Tritrophic Interactions in Grapes
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Norton, Andrew P., English-Loeb, Greg, Gadoury, David, and Seem, Robert C.
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- 2000
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6. An in vitro and in vivo evaluation of peroxyacetic acid as an alternative sanitizer for wine barrels
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Solis Maria de Lourdes Alejandra Aguilar, Gadoury David M., and Worobo Randy W.
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peroxyacetic acid ,barrel ,sanitation ,validation ,yeasts ,Plant culture ,SB1-1110 - Abstract
Peroxyacetic acid is a common sanitizer used in the food and wine industry, but its use as a sanitizer for wine barrels has not been reported. We are reporting the findings for in vitro studies using three different concentrations of peroxyacetic acid (0, 60, and 120 mg/L) as sanitization challenges against seven strains of wine spoilage yeast representing three different species: Dekkera/Brettanomyces bruxellensis (three strains), Saccharomyces cerevisiae (three strains) and Zygosaccharomyces bailii (one strain). In vitro sensitivity to peroxyacetic acid concentration varied within and between species. A post hoc study (in vivo) using the highest concentration from the in vitro studies (120 mg/L) as well as 200 mg/L was performed to validate a sanitization method for wine barrels. Exposure of barrels to 200 mg/L of peroxyacetic acid for one week resulted in no detectable levels of wine spoilage microorganisms after treatment. These findings are crucial for establishing protocols to assure the maximum reduction of microbial contaminants.
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- 2016
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7. Genetic dissection of powdery mildew resistance in interspecific half-sib grapevine families using SNP-based maps
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Teh, Soon Li, Fresnedo-Ramírez, Jonathan, Clark, Matthew D., Gadoury, David M., Sun, Qi, Cadle-Davidson, Lance, and Luby, James J.
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- 2017
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8. Cold Stress-Induced Disease Resistance (SIDR): indirect effects of low temperatures on host-pathogen interactions and disease progress in the grapevine powdery mildew pathosystem
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Moyer, Michelle M., Londo, Jason, Gadoury, David M., and Cadle-Davidson, Lance
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- 2016
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9. Virulence characteristics of Bremia lactucae populations in Norway
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Nordskog, Berit, Elameen, Abdelhameed, Gadoury, David M., and Hermansen, Arne
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- 2014
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10. Pointwise exact bootstrap distributions of ROC curves
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Dugas, Charles and Gadoury, David
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- 2010
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11. Ascospore release by Venturia inaequalis during periods of extended daylight and low temperature at Nordic latitudes
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Stensvand, Arne, Eikemo, Håvard, Seem, Robert C., and Gadoury, David M.
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- 2009
12. Effects of germicidal ultraviolet-C light on grape mealybug (Pseudococcus maritimus).
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McDaniel, Alexa L., Gadoury, David M., and Moyer, Michelle M.
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MEALYBUGS ,GRAPE diseases & pests ,ARTHROPOD pests ,POWDERY mildew diseases ,OVIPARITY ,PEST control - Abstract
Germicidal ultraviolet-C light (UV–C) has been used to effectively suppress grapevine powdery mildew (Erysiphe necator). However, effects on arthropod pests that would be simultaneously exposed to UV-C during applications directed at E. necator, are poorly understood. The grape mealybug (Pseudococcus maritimus) is one such grapevine pest. We exposed mated P. maritimus adult females in a lab study to UV-C light doses of 100, 200, 500 and 1000 J/m
2 . UV-C was applied during darkness and was followed by an additional 4 h dark period post-treatment to enhance possible suppressive effects of UV-C. Positive (2% horticultural oil) and negative (untreated) controls were included. Adult female P. maritimus oviposition was observed two weeks after treatment, and hatching of eggs was enumerated four weeks after treatment. UV-C treatment of mated adult females, regardless of dose, did not prevent oviposition or reduce ovisac viability. In a separate lab experiment, first instar P. maritimus nymphs were similarly exposed to UV-C doses of 200 and 1000 J/m2 with and without a 4hr dark period. UV-C treatments were compared to the same positive and negative controls. Nymph mortality was assessed at 24 and 48 h after UV-C treatment. Increasing doses of UV-C treatments, followed by a dark period, had a small, but significant impact on nymph mortality relative to the untreated control. Further studies on the potential sublethal effects (e.g., fecundity or longevity) of single or multiple exposures or increased UV-C doses upon juvenile stages of P. maritimus are warranted, as longer-term and multigenerational effects of UV-C have been observed in other arthropod systems. • Ultraviolet C light treatment of Pseudococcus maritimus did not prevent oviposition. • Increased UV-C treatment dose resulted in a small, but significant, increase in P. maritimus nymph mortality. • Further exploration of maximum UV-C dose and post-treatment dark period requirement is needed. [ABSTRACT FROM AUTHOR]- Published
- 2024
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13. An integrative AmpSeq platform for highly multiplexed marker-assisted pyramiding of grapevine powdery mildew resistance loci.
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Fresnedo-Ramírez, Jonathan, Yang, Shanshan, Sun, Qi, Cote, Linda, Schweitzer, Peter, Reisch, Bruce, Ledbetter, Craig, Luby, James, Clark, Matthew, Londo, Jason, Gadoury, David, Kozma, Pál, and Cadle-Davidson, Lance
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GRAPE powdery mildew disease ,NUCLEOTIDE sequence ,LOCUS (Genetics) ,PLANT breeding ,GENOTYPES - Abstract
Resistance breeding often requires the introgression and tracking of resistance loci from wild species into domesticated backgrounds, typically with the goal of pyramiding multiple resistance genes, to provide durable disease resistance to breeding selections and ultimately cultivars. While molecular markers are commonly used to facilitate these efforts, high genetic diversity and divergent marker technologies can complicate marker-assisted breeding strategies. Here, amplicon sequencing (AmpSeq) was used to integrate SNP markers with dominant presence/absence markers derived from genotyping-by-sequencing and other genotyping technologies, for the simultaneous tracking of five loci for resistance to grapevine powdery mildew. SNP haploblocks defined the loci for REN1, REN2 and REN3, which confer quantitative resistance phenotypes that are challenging to measure via field ratings of natural infections. Presence/absence markers for RUN1 and REN4 were validated to predict qualitative resistance phenotypes and corresponded with previous presence/absence fluorescent electrophoretic assays. Thus, 37 AmpSeq-derived markers were identified for the five loci, and markers for REN1, REN2, REN4 and RUN1 were used for multiplexed screening and selection within diverse breeding germplasm. Poor transferability of SNP markers indicated imperfect marker-trait association in some families. Together, AmpSeq SNP haploblocks and presence/absence markers provide a high-throughput, cost-effective tool to integrate divergent technologies for marker-assisted selection and genetic analysis of introgressed disease resistance loci in grapevine. [ABSTRACT FROM AUTHOR]
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- 2017
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14. Weather During Critical Epidemiological Periods and Subsequent Severity of Powdery Mildew on Grape Berries.
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Moyer, Michelle M., Gadoury, David M., Wilcox, Wayne F., and Seem, Robert C.
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GRAPE powdery mildew disease , *ERYSIPHE diseases , *SOLAR radiation , *GRAPES , *EVAPORATION (Chemistry) , *RECURSIVE partitioning - Abstract
Recorded severity of grape powdery mildew on berries of untreated, susceptible hybrid cultivars varied from 0.2 to 50.5% across a 30-year period in Geneva, NY; within 7 of those years, cluster disease severity ranged from 3.42 to 99.5% on Vitis vinifera 'Chardonnay'. Although existing temperature-driven risk models could not account for this annual variation, pan evaporation (Epan), an environmental variable influenced by the collective effects of temperature, vapor pressure deficit, solar radiation, and wind speed, did. Logistic regression analysis (LRA) was used to classify epidemics as either mild or severe. Recursive partition analysis (RPA) provided a simplified decision tree for calculation of powdery mildew risk and incorporated (i) an estimate of the relative primary inoculum levels based on temperatures in the previous late summer and (ii) the current season favorability for pathogen development during the grapevine phenological period critical for berry infection by Erysiphe necator. Although the LRA had fewer instances of misclassification, RPA provided a rapid means for seasonal risk classification. Both the RPA and LRA models are able to describe disease severity risk in real time or can be used to forecast risk, thereby allowing growers to adjust management programs in a responsive manner. [ABSTRACT FROM AUTHOR]
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- 2016
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15. Effects of Development of Ontogenic Resistance in Strawberry Leaves Upon Pre- and Postgermination Growth and Sporulation of Podosphaera aphanis.
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Asalf, Belachew, Gadoury, David M., Tronsmo, Anne Marte, Seem, Robert C., and Stensvand, Arne
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STRAWBERRIES , *PODOSPHAERA , *BACTERIAL sporulation , *LEAF diseases & pests , *HAUSTORIA , *PARASITIC plants - Abstract
The temporal distribution and magnitude of ontogenic resistance in strawberry leaves to Podosphaera aphanis has recently been quantified. However, the degree to which the pathogen is inhibited at sequential stages of conidial germination, hyphal growth, haustoria formation, latent period, colony expansion, and sporulation on the adaxial and abaxial leaf surfaces of various strawberry cultivars remains unclear. Five developmental stages of strawberry leaves ranging from newly emerged and folded leaves to fully expanded and dark-green leaves were inoculated with conidia of P. aphanis. The percentage of germinated conidia significantly declined between leaf stages 3 and 5. Postgermination growth of the pathogen was sequentially reduced in all measured responses, and the latent period was increased. Haustoria were not observed in mature leaves. The failure of the pathogen to penetrate mature leaves was a consistent feature associated with the expression of ontogenic resistance in older, fully expanded leaves. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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16. Ontogenic Resistance of Leaves and Fruit, and How Leaf Folding Influences the Distribution of Powdery Mildew on Strawberry Plants Colonized by Podosphaera aphanis.
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Asalf, Belachew, Gadoury, David M., Tronsmo, Anne Marte, Seem, Robert C., Dobson, Andrew, Peres, Natalia A., and Stensvand, Arne
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POWDERY mildew diseases , *PODOSPHAERA diseases , *STRAWBERRY diseases & pests , *LEAF diseases & pests , *FRUIT diseases & pests - Abstract
Ontogenic or age-related resistance has been noted in many pathosystems but is less often quantified or expressed in a manner that allows the concept to be applied in disease management programs. Preliminary studies indicated that leaves and fruit of three strawberry cultivars rapidly acquired ontogenic resistance to the powdery mildew pathogen, Podosphaera aphanis. In the present study, we quantify the development of ontogenic resistance in controlled inoculations of 10 strawberry cultivars using diverse isolates of P. aphanis in New York and Florida, USA, and in Norway. We report the differential and organ-specific development of ontogenic resistance in the receptacle and externally borne strawberry achenes. We further report that rapid development of ontogenic resistance prior to unfolding of emergent leaves, rather than differential susceptibility of adaxial versus abaxial leaf surfaces, may explain the commonly observed predominance of powdery mildew on the lower leaf surfaces. Susceptibility of leaves and fruit declined exponentially with age. Receptacle tissue of berries inoculated at four phenological stages from bloom to ripe fruit became nearly immune to infection approximately 10 to 15 days after bloom, as fruit transitioned from the early green to the late green or early white stage of berry development, although the achenes remained susceptible for a longer period. Leaves also acquired ontogenic resistance early in their development, and they were highly resistant shortly after unfolding and before the upper surface was fully exposed. No significant difference was found in the susceptibility of the adaxial versus abaxial surfaces. The rapid acquisition of ontogenic resistance by leaves and fruit revealed a narrow window of susceptibility to which management programs might be advantageously adapted. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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17. Temperature Regulates the Initiation of Chasmothecia in Powdery Mildew of Strawberry.
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Asalf, Belachew, Gadoury, David M., Tronsmo, Anne Marte, Seem, Robert C., Cadle-Davidson, Lance, Brewer, Marin Talbot, and Stensvand, Arne
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POWDERY mildew diseases , *FUNGAL diseases of plants , *STRAWBERRY diseases & pests , *AGRICULTURAL pests ,STRAWBERRY growing - Abstract
The formation of chasmothecia by the strawberry powdery mildew pathogen (Podosphuera aphanis) is widespread but often sporadic throughout the range of strawberry cultivation. In some production regions, notably in wanner climates, chasmothecia are reportedly rare. We confirmed that the pathogen is heterothallic, and that initiation of chas-molhecia is not only dependent upon the presence of isolates of both mating types but also largely suppressed at temperatures >13°C. Compared with incubation at a constant temperature of 25°C, progressively more chasmothecia were initiated when temperatures were decreased to 13°C for progressively longer times. At lower temperatures, production of chasmothecia was associated with a decline in but not total cessation of conidial formation, and pairings of compatible isolates sporulated abundantly at 25°C. We developed mating-type markers specific to P. aphanis and used these to confirm the presence of both mating types in populations that had not yet initiated chasmothecia. The geographic discontinuity of chasmothecia production and the sporadic and seemingly unpredictable appearance of chasmothecia in P. aphanis are possibly due to the combined influence of heterothallism and suppression of chasmothecia formation by high temperatures. [ABSTRACT FROM AUTHOR]
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- 2013
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18. Effects of Prior Vegetative Growth, Inoculum Density, Light, and Mating on Conidiation of Erysiphe necator.
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Gadoury, David M., Wakefield, Laura M., Cadle-Davidson, Lance, Dry, Ian B., and Seem, Robert C.
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ERYSIPHE , *ERYSIPHE diseases , *ASEXUAL reproduction , *POWDERY mildew diseases , *PLANT inoculation - Abstract
Initiation of asexual sporulation in powdery mildews is preceded by a period of superficial vegetative growth of mildew colonies. We found evidence of a quorum-sensing signal in Erysiphe necator that was promulgated at the colony center and stimulated conidiation throughout the colony. Removal of the colony center after putative signal promulgation had no impact upon timing of sporulation by 48-h-old hyphae at the colony margin. However, removal of the colony center before signaling nearly doubled the latent period. A relationship between inoculum density and latent period was also observed, with latent period decreasing as the number of conidia deposited per square millimeter was increased. The effect was most pronounced at the lowest inoculum densities, with little decrease of the latent period as the density of inoculation increased above 10 spores/mm. Furthermore, light was shown to be necessary to initiate conidiation of sporulation-competent colonies. When plants were inoculated and maintained in a day-and-night cycle for 36 h but subjected to darkness after 36 h, colonies kept in darkness failed to sporulate for several days after plants kept in light had sporulated. Once returned to light, the dark-suppression was immediately reversed, and sporulation commenced within 12 h. Merging of colonies of compatible mating types resulted in near-cessation of sporulation, both in the region of merging and in more distant parts of the colonies. Colonies continued to expand but stopped producing new conidiophores once pairing of compatible mating types had occurred, and extant conidiophores stopped producing new conidia. Therefore, in addition to a quorum-sensing signal to initiate conidiation, there appears to be either signal repression or another signal that causes conidiation to cease once pairing has occurred and the pathogen has initiated the ascigerous stage for overwintering. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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19. Grapevine powdery mildew ( Erysiphe necator): a fascinating system for the study of the biology, ecology and epidemiology of an obligate biotroph.
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GADOURY, DAVID M., CADLE-DAVIDSON, LANCE, WILCOX, WAYNE F., DRY, IAN B., SEEM, ROBERT C., and MILGROOM, MICHAEL G.
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POWDERY mildew diseases , *GRAPE diseases & pests , *PLANT epidemiology , *PLANT ecology , *PHYTOPATHOGENIC microorganisms , *ERYSIPHE diseases , *FUNGICIDE resistance - Abstract
SUMMARY Few plant pathogens have had a more profound effect on the evolution of disease management than Erysiphe necator, which causes grapevine powdery mildew. When the pathogen first spread from North America to England in 1845, and onwards to France in 1847, 'germ theory' was neither understood among the general populace nor even generally accepted within the scientific community. Louis Pasteur had only recently reported the microbial nature of fermentation, and it would be another 30 years before Robert Koch would publish his proofs of the microbial nature of certain animal diseases. However, within 6 years after the arrival of the pathogen, nearly 6 million grape growers in France were routinely applying sulphur to suppress powdery mildew on nearly 2.5 million hectares of vineyards (). The pathogen has remained a focus for disease management efforts ever since. Because of the worldwide importance of the crop and its susceptibility to the disease, and because conventional management with modern, organic fungicides has been compromised on several occasions since 1980 by the evolution of fungicide resistance, there has also been a renewed effort worldwide to explore the pathogen's biology and ecology, its genetics and molecular interactions with host plants, and to refine current and suggest new management strategies. These latter aspects are the subject of our review. Taxonomy: The most widely accepted classification follows. Family Erysiphaceae, Erysiphe necator Schw. [syn. Uncinula necator (Schw.) Burr., E. tuckeri Berk., U. americana Howe and U. spiralis Berk. & Curt; anamorph Oidium tuckeri Berk.]. Erysiphe necator var. ampelopsidis was found on Parthenocissus spp. in North America according to , although later studies revealed isolates whose host range spanned genera, making the application of this taxon somewhat imprecise (Gadoury and Pearson, 1991). The classification of the genera before 1980 was based on features of the mature ascocarp: (i) numbers of asci; and (ii) morphology of the appendages, in particular the appendage tips. The foregoing has been supplanted by phylogeny inferred from the internal transcribed spacer (ITS) of ribosomal DNA sequences (), which correlates with conidial ontogeny and morphology (). Host range: The pathogen is obligately parasitic on genera within the Vitaceae, including Vitis, Cissus, Parthenocissus and Ampelopsis (Pearson and Gadoury, 1992). The most economically important host is grapevine ( Vitis), particularly the European grape, V. vinifera, which is highly susceptible to powdery mildew. Disease symptoms and signs: In the strictest sense, macroscopically visible mildew colonies are signs of the pathogen rather than symptoms resulting from its infection, but, for convenience, we describe the symptoms and signs together as the collective appearance of colonized host tissues. All green tissues of the host may be infected. Ascospore colonies are most commonly found on the lower surface of the first-formed leaves near the bark of the vine, and may be accompanied by a similarly shaped chlorotic spot on the upper surface. Young colonies appear whitish and those that have not yet sporulated show a metallic sheen. They are roughly circular, ranging in size from a few millimetres to a centimetre or more in diameter, and can occur singly or in groups that coalesce to cover much of the leaf. Senescent colonies are greyish, and may bear cleistothecia in various stages of development. Dead epidermal cells often subtend the colonized area, as natural mortality in the mildew colony, the use of fungicides, mycoparasites or resistance responses in the leaf result in the deaths of segments of the mildew colony and infected epidermal cells. Severely affected leaves usually senesce, develop necrotic blotches and fall prematurely. Infection of stems initially produces symptoms similar to those on leaves, but colonies on shoots are eventually killed as periderm forms, producing a dark, web-like scar on the cane (Gadoury et al., 2011). Inflorescences and berries are most susceptible when young, and can become completely coated with whitish mildew. The growth of the berry epidermal tissue stops when severely infected, which may result in splitting as young fruit expand. Berries in a transitional stage between susceptible and resistant (generally between 3 and 4 weeks after anthesis) develop diffuse, nonsporulating mildew colonies only visible under magnification. Diffuse colonies die as berries continue to mature, leaving behind a network of necrotic epidermal cells (Gadoury et al., 2007). Survival over winter as mycelium in buds results in a distinctive foliar symptom. Shoots arising from these buds may be heavily coated with fungal growth, stark white in colour and stand out like white flags in the vine, resulting in the term 'flag shoots'. More commonly, colonization of a flag shoot is less extensive, and infection of a single leaf, or of leaves on one side of the shoot only, is observed (Gadoury et al., 2011). [ABSTRACT FROM AUTHOR]
- Published
- 2012
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20. Differential Gene Expression During Conidiation in the Grape Powdery Mildew Pathogen, Erysiphe necator.
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Wakefield, Laura, Gadoury, David M., Seem, Robert C., Milgroom, Michael G., Qi Sun, and Cadle-Davidson, Lance
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ASEXUAL reproduction , *GRAPE powdery mildew disease , *ERYSIPHE , *GENETIC regulation , *GENETIC polymorphisms - Abstract
Asexual sporulation (conidiation) is coordinately regulated in the grape powdery mildew pathogen Erysiphe necator but nothing is known about its genetic regulation. We hypothesized that genes required for conidiation in other fungi would be upregulated at conidiophore initiation or full conidiation (relative to preconidiation vegetative growth and development of mature ascocarps), and that the obligate biotrophic lifestyle of E. necator would necessitate some novel gene regulation. cDNA amplified fragment length polymorphism analysis with 45 selective primer combinations produced ≈1,600 transcript-derived fragments (TDFs), of which 620 (39%) showed differential expression. TDF sequences were annotated using BLAST analysis of GenBank and of a reference transcriptome for E. necator developed by 454-FLX pyro-sequencing of a normalized cDNA library. One-fourth of the differentially expressed, annotated sequences had similarity to fungal genes of unknown function. The remaining genes had annotated function in metabolism, signaling, transcription, transport, and protein fate. As expected, a portion of orthologs known in other fungi to be involved in developmental regulation was upregulated immediately prior to or during conidiation; particularly noteworthy were several genes associated with the light-dependent VeA regulatory system. G-protein signaling (Pth11 and a kelch repeat), and nuclear transport (importin-β and Ran). This work represents the first investigation into differential gene expression during morphogenesis in E. necator and identifies candidate genes and hypotheses for characterization in powdery mildews. Our results indicate that, although control of conidiation in powdery mildews may share some basic elements with established systems, there are significant points of divergence as well, perhaps due, in part, to the obligate biotrophic lifestyle of powdery mildews. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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21. Effects of Acute Low-Temperature Events on Development of Erysiphe necator and Susceptibility of Vitis vinifera.
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Moyer, Michelle M., Gadoury, David M., Cadle-Davidson, Lance, Dry, Ian B., Magarey, Peter A., Wilcox, Wayne E., and Seem, Robert C.
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PLANT growth , *GRAPE powdery mildew disease , *TEMPERATURE , *PHYTOPATHOGENIC microorganisms , *PLANT cells & tissues , *BIOMASS - Abstract
Growth and development of Erysiphe necator (syn. Uncinula necator) has been extensively studied under controlled conditions, primarily with a locus on development of grapevine powdery mildew within the optimal temperature range and the lethal effects of high temperatures. However, little is known of the effect of cold temperatures (above freezing but <8°C) on pathogen development or host resistance. Pretreatment of susceptible Vitis vinifera leaf tissue by exposure to cold temperatur (2 to ≤8°C for 2 to 8 h) reduced infection efficiency and colony expansion when tissues were subsequently inoculated. Furthennore, nascent colonies exposed to similar cold events exhibited hyphal mortality, reduced expansion, and increased latent periods. Historical weather data and an analysis of the radiational cooling of leaf tissues in the field indicated that early-season cold events capable of inducing the foregoing responses occur commonly and frequently across many if not most viticultural regions worldwide. These phenomena may partially explain (i) the unexpectedly slow development of powdery mildew during the first month after budbreak in some regions and (ii) the sudden increase in epidemic development once seasonal temperatures increase above the threshold for acute cold events. [ABSTRACT FROM AUTHOR]
- Published
- 2010
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22. Initiation, Development, and Survival of Cleistothecia of Podosphaera aphanis and Their Role in the Epidemiology of Strawberry Powdery Mildew.
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Gadoury, David M., Asalf, Belachew, Heidenreich, M. Catherine, Herrero, M. L., Welser, M. J., Seem, Robert C., Tronsmo, Anne Marte, and Stensvand, Arne
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PODOSPHAERA , *PLANT diseases , *POWDERY mildew diseases , *REJUVENESCENCE (Botany) , *CYTOPLASM , *FUNGAL development - Abstract
A collection of four clonal isolates of Podosphaera aphanis was heterothallic and was composed of two mutually exclusive mating types. Cleistothecial initials ≈20 to 30 µm in diameter were observed within 7 to 14 days after pairing of compatible isolates and developed into morphologically mature ascocarps within 4 weeks after initiation on both potted plants maintained in isolation and in field plantings in New York State and southern Norway. Ascospores progressed through a lengthy maturation process over winter, during which (i) the conspicuous epiplasm of the ascus was absorbed; (ii) the osmotic potential of the ascospore cytoplasm increased, resulting in bursting of prematurely freed spores in water; and, finally, (iii) resulting in the development of physiologically mature, germinable, and infectious ascospores. Release of overwintered ascospores from field collections was coincident with renewed plant growth in spring. Overwintered cleistothecia readily dehisced when wetted and released ascospores onto glass slides, detached strawberry leaves, and leaves of potted plants. Plant material exposed to discharged ascospores developed macroscopically visible mildew colonies within 7 to 10 days while noninoculated controls remained mildew free. Scanning electron and light microscopy revealed that cleistothecia of P. aphanis were enmeshed within a dense mat of hyphae on the persistent leaves of field-grown strawberry plants and were highly resistant to removal by rain while these leaves remained alive. In contrast, morphologically mature cleistothecia on leaves of nine deciduous perennial plant species were readily detached by simulated rain and seemed adapted for passive dispersal by rain to other substrates. Contrary to many previous reports, cleistothecia appear to be a functional source of primary inoculum for strawberry powdery mildew. Furthermore, they differ substantially from cleistothecia of powdery mildews of many deciduous perennial plants in their propensity to remain attached to the persistent leaves of their host during the intercrop period. [ABSTRACT FROM AUTHOR]
- Published
- 2010
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23. Ontogenic Resistance to Uncinula necator Varies by Genotype and Tissue Type in a Diverse Collection of Vitis spp.
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Gee, Christopher T., Gadoury, David M., and Cadle-Davidson, Lance
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PLANT resistance to viruses , *NECATOR , *AGING in plants , *GENE expression in plants , *PLANT genetics , *POWDERY mildew diseases , *PLANT germplasm , *PLANT physiology , *GENOTYPE-environment interaction ,ONTOGENY of plants - Abstract
Berries of grapevine (Vitis spp.) have a limited window of susceptibility to Uncinula necator, the causal agent of grapevine powdery mildew, until the onset of ontogenic resistance approximately 2 to 3 weeks postbloom. This phenomenon has been demonstrated in several cultivars of V. vinifera and in V. labruscana 'Concord', which all exhibited a similar duration of susceptibility. To identify genetic variation for ontogenic resistance, we screened a diverse collection of Vitis species and interspecific hybrids maintained in the USDA-ARS cold-hardy Vitis germplasm collection in Geneva, NY. Of the 79 genotypes whose fruit clusters were screened for susceptibility to powdery mildew under field conditions, 50 exhibited a high level of constitutive resistance to powdery mildew and did not develop more than trace levels of disease when inoculated, irrespective of the stage of berry development at inoculation. Twenty-four genotypes exhibited a significant gain of resistance as berries aged. This ontogenic resistance was conserved across four species and several interspecific hybrids of Vitis spp., although the timing of the onset of ontogenic resistance varied by genotype. The mechanism of ontogenic resistance was examined for four genotypes. Similar to previous studies, ontogenic resistance greatly reduced the incidence of successful penetration. Despite the broad conservation of ontogenic resistance across species, one genotype (V. rupestris 'R-65-44') remained susceptible past the onset of ripening, over 1 month later than reported previously for V. vinifera and V. labruscana. Variation in the resistance phenotype was observed among the rachis, pedicels, and berries within clusters of the majority of genotypes studied. The genetic variation in ontogenic resistance, in particular the discovery of a genotype in which berries remain susceptible as they mature, will facilitate further study of the inheritance and molecular basis of ontogenic resistance. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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24. Effects of Diffuse Colonization-of Grape Berries by Uncinula necator on Bunch Rots, Berry Microflora, and Juice and Wine Quality.
- Author
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Gadoury, David M., Seem, Robert C., Wilcox, Wayne F., Henick-Kling, Thomas, Conterno, Lorenza, Day, Andrea, and Ficke, Andrea
- Subjects
- *
GRAPES , *ERYSIPHE , *POWDERY mildew diseases , *FUNGAL diseases of plants , *BOTRYTIS cinerea , *ACETIC acid , *ALCOHOL - Abstract
Production of grape (principally cultivars of Vitis vinifera) for high-quality wines requires a high level of suppression of powdery mildew (Uncinula necator syn. Erysiphe necator). Severe infection of either fruit or foliage has well-documented and deleterious effects upon crop and wine quality. We found that berries nearly immune to infection by U. necator due to the development of ontogenic resistance may still support diffuse and inconspicuous mildew colonies when inoculated ≈3 weeks post-bloom. Fruit with diffuse mildew colonies appear to be healthy and free of powdery mildew in late-season vineyard assessments with the naked eye. Nonetheless, presence of these colonies on berries was associated with (i) elevated populations of spoilage microorganisms; (ii) increased evolution of volatile ethyl acetate, acetic acid, and ethanol; (iii) increased infestation by insects known to be attracted to the aforementioned volatiles; (iv) increased rotting by Botrytis cinerea; and (v) increased frequency of perceived defects in wines prepared from fruit supporting diffuse powdery mildew colonies. Prevention of diffuse infection requires extending fungicidal protection until fruit are fully resistant to infection. Despite a perceived lack of improvement in disease control due to the insidious nature of diffuse powdery mildew, potential deleterious effects upon crop and wine quality thereby would be avoided. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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- View/download PDF
25. Vapor Activity and Systemic Movement of Mefenoxam Control Grapevine Downy Mildew.
- Author
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Kennelly, Megan M., Gadoury, David M., Wilcox, Wayne F., and Seem, Robert C.
- Subjects
- *
OOMYCETES , *PLANT diseases , *PATHOGENIC microorganisms , *GRAPEVINE leafroll virus , *MILDEW , *SEEDLINGS - Abstract
Metalaxyl is translocated from roots to leaves to control a number of oomycete pathogens, but systemic movement from vegetative organs into fruit and vapor activity against Plasmopara viticola, the causal agent of grapevine downy mildew, has not been examined experimentally. We inoculated fruit clusters of grapevines with P. viticola at prebloom, bloom, or 1 week postbloom. We then selectively applied mefenoxam (288 mg/liter), the active enantiomer of metalaxyl, to the leaves or stem tissue 12 to 48 h after inoculation. Little to no downy mildew developed on fruit when mefenoxam was applied to leaf tissue, stem tissue, or both. In contrast, downy mil- dew symptoms were severe on inoculated clusters on untreated shoots. When potential vapor activity was blocked, we observed fungicidal activity on seedling foliage in response to apparent systemic movement from treated stems and soil, but not from leaves. However, when vapor activity was permitted, mefenoxam residues on treated leaves controlled disease on other, untreated leaves. In subsequent vineyard experiments, vapor and systemic activity provided equivalent and near-complete suppression of downy mildew on clusters 48 h post inoculation. Furthermore, inoculated grape seedlings that were placed near mefenoxam-treated seedlings in open and closed systems developed nil to trace levels of downy mildew compared with controls, further indicating that the material has strong vapor activity. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
- View/download PDF
26. Impact of Diurnal Periodicity, Temperature, and Light on Sporulation of Bremia lactucae.
- Author
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Nordskog, Bent, Gadoury, David M., Seem, Robert C., and Hermansen, Arne
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CIRCADIAN rhythms , *HUMIDITY , *BREMIA lactucae , *LETTUCE , *LIGHT , *TEMPERATURE - Abstract
We evaluated direct and interactive effects of light quality and intensity, temperature and light, diurnal rhythms, and timing of high relative humidity during long day lengths on sporulation of Bremia lactucae, the causal agent of lettuce downy mildew, using inoculated lettuce seedlings and detached cotyledons. Suppression of sporulation by light was strongly dependent upon temperature and there was little suppression at ≦10°C. The most suppressive waveband was in the range from 400 to 450 nm, although a lesser effect of wavebands from 450 to 500 and 500 to 550 nm could be detected. At 15°C, near the lower threshold for suppression of [ABSTRACT FROM AUTHOR]
- Published
- 2007
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27. Primary Infection, Lesion Productivity, and Survival of Sporangia in the Grapevine Downy Mildew Pathogen Plasmopara viticola.
- Author
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Kennelly, Megan M., Gadoury, David M., Wilcox, Wayne F., Magarey, Peter A., and Seem, Robert C.
- Subjects
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PATHOGENIC microorganisms , *PLANT phenology , *GERMINATION , *PLANT physiology , *HIGH temperatures - Abstract
Several aspects of grapevine downy mildew epidemiology that are fundamental to model predictions were investigated. Simple rainfall-, temperature-, and phenology-based thresholds (rain > 2.5 mm; temperature > 11°C; and phenology > Eichorn and Lorenz [E&L] growth stage 12) were evaluated to forecast primary (oosporic) infection by Plasmopara viticola. The threshold was consistent across 15 years of historical data on the highly susceptible cv. Chancellor at one site, and successfully predicted the initial outbreak of downy mildew for 2 of 3 years at three additional sites. Field inoculations demonstrated that shoot tissue was susceptible to infection as early as E&L stage 5, suggesting that initial germination of oospores, rather than acquisition of host susceptibility, was probably the limiting factor in the initiation of disease outbreaks. We also found that oospores may continue to germinate and cause infections throughout the growing season, in contrast to the widely-held assumption that the supply of oospores is depleted shortly after bloom. Lesion productivity (sporangia/lesion) did not decline with age of a lesion in the absence of suitable weather to induce sporulation. However, the productivity of all lesions declined rapidly through repeated cycles of sporulation. Extremely high temperatures (i.e., one day reaching 42.8°C) had an eradicative effect under vineyard conditions, and permanently reduced sporulation from existing (but not incubating) lesions to trace levels, despite a later return to weather conducive to sporulation. In fair weather, most sporangia died sometime during the daylight period immediately following their production. However, over 50% of sporangia still released zoospores after 12 to 24 h of exposure to overcast conditions. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
- View/download PDF
28. Seasonal Development of Ontogenic Resistance to Downy Mildew in Grape Berries and Rachises.
- Author
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Kennelly, Megan M., Gadoury, David M., Wilcox, Wayne F., Magarey, Peter A., and Seem, Robert C.
- Subjects
- *
ECOLOGY , *EPIDEMIOLOGY , *PLANT anatomy , *FRUIT , *BERRIES , *RIESLING - Abstract
Clusters of Vitis vinifera and V. labrusca are reported to become resistant to Plasmopara viticola at stages of development ranging from l to 6 weeks postbloom. It has been suggested that resistance is associated with loss of the infection court as stomata are converted to lenticels, but the time of onset, cultivar variation, and seasonal variation in ontogenic resistance has remained uncertain, as has the comparative susceptibility of stem tissue within the fruit cluster. In New York, we inoculated clusters of V. vinifera cvs. Chardonnay and Riesling and V. labrusca cvs. Concord and Niagara at stages from prebloom until 5 to 6 weeks postbloom. Berries were infected and supported profuse sporulation until 2 weeks postbloom, and pedicel tissue remained susceptible until 4 weeks postbloom. Although berries on later-inoculated clusters failed to support sporulation, discoloration and necrosis of berry tissues was often noted, and necrosis of the pedicel within such clusters often led to further discoloration, shriveling, reduced size, or loss of berries. When the epidermis of discolored berries that initially failed to support sporulation was cut, the pathogen emerged and sporulated through incisions, indicating that lack of sporulation on older symptomatic berries was due to infection at an early stage of berry development followed by conversion of functional stomata to lenticels during latency. We repeated the study on Chardonnay and Riesling vines in South Australia and found that the period of berry and rachis susceptibility was greatly increased. The protracted susceptibility of the host was related to the increased duration and phenological heterogeneity of bloom and berry development in the warmer climate of South Australia. The time of onset and subsequent expression of ontogenic resistance to P. viticola may thus be modified by climate and should be weighed in transposing results from one climatic area to another. Our results can be used to refine forecast models for grapevine downy mildew to account for changes in berry and rachis susceptibility, and to focus fungicide application schedules upon the most critical periods for protection of fruit. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF
29. A Comparison of Methods Used to Estimate the Maturity and Release of Ascospores of Venturia inaequalis.
- Author
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Gadoury, David M., Seem, Robert C., MacHardy, William E., Wilcox, Wayne F., Rosenberger, David A., and Stensvand, Arne
- Subjects
- *
VENTURIA inaequalis , *APPLE diseases & pests , *LEAF diseases & pests , *PLANT diseases , *DEGREE days , *PHYTOPATHOGENIC microorganisms - Abstract
Maturation and release of ascospores of Venturia inaequalis were assessed at Geneva and Highland, NY, and at Durham, NH, by microscopic examination of crushed pseudothecia excised from infected apple leaves that were collected weekly from orchards (squash mounts) in 14 siteyear combinations. Airborne ascospore dose was monitored at each location in each year of the study by volumetric spore traps. Additional laboratory assessments were made at Geneva to quantify release from infected leaf segments upon wetting (discharge tests). Finally, ascospore maturity was estimated for each location using a degree-day model developed in an earlier study. Ascospore maturation and release determined by squash mounts and discharge tests lagged significantly behind cumulative ascospore release as measured by volumetric spore traps in the field. The mean date of 98% ascospore discharge as determined by squash mounts or discharge tests occurred from 23 to 28 days after the mean date on which 98% cumulative ascospore release had been detected by volumetric traps. In contrast, cumulative ascospore maturity estimated by the degree-day model was highly correlated (r² = 0.82) with observed cumulative ascospore release as monitored by the volumetric traps. Although large differences between predicted maturity and observed discharge were common during the exponential phase of ascospore development, the date of 98% cumulative ascospore maturity predicted by the model was generally within 1 to 9 calendar days of the date of 98% cumulative ascospore recovery in the volumetric traps. Cumulative ascospore discharge as monitored by the volumetric traps always exceeded 98% at 600 degree days (base = 0°C) after green tip. Estimating the relative quantity of primary inoculum indirectly by means of a degree-day model was more closely aligned with observed ascospore release, as measured by volumetric traps, than actual assessments of ascospore maturity and discharge obtained through squash mounts and discharge tests. The degreeday model, therefore, may be a more accurate predictor of ascospore depletion than squash mounts or discharged tests, and has the added advantage that it can be widely applied to generate site-specific estimates of ascospore maturity for any location where daily temperature data are available. [ABSTRACT FROM AUTHOR]
- Published
- 2004
- Full Text
- View/download PDF
30. Host Barriers and Responses to Uncinula necator in Developing Grape Berries.
- Author
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Ficke, Andrea, Gadoury, David M., Seem, Robert C., Godfrey, Dale, and Dry, Ian B.
- Subjects
- *
GRAPE diseases & pests , *POWDERY mildew diseases , *FUNGAL diseases of plants , *PLANT resistance to viruses , *PLANT diseases , *AGRICULTURAL pests - Abstract
Grape berries are highly susceptible to powdery mildew 1 week after bloom but acquire ontogenic resistance 2 to 3 weeks later. We recently demonstrated that germinating conidia of the grape powdery mildew pathogen (Uncinula necator) cease development before penetration of the cuticle on older resistant berries. The mechanism that halts U. necator at that particular stage was not known. Several previous studies investigated potential host barriers or cell responses to powdery mildew in berries and Leaves, but none included observation of the direct effect of these factors on pathogen development. We found that cuticle thickness increased with berry age, but that ingress by the pathogen halted before formation of a visible penetration pore. Cell wall thickness remained unchanged over the first 4 weeks after bloom, the time during which berries progressed from highly susceptible to nearly immune. Auto fluorescent polyphenolic compounds accumulated at a higher frequency beneath appressoria on highly susceptible berries than on highly resistant berries; and oxidation of the above phenolics, indicated by cell discoloration, developed at a significantly higher frequency on susceptible berries. Beneath the first-formed appressoria of all germinated conidia, papillae occurred at a significantly higher frequency on 2- to 5-day-old berries than on 30- to 31-day-old fruit. The relatively few paplillae observed on older berries were, in most cases (82.8 to 97.3%), found beneath appressoria of conidia that had failed to produce secondary hyphae. This contrasted with the more abundantly produced papillae on younger berries, where only 35.4 to 41.0% were located beneath appressoria of conidia that had failed to produce secondary hyphae. [ABSTRACT FROM AUTHOR]
- Published
- 2004
- Full Text
- View/download PDF
31. Specific Isolation of RNA from the Grape Powdery Mildew Pathogen Erysiphe necator, an Epiphytic, Obligate Parasite.
- Author
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Cadle-Davidson, Lance, Wakefield, Laura, Seem, Robert C., and Gadoury, David M.
- Subjects
RNA ,GRAPE powdery mildew disease ,PATHOGENIC microorganisms ,ERYSIPHE ,PARASITES - Abstract
RNA expression profiling of obligately parasitic plant microbes is hampered by the requisite interaction of host and parasite. This can be especially problematic in the case of powdery mildews, such as Erysiphe necator (syn. Uncinula necator), which grow superficially but tightly adhere to the plant epidermis. We developed and refined a simple and efficient technique in which nail polish was used to remove conidia, appressoria, hyphae, conidiophores, and developing ascocarps of E. necator from grapevine ( Vitis vinifera) leaves and showed that RNA isolated after removal was not contaminated with V. vinifera RNA. This approach can be applied to expression analyses throughout fungal development and could be extended to other epiphytic pathogens and saprophytes. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
32. Population Diversity and Structure of Podosphaera macularis in the Pacific Northwestern United States and Other Populations.
- Author
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Gent, David H., Claassen, Briana J., Gadoury, David M., Grünwald, Niklaus J., Knaus, Brian J., Radišek, Sebastjan, Weldon, William, Wiseman, Michele S., and Wolfenbarger, Sierra N.
- Subjects
- *
CULTIVARS , *HOPS , *PRINCIPAL components analysis , *CULTIVATED plants , *POWDERY mildew diseases , *PLANT nurseries , *WILD plants - Abstract
Powdery mildew, caused by Podosphaera macularis, is one of the most important diseases of hop. The disease was first reported in the Pacific Northwestern United States, the primary hop-growing region in this country, in the mid-1990s. More recently, the disease has reemerged in newly planted hopyards of the eastern United States, as hop production has expanded to meet demands of local craft brewers. The spread of strains virulent on previously resistant cultivars, the paucity of available fungicides, and the potential introduction of the MAT1-2 mating type to the western United States, all threaten sustainability of hop production. We sequenced the transcriptome of 104 isolates of P. macularis collected throughout the western United States, eastern United States, and Europe to quantify genetic diversity of pathogen populations and elucidate the possible origins of pathogen populations in the western United States. Discriminant analysis of principal components grouped isolates within three to five geographic populations, dependent on stringency of grouping criteria. Isolates from the western United States were phenotyped and categorized into one of three pathogenic races based on disease symptoms generated on differential cultivars. Western U.S. populations were clonal, irrespective of pathogenic race, and grouped with isolates originating from Europe. Isolates originating from wild hop plants in the eastern United States were genetically differentiated from all other populations, whereas isolates from cultivated hop plants in the eastern United States mostly grouped with isolates originating from the west, consistent with origins from nursery sources. Mating types of isolates originating from cultivated western and eastern U.S. hop plants were entirely MAT1-1. In contrast, a 1:1 ratio of MAT1-1 and MAT1-2 was observed with isolates sampled from wild plants or Europe. Within the western United States a set of highly differentiated loci were identified in P. macularis isolates associated with virulence to the powdery mildew R-gene R6. The weight of genetic and phenotypic evidence suggests a European origin of the P. macularis populations in the western United States, followed by spread of the pathogen from the western United States to re-emergent production regions in the eastern United States. Furthermore, R6 compatibility appears to have been selected from an extant isolate within the western United States. Greater emphasis on sanitation measures during propagation and quarantine policies should be considered to limit further spread of novel genotypes of the pathogen, both between and within production areas. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
33. Lessons from a Phenotyping Center Revealed by the Genome-Guided Mapping of Powdery Mildew Resistance Loci.
- Author
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Cadle-Davidson, Lance, Schaub, Michelle, Gadoury, David, Shanshan Yang, Demmings, Elizabeth M., Seem, Robert, Nowogrodzki, Anna, Kasinathan, Hema, Reisch, Bruce I., Barba, Paola, Fresnedo-Ramírez, Jonathan, Qi Sun, and Ledbetter, Craig
- Subjects
- *
POWDERY mildew diseases , *GENE mapping , *GENETICS of disease resistance of plants , *LOCUS (Genetics) , *PHENOTYPES , *GENOMICS - Abstract
The genomics era brought unprecedented opportunities for genetic analysis of host resistance, but it came with the challenge that accurate and reproducible phenotypes are needed so that genomic results appropriately reflect biology. Phenotyping host resistance by natural infection in the field can produce variable results due to the uncontrolled environment, uneven distribution and genetics of the pathogen, and developmentally regulated resistance among other factors. To address these challenges, we developed highly controlled, standardized methodologies for phenotyping powdery mildew resistance in the context of a phenotyping center, receiving samples of up to 140 grapevine progeny per F1 family. We applied these methodologies to F1 families segregating for REN1- or REN2-mediated resistance and validated that some but not all bioassays identified the REN1 or REN2 locus. A point-intercept method (hyphal transects) to quantify colony density objectively at 8 or 9 days postinoculation proved to be the phenotypic response most reproducibly predicted by these resistance loci. Quantitative trait locus (QTL) mapping with genotyping-by-sequencing maps defined the REN1 and REN2 loci at relatively high resolution. In the reference PN40024 genome under each QTL, nucleotide-binding site−leucine-rich repeat candidate resistance genes were identified—one gene for REN1 and two genes for REN2. The methods described here for centralized resistance phenotyping and high-resolution genetic mapping can inform strategies for breeding resistance to powdery mildews and other pathogens on diverse, highly heterozygous hosts. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
34. Present Status and Future Changes.
- Author
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MacDonald, James, Allen, Caitilyn, Gadoury, David, Jacobi, William, Kelemu, Segenet, Moyer, James, Murray, Tim, Ong, Kevin, Pearson, Charles, Sherwood, John, and Vidaver, Ann
- Subjects
- *
PLANT diseases , *PLANT pathologists , *UNDERGRADUATES , *EMPLOYERS , *MOLECULAR biology , *STUDENT recruitment - Abstract
The article discusses education and profession in plant pathology based on the studies initiated by the American Phytopathological Society (APS). Undergraduate students enrolled in plant pathology courses were driven by factors like work experience, words from families and friends, and initial interest. The attributes of a graduate student that employers look for include work experience in molecular biology and biotechnology. Attracting students in plant pathology is a major challenge to face.
- Published
- 2009
- Full Text
- View/download PDF
35. Biological Control of Grape Powdery Mildew Using Mycophagous Mites.
- Author
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English-Loeb, Greg, Norton, Andrew P., Gadoury, David, Seem, Robert, and Wilcox, Wayne
- Subjects
- *
FUNGIVORES , *MITES , *GRAPE diseases & pests , *POWDERY mildew diseases , *TRICHOMES , *PLANT diseases - Abstract
We evaluated the efficacy of a mycophagous tydeid mite, Ortholydeus lambi, in controlling grape powdery mildew on mature vines of nine different grape cultivars and one unnamed hybrid grown in an experimental vineyard over a 3-year period. O. lambi became well established on all vines where they were released. However, some cultivars supported higher densities than others, depending on, among other factors, the presence and abundance of leaf trichomes in vein axils (domatia). The establishment of O. Lambi substantially reduced powdery mildew on foliage and fruit, although the magnitude of disease suppression was greater on some grape genotypes than others, depending on mite density and innate susceptibility to grape powdery mildew. Treatments where O. lambi was used alone were as effective as fungicide. Significantly better disease control was found in treatments with both mites and fungicides. The mass of pruning material and leaf photosynthetic rates were significantly greater for vines with O. lambi, fungicide, or a combination of mites and fungicide compared with untreated vines. The combination of mites and fungicide resulted in significantly greater yield than mites or fungicide alone. Our results illustrate the potential of O. lambi for biological control of grape powdery mildew but also high-light limitations related to differences among grape genotypes in innate susceptibility to mildew and suitability for mites. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
- View/download PDF
36. Use of a Rainfall Frequency Threshold to Adjust a Degree-Day Model of Ascospore Maturity of Venturia inaequalis.
- Author
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Stensvand, Arne, Eikemo, Håvard, Gadoury, David M., and Seem, Robert C.
- Subjects
- *
RAINFALL frequencies , *ASCOSPORES , *VENTURIA inaequalis , *RAINFALL , *PLANT spores , *VENTURIA - Abstract
Estimates of ascospore maturity generated by a model developed previously in New Hampshire, United States, were compared with the cumulative release of ascospores in southern Norway as monitored by volumetric spore traps at one site for 12 years, and at two additional sites for 2 years. In locations and years with frequent rain events, model-estimated ascospore maturity closely approximated observed ascospore release. However, in years with protracted dry periods of 1 to 3 weeks with no or little rain, not only was spore release delayed, but release continued to lag behind predicted maturity even after several rain events subsequent to the dry interval. By halting degree-day (base = 0°C) accumulation if 7 consecutive days without rain occurred, accuracy of the model during ‘dry’ years was greatly improved, without substantially affecting accuracy in ‘wet’ seasons. With minimal additional effort on the part of the user, this simple modification increases the accuracy of model-derived estimates of ascospore maturity when lack of rain slows ascospore maturation. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF
37. Integrated Control of Grape Black Rot: Influence of Host Phenology, Inoculum Availability, Sanitation, and Spray Timing.
- Author
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Hoffman, Lisa Emele, Wilcox, Wayne F., Gadoury, David M., Seem, Robert C., and Riegel, Duane G.
- Subjects
- *
BLACK rot , *GRAPE diseases & pests , *PEST control , *PLANT inoculation , *VINEYARDS , *SPRAYING & dusting in agriculture - Abstract
The epidemiology and control of black rot (Guignardia bidwellii) was studied from 1995 to 1999 in vineyards in Dresden and Naples, NY, where disease pressure was moderate and extreme, respectively. The efficacy of serial applications of myclobutanil, provided at 2-week intervals and varied with respect to their number and time of initiation, was examined within the context of host phenology, inoculum availability, and sanitation. At Dresden, sprays applied over 4 weeks through the immediate prebloom stage provided only 13 to 91% control of diseased clusters, despite the release of 95% of the season's ascosporic inoculum during the period of fungicidal protection. However, applications immediately prior to bloom plus 2 and 4 weeks later, which afforded protection while fruit are highly susceptible to infection, provided virtually complete control. At Naples, where mummified berries were retained in the canopy after mechanical pruning, this same regime provided only approximately 80% disease control, but applying a fourth spray 2 weeks prebloom generally improved control. Hand-pruning mummies to the ground in selected plots significantly (P &2le; 0.05) improved control in some spray regimes. Although this sanitation practice did not affect inoculum dynamics through bloom, very few spores were recovered thereafter from mummies collected from the ground, whereas abundant ascospores and conidia were recovered from mummies in the trellis for an additional 6 to 8 weeks. [ABSTRACT FROM AUTHOR]
- Published
- 2004
- Full Text
- View/download PDF
38. A Comprehensive Characterization of Ecological and Epidemiological Factors Driving Perennation of Podosphaera macularis Chasmothecia on Hop (Humulus lupulus).
- Author
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Weldon, William A., Marks, Michelle E., Gevens, Amanda J., D'Arcangelo, Kimberly N., Quesada-Ocampo, Lina M., Parry, Stephen, Gent, David H., Cadle-Davidson, Lance E., and Gadoury, David M.
- Subjects
- *
POWDERY mildew diseases , *SUSTAINABILITY , *SPRING , *DISEASE management , *EPIDEMIOLOGICAL models , *RAINFALL , *HOPS - Abstract
Hop powdery mildew, caused by the ascomycete fungus Podosphaera macularis, is a consistent threat to sustainable hop production. The pathogen utilizes two reproductive strategies for overwintering and perennation: (i) asexual vegetative hyphae on dormant buds that emerge the following season as infected shoots; and (ii) sexual ascocarps (chasmothecia), which are discharged during spring rain events. We demonstrate that P. macularis chasmothecia, in the absence of any asexual P. macularis growth forms, are a viable overwintering source capable of causing early season infection two to three orders of magnitude greater than that reported for perennation via asexual growth. Two epidemiological models were defined that describe (i) temperature-driven maturation of P. macularis chasmothecia; and (ii) ascosporic discharge in response to duration of leaf wetness and prevailing temperatures. P. macularis ascospores were confirmed to be infectious at temperatures ranging from 5 to 20°C. The organism's chasmothecia were also found to adhere tightly to the host tissue on which they formed, suggesting that these structures likely overwinter wherever hop tissue senesces within a hop yard. These observations suggest that existing early season disease management practices are especially crucial to controlling hop powdery mildew in the presence of P. macularis chasmothecia. Furthermore, these insights provide a baseline for the validation of weatherdriven models describing maturation and release of P. macularis ascospores, models that can eventually be incorporated into hop disease management programs. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
39. Transcriptome-Derived Amplicon Sequencing Markers Elucidate the U.S. Podosphaera macularis Population Structure Across Feral and Commercial Plantings of Humulus lupulus.
- Author
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Weldon, William A., Knaus, Brian J., Grunwald, Niklaus J., Havill, Joshua S., Block, Mary H., Gent, David H., Cadle-Davidson, Lance E., and Gadoury, David M.
- Subjects
- *
HOPS , *POWDERY mildew diseases , *PHYTOPATHOGENIC microorganisms - Abstract
Obligately biotrophic plant pathogens pose challenges in population genetic studies due to their genomic complexities and elaborate culturing requirements with limited biomass. Hop powdery mildew (Podosphaera macula, is) is an obligately biotrophic ascomycete that threatens sustainable hop production. P macularis populations of the Pacific Northwest (PNW) United States differ from those of the Midwest and Northeastern United States, lacking one of two mating types needed for sexual recombination highand harboring two strains that are differentially aggressive on the cultivar Cascade and able to overcome the Humulus lupulus R-gene R6 (V6), respectively. To develop a high-throughput marker platform for tracking the flow of genotypes across the United States and internationally, we used an existing transcriptome of diverse P macularis isolates to design a multiplex 54 amplicon sequencing markers, validated across a panel of 391 U.S. samples and 123 international samples. The results suggest that niacu[£iris from U.S. commercial hop yards form one population closely related to P macularis of the United Kingdom, while P m Licul(iris from U.S. feral hop locations grouped with P macul(iris of Eastern Europe. Included in this multiplex was a marker that successfully tracked V6-vii·ulence in 65 of 66 samples with a confirmed V6-phenotype. A new qPCR assay for high-throughput genotyping of P macuknis mating type generated the highest resolution distribution map of' P mcicularis mating type to date. Together, these genotyping strategies enable the highand throughput and inexpensive tracking of pathogen spread among geographical regions from single-colony samples and provide a roadmap to develop markers for other obligate biotrophs. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
40. Strategies for RUN1 Deployment Using RUN2 and REN2 to Manage Grapevine Powdery Mildew Informed by Studies of Race Specificity.
- Author
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Feechan, Angela, Kocsis, Marianna, Riaz, Summaira, Zhang, Wei, Gadoury, David M., Walker, M. Andrew, Dry, Ian B., Reisch, Bruce, and Cadle-Davidson, Lance
- Subjects
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GRAPE powdery mildew disease , *MUSCADINE grape , *UNCINULA necator , *APOPTOSIS , *MICROBIAL virulence - Abstract
The Toll/interleukin-1 receptor nucleotide-binding site leucine-rich repeat gene, "resistance to Uncinula necator 1" (RUN1), from Vitis rotundifolia was recently identified and confirmed to confer resistance to the grapevine powdery mildew fungus Erysiphe necator (syn. U. necator) in transgenic V . vinifera cultivars. However, sporulating powdery mildew colonies and cleistothecia of the heterothallic pathogen have been found on introgression lines containing the RUN1 locus growing in New York (NY). Two E. necator isolates collected from RUN1 vines were designated NY1-131 and NY1-137 and were used in this study to inform a strategy for durable RUN1 deployment. In order to achieve this, fitness parameters of NY1-131 and NY1-137 were quantified relative to powdery mildew isolates collected from V. rotundifolia and V . vinifera on vines containing alleles of the powdery mildew resistance genes RUN], RUN2, or REN2. The results clearly demonstrate the race specificity of RUN1, RUN2, and REN2 resistance alleles, all of which exhibit programmed cell death (PCD)-mediated resistance. The NY1 isolates investigated were found to have an intermediate virulence on RUN1 vines, although this may be allele specific, while the Musc4 isolate collected from V . rotundifolia was virulent on all RUN] vines. Another powdery mildew resistance locus, RUN2, was previously mapped in different V. rotundifolia genotypes, and two alleles (RUN2.1 and RUN2.2) were identified. The RUN2.I allele was found to provide PCD-mediated resistance to both an NY1 isolate and Musc4. Importantly, REN2 vines were resistant to the NY1 isolates and RUN1REN2 vines combining both genes displayed additional resistance. Based on these results, RUN!-mediated resistance in grapevine may be enhanced by pyramiding with RUN2.1 or REN2; however, naturally occurring isolates in North America display some virulence on vines with these resistance genes. The characterization of additional resistance sources is needed to identify resistance gene combinations that will further enhance durability. For the resistance gene combinations currently available, we recommend using complementary management strategies, including fungicide application, to reduce populations of virulent isolates. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
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41. Geographic Distribution of Cryptic Species of Plasmopara viticola Causing Downy Mildew on Wild and Cultivated Grape in Eastern North America.
- Author
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Rouxel, Mélanie, Mestre, Pere, Baudoin, Anton, Carisse, Odile, Delière, Laurent, Ellis, Michael A., Gadoury, David, Jiang Lu, Nita, Mizuho, Richard-Cervera, Sylvie, Schilder, Annemiek, Wise, Alice, and Delmotte, François
- Subjects
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PLASMOPARA viticola , *GRAPE powdery mildew disease , *GRAPES , *PATHOGENIC microorganisms - Abstract
The putative center of origin of Plasmopara viticola, the causal agent of grape downy mildew, is eastern North America, where it has been described on several members of the family Vitaceae (e.g., Vitis spp., Parthenocissus spp., and Ampélopsis spp.). We have completed the first large-scale sampling of P. viticola isolates across a range of wild and cultivated host species distributed throughout the above region. Sequencing results of four partial genes indicated the presence of a new P. viticola species on Vitis vulpina in Virginia, adding to the four cryptic species of P. viticola recently recorded. The phylogenetic analysis also indicated that the P. viticola species found on Parthenocissus quinquefolia in North America is identical to Plasmopara muralis in Europe. The geographicdistribution and host range of five pathogen species was determined through analysis of the internal transcribed spacer polymorphism of 896 isolates of P. viticola. Among three P. viticola species found on cultivated grape, one was restricted to Vitis interspecific hybrids within the northern part of eastern North America. A second species was recovered from V. vinifera and V. labrusca. and was distributed across most of the sampled region. A third species, although less abundant, was distributed across a larger geographical range, including the southern part of eastern North America. P. viticola clade aestivalis predominated (83% of isolates) in vineyards of the European winegrape V. vinifera within the sampled area, indicating that a single pathogen species may represent the primary threat to the European host species within eastern North America. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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42. Continuous Lighting Reduces Conidial Production and Germinability in the Rose Powdery Mildew Pathosystem.
- Author
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Suthaparan, A., Stensvand, Arne, Torre, S., Herrero, Maria L., Pettersen, R. I., Gadoury, David M., and Gislerød, Hans Ragner
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ROSE diseases & pests , *POWDERY mildew diseases , *FUNGI imperfecti , *FUNGICIDES , *PLANT disease research , *PLANT epidemiology - Abstract
The effect of day length on production and germinability of conidia and severity of disease caused by Podosphaera pannosa, the causal agent of rose powdery mildew, was studied. Whole potted plants or detached leaves of Rosa interspecific hybrid `Mistral' were inoculated with P. pannosa and exposed to 0, 12, 18, 20, 22, or 24 h of artificial light per day in growth chambers equipped with mercury lamps. Increasing duration of illumination from 18 to 20 to 24 h per day reduced production of conidia by 22 to 62%. Exposure to 24 h of illumination per day also strongly reduced disease severity compared with 18 h. Our results suggest that increasing day lengths from 18 h per day to 20 to 24 h may suppress the disease significantly and, thereby, reduce the need for fungicide applications against powdery mildew. [ABSTRACT FROM AUTHOR]
- Published
- 2010
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43. Suppression of Grapevine Powdery Mildew by a Mycophagous Mite.
- Author
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Melidossian, Heather S., Seem, Robert C., English-Loeb, Greg, Wilcox, Wayne F., and Gadoury, David M.
- Subjects
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POWDERY mildew diseases , *GRAPE diseases & pests , *PLANT cells & tissues , *PATHOGENIC microorganisms , *PLANT physiology , *PLANT cell microbodies - Abstract
Orthotydeus lambi reduced the severity of grape powdery mildew (Uncinula necator) on fruit and foliage of Vitis vinifera ‘Chardonnay’ and ‘Riesling’ in repeated field and laboratory trials. Vines were infested with O. lambi at two densities (5 or 30 mites per leaf) at each of two times (2 to 3 weeks problem and 1 week postbloom). Overall, powdery mildew on the berries and foliage was suppressed by early (prebloom) mite releases at both densities, but only by the higher density in late (postbloom) releases. In a separate trial, when foliage was infested at 30 mites per leaf but mites were excluded from certain fruit clusters, severity of powdery mildew was significantly reduced on the mite-free clusters of mite-infested shoots. Thus, O. lambi may suppress powdery mildew on the fruit by reducing inoculum from foliar infections. In laboratory studies, both immature and mature mites reduced infection efficiency, colony expansion, and sporulation of the mildew colonies; but immature mites were more voracious feeders, consuming more pathogen biomass per unit of mite biomass. Mites tore at the mycelium and conidia with their palps during feeding, leading to leakage, rapid loss of hyphal turgor, and collapse of hyphae. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF
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