Publications for:
pest = Erysiphe necator
crop = Grapevine (Vitis)
for the years 2013-2023 (descending)
found 67 publications:
2023
Design of intelligent detection platform for wine grape pests and diseases in Ningxia
Plants (2023) 12 (1 - 106)
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pestinfo wikiDisease forecasting for the rational management of grapevine mildews in the Chianti bio-district (Tuscany)
Plants (2023) 12 (2 - 285)
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pestinfo wiki2022
Chitosan-based bioactive formulations for the control of powdery mildew in viticulture
Agronomy (2022) 12 (2 - 495)
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pestinfo wikiMixtures of macro and micronutrients control grape powdery mildew and alter berry metabolites
Plants (2022) 11 (7 - 978)
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pestinfo wiki2021
Population structure of
Erysiphe necator on domesticated and wild vines in the Middle East raises questions on the origin of the grapevine powdery mildew pathogen
Environmental Microbiology (2021) 23 (10), 6019-6037
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pestinfo wiki Survival and viability of ascospores of
Erysiphe necator in Austrian vineyards
European Journal of Plant Pathology (2021) 159 (3), 615-626
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pestinfo wikiModifications of grapevine berry composition induced by main viral and fungal pathogens in a climate change scenario
Frontiers in Plant Science (2021) 2021 (12 - 717223)
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pestinfo wikiInconsistent effects of local and landscape factors on two key pests in Israeli vineyards
Journal of Applied Entomology (2021) 145 (9), 900-910
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pestinfo wikiPotential and actual ascospore release of
Erysiphe necator chasmothecia in Austria
Journal of Plant Diseases and Protection (2021) 128 (1), 239-248
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pestinfo wikiGenome sequence resource for
Erysiphe necator NAFU1, a grapevine powdery mildew isolate identified in Shaanxi Province of China
Molecular Plant-Microbe Interactions (2021) 34 (12), 1446-1449
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pestinfo wikiParaffin oil induces resistance against powdery mildew in grapevine through salicylic acid signaling
Pest Management Science (2021) 77 (10), 4539-4544
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pestinfo wiki Allele-specific detection methods for QoI fungicide-resistant
Erysiphe necator in vineyards
Plant Disease (2021) 105 (1), 175-182
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pestinfo wiki Flashes of UV-C light stimulate defenses of
Vitis vinifera L. ‘Chardonnay’ against
Erysiphe necator in greenhouse and vineyard conditions
Plant Disease (2021) 105 (8 - 2229)
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pestinfo wikiVitis species from the southwestern United States vary in their susceptibility to powdery mildew
Plant Disease (2021) 105 (9 - 2103)
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pestinfo wikiEvaluation of powdery mildew resistance of a diverse set of grape cultivars and testing the association between powdery mildew resistance and PR gene expression
Turkish Journal of Agriculture and Forestry (2021) 45 (3), 273-284
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pestinfo wiki2020
Induction of systemic resistance in grapevines against powdery mildew by
Trichoderma asperelloides strains
Australasian Plant Pathology (2020) 49 (2), 107-117
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pestinfo wikiBioinformatics and expression analysis of histone modification genes in grapevine predict their involvement in seed development, powdery mildew resistance, and hormonal signaling
BMC Plant Biology (2020) 20 (412)
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pestinfo wiki Transcriptomic profiling of acute cold stress-induced disease resistance (SIDR) genes and pathways in the grapevine powdery mildew pathosystem
Molecular Plant-Microbe Interactions (2020) 33 (2), 284-295
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pestinfo wikiImproved DNA extraction and quantitative real-time PCR for genotyping
Erysiphe necator and detecting the DMI fungicide resistance marker A495T, using single ascocarps
Phytopathologia Mediterranea (2020) 59 (1), 97-106
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pestinfo wiki Effect of fungicide mobility and application timing on the management of grape powdery mildew
Plant Disease (2020) 104 (4), 1167-1174
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pestinfo wiki2019
Isolation and identification of three new mycoparasites of
Erysiphe necator for biological control of grapevine powdery mildew
Australasian Plant Pathology (2019) 48 (4), 351-367
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pestinfo wiki Global transcriptome analysis and differentially expressed genes in grapevine after application of the yeast-derived defense inducer cerevisane
Pest Management Science (2019) 75 (7), 2020-2033
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pestinfo wikiFormation of
Erysiphe necator chasmothecia in the Pacific Northwest United States
Plant Disease (2019) 103 (5), 890-896
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pestinfo wikiGenetic variation and survival of
Erysiphe necator in tropical India
Tropical Plant Pathology (2019) 44 (5), 438-451
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pestinfo wiki2018
Application of laminarin and calcium oxide for the control of grape powdery mildew on
Vitis vinifera cv. Moscato
Journal of Plant Diseases and Protection (2018) 125 (5), 477-482
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pestinfo wiki Status and future of disease protection and grape berry quality alteration by micro-organisms in viticulture
Letters in Applied Microbiology (2018) 67 (2), 106-112
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pestinfo wiki Using epidemiological principles to explain fungicide resistance management tactics: Why do mixtures outperform alternations?
Phytopathology (2018) 108 (7), 803-817
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pestinfo wikiEvaluation of quinoxyfen resistance of
Erysiphe necator (grape powdery mildew) in a single Virginia vineyard
Plant Disease (2018) 102 (12), 2586-2591
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pestinfo wiki Assessment of
Erysiphe necator ascospore release models for use in the Mediterranean climate of western Oregon
Plant Disease (2018) 102 (8), 1500-1508
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pestinfo wiki2017
Fine mapping of
Ren3 reveals two loci mediating hypersensitive response against
Erysiphe necator in grapevine
Euphytica (2017) 213 (3 - 68)
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pestinfo wikiInvestigations on the role of cuticular wax in resistance to powdery mildew in grapevine
Journal of General Plant Pathology (2017) 83 (5), 316-328
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pestinfo wikiOverwintering form of
Erysiphe necator, the causal agent of grapevine powdery mildew in southern Syria
Journal of Plant Protection Research (2017) 57 (2), 129-135
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pestinfo wikiGenetic dissection of powdery mildew resistance in interspecific half-sib grapevine families using SNP-based maps
Molecular Breeding (2017) 37 (1)
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pestinfo wikiAn integrative AmpSeq platform for highly multiplexed marker-assisted pyramiding of grapevine powdery mildew resistance loci
Molecular Breeding (2017) 37 (145)
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pestinfo wikiEvaluation of a decision support strategy for the control of powdery mildew,
Erysiphe necator (Schw.) Burr., in grapevine in the central region of Chile
Pest Management Science (2017) 73 (9), 1813-1821
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pestinfo wikiSusceptibility of cold-climate wine grape cultivars to downy mildew, powdery mildew, and black rot
Plant Disease (2017) 101 (7), 1077-1085
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pestinfo wikiTiming fungicide application intervals based on airborne
Erysiphe necator concentrations
Plant Disease (2017) 101 (7), 1246-1252
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pestinfo wikiRelations between downy/powdery mildew diseases and some phenolic compounds in
Vitis spp.
Turkish Journal of Agriculture and Forestry (2017) 41 (1), 69-81
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pestinfo wiki2016
Characterization of nine Mlo family genes and analysis of their expression against pathogen infections in
Vitis flexuosaEuphytica (2016) 211 (3), 379-394
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pestinfo wikiCold Stress-Induced Disease Resistance (SIDR): indirect effects of low temperatures on host-pathogen interactions and disease progress in the grapevine powdery mildew pathosystem
European Journal of Plant Pathology (2016) 144 (4), 695-705
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pestinfo wikiSporulation rate in culture and mycoparasitic activity, but not mycohost specificity, are the key factors for selecting
Ampelomyces strains for biocontrol of grapevine powdery mildew (
Erysiphe necator)
European Journal of Plant Pathology (2016) 144 (4), 723-736
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pestinfo wikiMonitoring of ascospore density of
Erysiphe necator in the air in relation to weather factors and powdery mildew development
European Journal of Plant Pathology (2016) 144 (4), 751-762
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pestinfo wikiRefining a method for ascospore viability testing in overwintering chasmothecia of
Erysiphe necatorEuropean Journal of Plant Pathology (2016) 144 (4), 799-802
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pestinfo wikiWeather during critical epidemiological periods and subsequent severity of powdery mildew on grape berries
Plant Disease (2016) 100 (1), 116-124
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pestinfo wikiDevelopment of a grower-conducted inoculum detection assay for management of grape powdery mildew
Plant Pathology (2016) 65 (2), 238-249
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pestinfo wiki2015
Mechanisms of resistance to an azole fungicide in the grapevine powdery mildew fungus,
Erysiphe necatorPhytopathology (2015) 105 (3), 370-377
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pestinfo wikiVitis rupestris B38 confers isolate-specific quantitative resistance to penetration by
Erysiphe necatorPhytopathology (2015) 105 (8), 1097-1103
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pestinfo wikiStrategies for RUN1 deployment using RUN2 and REN2 to manage grapevine powdery mildew informed by studies of race specificity
Phytopathology (2015) 105 (8), 1104-1113
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pestinfo wiki2014
Überlegungen zur nachhaltigen Nutzung von Schwefel gegen Oidium (
Erysiphe necator) an Weinreben mit Blick auf den ökologischen Weinbau
(Aspects of the sustainable use of Wettable Sulfur against powdery mildew (
Erysiphe necator) on grapevine with respect to organic vine growing)
Journal für Kulturpflanzen - Journal of Cultivated Plants (2014) 66 (5), 175-179
pestinfo wikiEffects of punctuated heat stress on the grapevine powdery mildew pathogen,
Erysiphe necatorPhytopathologia Mediterranea (2014) 53 (1), 148-158
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pestinfo wikiFitness of
Erysiphe necator with G143A-based resistance to quinone outside inhibitors
Plant Disease (2014) 98 (11), 1494-1502
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pestinfo wikiFunctions of
EDS1-
like and
PAD4 genes in grapevine defenses against powdery mildew
Plant Molecular Biology (2014) 86 (4-5), 381-393
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pestinfo wikiA model for the development of
Erysiphe necator chasmothecia in vineyards
Plant Pathology (2014) 63 (4), 911-921
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pestinfo wikiGrapevine powdery mildew resistance and susceptibility loci identified on a high-resolution SNP map
Theoretical and Applied Genetics (2014) 127 (1), 73-84
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pestinfo wiki2013
Identification of mildew resistance in wild and cultivated Central Asian grape germplasm
BMC Plant Biology (2013) 13 (149)
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pestinfo wikiCurrent knowledge on plant/canopy architectural traits that reduce the expression and development of epidemics
European Journal of Plant Pathology (2013) 135 (3), 471-478
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pestinfo wikiEffect of aerated compost tea on grapevine powdery mildew, botrytis bunch rot and microbial abundance on leaves
European Journal of Plant Pathology (2013) 135 (4), 661-673
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pestinfo wikiCombining sanitation and disease modelling for control of grapevine powdery mildew
European Journal of Plant Pathology (2013) 135 (4), 817-829
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pestinfo wikiVariability in the sensitivity of biotrophic grapevine pathogens (
Erysiphe necator and
Plasmopara viticola) to acibenzolar-S methyl and two phosphonates
European Journal of Plant Pathology (2013) 136 (2), 247-259
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pestinfo wikiOptimization of integrated pest management for powdery mildew (
Uncinula necator) control in a vineyard based on a combination of phenological, meteorological and aerobiological data
Journal of Agricultural Science (2013) 151 (5), 648-658
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pestinfo wikiA simple method for comparing fungal biomass in infected plant tissues
Molecular Plant-Microbe Interactions (2013) 26 (6), 658-667
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pestinfo wikiThe Chinese wild grapevine (
Vitis pseudoreticulata) E3 ubiquitin ligase
Erysiphe necator-induced RING finger protein 1 (EIRP1) activates plant defense responses by inducing proteolysis of the VpWRKY11 transcription factor
New Phytologist (2013) 200 (3), 834-846
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pestinfo wikiEffect of high temperature and exposure time on
Erysiphe necator growth and reproduction: Revisions to the UC Davis Powdery Mildew Risk Index
Plant Disease (2013) 97 (11), 1438-1447
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pestinfo wikiBenzothiadiazole-primed defence responses and enhanced differential expression of defence genes in
Vitis vinifera infected with biotrophic pathogens
Erysiphe necator and
Plasmopara viticolaPlant Pathology (2013) 62 (2), 370-382
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pestinfo wikiThe reliability of leaf bioassays for predicting disease resistance on fruit: a case study on grapevine resistance to downy and powdery mildew
Plant Pathology (2013) 62 (3), 533-544
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pestinfo wikiCoincidence of maximum severity of powdery mildew on grape leaves and the carbohydrate sink-to-source transition
Plant Pathology (2013) 62 (4), 842-850
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pestinfo wikiGenetic dissection of a TIR-NB-LRR locus from the wild North American grapevine species
Muscadinia rotundifolia identifies paralogous genes conferring resistance to major fungal and oomycete pathogens in cultivated grapevine
The Plant Journal (2013) 76 (4), 661-674
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