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151	Análisis funcional del gen OCP3 Ramirez Garcia, Vicente 19 May 2009 (has links) El gen OCP3 codifica un factor de transcripción de la familia Homeobox. En trabajos anteriores se ha demostrado que la pérdida de función de este gen en Arabidopsis thaliana causa un notable incremento de la resistencia a infecciones por hongos necrotrofos como Botrytis cinerea o Plectosphaerella cucumerina. Además esa resistencia es dependiente de la correcta señalización mediada por ácido jasmónico (JA), una de las fitohormonas más ampliamente relacionadas con el establecimiento de las respuestas defensivas en plantas junto con el ácido salicílico (SA). A través del balance entre las señalizaciones de estos dos reguladores (JA y SA), la planta es capaz de disparar la respuesta defensiva más apropiada dependiendo del tipo de patógeno que la ataca. Así pues, el estudio de las interrelaciones entre JA y SA y los componentes que transducen las respectivas señales es de gran utilidad para desentramar la compleja red de regulación que compone la respuesta inmune de las plantas. Mediante el estudio de dobles mutantes, se ha demostrado un nuevo papel de OCP3 en la interconexión entre SA y JA en respuesta a Pseudomonas syringae e Hyaloperonospora arabidopsidis, dos patógenos de tipo biotrofo. Además se propone a OCP3 como un nuevo componente de la denominada Resistencia Sistémica Inducida (ISR). Existe cierto grado de solapamiento entre las respuestas de las plantas frente a estreses bióticos y abióticos. La identificación de los componentes comunes a estas dos rutas es de gran valor para conocer cómo las plantas se adaptan ante situaciones de estrés diferentes. Mediante un rastreo por doble híbrido en levadura, se identificaron cuatro proteínas que interaccionan con OCP3. Todas ellas están implicadas en la señalización mediada por ABA, una fitohormona que regula, entre otros procesos, la respuesta frente al estrés hídrico. En el presente trabajo se aportan numerosas evidencias que indican que OCP3 regula el cierre estomático promovido por ABA, y con ello la tolerancia a / Ramirez Garcia, V. (2008). Análisis funcional del gen OCP3 [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/4683 / Palancia Sequía Patógenos Aba Meja Ocp3 Pseudomonas Botrytis Isr BIOQUIMICA Y BIOLOGIA MOLECULAR 24 - Ciencias de la vida 2415 - Biología molecula 241714 - Genética vegetal
152	Examining the interaction between droplet density, leaf wettability and leaf surface properties on fungicide efficacy. Eastyn Lyn Newsome (15359707) 28 April 2023 (has links) <p>The management of gray mold, caused by the fungus <em>Botrytis cinerea</em>, on ornamental plants relies heavily on fungicide applications. To improve fungicide efficacy, the manipulation of nozzle type, spray volume, and pressure influence droplet size (µm) and density (droplets/cm2) on the leaf’s surface. However, leaf wettability dictates how well the application droplets adhere and spread across the surface. When leaf surfaces are waxy (hydrophobic) or hairy (tomentose), droplets fail to adhere, impacting fungicide sorption.</p> <p>The goal of this research was to evaluate how the interaction of droplet density and leaf wettability impact the efficacy of chemical and biological fungicides against <em>Botrytis cinerea</em>. Leaf surfaces vary between species, within species, leaf age, and leaf sides (abaxial or adaxial). Hydrophobic leaf surfaces influence fungicide efficacy by reducing fungicide droplet spread compared to the wettable and hydrophilic leaf surfaces. The presence of trichomes on the leaf surface can inhibit droplets from reaching the surface.</p> <p>To quantify droplet density, a fine and coarse spray of fungicide treatments was applied with a yellow fluorescent dye. After application, <em>Begonia</em> x <em>hybrida</em> ‘Dragon wing’ leaves were placed on black, blackout curtains below a blacklight. Images were analyzed by ImageJ, using an image processing method. The number of lesions, disease incidence, were counted to observe fungicide efficacy. Results show there was no interaction between the actual droplet density within treatments applied with fine and coarse sprays. However, the interaction between spray type (fine and coarse) and treatments can have a significant effect on disease incidence. Disease incidence was significantly different between the systemic and contact fungicides for fine and coarse sprays. However, the systemic fungicide treatment had the highest disease incidence compared to the contact fungicide.</p> <p>To assess leaf wettability impact on fungicide efficacy, five <em>Begonia </em>species (<em>B. scharffii, B. erythrophylla, B. </em>x<em> hybrida ‘</em>Dragon Wing’<em>, B. epipsila, and B. goldingiana</em>) were used based on their observed leaf surface type. A contact angle goniometer was used to take pictures of a droplet on <em>Begonia</em> leaf surfaces. The quantification of the leaf surface took place by using the ImageJ program ‘Drop-Snake’ within the plugin ‘Drop Analysis’. The number of lesions, an indicator of disease incidence, were counted to observe fungicide efficacy. Results showed the contact angles were different between the <em>Begonia</em> species. There was a significant interaction between the <em>Begonia</em> species and treatments, where <em>Begonia</em> ‘hairy’ and ‘waxy’ leaf surfaces can influence fungicide efficacy. However, there was no significance for the interaction between <em>Begonia</em> species’ contact angles and treatments.</p> <p>These studies advance our understanding of how droplet density and leaf surfaces influence fungicide efficacy, thus improving our ability to manage <em>Botrytis</em> for diverse ornamental plants. </p> Plant pathology Disease management Botrytis cinerea Fungicide efficacy droplet density Leaf wettability Contact angle Begonia
153	Non chemical alternatives for pest management: Entomopathogenic nematodes and UV-C light Higginbotham, Matthew Travis 10 November 2021 (has links) The primary objectives of this research are to determine effective biological and alternative control strategies of insect and disease pests in order to reduce harsh chemical use during greenhouse crop production and transport s. This research includes two separate studies: 1) testing the practical viability of rearing and storing four species of entomopathogenic nematode (EPN), Steinernema feltiae, Steinernema carpocapsae, Heterorhabditis bacteriophora, Heterorhabditis indica; and, 2) the efficacy of UV-C radiation applied, pre-transport, as a preventative disease control strategy against Botrytis cinerea. A study was conducted testing EPN infectious juvenile (IJ) rearing production counts and IJ viability after a six-day storage period. When all four species are compared, S. feltiae had a greater number of infectious juveniles emerge from the wax moth cadavers and S. carpocasae had the least. All four species survived the six day storage period but EPN infectious juvenile counts were significantly different among species. Our second study tested the efficacy of UV-C radiation as an alternative control to traditional fungicides to deactivate B. cinerea in vitro and to determine plant tolerance to UV-C. The crops tested were poinsettia (Euphorbia pulcherrima) and primula (Primula vulgaris). All the UV-C doses, 1.0, 2.8, 3.7 or 4 W/m2, significantly decreased B. cinerea conidial germination in vitro and resulted in zero percent damage on poinsettia bracts. However, all UV-C doses during both replications caused minor damage, 15% or less, to primula flowers. / Master of Science in Life Sciences / Entomopathogenic nematodes (EPN) shows promise in being non-chemical and environmentally friendly solution for greenhouse pest and disease control. These can also be referred to as Biological Controls (Biocontrols). Entomopathogenic nematodes are used widely to control multiple greenhouse plant pests which include both Lycoriella spp., Fungus Gnats, and Frankliniella spp., Western Flower Thrips. However, there are challenges with EPN viability and storage from the manufacture to the greenhouse producer. We studied four EPN species, Steinernema feltiae, Steinernema carpocapsae, Heterorhabditis bacteriophora, Heterorhabditis indica, which were reared and stored to determine differences in production viability between species. Results show that the EPN species do not respond the same to storage and produce different amounts of infectious juveniles during rearing when conditions are the same. Separate from, but just as concerning as greenhouses plant pests are plant diseases. Ultraviolet radiation in the C spectra is known to be germicidal due to its narrow wavelengths. Because of this, UV-C has been shown to deactivate many different plant pathogens on contact and is being considered as a possible Biocontrol alternative to harsh traditional fungicides and bactericides. One disease that is known to contribute to the highest volume of annual crop losses is Botrytis cinerea. Botrytis cinerea is a plant disease that impacts floricultural crops to vegetables during propagation through the production supply chain to shipping and storage. We evaluated UV-C radiation at different doses, to determine if it could be used to replace a traditional fungicide before plants are shipped to reduce B. cinerea infection during transport. We found that UV-C successfully deactivated B. cinerea in vitro, but the viability of the application to plant tissue before transport has yet to be proven successful as a practical method of reducing B. cinerea during transport. Steinernema feltiae Steinernema carpocasae Heterorhabditis bacteriophora Heterorhabditis indica infective juvenile Fungus gnat Western flower thrips shore fly Xenorhabdus UV-C Botrytis cinerea Primula poinsettia Euphorbia
154	Bacillus pumilus et Bacillus subtilis pour lutter contre la pourriture grise chez la tomate et le concombre de serre Bouchard-Rochette, Mathieu 15 February 2020 (has links) Cette étude s’inscrit dans le cadre d’un programme de recherche destiné à évaluer le potentiel d’utilisation en horticulture des bactéries Bacillus pumilus souche PTB180 et Bacillus subtilis souche PTB185. Elle avait pour objectifs (1) d’évaluer in vitro l’activité antagoniste contre Botrytis cinerea des souches PTB180 et PTB185, (2) d’estimer leur capacité à survivre sur la phyllosphère de la tomate et du concombre et 3) d’évaluer leur effet sur le développement de la pourriture grise (B. cinerea) sur des plants de tomate et de concombre cultivés en serre. L'activité antagoniste de PTB180 et PTB185 a été évaluée en boîtes de Pétri sur géloses, sur tissus foliaires de tomate et de concombre et sur fruits de tomate. Les deux souches ont inhibé très fortement la croissance mycélienne et la germination des spores de B. cinerea sur géloses. Sur feuilles de tomate et sur disques foliaires de concombre, PTB185 et le mélange (1:1) des deux souches ont réduit significativement (p ≤ 0,01) la croissance mycélienne de B. cinerea comparativement aux témoins. PTB180 a réprimé significativement la croissance mycélienne de B. cinerea sur les fruits de tomate. Afin d'estimer la survie de PTB180 et PTB185 sur la phyllosphère, des plants de tomate et de concombre ont été pulvérisés jusqu'à ruissellement avec une suspension (1×107 unités formatrices de colonies [UFC]/mL) de PTB180, PTB185 ou d'un mélange (1:1) des deux souches. Les populations de chaque souche ont ensuite été suivies au cours du temps sur les feuilles. Les résultats obtenus montrent que les souches survivent au moins 21 jours sur les plants de tomate et de concombre avec un taux de survie variant de 43% à 100%. De plus, pratiquement aucune variation dans les proportions de chaque souche n'a été observée au fil du temps lorsque PTB180 et PTB185 étaient appliquées en mélange. Enfin, l’application foliaire de PTB180, PTB185 et du mélange (1:1) des deux souches a permis une réduction significative de l’incidence et de la sévérité de la pourriture grise chez des plants de tomate et de concombre inoculés avec B. cinerea et cultivés en serre. Les souches PTB180 et PTB185 ont montré au cours de cette étude une forte activité antagoniste envers B. cinerea, la capacité de survivre sur la phyllosphère de plants de tomate et de concombre et de réprimer le développement de la pourriture grise chez ces derniers. Ces souches pourraient éventuellement être utilisées comme agents de lutte biologique contre la pourriture grise du concombre et de la tomate de serre. S 405 UL 2020 Bacillus subtilis Bactéries Gram positives
155	Fenhexamid : mode d’action et résistance chez le complexe d’espèces Botrytis SPP., responsable de la pourriture grise de la vigne / Fenhexamid : mode of action and resistance in the complex of species Botrytis spp., responsible for grey mould disease Billard, Alexis 28 January 2011 (has links) La lutte chimique est la principale méthode utilisée pour contrôler les maladies causées par les champignons phytopathogènes. Dans certains cas, desphénomènes de résistance envers les fongicides se développent au sein despopulations, altérant parfois l’efficacité des molécules. La compréhension du moded’action des fongicides et des mécanismes de résistance sous-jacents participe à élaboreret à adapter des stratégies de management anti résistance ; et ainsi permettre depérenniser la durée de vie des molécules. Le fenhexamid est un fongicide récent (BayerCropScience, 2000), avec un mode d’action unique. Il est le seul fongicide commercialisébloquant l’étape de C4-déméthylation de la biosynthèse de l’ergostérol. Plusieurs typesde résistance (naturelle et acquises) ont été détectées dans les vignobles européens chez lecomplexe d’espèces Botrytis spp. responsable de la pourriture grise de la vigne. Lestravaux développés durant la thèse s’inscrivent dans l’objectif de la caractérisation dumode d’action et de l’élucidation des mécanismes de résistance. Le premier axe s’estattaché à la caractérisation fonctionnelle de deux gènes impliqués dans la C-4déméthylation de la biosynthèse de l’ergostérol : le gène erg27 codant la 3-céto réductase,cible du fenhexamid, et le gène erg28 codant une protéine qui interagirait en partie avecla 3-céto réductase. Concernant la résistance au fenhexamid, il a été démontré que, pargénétique inverse, les mutations détectées dans le gène erg27 de différents types d'isolatsrésistants issus du vignoble (phénotypes de résistance HydR3- et HydR3+) conféraient larésistance. Par ailleurs, une analyse de fitness du phénotype le plus préoccupant(phénotype HydR3+) a été réalisée en conditions contrôlées sur des souches isogéniquesartificielles afin d’apporter une réponse sur la persistance possible de ces souches auvignoble. Une méthode fine de quantification moléculaire de ces mêmes isolats aégalement été mise au point pour faciliter le suivi de leur évolution et de la persistancedes populations naturelles à l’échelle des vignobles. Cette nouvelle méthode, nomméeASPPAA PCR, exploite le polymorphisme nucléotidique du gène erg27, à l’origine de larésistance. Enfin, la résistance naturelle au fenhexamid de l’espèce apparentée à Botrytiscinerea, appelée Botrytis pseudocinerea a été élucidée. La résistance au fongicide de cetteespèce a été expliquée par la combinaison de modifications de cible (mécanismeminoritaire) et d’une dégradation du fongicide par un cytochrome P450 nomméCyp68.4 (mécanisme majeur). Il s’agit de la première identification et caractérisationgénétique d’un mécanisme de résistance à un fongicide conférée par un processus dedétoxification chez un champignon phytopathogène. / Chemical control is the main method used to control diseases caused byphytopathogenic fungi. In some cases, the resistance phenomena towardfungicides occur within fungal populations, which might alter practicalefficiency of molecules. Understanding modes of action of fungicides andunderlying resistance mechanisms participate to the development and adaptationof management strategies against resistance, and thus help to sustain the life ofmolecules. Fenhexamid is a recent fungicide (Bayer CropScience, 2000), with aparticular mode of action. It is the only fungicide marketed blocking the C4-demethylation step of ergosterol biosynthesis. Several types of resistance (naturaland acquired) were detected in European vineyards in the Botrytis spp speciescomplex, causing grey mold disease. This work focused on the characterization ofthe mode of action and the elucidation of resistance mechanisms. The first aspectinvestigated the functional characterization of two genes involved in the C4-demethylation of ergosterol biosynthesis. The erg27 gene potentially encoding the3-keto reductase which is the fenhexamid target and the erg28 gene encoding aprotein that interact in part with the 3-ketoreductase. Concerning fenhexamidresistance, we shown by reverse genetics that mutations detected in the erg27 genefrom different resistant isolates from the vineyards (phenotypes HydR3- andHydR3+) confer resistance. Furthermore, a fitness analysis under controlledconditions on the most worrying resistant phenotype (HydR3+) was performed onisogenic artificial strains in order to predict the possible persistence of these strainsin vineyards. A fine molecular method to quantify these isolates was developed tofacilitate the follow-up of evolution and persistence of resistant populations in thevineyard. This new method, named ASPPAA PCR is based on the nucleotidepolymorphism of the erg27 gene, responsible for fenhexamid resistance. Finally,the natural resistance to fenhexamid of the related species to Botrytis cinerea, B.pseudocinerea, was elucidated. Fungicide resistance of this species is explained bythe combination of target site modifications (minor mechanism) and fungicidedegradation mediated by a cytochrome P450 named Cyp68.4 (major mechanism).This is the first characterization of a genetic resistance mechanism to a fungicideconferred by detoxification in a phytopathogenic fungus. Botrytis cinerea Fongicides Fenhexamid Résistance aux fongicides Biosynthèse d'ergosterol 3 cétoreductase Modification de la cible Métabolisation Monooxygénase à cytochrome P450 Méthode de quantification allélique C4 deméthylation Botrytis cinerea Fungicide Fenhexamid Fungicide Resistance Ergosterol Biosynthesis 3 ketoreductase Target modifications Metabolization Cytochrome P450 monooxygenase Allelic quantification method C4 demethylation
156	Genetic characterization and fungicide resistance profiles of Botrytis cinerea in rooibos nurseries and pear orchards in the Western Cape of South Africa Wessels, Andries Bernardus 03 1900 (has links) Thesis (MScAgric)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Botrytis cinerea Pers. Fr. [teleomorph Botryotinia fuckeliana (de Bary) Whetzel] causes serious losses of over 200 crops worldwide, including rooibos seedlings and pears. This pathogen is characterized by morphological, physiological and genetic diversity. The genetic diversity and population structure have not been investigated for B. cinerea populations in South Africa. Botrytis cinerea collected from rooibos seedlings and in pear orchards in the Western Cape of South Africa were investigated in the present study. The study was done with the aid of microsatellite markers, the amplification of mating type alleles MAT1-1 and MAT1-2 and determination of resistance towards various fungicides. Population dynamics was inferred and a similar picture emerged in both production systems. Botrytis cinerea annually causes severe losses of rooibos seedlings (Aspalathus linearis) in nurseries situated in the Clanwilliam region. Sampling was done in five nurseries and the cryptic species status of the isolates obtained was determined through restriction enzyme digestion of the Bc-hch gene. All but one (206 out of 207) of the isolates belonged to Group II or B. cinerea ‘sensu stricto’. Analysis of the B. cinerea Group II population, using seven microsatellite loci, was performed to assess the genetic population structure. Total gene diversity (H) was high, with a mean of 0.67. Two of the nurseries populations’ sample sizes were severely limited after clone correction, yet 100 genotypes were discerned among the 206 isolates genotyped. The percentage of maximal genotypic diversity (G) ranged between 16 and 68 for the five populations, with a total value of 17 for the 100 genotypes. One genotype, represented by 27 clones, was isolated from four nurseries. Relatively low but significant population differentiation was observed in total between nurseries (mean FST = 0.030, P = 0.001). The distribution of mating types MAT1-1 and MAT1-2 differed significantly from the ratio of 1:1 for the total population plus two of the nurseries’ populations. Three nursery populations had an equal mating type distribution. The index of association (IA) analyses suggests that the populations are asexually reproducing. Analysis of molecular variance (AMOVA) indicated that 97% of the total genetic variation is distributed within subpopulations. Fungicide resistance frequency against iprodione for 198 of the genotyped isolates displayed highly varying levels of resistance amongst the five nurseries. The mean total incidence of resistance towards iprodione was 43%, ranging from 0% to 81% for the five nurseries. Baseline sensitivity towards pyrimethanil yielded an average EC50 value of 0.096 mg/L. Botrytis cinerea isolates were collected from pear blossoms (Pyrus communis) in four orchards. Two orchards in the Ceres area and two in the Grabouw area were sampled from. A total of 181 isolates were collected from the four orchards. Incidence of blossom infection in the orchards ranged from 3% to 17%. Overall, there was a high incidence of isolates that had only the Boty transposable element (74%) compared to those harbouring both (Boty and Flipper), simultaneously (transposa, 24%). One isolate examined had the Flipper element only. Cryptic species status according to restriction enzyme digestion of the Bc-hch gene indicated that all the isolates belonged to Group II or B. cinerea ‘sensu stricto’. Analysis of the Group II population, through the use of seven microsatellite loci, was performed to assess the genetic population structure. Total gene diversity (H) was high, with a mean of 0.69 across all populations. Although two of the subpopulations displayed a high clonal proportion, overall 91 genotypes were discerned among the 181 isolates. The percentage of maximal genotypic diversity (G) ranged between 18 and 33 for the four populations, with a total value of 14 for the 91 genotypes. One genotype, represented by 27 clones, was isolated from all orchards. Moderate, but significant population differentiation was present in total among orchards (mean FST = 0.118, P = 0.001). The distribution of the mating types, MAT1-1 and MAT1-2, did not differ significantly from a 1:1 ratio for the total population as well as the subpopulations. Index of association (IA) analyses, on the other hand, suggests that the populations reproduce asexually. Analysis of molecular variance (AMOVA) indicated that 88% of the total genetic variation is distributed within subpopulations, 9% between subpopulations and only 3% between production areas. Fungicide resistance frequency against fenhexamid, iprodione and benomyl varied, with the highest levels of resistance present against benomyl and low levels of resistance seen towards iprodione and fenhexamid. In conclusion, this study has shown that there exist within the studied populations of B. cinerea, obtained from rooibos nurseries and pear orchards, an adaptive capacity to overcome current means of control. The use of population genetics to further our understanding of how plant pathogens interact and spread throughout a given environment is of cardinal importance in aiding the development of sustainable and integrated management strategies. Knowledge of the dispersal of B. cinerea in the two studied cropping systems has shed light on the inherent risk that it poses, and this together with knowledge of the levels of resistance that occurs should serve as an early warning to help divert possible loss of control in future. / AFRIKAANSE OPSOMMING: Botrytis cinerea Pers. Fr. [teleomorf Botryotinia fuckeliana (de Bary) Whetzel] veroorsaak ernstige verliese van meer as 200 gewasse wêreldwyd, insluitende rooibossaailinge en pere. Hierdie patogeen word deur morfologiese, fisiologiese, asook genetiese diversiteit gekenmerk. Die genetiese diversiteit en populasie-struktuur van B. cinerea populasies wat in Suid-Afrika voorkom, is nog nie ondersoek nie. Botrytis cinerea verkryg vanaf rooibossaailinge en in peerboorde in die Wes-Kaap van Suid-Afrika is ondersoek. Hierdie studie is met behulp van mikrosatellietmerkers, amplifikasie van die twee paringstipe gene (MAT1-1 en MAT1-2), asook die bepaling van weerstandsvlakke teenoor verskeie swamdoders, uitgevoer. Populasie-dinamika is afgelei en ‘n soortgelyke tendens is in beide produksie-sisteme waargeneem. Botrytis cinerea veroorsaak jaarliks ernstige verliese van rooibossaailinge (Aspalathus linearis) in kwekerye in die Clanwilliam-area. Monsters is in vyf kwekerye versamel en die kriptiese spesiestatus van die verkrygde isolate is deur restriksie-ensiemvertering van die Bc-hch geen bepaal. Almal behalwe een (206 uit 207) isolaat het aan Groep II of B. cinerea ‘sensu stricto’ behoort. Analise van die B. cinerea Groep II populasie, deur middel van sewe mikrosatellietmerkers, is uitgevoer om die genetiese populasiestruktuur te bepaal. Totale geendiversiteit (H) was hoog, met ‘n gemiddelde van 0.67. Alhoewel twee van die kwekerye se monstergrootte erg ingeperk is ná kloonverwydering, is daar nogtans 100 genotipes onder die 206 isolate wat geïsoleer is, waargeneem. Die persentasie van maksimale genotipiese diversiteit (G) het tussen 16 en 68, vir die vyf populasies, gewissel, met ‘n totaal van 17 vir die 100 genotipes. Een genotipe, verteenwoordig deur 27 klone, is uit vier kwekerye geïsoleer. Relatief lae dog noemenswaardige populasie-differensiasie is in totaal tussen kwekerye waargeneem (gem. FST = 0.030, P = 0.001). Die verspreiding van die twee paringstipes (MAT1-1 en MAT1-2) het beduidend verskil van ‘n 1:1 verhouding vir die totale populasie, asook twee van die kwekerye se populasies. Die drie oorblywende kwekerye se populasies het egter ‘n gelyke verdeling van die twee paringstipes getoon. Die indeks van assosiasie (IA) analises toon dat die populasies ongeslagtelik voortplant. Analise van molekulêre variasie (AMOVA) het aangedui dat 97% van die totale genetiese variasie binne die subpopulasies versprei is. Hoogs variërende vlakke van weerstand tussen die vyf kwekerye teenoor die swamdoder iprodioon, is vir die 198 isolate wat getoets is, gevind. Die totale gemiddelde frekwensie van weerstand teenoor iprodioon was 43%, wat tussen 0% en 81% vir die vyf kwekerye gevarieer het. Fondasie-vlak-sensitiwiteit vir pyrimethanil het ‘n gemiddelde EC50 waarde van 0.096 mg/L opgelewer. Botrytis cinerea isolate is ook vanuit peerbloeisels (Pyrus communis L.) vanuit vier boorde versamel, twee uit elk van die Ceres- en Grabouw-areas. In totaal is 181 isolate vanuit die vier boorde versamel. Die frekwensie van bloeiselinfeksie het tussen 3% en 17% gewissel. Oor die algemeen was daar ‘n hoë frekwensie van isolate wat slegs die Boty transponeerbare element teenwoordig gehad het (74%) in vergelyking met dié wat tegelykertyd beide (Boty en Flipper) teenwoordig gehad het. Een isolaat het slegs die Flipper element gehad. Bepaling van die kriptiese spesiestatus met behulp van restriksie-ensiemvertering van die Bc-hch geen het aangedui dat alle versamelde isolate tot Groep II of B. cinerea ‘sensu stricto’ behoort het. Analise van die Groep II populasie, deur middel van sewe mikrosatellietmerkers, is uitgevoer om genetiese populasie-struktuur te bepaal. Totale geendiversiteit (H) was hoog, met ‘n gemiddelde van 0.69 oor alle populasies. Alhoewel twee subpopulasies ‘n hoë klonale fraksie getoon het, is 91 genotipes tussen die 181 isolate wat verkry is, onderskei. Die persentasie van maksimale genotipiese diversiteit (G) het tussen 18 en 33 vir die vier populasies gewissel, met ‘n totale waarde van 14 vir die 91 genotipes. Een genotipe, verteenwoordig deur 27 klone, was in al vier boorde teenwoordig. Gematigde dog beduidende populasie differensiasie was in totaal tussen boorde teenwoordig (gem. FST = 0.118, P = 0.001). Die verspreiding van die paringstipes (MAT1-1 en MAT1-2) het nie betekenisvol van ‘n 1:1 verhouding vir die totale populasie, insluitende die subpopulasies, verskil nie. Indeks van assosiasie (IA) analises het egter aangedui dat die populasies ongeslagtelik voortplant. Analise van molekulêre variasie (AMOVA) het aangedui dat 88% van die totale genetiese variasie in subpopulasies te vinde was, 9% tussen subpopulasies en slegs 3% tussen produksie-areas. Frekwensie van swamdoder weerstandbiedendheid vir fenhexamid, iprodioon en benomyl het gewissel, met die hoogste vlakke teenoor benomyl waargeneem, maar baie lae vlakke teenoor fenhexamid en iprodioon. Samevattend het hierdie studie getoon dat die populasies van B. cinerea wat in hierdie twee produksie-sisteme, op rooibossaailinge en in peer boorde, ondersoek is, ‘n aanpasbaarheid toon om huidige metodes van beheer te oorkom. Die gebruik van populasiegenetika as ‘n hulpmiddel om ons kennis van patogeen-interaksies en -verspreiding te verbreed, is van kardinale belang in die ontwikkeling van geïntegreerde en volhoubare beheermaatreëls. Kennis van die verspreiding van B. cinerea in die bestudeerde gewasproduksiestelsels, werp lig op die inherente risiko wat dié patogeen inhou. Dít, tesame met kennis van die weerstandsvlakke wat voorkom, kan as ‘n vroegtydige waarskuwing dien ten einde moontlike verlies van beheer in die toekoms te help teenwerk. Grey mould Population genetics Mating type Dissertations -- Plant pathology Theses -- Plant pathology Plant pathogens -- Management
157	Functional analysis of a lignin biosynthetic gene in transgenic tobacco Mbewana, Sandiswa 03 1900 (has links) Thesis (MScAgric (Viticulture and Oenology. Wine Biotechnology))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Necrotrophic fungi infect many economically important crop plants. This results in great losses in the agricultural sector world-wide. Understanding the nature by which plants respond to pathogens is imperative for genetically enhancing disease resistance in plants. Research tools have significantly contributed to our understanding of how the plant responds to pathogen attack, identifying an array of defence mechanisms used by plants upon attack. Many fungal pathogens secrete endopolygalacturonases (endoPGs) when infecting plants. These hydrolytic enzymes are inhibited by polygalacturonase-inhibiting proteins (PGIPs) associated with plant cell walls. PGIPs are well characterised and their current known functions are all linked to endoPG inhibition and the subsequent upregulation of plant defence pathways. Work on grapevine PGIPs have shown that apart from being efficient antifungal proteins, leading to protection of the plant against Botrytis cinerea when overexpressed, PGIPs might also have additional functions linked to cell wall strengthening. This working hypothesis formed the motivation of this study where a cinnamyl alcohol dehydrogenase (CAD) (1.1.1.195) gene was targeted for functional analysis in tobacco (Nicotiana tabacum). Some previous work and genetic resources obtained is relevant to this study, specifically previously characterized transgenic tobacco lines overexpressing the Vitis vinifera pgip1 (Vvpgip1) gene. These lines have confirmed PGIP-specific resistance phenotypes against B. cinerea, as well as increased levels of CAD transcripts in healthy plants. Moreover, preliminary evaluations indicated increased lignin levels as well as differential expression of several other cell wall genes in these overexpressing lines (in the absence of infections). In this study we generated a transgenic tobacco population, overexpressing the native CAD14 gene, via Agrobacterium transformations. The transgene was overexpressed with the Cauliflower Mosaic Virus promoter (CaMV 35Sp). The CAD transgenic population was analyzed for transgene integration and expression and showed active transcription, even from leaves that normally don’t express CAD to high levels. These lines, together with the untransformed control, and a representative transgenic VvPGIP1 tobacco line previously characterized with elevated expression of CAD were used for all further analyses, specifically CAD activity assays of stems and leaves, as well as whole plant infections with B. cinerea. CAD enzyme activity assays were performed on healthy uninfected plant lines, without inducing native CAD expression or resistance phenotypes (i.e. without Botrytis infection). CAD activity was detected in leaves and stems, but a statistically sound separation between the CAD population and the untransformed control was only observed in the stems. The CAD assays also confirmed previous results that indicated that CAD transcription was upregulated in the PGIP line in the absence of infection. Overall, in all plant lines the stems exhibited 10-fold higher levels of CAD activity than the leaves, but the transgenic VvPGIP1 line showed a further 2-3-fold increase in CAD activity in the stems, when compared to the untransformed control and the majority of the CAD overexpressing lines. Disease assessment by whole plant infections with B. cinerea of the CAD transgenic plants revealed reduced disease susceptibility towards this pathogen. A reduction in disease susceptibility of 20 – 40% (based on lesion sizes) was observed for a homologous group of transgenic lines that was statistically clearly separated from the untransformed control plants following infection with Botrytis over an 11-day-period. The VvPGIP1 transgenic line displayed the strongest resistance phenotype, with reduction in susceptibility of 47%. The reduction in plant tissue maceration and lesion expansion was most pronounced in the VvPGIP1 line compared to the CAD transgenic plants, while the CAD transgenic plants showed more reduction than the untransformed control. In combination, the data confirms that CAD upregulation could lead to resistance phenotypes. Relating this data back to the previously observed upregulation of CAD in the VvPGIP1-overexpressing lines, the findings from this study corroborates that increased CAD activity contributes to the observed resistance phenotypes, possibility by strengthening the cell wall. In conclusion, this study yielded a characterized transgenic population overexpressing the CAD14 gene; this overexpression contributed to increased RNA transcription compared to the untransformed control plant, increased CAD activity (most notably in the stems) and a disease resistance phenotype against Botrytis. These findings corroborates the current working hypothesis in our group that PGIPs might have a role in preparing the plant cell for attack by contributing to specific cell wall changes. The exact mechanisms are still currently unknown and under investigation. The transgenic lines generated in this study will be invaluable in the subsequent analyses where these various phenotypes will be subjected to profiling and accurate cell wall analyses. / AFRIKAANSE OPSOMMING: Nekrotrofiese swamme infekteer en beskadig verskeie ekonomies belangrike gewasse. Dit lei wêreldwyd tot groot verliese vir die landbousektor. Dit is noodsaaklik om te verstaan hoe plante reageer teenoor patogene, sodat die siekteweerstand van plante verbeter kan word. Navorsingshulpbronne het beduidend bygedra tot die kennis van plantreaksies tydens patogeniese aanvalle, en het sodoende ‘n reeks van weerstandmeganismes, wat die plant inspan tydens ‘n aanval, geïdentifiseer. Verskeie patogeniese swamme skei endopoligalakturonases (endoPGs) af tydens plantinfeksie. Hierdie hidrolitiese ensieme word geïnhibeer deur poligalakturonase-inhiberende proteïene (PGIPs) wat met die plantselwand geassosieerd is. PGIPs is goed gekarakteriseerd en al hulle huidiglik bekende funksies is gekoppel aan endoPG inhibisie en die daaropvolgende opregulering van plant weerstandspaaie. Navorsing op wingerd PGIPs het gewys dat, afgesien van die feit dat PGIPs goeie antifungiese proteïene is wat lei tot beskerming van die plant teen Botrytis cinerea wanneer dit ooruitgedruk word, PGIPs ook moontlik addisionele funksies verrig wat verwant is aan selwandversterking. Hierdie werkshipotese vorm die motivering vir hierdie studie waarin ‘n sinnamiel alkohol dehidrogenase (SAD) (1.1.1.195) geen geteiken is vir funksionele analise in tabak (Nicotiana tabacum). Vorige navorsing en genetiese hulpbronne daardeur verkry is belangrik vir hierdie studie, spesifiek die gekarakteriseerde transgeniese tabaklyne wat die Vitis vinifera pgip1 (Vvpgip1) geen ooruitdruk. Hierdie lyne besit bevestigde PGIP-spesifieke weerstandsfenotipes teen B. cinerea, sowel as hoër vlakke van SAD transkripte in gesonde plante. Voorlopige analises het ook aangedui dat hierdie ooruitdrukkende lyne hoër lignien vlakke het, asook differensiële uitdrukking van verskeie ander selwandgene (in die afwesigheid van infeksie). In hierdie studie is ‘n transgeniese tabakpopulasie gegenereer wat die natuurlike tabak SAD14 geen ooruitdruk, deur middel van Agrobacterium transformasie. Die transgeen is ooruitgedruk deur die Blomkool Mosaïek Virus promoter (CaMV 35Sp). Die SAD transgeniese populasie is geanaliseer vir transgeen integrasie en uitdrukking en het aktiewe transkriptering getoon, selfs in blare waar daar normaalweg nie hoë vlakke van SAD uitgedruk word nie. Hierdie lyne, die ongetransformeerde wilde-tipe kontrole sowel as ’n verteenwoordigende transgeniese VvPGIP1 tabaklyn wat vooraf gekarakteriseerd was met hoë SAD uitdrukking, is gebruik vir alle verdere analises, spesifiek SAD aktiwiteitstoetse in stingels en blare, asook heelplantinfeksies met B. cinerea. Aktiwiteitsanalises van die SAD ensiem is gedoen op gesonde ongeinfekteerde plantlyne, sonder om natuurlike tabak SAD uitdrukking of weerstandsfenotipes te induseer (dus sonder Botrytis infeksie). SAD aktiwiteit is waargeneem in beide die blare en stingels, maar ‘n statisties betekenisvolle skeiding is slegs gevind tussen die SAD populasie en die ongetransformeerde kontrole in die stingels. Die SAD toetse het ook vorige resultate bevestig wat aangedui het dat SAD transkripsie opgereguleer word in die PGIP lyn in die afwesigheid van infeksie. Die stingels het oor die algemeen ‘n 10-voudige vermeerdering in SAD aktiwiteitsvlakke getoon in vergelyking met die blare, maar die transgeniese VvPGIP1 lyn het ‘n verdere 2-3-voudige verhoging in SAD aktiwiteit gehad in die stingels ,in vergelyking met die ongetransformeerde kontrole en die meerderheid van die SADooruitdrukkende lyne. Siekteweerstand ondersoeke deur middel van heelplantinfeksies met B. cinerea van die SAD transgeniese plante, het verminderde vatbaarheid aangedui ten opsigte van hierdie patogeen. ‘n Afname in siekte-vatbaarheid van 20 – 40% (gebaseer op wondgroottes) is waargeneem vir ‘n homoloë groep transgeniese lyne wat statisties betekenisvol geskei kon word van die ongetransformeerde kontrole plante na infeksie met Botrytis in ‘n infeksietoets wat 11 dae geduur het. Die VvPGIP1 transgeniese lyn het die mees weerstandbiedende fenotipe gehad, met ‘n afname in siekte-vatbaarheid van 47%. Die afname in plantweefselafbreking en wondgrootte was die duidelikste in die VvPGIP1 lyn in vergelyking met die SAD transgeniese plante, terwyl die SAD transgeniese plante ‘n groter afname aangedui het as die ongetransformeerde kontrole. In kombinasie het die data bevestig dat SAD opregulasie kan lei tot weerstandbiedende fenotipes. Hierdie data, in vergelyking met die vorige bevinding van opregulasie van SAD in die VvPGIP1-ooruitdrukkende lyne, bevestig dat hoër SAD aktiwiteit bydra tot die waargenome weerstandbiedende fenotipes, moontlik deur versterking van die plantselwand. Ter afsluiting, hierdie studie het ‘n gekarakteriseerde transgeniese populasie wat die SAD14 geen ooruitdruk gelewer; hierdie ooruitdrukking het bygedra tot hoër RNA transkripsie in vergelyking met die kontrole, verhoogde SAD aktiwiteit (veral in die stingels) en siekteweerstandbiedende fenotipes teenoor Botrytis. Hierdie bevindinge ondersteun die huidige werkshipotese in ons groep dat PGIPs moontlik ‘n rol speel in die voorbereiding van die plantsel teen infeksie deur spesifieke selwandveranderinge te veroorsaak. Die spesifieke meganismes is steeds onbekend en word verder ondersoek. Die transgeniese lyne wat tydens hierdie studie gegenereer is, sal baie belangrik wees in opvolgende analises waar hierdie verskillende fenotipes gebruik kan word om die profiel van selwandkomponente, maar ook die akkurate selwandsamestelling te bestudeer. Disease resistance Cell wall CAD Botrytis Dissertations -- Agriculture Theses -- Agriculture Theses -- Viticulture and oenology Dissertations -- Wine biotechnology Theses -- Wine biotechnology Tobacco -- Genetics Transgenic plants Polygalacturonase-inhibiting protein Lignin
158	Impacts biochimiques et biologiques de mutations dans le gène sdhB codant la sous-unité B de la succinate déshydrogénase chez le champignon phytopathogène Botrytis cinerea / Biochemical and biological impacts of mutations in the sdhB gene encoding the B sub-unit of the succinate dehydrogenase enzyme complex in the phytopathogenic fungi Botrytis cinerea Lalève, Anaïs 31 May 2013 (has links) La succinate déshydrogénase (SDH) est à la fois une enzyme clé du cycle de Krebs oxydant le succinate en fumarate et le complexe II de la chaîne respiratoire mitochondriale impliqué dans le transfert des électrons et la réduction de l’ubiquinone. Des inhibiteurs de cette enzyme (SDHI) ont été développés ou sont en cours de développement comme antifongiques. Cette famille de fongicides est notamment utilisée pour lutter contre Botrytis cinerea, champignon phytopathogène responsable de la pourriture grise sur de nombreuses cultures dont la vigne. Des souches résistantes aux SDHI ont été isolées chez B. cinerea et d’autres champignons phytopathogènes. Chez ces isolats résistants, des mutations ont été identifiées dans les gènes codant la SDH. Au cours de cette thèse, nous avons étudié l’impact de mutations affectant la sous-unité B (SdhB) de la succinate déshydrogénase sur l’activité de l’enzyme, la biologie du champignon B. cinerea et la résistance aux inhibiteurs ciblant cette enzyme. Par mutagénèse dirigée du gène sdhB, nous avons obtenu des mutants dits « isogéniques » qui ont permis de confirmer l’implication de ces mutations dans la résistance aux différentes molécules SDHI. Par ailleurs, nos résultats montrent que les modifications de la sous-unité SdhB affectent l’affinité des SDHI pour la SDH et les niveaux d’inhibition de l’activité SDH par les molécules inhibitrices ; ce qui explique - in fine - les spectres de résistance des mutants aux SDHI. Actuellement, tous les mutants sont résistants au boscalid et les mutants les plus fréquemment retrouvés au vignoble, sdhBH272R/Y, sont sensibles au fluopyram. Les travaux réalisés sur les mutants sdhB montrent que les mutations étudiées ont également un impact sur l’activité de l’enzyme et sur le développement du champignon, conséquences dépendantes du résidu substitué et de la substitution. En particulier, les mutations sdhBH272L/R affectent fortement l’activité de l’enzyme et la fitness du champignon alors que le mutant sdhBH272Y est peu affecté. Enfin, l’analyse de populations de pourriture grise de différentes origines (région, plantes hôtes) par rapport à la résistance aux SDHI réalisée sur les années 2009/2010 montre que les mutants sdhBH272R/Y sont toujours les plus fréquents mais leurs fréquences varient en fonction des situations agronomiques. Notamment la fréquence du mutant sdhBH272R augmente avec la pression de sélection exercée par les fongicides. Ce mutant attire particulièrement notre attention du fait de sa relation non linéaire entre fitness et fréquence au champ. / Succinate dehydrogenase is both a key enzyme of the TCA cycle, oxidizing succinate into fumarate and complex II of the mitochondrial respiratory chain involved in electron transfer and ubiquinone reduction. Inhibitors of this enzyme (SDHIs) have been developed or are in the developmental process as fungicides. Actually, SDHIs are registered to deal with Botrytis cinerea, a phytopathogenic fungus responsible for grey mold on many crops including grapevine. Strains of B. cinerea and other pathogenic fungi have been isolated for their resistance to SDHI. They mainly harbor mutations in genes encoding SDH subunits. During this thesis, we studied the impact of mutations modifying subunit B of succinate dehydrogenase on enzyme activity, fungal biology and resistance to SDHIs. “Isogenic” mutants obtained through site-directed mutagenesis and homologous recombination allowed us to confirm the role of sdhB mutations in SDHIs resistance. Our results also show that the substitutions in the SdhB subunit impact respectively the affinity of SDHIs to SDH and the inhibition levels of SDH activity by inhibitors, which explain – in fine – the resistance spectra observed for the mutants. Up to now, all sdhB mutants are resistant to boscalid and the most frequent mutants observed in grapevines, sdhBH272R/Y, are susceptible to fluopyram. Studies on sdhB mutants reveal that the mutations also impact the enzymatic activity and the fungal development depending on the substitution. In particular, sdhBH272L/R mutations have the strongest impact on enzyme activity and the fitness of the fungus, whereas these parameters are almost not altered in the sdhBH272Y mutant. Finally, grey mold populations from different origins (country, plant host) were analyzed for their SDHI resistance pheno- and genotypes. Yet, the sdhBH272R/Y mutants were the most frequent, but these frequencies varied according to the agronomical situation. Interestingly, the frequencies of the sdhBH272R mutant seem to increase with the selective pressure exerted by fungicides. This mutant is of particular interest because of the absence of correlation between the fitness we measured and the frequencies we observed in natura. Activité enzymatique Respiration Affinitérésistance aux fongicides Botrytis cinerea Fitness Traits de vie ,population Enzyme activity Respiration Affinity Fungicide resistance Succinate-dehydrogenase inhibitors Fitness cost Grey mold Population
159	Enhancing ecosystem services in vineyards to improve the management of Botrytis cinerea Jacometti, Marco Alexander Azon January 2007 (has links) Organic mulches and cover crops mulched in situ were assessed for their effects on B. cinerea primary inoculum and disease levels in inflorescences at flowering and/or bunches at harvest. Organic mulches were used to enhance biological degradation of vine debris to reduce levels of B. cinerea primary inoculum the following season. Four mulch types (anaerobically and aerobically fermented marc (grape pressings), inter-row grass clippings and shredded office paper) were applied under ten-year-old Riesling vines in a ten-replicate randomized block design in New Zealand over two consecutive years. Plastic mesh bags, each containing naturally infected vine debris, were placed under vines on bare ground (control) and at the soil-mulch interface, in winter (July) 2003 and 2004. In each year, half the bags were recovered at flowering (December) and the remainder at leaf plucking (February), for assessment of B. cinerea sporulation from the vine debris and debris degradation rate. Bait lamina probes, which measure soil biological activity, were placed in the soil-mulch interface three weeks before each of the two bag-recovery dates in both years and were then removed and assessed at the same times as were the bags. All mulches led to a reduction in B. cinerea sporulation. This reduction was significantly correlated with elevated rates of vine debris decomposition and increased soil biological activity. Over both years, compared with the controls, all treatments gave a 3-20-fold reduction in B. cinerea sporulation, a 1.6-2.6-fold increase in vine debris degradation and in the two marc and the paper treatments, a 1.8-4-fold increase in activity of soil organisms. The mulches also altered vine characteristics and elevated their resistance to B. cinerea through changes to the soil environment. Functional soil biological activity, as measured by Biolog Ecoplates and bait lamina probes, was increased 2-4 times in the two marc and paper treatments, compared with the control, an effect relating to the elevated soil moisture and reduced temperature fluctuations under these mulches. Soil nutrient levels and the C:N ratios were also affected in these treatments. The mulched paper lowered vine canopy density by up to 1.4 times that of the other treatments, an effect which probably led to elevated light penetration into the canopy and consequent increased canopy temperature, photosynthesis and lowered canopy humidity. These changes to soil and vine characteristics increased grape skin strength by up to 10% in the paper treatment and sugar concentrations by 1.2-1.4 °Brix in the two marc and paper treatments. The severity of B. cinerea infections in the anaerobic marc, aerobic marc and paper treatments were reduced to 12%, 3% and 2.2% of the control, respectively, in field assessments averaged over two consecutive harvests. Cover crops mulched in situ had similar effects to those of the organic mulches, increasing soil biological activity and reducing B. cinerea primary inoculum and the severity of B. cinerea infection in grapes at harvest (2006). Inter-row phacelia and ryegrass were mulched in winter 2005 and compared with a bare ground control, under 10-year-old Chardonnay vines in a ten-replicate randomized block design. Functional soil biological activity increased by 1.5-4.5 times in the two cover crop treatments compared with the control, an effect possibly related to elevated soil moisture in these treatments. This increase in soil moisture and soil biological activity increased vine debris degradation, reduced B. cinerea primary inoculum on the debris and decreased B. cinerea severity at flowering (December 2005) and harvest (April 2006). These results show the potential of organic mulches and cover crops mulched in situ to enhance soil ecosystem services and improve the sustainability of viticultural practices. Botrytis cinerea cover crop mulch conservation biological control soil biological activity vine debris degradation primary inoculum grape vines vine resistance yield grape quality
160	Evaluation of integrated control of postharvest grey mould and blue mould of pome fruit using yeast, potassium silicate and hot water treatments. Mbili, Nokwazi Carol. January 2012 (has links) The public concern over synthetic pesticides in foods and the environment has created an interest to find effective and safe non-fungicide means of controlling postharvest pathogens. The overall objective of this thesis was to evaluate the effect of potassium silicate, yeast antagonists and hot water dip treatment to control postharvest grey mould and blue mould of pome fruits, caused by Botrytis cinerea and Penicillium expansum, respectively. Botrytis cinerea and Penicillium expansum were isolated from infected strawberry and pear fruits, respectively. These isolates were found to be non-resistant to YieldPlus® (Anchor yeast, Cape Town, South Africa), a biofungicide containing a yeast Cryptococcus albidus. A total of 100 epiphytic yeast isolates were obtained from the fruit surface of “Golden Delicious” apples and “Packham’s Triumph” pears, and screened against B. cinerea and P. expansum. Fifteen yeast isolates reduced grey mould incidence by > 50%, when applied four hours before inoculation with B. cinerea. Similarly, seven yeast isolates reduced blue mould incidence by > 50%, when applied four hours before inoculation with P. expansum. YieldPlus® and yeast Isolate YP25 provided the best control of B. cinerea, while Isolate YP60 and YieldPlus® provided the best control of P. expansum on “Golden Delicious” apples. A mixture of YP25 and YP60 provided complete control of both B. cinerea and P. expansum, when applied to “Golden Delicious” apples before inoculation with either B. cinerea or P. expansum. Electron microscopy studies showed that yeast Isolates YP25 and YP60 inhibited the mycelial growth of B. cinerea and P. expansum, respectively. Preventative and curative application of potassium silicate resulted in reduced incidence of B. cinerea or P. expansum of “Golden Delicious” apples. Electron microscopy studies indicated that potassium silicate inhibited the growth of B. cinerea and P. expansum. Furthermore, treatment of “Golden Delicious” apples with either potassium chloride or potassium hydroxide resulted in reduced incidence of both B. cinerea and P. expansum. In vivo tests showed that the disease incidence of P. expansum and B. cinerea on “Golden Delicious” apples was reduced by hot water dip treatments at 58-60°C for 60 to 120 seconds, compared with the control fruit treated with sterile distilled water, without causing skin damage. The use of potassium silicate, yeasts (Isolates YP25 and YP60), YieldPlus® and the antagonists mixture (YP25+YP60) in combination, resulted in the control of B. cinerea and P. expansum of “Golden Delicious” apples compared with Imazalil® treated fruit. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2012. Apple blue mould. Botrytis cinerea. Yeast fungi. Fungi as biological pest control agents. Potassium--Physiological effect. Theses--Plant pathology.

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