Publications for:
pest = Botrytis cinerea
crop = Tomato (Solanum lycopersicum)
for the years 2014-2022 (descending)
found 65 publications:
2022
Under pressure: A comparative study of
Botrytis cinerea populations from conventional and organic farms in Cyprus and Greece
Phytopathology (2022) 112 (10), 2236-2247
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pestinfo wikiNutrient elements promote disease resistance in tomato by differentially activating immune pathways
Phytopathology (2022) 112 (11), 2360-2371
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pestinfo wikiEfficacy of biorational products for managing diseases of tomato in greenhouse production
Plants (2022) 11 (13 - 1638)
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pestinfo wiki2021
Biocontrol potential of
Trichoderma afroharzianum TM24 against grey mould on tomato plants
Current Microbiology (2021) 78 (12), 4115-4126
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pestinfo wiki Endophytic bacteria from the Sahara desert protect tomato plants against
Botrytis cinerea under different experimental conditions
Current Microbiology (2021) 78 (6), 2367-2379
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pestinfo wiki2020
Study of the efficacy of
Aureobasidium strains belonging to three different species:
A. pullulans,
A. subglaciale and
A. melanogenum against
Botrytis cinerea of tomato
Annals of Applied Biology (2020) 177 (2), 266-275
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pestinfo wikiFunctions of pipecolic acid on induced resistance against
Botrytis cinerea and
Pseudomonas syringae pv.
tomato DC3000 in tomato plants
Journal of Phytopathology (2020) 168 (10), 591-600
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pestinfo wikiCytokinin response induces immunity and fungal pathogen resistance, and modulates trafficking of the PRR LeEIX2 in tomato
Molecular Plant Pathology (2020) 21 (10), 1287-1306
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pestinfo wiki Combined use of
Trichoderma atroviride CCTCCSBW0199 and brassinolide to control
Botrytis cinerea infection in tomato
Plant Disease (2020) 104 (5), 1298-1304
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pestinfo wiki Resistance profiles of
Botrytis cinerea populations to several fungicide classes on greenhouse tomato and strawberry in Lebanon
Plant Pathology (2020) 69 (8), 1453-1468
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pestinfo wiki2019
Comprehensive analysis of multiprotein bridging factor 1 family genes and
SlMBF1c negatively regulate the resistance to
Botrytis cinerea in tomato
BMC Plant Biology (2019) 19 (437)
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pestinfo wikiPotential of bioinsecticidal
Bacillus thuringiensis inoculum to suppress gray mold in tomato based on induced systemic resistance
Journal of Phytopathology (2019) 167 (11-12), 679-685
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pestinfo wikiThe combined effect of 1-methylcyclopropene and citral suppressed postharvest grey mould of tomato fruit by inhibiting the growth of
Botrytis cinereaJournal of Phytopathology (2019) 167 (2), 123-134
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pestinfo wikiOccurrence and management of fungicide resistance in
Botrytis cinerea on tomato from greenhouses in Hebei, China
Journal of Phytopathology (2019) 167 (7-8), 413-421
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pestinfo wiki The involvement of jasmonic acid, ethylene, and salicylic acid in the signaling pathway of
Clonostachys rosea-induced resistance to gray mold disease in tomato
Phytopathology (2019) 109 (7), 1102-1114
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pestinfo wikiEfficient production of antifungal proteins in plants using a new transient expression vector derived from Tobacco mosaic virus
Plant Biotechnology Journal (2019) 17 (6), 1069-1080
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pestinfo wiki Synergistic effect of combined application of a new fungicide fluopimomide with a biocontrol agent
Bacillus methylotrophicus TA-1 for management of gray mold in tomato
Plant Disease (2019) 103 (8), 1991-1997
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pestinfo wikiA novel Partitivirus in the hypovirulent isolate QT5-19 of the plant pathogenic fungus
Botrytis cinereaViruses (2019) 11 (1 - 24)
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pestinfo wiki2018
A multi-criteria approach for the selection of efficient biocontrol agents against
Botrytis cinerea on tomato in Algeria
BioControl (2018) 63 (2), 299-311
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pestinfo wikiLignin metabolism involves
Botrytis cinerea BcGs1- induced defense response in tomato
BMC Plant Biology (2018) 18 (103)
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pestinfo wikiColonization ability as an indicator of enhanced biocontrol capacity—An example using two
Bacillus amyloliquefaciens strains and
Botrytis cinerea infection of tomatoes
Journal of Phytopathology (2018) 166 (9), 601-612
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pestinfo wiki Contrast between orange- and black-colored sclerotial isolates of
Botrytis cinerea: Melanogenesis and ecological fitness
Plant Disease (2018) 102 (2), 428-436
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pestinfo wiki Detection and molecular characterization of resistance to the dicarboximide and benzamide fungicides in
Botrytis cinerea from tomato in Hubei Province, China
Plant Disease (2018) 102 (7), 1299-1306
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pestinfo wiki Long-lasting β-aminobutyric acid-induced resistance protects tomato fruit against
Botrytis cinereaPlant Pathology (2018) 67 (1), 30-41
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pestinfo wiki Two novel hypovirulence-associated mycoviruses in the phytopathogenic fungus
Botrytis cinerea: Molecular characterization and suppression of infection cushion formation
Viruses (2018) 10 (5 - 254)
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pestinfo wiki2017
Silencing of
DND1 in potato and tomato impedes conidial germination, attachment and hyphal growth of
Botrytis cinereaBMC Plant Biology (2017) 17 (235)
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pestinfo wikiFungicide resistance profile and genetic structure of
Botrytis cinerea from greenhouse crops in Cyprus
European Journal of Plant Pathology (2017) 147 (3), 527-540
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pestinfo wikiMarker gene overexpression in flowers treated with resistance inducers does not correlate with protection against flower-infecting fungi in tomato and blueberry
Journal of Phytopathology (2017) 165 (1), 53-63
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pestinfo wikiSensitivity to fludioxonil of
Botrytis cinerea isolates from tomato in Henan Province of China and characterizations of fludioxonil-resistant mutants
Journal of Phytopathology (2017) 165 (2), 98-104
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pestinfo wikiAbsence of Cu–Zn superoxide dismutase BCSOD1 reduces
Botrytis cinerea virulence in Arabidopsis and tomato plants, revealing interplay among reactive oxygen species, callose and signalling pathways
Molecular Plant Pathology (2017) 18 (1), 16-31
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pestinfo wikiIncreased rhizosphere populations of
Trichoderma asperellum strain T34 caused by secretion pattern of root exudates in tomato plants inoculated with
Botrytis cinereaPlant Pathology (2017) 66 (7), 1110-1116
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pestinfo wiki2016
Role of fruit surface mycoflora, wounding and storage conditions on post-harvest disease development on greenhouse tomatoes
Canadian Journal of Plant Pathology (2016) 38 (4), 448-459
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pestinfo wikiBaseline sensitivity and control efficacy of pyrisoxazole against
Botrytis cinereaEuropean Journal of Plant Pathology (2016) 146 (2), 315-323
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pestinfo wikiBacillus subtilis IAB/BS03 as a potential biological control agent
European Journal of Plant Pathology (2016) 146 (3), 597-608
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pestinfo wikiSilencing of the tomato phosphatidylinositol-phospholipase C2 (SlPLC2) reduces plant susceptibility to
Botrytis cinereaMolecular Plant Pathology (2016) 17 (9), 1354-1363
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pestinfo wikiOccurrence of fungicide resistance in
Botrytis cinerea from greenhouse tomato in Hubei Province, China
Plant Disease (2016) 100 (12), 2414-2421
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pestinfo wikiOptimizing chemically induced resistance in tomato against
Botrytis cinereaPlant Disease (2016) 100 (4), 704-710
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pestinfo wikiMolecular and biochemical characterization of laboratory and field mutants of
Botrytis cinerea resistant to fludioxonil
Plant Disease (2016) 100 (7), 1414-1423
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pestinfo wikiBiological control of gray mold and growth promotion of tomato using
Bacillus spp. isolated from soil
Tropical Plant Pathology (2016) 41 (3), 169-176
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pestinfo wiki2015
Postharvest treatment with trans-2-hexenal induced resistance against
Botrytis cinerea in tomato fruit
Australasian Plant Pathology (2015) 44 (1), 121-128
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pestinfo wikiConfocal microscopy study to understand
Clonostachys rosea and
Botrytis cinerea interactions in tomato plants
Biocontrol Science and Technology (2015) 25 (1), 56-71
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pestinfo wikiCharacterization of miRNAs associated with
Botrytis cinerea infection of tomato leaves
BMC Plant Biology (2015) 15 (1)
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pestinfo wikiTomato
Sl3-MMP, a member of the Matrix metalloproteinase family, is required for disease resistance against
Botrytis cinerea and
Pseudomonas syringae pv.
tomato DC3000
BMC Plant Biology (2015) 15 (143)
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pestinfo wikiTomato histone H2B monoubiquitination enzymes SlHUB1 and SlHUB2 contribute to disease resistance against
Botrytis cinerea through modulating the balance between SA- and JA/ET-mediated signaling pathways
BMC Plant Biology (2015) 15 (252)
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pestinfo wikiImpact of abiotic stresses on the protection efficacy of defence elicitors and on metabolic regulation in tomato leaves infected by
Botrytis cinereaEuropean Journal of Plant Pathology (2015) 142 (2), 223-237
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pestinfo wikiEffects of silicon in the nutrient solution for three horticultural plant families on the vegetative growth, cuticle, and protection against
Botrytis cinereaHortScience (2015) 50 (10), 1447-1452
pestinfo wikiComparison of
Botrytis cinerea populations collected from tomato greenhouses in northern Algeria
Journal of Phytopathology (2015) 163 (2), 124-132
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pestinfo wikiBiological control of
Botrytis cinerea on tomato plants using
Streptomyces ahygroscopicus strain CK-15
Letters in Applied Microbiology (2015) 61 (6), 596-602
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pestinfo wikiElicitin-like proteins Oli-D1 and Oli-D2 from
Pythium oligandrum trigger hypersensitive response in
Nicotiana benthamiana and induce resistance against
Botrytis cinerea in tomato
Molecular Plant Pathology (2015) 16 (3), 238-250
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pestinfo wikiRelationship of airborne
Botrytis cinerea conidium concentration to tomato flower and stem infections: A threshold for de-leafing operations
Plant Disease (2015) 99 (1), 137-142
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pestinfo wikiPopulation structure, fungicide resistance profile, and sdhB mutation frequency of
Botrytis cinerea from strawberry and greenhouse-grown tomato in Greece
Plant Disease (2015) 99 (2), 240-248
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pestinfo wikiFirst report of
Botrytis pseudocinerea causing gray mold on tomato (
Lycopersicon esculentum) in Central China
Plant Disease (2015) 99 (2), p. 283
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pestinfo wikiAssessing host specialization of
Botrytis cinerea on lettuce and tomato by genotypic and phenotypic characterization
Plant Pathology (2015) 64 (1), 119-127
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pestinfo wikiInduced resistance to foliar diseases by soil solarization and
Trichoderma harzianumPlant Pathology (2015) 64 (2), 365-374
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pestinfo wikiAn untargeted global metabolomic analysis reveals the biochemical changes underlying basal resistance and priming in
Solanum lycopersicum, and identifies 1-methyltryptophan as a metabolite involved in plant responses to
Botrytis cinerea and
Pseudomonas syringaeThe Plant Journal (2015) 84 (1), 125-139
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pestinfo wikiBiocontrol of gray mold in tomato plants by
Clonostachys roseaTropical Plant Pathology (2015) 40 (2), 71-76
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pestinfo wiki2014
Nitrogen fertilization impacts biocontrol of tomato gray mold
Agronomy for Sustainable Development (2014) 34 (3), 641-648
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pestinfo wikiMycoviruses of
Botrytis cinerea isolates from different hosts
Annals of Applied Biology (2014) 164 (1), 46-61
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pestinfo wikiTomato
SlMKK2 and
SlMKK4 contribute to disease resistance against
Botrytis cinereaBMC Plant Biology (2014) 14 (166)
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pestinfo wikiDo strigolactones contribute to plant defence?
Molecular Plant Pathology (2014) 15 (2), 211-216
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pestinfo wikiThe de novo biosynthesis of vitamin B6 is required for disease resistance against
Botrytis cinerea in tomato
Molecular Plant-Microbe Interactions (2014) 27 (7), 688-699
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pestinfo wikiSystemic resistance to gray mold induced in tomato by benzothiadiazole and
Trichoderma harzianum T39
Phytopathology (2014) 104 (2), 150-157
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pestinfo wikiRemarkable predominance of a small number of genotypes in greenhouse populations of
Botrytis cinereaPhytopathology (2014) 104 (8), 859-864
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pestinfo wikiReprogramming of fatty acid and oxylipin synthesis in rhizobacteria-induced systemic resistance in tomato
Plant Molecular Biology (2014) 84 (4-5), 455-467
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pestinfo wikiResistance against
Botrytis cinerea in smooth leaf pruning wounds of tomato does not depend on major disease signalling pathways
Plant Pathology (2014) 63 (1), 165-173
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