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Saccharothrix algeriensis NRRL B-24137 : biocontrol properties, colonization and induced systemic resistance towards Botrytis cinerea on grapevine and Arabidopsis thaliana / Saccharothrix algeriensis NRRL B-24137 : proprietés de biocontrole, colonisation et résistance systemique induite contre Botrytis cinerea sur la vigne et Arabidopsis thalianaMuzammil, Saima 13 July 2012 (has links)
Au cours de cette thèse, un isolat de sol de désert, Saccharothrix algeriensis NRRL B-24137, a été évalué pour ses propriétés bioactives contre le champignon phytopathogène Botrytis cinerea, pour sa colonization sur Vitis vinifera L., et Arabidopsis thaliana ainsi qu’en vue d’étudier les méchanismes de résistance systémique induite (ISR) contre B. cinerea. Les résultats obtenus nous ont permis premièrement de montrer que Sa. algeriensis NRRL B-24137 peut présenter des activités antifongiques contre B. cinerea et que des métabolites peuvent être responsables de cette activité antifongique. Bien que ces métabolites soient encore en cours d’étude et que cette étude mérite d’être approfondie, nous avons démontré ensuite les propriétés de colonisation de l’isolat du sol du désert chez la vigne. Les résultats ont permis de montrer que la souche peut former des populations rhizosphèriques ainsi que des sous-populations endophytiques chez des plants de vigne (Cabernet Sauvignon sur porte-greffe 44-53 M) à des étapes précoces de colonisation. Puis nous avons démontré que la souche bénéfique peut induire une résistance systémique contre B. cinerea. Bien que les mécanismes impliqués ne soient pas encore compris, des parties préliminaires de ces travaux démontrent que les expressions de gènes responsables de la production de glucanase, chitinase ainsi qu’un inhibiteur de polygalacturonase ne semblent pas potentialisés pendant le phénomène de résistance systémique. Enfin nous avons démontré l’interaction entre Sa. algeriensis NRRL B-24137 et Arabidopsis thaliana qui résulte dans une association intime dûe également à colonisation rhizosphèrique et endophytique de la plante modèle. La souche bénéfique peut églement induire un phénomène de résistance systémique sur A. thaliana contre B. cinerea et les analyses de plantes mutées ont permis de determiner des parties des mécanismes impliqués dans l’ISR aini que des nouveaux mécanismes impliqués qui peuvent être induits par des microbes bénéfiques / In this thesis, the desert soil isolate, Saccharothrix algeriensis NRRL B-24137, has been evaluated for its bioactive properties towards the phytopathogenic fungus Botrytis cinerea, for its colonization of Vitis vinifera L., and Arabidopsis thaliana as well as to study the mechanisms of induced systemic resistance (ISR) towards B. cinerea. The results obtained allowed us firstly to show that Sa. algeriensis NRRL B-24137 can exhibit strong antifungal properties towards B. cinerea and that some metabolites can be responsible of this antifungal activity. Although these metabolites are still under consideration and that this study needs further works, we have demonstrated then the colonization properties of the desert soil isolate with grapevine plants. The results showed that the strain can form rhizospheric as well as endophytic subpopulations with grapevine plants (Cabernet Sauvignon cultivar graffed on 44-53 M rootstock) at early step of colonization. Then we have demonstrated that the beneficial strain could induce a systemic resistance towards B. cinerea. Although the mechanisms are not yet well understood, preliminary parts of this work demonstrated that the genes responsible of glucanase production, chitinase as well as inhibitor of polygalacturonase activity do not seems to be primed during the systemic resistance phenomenon. Finally we demonstrated that the interaction between Sa. algeriensis NRRL B-24137 and Arabidopsis thaliana plants results in a close association due also to a rhizo- and endophytic colonization of the model plant. The beneficial strain can also induce a systemic resistance in A. thaliana towards B. cinerea and analyzes of plant mutants have allowed to determine parts of the mechanisms involved in ISR as well as new mechanisms that could be trigerred by beneficial microbes
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Characterization and role of nitric oxide production in Arabidopsis thaliana defense responses induced by oligogalacturonides / Caractérisation et rôle de la production du monoxyde d'azote en réponse aux oligogalacturonidase chez Arabidopsis thalianaRasul, Sumaira 21 December 2011 (has links)
Le monoxyde d’azote (NO) régule un grand nombre de processus physiologiques tel quele développement ou les réponses aux modifications des conditions environnementales. Dans cetravail, la production de NO et ses effets ont été étudiés dans le contexte des interactions plante –pathogène. La production de NO générée chez Arabidopsis thaliana par les oligogalacturonides(OGs), eliciteur endogène des réactions de défense, a été mesurée par la sonde fluorescente 4, 5-diamino fluoresceine diacetate. L’utilisation d’approches pharmacologiques et génétiques ontpermis d’étudier les sources enzymatiques de la production de NO et son rôle dans l’interactionA. thaliana/Botrytis cinerea. Nous avons montré que le NO est produit par une voie dépendantede la L-arginine ainsi que d’une voie impliquant la Nitrate Réductase. La production de NOinduite par les OGs est dépendante du Ca2+ et modulée par les formes activées de l’oxygène(produites par AtRBOHD). La production de NO est également régulée par les CDPKs mais estindépendante des activités MAPKs. A l’aide d’une approche transcriptomique nous avons ensuitedémontré que le NO participe à la régulation de l’expression de gènes induits par les OGs tels quedes gènes codant pour des protéines PR ou des facteurs de transcription. La sur-représentation decertains éléments régulateurs (par exemple de type W-box) dans les régions promotrices desgènes cibles du NO suggère également l’implication de facteurs de transcription spécifiques dansla réponse au NO. Enfin, des plantes mutantes, affectées dans l’expression de gènes cibles de NO,ainsi que des plantes de type sauvage (Col-0) traitées par le piégeur de NO, cPTIO, sont plussensibles à B. cinerea. L’ensemble de ces résultats nous a permis de mieux comprendre lesmécanismes liant la production de NO, ses effets et la résistance d’A. thaliana à B. cinerea,confirmant que le NO est un élément-clé des réactions de défense des plantes / Nitric oxide (NO) regulates a wide range of plant processes from development toenvironmental adaptation. In this study, NO production and its effects were investigated in aplant-pathogen context. The production of NO following Arabidopsis treatment witholigogalacturonides (OGs), an endogenous elicitor of plant defense, was assessed using the NOsensitive probe 4, 5-diamino fluorescein diacetate. Pharmacological and genetic approaches wereused to analyze NO enzymatic sources and its role in the Arabidopsis thaliana /Botrytis cinereainteraction. We showed that NO production involves both a L-arginine- and a nitrate reductase(NR)-pathways. OGs-induced NO production was Ca2+-dependent and modulated RBOHDmediatedROS production. NO production was also regulated by CDPKs activities, but workedindependently of the MAPKs pathway. Using a transcriptomic approach, we further demonstratedthat NO participates to the regulation of genes induced by OGs such as genes encoding diseaserelatedproteins and transcription factors. The over-representation of certain regulatory elements(e.g. W-BOX) in promoter sequences of target genes also suggests the involvement of specifictranscription factors in the NO response. Mutant plants impaired in several selected NOresponsivegenes, as well as Col-0 plants treated with the NO scavenger cPTIO, were moresusceptible to B. cinerea. Taken together, our investigation deciphers part of the mechanismslinking NO production, NO-induced effects and basal resistance to Botrytis cinerea. Moregenerally, our data reinforce the concept that NO is a key mediator of plant defense responses
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Caractérisation, criblage et mise en oeuvre de souches bactériennes issues du vignoble bordelais pour la lutte biologique contre les champignons impliqués dans la Pourriture grise et l'Esca de la vigne / Characterization, screening and implementation of bacterial strains from Bordeaux vineyards for biological control of fungal pathogens involved in Gray mold and Esca of grapevineHaidar, Rana 11 October 2016 (has links)
Contre la pourriture grise et les maladies du bois (MdBs), qui sont des maladies cryptogamiques majeures de la vigne, la lutte biologique a un potentiel de développement considérable dans le contexte actuel de réduction des intrants chimiques en viticulture.L’objectif de cette thèse est de sélectionner et d'étudier des souches bactériennes antagonistes de Botrytis cinerea (Pourriture grise) et de deux champignons pathogènes clefs liés aux MdBs: Phaeomoniella chlamydospora et Neofusicoccum parvum. Les expériences de screening principales sont réalisées in vivo et in planta sur 46 souches bactériennes isolées dans le vignoble bordelais. Le niveau de protection par les souches antagonistes dépend significativement de la souche bactérienne, de l’espèce de champignon pathogène ciblée, du tissu ou organe végétal hôte, mais aussi pour N. parvum, du mode d’application de la souche bactérienne et, pour B. cinerea, du génotype lié aux transposons : transposa ou vacuma.Une réduction significative de 40 à 64% de la taille des nécroses dues à P. chlamydospora et/ou N. parvum est induite par trois souches bactériennes Pantoea agglomerans (S1), Paenibacillus sp. (S19) et Bacillus pumilus (S32) sur des boutures de vigne non greffées. Ces souches ont fait l'objet d'investigations approfondies pour déterminer leurs principaux modes d’action : Antibiose, production de composés volatils qui ont été identifiés et/ou induction de différents gènes de défense de la vigne.Concernant B. cinerea, les souches Enterobacter cowanii (S22), Enterobacter sp. (S23), Bacillus ginsengihumi (S38) et Bacillus sp. (S43, S46) présentent un pouvoir antagoniste important par production de composés volatils et diffusibles anti-Botrytis, ainsi que par compétition pour les nutriments par E. cowanii (S22). / Biological control of gray mold and grapevine trunk diseases (GTDs), which are major fungal diseases of grapevine, has a considerable potential development in the current context of reduction of chemical input in viticulture.The aim of this study was to select and study bacterial strains for antagonism against Botrytis cinerea, the causal agent of gray mold, and two key pathogens involved in GTDs: Phaeomoniella chlamydospora and Neofusicoccum parvum. The main screening experiments for antagonistic activity of 46 bacterial strains, isolated from Bordeaux vineyards, have been carried out under different in vivo and in planta conditions. The efficacy of protection by the antagonistic strains significantly depended on the bacterial strain, the targeted pathogen species, the host plant tissue or organ and, for N. parvum, also on the application mode of the bacterial strain and, for B. cinerea, on the transposon genotype: transposa or vacuma.A significant reduction in length of necrosis due to P. chlamydospora and/or N. parvum, ranging between 40 and 64% in non-grafted vine cuttings, resulted from three bacterial strains: Pantoea agglomerans (S1), Paenibacillus sp. (S19) and Bacillus pumilus (S32). These strains were thoroughly further investigated to determine their major modes of action by i) Antibiosis ii) production of antifungal volatile organic compounds, which have been identified, and/or iii) induction of different grapevine defense genes. Concerning B. cinerea, Enterobacter cowanii (S22), Enterobacter sp. (S23) Bacillus ginsengihumi (S38), Bacillus sp. (S43, S46) were of prime importance in the biocontrol by producing anti-Botrytis volatile and diffusible compounds or by competing for nutrients (case of E. cowanii S22).
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Regressão logística politômica ordinal: Avaliação do potencial de Clonostachys rosea no biocontrole de Botrytis cinerea / Polytomous ordinal logistic regression: Assessing the potential of Clonostachys rosea in biocontrol of Botrytis cinereaLara, Evandro de Avila e 23 July 2012 (has links)
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Previous issue date: 2012-07-23 / The use of logistic regression modeling as a tool for modeling statistical probability of an event as a function of one or more independents variables, has grown among researchers in several areas, including Phytopathology. At about the dichotomous logistic regression in which the dependent variable is the type binary or dummy, is the extensive number of studies in the literature that discuss the modeling assumptions and the interpretation of the analyzes, as well as alternatives for implementation in statistical packages. However, when the variable response requires the use three or more categories, the number of publications is scarce. This is not only due to the scarcity of relevant publications on the subject, but also the inherent difficulty of coverage on the subject. In this paper we address the applicability of the model polytomous ordinal logistic regression, as well as differences between the proportional odds models, nonproportional and partial proportional odds. For this, we analyzed data from an experiment in which we evaluated the potential antagonistic fungus Clonostachys rosea in biocontrol of the disease called "gray mold", caused by Botrytis cinerea in strawberry and tomato. The partial proportional odds models and nonproportional were adjusted and compared, since the proportionality test score accused rejection of the proportional odds assumption. The estimates of the model coefficients as well as the odds ratios were interpreted in practical terms for Phytopathology. The polytomous ordinal logistic regression is introduced as an important statistical tool for predicting values, showing the potential of C. rosea in becoming a commercial product to be developed and used in the biological control of the disease, because the application of C. rosea was as or more effective than the use of fungicides in the control of gray mold. / O uso da regressão logística como uma ferramenta estatística para modelar a probabilidade de um evento em função de uma ou mais variáveis explicativas, tem crescido entre pesquisadores em várias áreas, inclusive na Fitopatologia. À respeito da regressão logística dicotômica, na qual a variável resposta é do tipo binária ou dummy, é extenso o número de trabalhos na literatura que abordam a modelagem, as pressuposições e a interpretação das análises, bem como alternativas de implementação em pacotes estatísticos. No entanto, quando a variável resposta requer que se utilize três ou mais categorias, o número de publicações é escasso. Isso devido não somente à escassez de publicações relevantes sobre o assunto, mas
também à inerente dificuldade de abrangência sobre o tema. No presente trabalho aborda-se a aplicabilidade do modelo de regressão logística politômica ordinal, bem como as diferenças entre os modelos de chances proporcionais, chances proporcionais parciais e chances não proporcionais. Para isso, foram analisados dados de um experimento em que se avaliou o potencial do fungo antagonista Clonostachys rosea no biocontrole da doença denominada mofo cinzento , causada
por Botrytis cinerea em morangueiro e tomateiro. Os modelos de chances proporcionais parciais e não proporcionais foram ajustados e comparados, uma vez que o teste score de proporcionalidade acusou rejeição da pressuposição de chances proporcionais. As estimativas dos coeficientes dos modelos bem como das razões de chances foram interpretadas em termos práticos para a Fitopatologia. A regressão logística politômica ordinal se apresentou como uma importante ferramenta estatística para predição de valores, mostrando o potencial do C. rosea em se tornar um produto comercial a ser desenvolvido e usado no controle biológico da doença, pois a aplicação de C. rosea foi tão ou mais eficiente do que a utilização de fungicidas no controle do mofo cinzento.
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Estimation du potentiel de résistance de Botrytis cinerea à des biofongicides / Estimate of potential resistance of Botrytis cinerea to biofungicidesAjouz, Sakhr 21 December 2009 (has links)
La pourriture grise, causée par le champignon Botrytis cinerea, est l'une des principales maladies aériennes fongiques sur diverses cultures d’importance agronomique. La diversité génétique de B. cinerea est très forte et la capacité rapide d’adaptation de ce champignon à une pression sélective est également avérée. Ce champignon est ainsi capable de développer des résistances à une grande variété de composés fongicides de synthèse ou d'origine naturelle. Des méthodes alternatives de lutte ont de ce fait été développées ces dernières années : divers agents de lutte biologique (ALB) présentant différents modes d’actions ont été identifiés et pour certains d’entre eux commercialisés pour contrôler B. cinerea. Cependant la durabilité de la lutte biologique est un domaine encore très peu étudié. La perte d'efficacité d'un ALB pourrait résulter de la préexistence d’isolats moins sensibles de pathogènes dans les populations naturelles et/ou de la capacité de l’agent pathogène à produire, sous une pression de sélection continue exercée par l’ALB, des mutants ayant une sensibilité réduite. L'objectif global de la présente étude est d'évaluer le risque potentiel de perte d'efficacité de la lutte biologique vis-à-vis de B. cinerea. Dans cette étude, les efforts ont été concentrés sur la pyrrolnitrine, un antibiotique produit par divers ALBs, dont certains sont efficaces contre B. cinerea. Les objectifs spécifiques de l'étude étaient (i) d’évaluer la diversité de la sensibilité à la pyrrolnitrine au sein de la population naturelle de B. cinerea, (ii) d'estimer le risque de perte d'efficacité des ALBs produisant la pyrrolnitrine due à la pression de sélection exercée par la pyrrolnitrine et (iii) d'étudier le mécanisme de résistance à la pyrrolnitrine chez B. cinerea. Parmi 204 isolats de B. cinerea, une gamme importante de sensibilité à la pyrrolnitrine a été observée, avec un facteur de résistance de 8,4 entre l’isolat le plus sensible et l'isolat le moins sensible. La production de 20 générations successives pour 4 isolats de B. cinerea, sur des doses croissantes de pyrrolnitrine, a abouti au développement de mutants avec des niveaux élevés de résistance à l'antibiotique, et à une réduction in vitro de la sensibilité à la bactérie productrice de pyrrolnitrine Pseudomonas chlororaphis PhZ24. La comparaison entre les mutants résistants à la pyrrolnitrine et leurs parents sensibles pour la croissance mycélienne, la sporulation et l'agressivité sur plantes a révélé que la résistance à la pyrrolnitrine est associée à un fort coût adaptatif. Des observations cytohistologiques sur tomates ont confirmé que l’isolat sensible à la pyrrolnitrine attaque le pétiole rapidement et envahit la tige, alors que le mutant résistant à la pyrrolnitrine ne s'étend pas au-delà du pétiole. De plus, ce dernier mutant forme un mycélium anormal et des cellules ressemblant à des chlamydospores. Les résultats ont d'autre part révélé que les mutants de B. cinerea résistants à la pyrrolnitrine sont résistants au fongicide iprodione, suggérant ainsi qu'une pression exercée par la pyrrolnitrine sur le champignon conduit à une résistance au fongicide. Réciproquement, la production de générations successives sur iprodione conduit à une résistance à l'antibiotique. Afin d'étudier les déterminants moléculaires de la résistance de B. cinerea à la pyrrolnitrine, le gène histidine kinase Bos1, impliqué entre autres dans la résistance aux fongicides chez B. cinerea a été séquencé chez les souches sensibles et les mutants résistants. La comparaison des séquences a mis en évidence des mutations ponctuelles différentes chez les mutants de B. cinerea obtenus sur la pyrrolnitrine et ceux obtenus sur l'iprodione. De plus, les résistances à la pyrrolnitrine et à l'iprodione ne sont pas systématiquement associées à une mutation ponctuelle dans le gène Bos1. Enfin, aucune modification n'a été détectée dans la taille des allèles de neuf locus microsatellites quelle que soit la pression sélective exercée et quelle que soit le phénotype du mutant produit. Cette étude montre qu'un champignon pathogène des plantes est capable de développer progressivement une moindre sensibilité à un agent de lutte biologique mais que cette moindre sensibilité est associée à une forte perte de fitness / Gray mould, caused by Botrytis cinerea, is a severe disease on a wide range of crops. Disease control generally relies on chemicals, although biological control strategies have been intensively studied over the last decades. This pathogen can withstand a wide variety of fungitoxic compounds including fungicides and natural molecules. This capacity to adapt to different stress might, potentially, compromise the durability of biological control methods. The global purpose of that work was to estimate the potential of B. cinerea to overcome the efficacy of biological control agents. Knowledge on the potential development of resistance to biological control agents can help to devise or improve resistance management strategies. In this work, efforts have been focused on the antibiotic pyrrolnitrin produced by various bacteria described as potential biological control agents against B. cinerea. The specific objectives of the study were (i) to evaluate the diversity in susceptibility to pyrrolnitrin among natural population of B. cinerea, (ii) to estimate the risk of loss of efficacy of pyrrolnitrinproducing biological control agent due to selection pressure exerted by pyrrolnitrin and (iii) to study the mechanism of resistance to pyrrolnitrin in B. cinerea. An important range of sensitivity to pyrrolnitrin with an 8.4-fold difference in EC50 values between the most sensitive and the least sensitive isolates was observed within the 204 isolates tested. The production of 20 generations, for 4 isolates of B. cinerea, on increasing doses of pyrrolnitrin, resulted in the development of mutants of B. cinerea with high levels of resistance to the antibiotic and a reduced sensitivity in vitro to the pyrrolnitrin-producing Pseudomonas chlororaphis PhZ24. Comparison of the pyrrolnitrin-resistant mutants and their sensitive parent isolates for mycelial growth, sporulation and aggressiveness on plant tissues revealed that the high level of resistance to pyrrolnitrin has resulted in a high fitness cost. Additional cytohistological investigations revealed that while the sensitive isolate spread throughout the petiole and rapidly invaded the stem via the abscission zone, the pyrrolnitrinresistant mutant failed to extend beyond petiole to invade the stem. Moreover, the pyrrolnitrin-resistant mutant formed abnormal mycelium and chlamydospore-like cells. The comparison of resistance to pyrrolnitrin and to the iprodione fungicide in B. cinerea revealed that fungicide pressure exerted on the fungus is able to build-up resistance to pyrrolnitrin. Comparison of sequences of the osmosensing class III histidine kinase encoding gene bos1 revealed different mutations in pyrrolnitrin- and iprodione-resistant mutants. However, resistance to pyrrolnitrin and to iprodione was not systematically associated with a point mutation in the Bos1 gene. Finally, no changes were observed in the allele size at nine microsatellite loci whatever the four selective pressure endured by the fungus despite their phenotypic changes. This study provides evidence that a fungal plant pathogen is able to gradually build-up resistance to an antibiotic produced by a biocontrol agent
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Quantification of spray coverage on grape bunch parts and the incidence of Botrytis cinereaBrink, Jan-Cor (Johannes Cornelius) 04 1900 (has links)
Thesis (MScAgric)--University of Stellenbosch, 2005. / ENGLISH ABSTRACT: Various studies revealed that Botrytis cinerea, the causal pathogen of Botrytis bunch
rot, is mostly associated with pedicels, rachises, laterals and berry bases, and not with berry
skins as previously understood. Provided that sufficient coverage of inner bunch parts was
achieved, laboratory studies have shown that fungicides can effectively reduce the amount of
B. cinerea at the various positions in bunches, and prevent infection and symptom expression
at all growth stages. The same efficacy was, however, not achieved with the same fungicides
when using conventional spraying methods in vineyards. Poor disease control on fruit and
leaves in vineyards is attributed to inappropriate timing of fungicide applications and/or
insufficient coverage of susceptible tissue. Previously, spray coverage evaluations in South
Africa were based on the use of water-sensitive cards. A variety of other methods have been
used to assess spray coverage in vineyards, but none of these methods could assess spray
deposits on a very small, three-dimensional area of interest such as the susceptible grape
bunch parts. The methods were furthermore dependent on human objectivity, which lacks
quantitative measuring and speed of measurement. Suitable technology to determine spray
coverage on susceptible bunch parts is, therefore, not available.
The aim of this study was to develop a protocol to visualise and quantify spray
deposits in grape bunches, specifically on the inner bunch parts and to use the protocol to
determine the effect of different levels of spray cover on artificially inoculated B. cinerea
grape bunches, in order to facilitate future determination of minimum effective coverage
levels for effective B. cinerea control.
A spray coverage assessment protocol using fluorometry, photomicrography and
digital image analyses was developed to measure spray coverage on susceptible grape bunch
parts. Among several fluorescent pigments tested, a yellow fluorescent pigment (SARDI
Fluorescent Pigment) from Australia was selected on the basis of its small particle size (2.45 -
4.90 μm). Bunches were sprayed at pea size and bunch closure with different volumes of a
mixture of fenhexamid and the yellow fluorescent pigment. Sprayed parts from bunches were
illuminated under black light (UV-A light in the 365 nm region) and visualised under a stereo
microscope at 20 x magnification. Photos of the berry skin, pedicel and rachis were taken
with a digital camera (Nikon DMX 1200). Image analysis of photos was done with Image-
Pro Discovery version 4.5 for Windows (Media Cybernetics) software. The total area of
deposited pigment in selected areas of interest (AOI) was calculated. The percentage area
covered was subsequently calculated for each AOI. Good correlation was evident between
the parameters, sum of objects and percentage area covered. Bunch parts at pea size generally
had higher coverage values than at bunch closure. Spray applications earlier in the season
would therefore result in higher and more effective spray coverage of the susceptible bunch
parts. Similar deposition trends were observed on the inner bunch parts (pedicel and rachis).
These were, however, significantly different from berry skins, which had significantly higher
levels of spray deposits than the inner bunch parts. The variance component analysis
indicated that the highest variance was observed for berries and bunches, and substantially
less for image readings. For the same accuracy, means for percentage coverage values of at
least 10 bunches per treatment (1 part per bunch and 3 readings per part) will be sufficient.
In order to determine the biological efficacy of different levels of spray coverage on B.
cinerea incidence on grape bunches, bunches were sprayed at pea size and bunch closure with
different volumes of a mixture of fenhexamid and a yellow fluorescent pigment and the
percentage fluorescent pigment coverage on pedicels was determine. Bunches were
subsequently dusted with dry airborne conidia of B. cinerea in a settling tower and incubated
for 24 h at high relative humidity (98%). Infection was determined by estimating the amount
of B. cinerea infections occurring on sprayed bunch parts with isolations on to paraquat and
Kerssies mediums. Linear regressions for the part x stage combinations of percentage B.
cinerea incidence on different bunch parts were fitted on mean coverage levels. An increase
in spray cover caused linear reductions in levels of B. cinerea on susceptible bunch parts.
Higher B. cinerea incidences were recorded at pea size. Furthermore, higher B. cinerea
incidences were found on paraquat medium for both stages, than on Kerrsies medium. The
information gathered from this study will be used to facilitate future determination of
minimum effective coverage levels for effective B. cinerea control in grape bunches.
In these validation experiments, the results clearly showed that the protocol can be
used to determine the effect of different levels of spray coverage on B. cinerea incidence and
that an increase in spray coverage will decrease B. cinerea incidence. The information
gathered from this study will be used to facilitate future determination of minimum effective
coverage levels for effective B. cinerea control in grape bunches and subsequently be used as
benchmarks to evaluate spray application in vineyards. / AFRIKAANSE OPSOMMING: Vaalvrot by wingerde word veroorsaak deur Botrytis cinerea. Verskeie studies het
getoon/gewys dat die oorsaaklike patogeen meestal geassosieer word met die pedisel, ragis,
laterale en die korrelbasis, en nie met die korrelskil soos voorheen beweer nie. Laboratorium
studies het getoon dat swamdoders wel effektief is om B. cinerea by alle trosdele te verminder
en simptoomontwikkeling te voorkom tydens alle groeistadia, mits die binne-trosdele
voldoende spuit bedekking ontvang het. Dieselfde effektiwiteit is egter nie gevind in
wingerde met konvensionele spuittegnieke nie. Onvoldoende siektebeheer van vrugte en
blare van wingerde kan toegeskryf word aan verkeerde spuit skedulering en/of swak
spuitbedekking van vatbare gasheerweefsel. Evaluering van spuitbedekking is voorheen in
Suid Afrika deur middel van water-sensitiewe papier gedoen. Verskeie ander metodes is al
gebruik om spuitbedekking te evalueer in wingerde, maar nie een van hierdie metodes kan
gebruik word om spuitbedekking op ’n baie klein, drie-dimensionele oppervlak, soos die
vatbare trosdele, te evalueer nie. Verder was die tegnieke afhanklik van menslike
objektiwiteit, en gevolglik ontbreek kwantitatiewe meting en metingspoed. Daar is dus nie
geskikte tegnologie vir die evaluering van spuitbedekking op vatbare trosdele nie.
Die doel van hierdie studie was die ontwikkeling van ‘n protokol vir die visualisering
en kwantifisering van spuitbedekking op spesifiek die binne-tros dele en om die protokol dan
te gebruik om die effek van verskillende vlakke van spuitbedekking op B. cinereageinokuleerde
druiwetrosse te bepaal,
Protokol vir evaluasie van spuitbedekking op vatbare druifdele is ontwikkel deur
gebruik te maak van fluorometrie, fotomikrografie en digitale beeldanalise. Van die
verskillende fluoresensie pigmente wat getoets is, is ‘n geel flouresensie pigment (SARDI
Flourescent Pigment) van Australië gekies op grond van sy klein partikelgrootte (2.45 - 4.90
μm). Druiwetrosse is gespuit tydens ertjie- en trostoemaakstadia met verskillende volumes
van ’n mengsel van fenheksamied en die geel fluorosensie pigment. Die gespuite druifdele is
dan verlig onder swartlig buise (UV-A lig in die 365 nm spektrum) en gevisualiseer deur ’n
stereo mikroskoop by 20x vergroting. Foto’s van die korrelskil, pedisel en ragis is met ‘n
digitale kamera (Nikon DMX 1200) geneem. Beeldanalise is gedoen met ImagePro
Discovery weergawe 4.5 vir Windows (Media Cybernetics) sagteware. Die totale area
neerslag van die pigment is in geselekteerde areas bereken. Die presentasie area bedek is
bereken vir elkeen van hierdie areas. Goeie korrelasie is gevind tussen die parameters aantal
fluoresserende partikels en die persentasie bedekte area. Trosdele tydens ertjie-stadium het in
die algemeen hoër waardes gehad as by trostoemaak. Dit blyk dus dat spuittoediening vroeg
in die seisoen meer effektief sal wees vir die bedekking van vatbare trosdele. Soortgelyke
bedekkings patrone is gevind by die binne trosdele (pedisel en ragis). Dit het egter
betekenisvol verskil van die korrelskil, wat betekenisvol meer spuitbedekking as die binne
trosdele gehad het. ’n Variasie komponent analise het getoon dat die meeste variasie gevind
is tussen korrels en trosse, en heelwat minder vir die beeld analise lesings. Om dieselfde
akkuraatheid te behou, is ten minste 10 trosse per behandeling (1 deel per tros en 3 lesings per
deel) nodig.
Vir die bepaling van biologiese effektiwiteit van verskillende vlakke van
spuitbedekking op B. cinerea voorkoms op druiwe, is druiwe gespuit tydens ertjie- en
trostoemaak-stadia met verskillende volumes van ’n mengsel van fenheksamied en die geel
fluorosensie pigment. Die persentasie fluoresensie pigment is bepaal op die pedisels. Trosse
is vervolgens geinokuleer met droë luggedraagde konidia van B. cinerea in ’n inokulasietoring
en geïnkubeer vir 24 h by hoë relatiewe humiditeit (98%). Die voorkoms van B.
cinerea infeksie op gespuite tros dele is bepaal deur middel van isolasies op paraquat en
Kerssies medium. Liniêre regressies vir trosdeel x stadium kombinasies van persentasie B.
cinerea voorkoms op verskillende trosdele is gepas vir gemiddelde bedekkings waardes. ’n
Verhoging in spuit bedekking het ‘n liniêre vermindering van B. cinerea voorkoms op vatbare
trosdele veroorsaak. Verder is hoër vlakke van B. cinerea op paraquat medium as op Kerssies
medium vir beide die groeistadia gevind. Die kennis wat verkry is uit hierdie studie sal
gebruik word om minimum effektiewe spuitbedekkingsvlakke vir die beheer van B. cinerea
op druiwetrosse te bepaal.
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The endopolygalacturonases from Botrytis cinerea and their interaction with an inhibitor from grapevineWentzel, Lizelle 04 1900 (has links)
Thesis (MSc)--University of Stellenbosch, 2005. / ENGLISH ABSTRACT: In the field of agriculture, plant pathogens are a major concern because of the severe damage these organisms cause to crops yearly. Fundamental studies regarding plant pathogens and their modes of action made it possible for researchers in the field of molecular biology to investigate pathogens further on a molecular level. Botrytis cinerea, has been used to great effect as a model system to investigate various aspects regarding pathogenesis, also on a molecular level.
Molecular research done on B. cinerea over the last few years has shown that the endopolygalacturonases (EPGs) of this fungus are key role players in pathogenesis. This hydrolytic enzyme family of six members, encoded by the Bcpg1-6 genes, are important in breaking down the complex cell wall polymers of host plants, enabling the fungus to penetrate its host sufficiently. It has been shown that both BcPG1 and 2 are crucial for virulence of B. cinerea. A leucine-rich repeat inhibitor protein situated in the cell wall of various plant species, the polygalacturonase-inhibiting protein (PGIP), has been proven to interact with and inhibit EPGs, and thus the necrotic actions of B. cinerea. From literature it was clear that specific data regarding individual interactions of fungal EPGs with PGIPs are lacking currently. Furthermore, most experiments regarding the effects of EPG as well as interaction and inhibition studies of EPGs and PGIPs, rely on in vitro methods, without the possibility to contextualize the results on an in vivo or in planta level. The scope of this study was to specifically address the issues of individual EPG:PGIP interactions and the use of possible in vivo methodology by using EPGs from a highly virulent South African strain of B. cinerea and the grapevine VvPGIP1 that has been previously isolated in our laboratory. This PGIP, originally isolated from Vitis vinifera cv Pinotage, has been shown to inhibit a crude EPG extract from this strain with great efficiency. The approach taken relied on heterologous over-expression of the individual Bcpg genes and the isolation of pure and active enzymes to evaluate the inhibition of the EPGs with VvPGIP1. The genes were all successfully over-expressed in Saccharomyces cerevisiae with a strong and inducible promoter, but active enzyme preparations have been obtained only for the encoding Bcpg2 gene, as measured with an agarose diffusion assay. The in vitro PGIP inhibition assay is also based on the agarose diffusion assay and relies on activity of the EPGs to visualize the inhibiting effect of the PGIP being tested. The active EPG2, however, was not inhibited by VvPGIP1 when tested with this assay. The EPG encoding genes from B. cinerea were transiently over-expressed also in Nicotiana benthamiana by using the Agrobacterium-infiltration technique. Transgene expression was confirmed by Northern blot analysis and EPG-related symptoms were observed five to eight days post-infiltration. Differential symptoms appeared with the various EPGs, providing some evidence that the symptoms were not random events due to the infiltration or a hypersensitive response. Moreover, the symptoms observed for EPG2 was similar to those that were reported recently by another group on the same host. In spite of the expression data and the clear symptoms that developed, active preparations, as measured with the agarose diffusion plate asay, could only be obtained for EPG2 again.
In our search for a possible in vivo method to detect and quantify EPG activity and inhibition by PGIPs, we tested and evaluated a technique based on chlorophyll fluorescence to detect the effect of EPGs on the rate of photosynthesis. Our results showed that the over-expression of these genes reduced the rate of electrons flowing through photosystem II, indicating metabolic stress occurring in the plant. We used the same technique to evaluate possible interaction between VvPGIP1 respectively with BcPG1 and 2 and found that the co-expressing of the Vvpgip1 gene caused protection of the infiltrated tissue, indicating inhibition of EPG1 and 2 by VvPGIP1. For EPG2, the observed interaction and possible inhibition by VvPGIP1 is the first report to our knowledge of an interaction between this specific EPG2 and a PGIP. Moreover, to further elucidate the in planta interaction between VvPGIP1 and the EPGs from the South African B. cinerea strain, we tested for possible interactions by making use of a plant two-hybrid fusion assay, but the results are inconclusive at this stage.
Previous studies in our laboratory have shown that several natural mutations exist between PGIP encoding genes from different V. vinifera cultivars. Based on this finding and the fact that these natural mutations could result in changes with regard to EPG inhibition and ultimately disease susceptibility, we isolated an additional 37 PGIP encoding genes from various grapevine genotypes, some of which are known for their resistance to pathogens.
Combined, these results make a valuable contribution to understand plant pathogen interactions, specifically in this case by modeling the interactions of pathogen and plant derived proteins. The possibility to use in vivo methods such as chlorophyll fluorescence to follow these interactions on an in planta level, provides exciting possibilities to strenghten and contextualize in vitro results. / AFRIKAANSE OPSOMMING: Plantpatogene organismes veroorsaak jaarliks erge skade aan landbougewasse en word dus as ’n ernstige probleem in die landbousektor beskou. Diepgaande studies wat handel oor plantpatogene en hul metodes van infeksie het dit vir molekulêre bioloë moontlik gemaak om patogene nou ook op molekulêre vlak verder te bestudeer. Botrytis cinerea is baie effektief as modelsisteem gebruik om verskeie aspekte van patogenese verder te bestudeer, ook op ‘n molekulêre vlak.
Molekulêre navorsing op B. cinerea, het getoon dat die endopoligalakturonases (EPGs) van dié swam kernrolbelangrik in patogenese is. Hierdie sesledige hidrolitiese ensiemfamilie word gekodeer deur die Bcpg1-6 gene en is belangrik vir die afbraak van die komplekse selwandpolimere van plantgashere, om suksesvolle gasheerpenetrasie te veroorsaak. Daar is aangetoon dat beide BcPG1 en 2 essensieël vir virulensie van die patogeen is. ’n Leusienryke-herhalings inhibitorproteïen wat in die selwand van verskeie plantspesies voorkom, die poligalakturonase-inhiberende proteïen (PGIP), het interaksie met en inhibeer EPGs en gevolglik ook die nekrotiserende aksies van B. cinerea. Uit die literatuur is dit duidelik dat spesifieke inligting aangaande individuele interaksies van fungiese EPGs met PGIPs tans nog ontbreek. Verder word daar op in vitro metodologie staatgemaak wannneer die effekte van EPGs asook die interaksie en inhibisie met PGIPs bestudeer word, sonder om die konteks van die in vivo- of in planta-omgewing in ag te neem. Die fokus van hierdie studie was om aspekte van individuele EPG:PGIP interaksies, asook die moontlike gebruik van in vivo metodologie te bestudeer deur EPGs, afkomstig van ’n hoogs virulente Suid-Afrikaanse ras van B. cinerea en die wingerd VvPGIP1, wat vroeër in ons laboratorium geïsoleer is, te gebrruik. Hierdie PGIP wat uit Vitis vinifera cv Pinotage geïsoleer is, inhibeer ’n kru EPG-ekstrak van bogenoemde ras baie effektief. Die benadering wat gevolg is het op die ooruitdrukking van die individuele Bcpg-gene in heteroloë sisteme staatgemaak en die gevolglike isolering van suiwer en aktiewe ensieme om EPG-inhibisie deur VvPGIP1 te beoordeel. Al die gene is suksesvol in Saccharomyces cerevisiae ooruitgedruk onder ’n sterk induseerbare promotor, maar volgens ’n agarose-diffundeerbare toets kon aktiewe ensiempreparate slegs vir die enkoderende Bcpg2 verkry word. Die in vitro PGIP-inhibisie toets is ook op die gemelde toets gebasseer en vereis EPG-aktiwiteit om die inhiberende effek van die PGIP, te visualiseer. Die aktiewe EPG2 is egter nie deur VvPGIP1 geïnhibeer met die aanleg van hierdie toets nie. Die EPG-enkoderende gene van B. cinerea is ook tydelik in Nicotiana benthamiana ooruitgedruk deur gebruik te maak van ’n Agrobacterium-infiltrasietegniek. Transgeenuitdrukking kon met die Noordelike kladtegniek bevestig word en EPG-verwante simptome is vyf tot agt dae na infiltrasie waargeneem. Verskillende simptome vir die verskillende EPGs is waargeneem, wat aanduidend is dat die simptome nie lukrake gevolge van die infiltrasies, of ’n hipersensitiewe respons is nie. Verder kon die simptome wat EPG2 vertoon het, gekorreleer word met dié wat onlangs deur ’n ander groep op dieselfde gasheer waargeneem is. Ten spyte van die ekspressiedata en die waargenome simptome, kon aktiewe ensiempreparate op die agarose-diffundeerbare toets, weereens slegs vir EPG2 waargeneem word.
’n Metode wat gebasseer is op chlorofilfluoressensie is getoets en geëvalueer as ’n moontlike in vivo metode om EPG aktiwiteit en inhibisie deur PGIPs waar te neem en te kwantifiseer. Die resultate het bevestig dat die ooruitdrukking van hierdie gene die elektronvloeitempo deur fotosisteem II verminder het wat ’n aanduiding is dat metaboliese stres in die plant heers. Dieselfde tegniek is gebruik om die moontlike interaksies tussen BcPG1 en 2 en VvPGIP1 te bestudeer en het aangetoon dat die mede-uitdrukking van die Vvpgip1-geen aanleiding gee tot ’n beskermende effek van die geinfiltreerde weefsel, wat aanduidend is van inhibisie van EPG1 en 2 deur VvPGIP1. In die geval van EPG2 is hierdie interaksie en moontlike inhibisie met ’n PGIP die eerste waarneming in die verband. In ’n verdere poging om die in planta-interaksie tussen VvPGIP1 en die EPGs van die Suid-Afrikaanse B. cinerea ras uit te klaar, is ’n plantgebasseerde twee-hibriede toets aangelê, maar geen klinkklare resultate kon verkry word nie.
Vorige werk het bevestig dat verskeie natuurlike mutasies in PGIP-enkoderende gene, afkomstig van verskillende V. vinifera kultivars, voorkom. Hierdie resultaat en die feit dat hierdie mutasies verskille in EPG inhibisie en uiteindelik vatbaarheid vir siektes kan beïnvloed, het aanleiding gegee tot die isolering van ’n verdere 37 PGIP-enkoderende gene uit ‘n verskeidenheid druifplantgenotipes, sommige waarvan juis bekend vir hul weerstand teen patogene is.
Die gekombineerde resultate wat in dié studie verkry is, maak ’n waardevolle bydrae tot die verstaan van plant-patogeeninteraksies, spesifiek met die modelering van interaksies van patogeen- en plantgebasseerde proteïene. Die moontlikheid om in vivo-metodes soos chlorofilfluoressensie te gebruik in in planta-analises, is besonder bemoedigend om in vitro-resultate te versterk en ook in konteks te plaas.
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Optimisation of fungicide spray coverage on grapevine and the incidence of Botrytis cinereaBrink, Johannes Cornelius (Jan-Cor) 03 1900 (has links)
Thesis (PhD(Agric))--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Despite adherence to fungicide spray schedules and label recommendations, table
and wine grape producers invariably suffer crop losses when environmental conditions
are conducive to fruit and foliar pathogens. Registered fungicides are effective and poor
control is often attributed to: 1) improper spray timing, 2) reduced sensitivity to
fungicides in the pathogen populations, and 3) poor spray deposition. Spray timing,
management of fungicide resistance and the epidemiology of Botrytis cinerea have been
thoroughly researched under South African conditions on grape crops. However, limited
research regarding spray deposition exists in South Africa, probably due to a lack of
proper spray deposition assessment protocols.
To determine minimum spray deposition quantity and quality levels needed for
effective B. cinerea control, bunches and leaves of table (Waltham Cross) and wine
grapes (Chenin blanc) were sprayed at various stages using different volumes with a
precision spray gun. A deposition assessment protocol using fluorometry,
photomicrography and digital image analyses was improved. Deposition values correlated
favourably with Botrytis infection. Increasing spray volume increased spray deposition;
however, at a certain point, deposition quality remained constant and B. cinerea
infections did not decrease significantly with increasing spray volume, indicating the
importance of both spray deposition quantity and quality. Fluorescent pigment area that
effected 75% control of B. cinerea infection (FPC75 values) was calculated for leaves,
pedicels and receptacles at different growth stages. The FPC75 values obtained in this
study can be used as benchmarks to evaluate future spray application.
In order to study the optimisation of spray deposition with existing application
technology (air blast and air shear sprayers) in commercial vineyards, spray deposition
quantity and quality values were assessed from leaves and structural bunch parts of wine
(Chenin blanc) and table grapes (Waltham Cross) and compared with FPC75 values.
Spray trials were conducted at different growth stages at current best-practice
recommendations, and with a range of spray volumes but with spray mixture
concentration amended accordingly (i.e. fixed dosage per hectare). Spray trails indicated that deposition levels following current best-practice spray application were sub-optimal
to control B. cinerea infections on bunches and leaves.
Deposition values between air blast and air shear sprayers were generally similar.
The air blast sprayer resulted in higher deposition levels with diluted spraying and
increased spray volume; however, when dosage per hectare was kept constant, no
significant differences were calculated between spray volumes (250-1000 L/ha),
indicating that this sprayer can as effectively but more efficiently be used at lower spray
volume. The air shear were not as efficient at higher spray volumes (>500 L/ha), but was
superior at low volume concentrate application (≈250 L/ha at 4× concentration). This
study clearly demonstrated the efficacy and cost-saving potential in optimising spray
application with respect to application technology. / AFRIKAANSE OPSOMMING: Wingerdprodusente kan oesverliese ondervind indien omgewingstoestande
bevorderlik is vir swampatogene. Siektes word onvoldoende beheer ten spyte van die
nakoming van korrekte swamdoder aanbevelings. Geregistreerde swamdoders is
effektief, mits die vatbare plantdele voldoende spuitbedekking ontvang. Onvoldoende
siekte beheer kan gewoonlik toegeskryf word aan: 1) verkeerde spuit tydsberekening, 2)
vermindere sensitiwiteit in patogeen-populasies teen swamdoders, en 3) swak
spuitbedekking. Spuit tydsberekening, die bestuur van weerstand teen swamdoders en die
epidemiologie van Botrytis cinerea is deeglik onder Suid-Afrikaanse toestande nagevors.
Nietemin is daar beperkte navorsing oor spuitbedekking, waarskynlik weens 'n gebrek aan
behoorlike spuitbedekking assesseringsprotokol.
Om te bepaal hoeveel spuitbedekking (% area bedek deur fluoresserende pigment)
nodig is om 75% van B. cinerea infeksies (FPC75 waardes) op vatbare wingerddele te
beheer, is druiwetrosse en blare van tafel- en wyndruiwe (Waltham Cross en Chenin
blanc, onderskeidelik) op verskillende groei stadiums en spuitvolumes in die laboratorium
gespuit. ‘n Assesseringsprotokol van spuitbedekking op vatbare druifdele en blare is
ontwikkel deur gebruik te maak van fluorometrie, fotomikrografie en digitale
beeldanalise. Spuitbedekking het goed met Botrytis infeksies gekorreleer. Toenemende
spuitvolume het bedekking laat toeneem, maar egter net tot 'n sekere punt, waar die
kwantiteit van die bedekking nog toegeneem het, maar die kwaliteit van bedekking en B. cinerea infeksies nie beduidend toegeneem het nie. Dit is ‘n aanduiding van die
belangrikheid van beide die kwantiteit en kwaliteit van spuitbedekking. Die FPC75
waardes wat in hierdie studie verkry is, kan as drempelwaardes om toekomstige
spuittoediening te evalueer, gebruik word.
Ten einde spuitbedekking met bestaande tegnologie (druk en waaierpomp
spuitmasjiene) te optimiseer, is kommersiële wyn- en tafeldruiwe (Chenin blanc en
Waltham Cross, onderskeidelik), volgens huidige spuit aanbevelings vir wingerde tydens
verskillende groeistadiums en met ‘n reeks van verskillende spuitvolumes gespuit. Die
konsentrasie van die spuitmengsel is dienooreenkomstig gewysig, i.t.v. ‘n vaste dosis per
hektaar ongeag die spuitvolume. Bedekkingswaardes is met FPC75 waardes vergelyk en
het aangedui dat kommersiële spuit aanbevelings aan produsente sal lei tot sub-optimale
beheer van B. cinerea op beide blare en druiwetrosse.
In die algemeen was bedekkingswaardes vir beide druk- en waaierpomp
spuitmasjiene soortgelyk. Vir die waaierpomp teen verskillende spuitvolumes en
aanbevole konsentrasie het ‘n toename in spuitvolumes tot hoër beddekingswaardes gelei,
maar indien die dosis per hektaar van die spuitmengsel konstant behou is, is geen
betekenisvolle verskille tussen spuitvolumes (250-1000 L/ha) voorspel nie. Hierdie dui
aan dat die waaierpomp net so doeltreffend, maar meer effektief teen laer spuitvolumes
gebruik kan word. Die drukpomp was nie so doeltreffend teen hoër spuitvolumes (> 500
L/ha) nie, maar was aansienlik beter by lae volume konsentraat toediening (≈ 250 L/ha op
4 × konsentrasie). Die studie toon duidelik die doeltreffendheid en moontlike kostebesparing
moontlikhede deur bespuiting relatief tot bespuitingstegnologie te optimiseer. / Department of Plant Pathology, National Research Foundation, THRIP, Deciduous Fruit
Producers’ Trust, Winetech, Bayer, BASF, Dow Agrosciences, DuPont, Syngenta, Nexus,
Terason, UAP and Wenkem for financial assistance
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Commercial Bumble Bees as Vectors of the Microbial Antagonist Clonostachys rosea for Management of Botrytis Blight in Wild Blueberry (Vaccinium angustifolium)Reeh, Kevin 10 May 2012 (has links)
Greenhouse and laboratory experiments in 2011 determined that Clonostachys rosea can effectively prevent Botrytis cinerea infection in Vaccinium angustifolium blossoms. In vitro testing demonstrated that C. rosea germination was not significantly affected by the presence of Switch®, but was by either Pristine® or Maestro®. Field experiments completed during the summer of 2010 and 2011 indicated that the dispenser designs tested had no significant effects on Bombus impatiens foraging behaviours, aside from hive-activity. There was also no difference in the quantity of C. rosea applied by each to bees, the distribution of product in the field, or for blossoms exposed to bees from each dispenser to resist infection by B. cinerea. However, B. cinerea prevalence in blossoms from both treatments was significantly different from the control, with infection reduced by 10-20%. Technical issues with dispensers currently appear to be the limiting factor for application within commercial wild blueberry production.
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Biology of Botrytis cinerea infecting waxflower (Chamelaucium) flowers and potential elicitation of host defence in this pathosystemSon-Quang Dinh Unknown Date (has links)
Waxflower (Chamelaucium spp. and hybrids) is the singlemost important Australian export cut-flower. The major problem in waxflower trading is flower abscission after harvest. While several factors are involved, ethylene production resulting from preharvest infection with the fungus Botrytis cinerea is the most important cause. The general objectives of this study were to investigate the biology of Botrytis infecting waxflower flowers and potential elicitation of host defence against this pathogen. Effects of anti-ethylene and S-carvone treatments on Botrytis-induced flower abscission were also evaluated. Infection of flowers by Botrytis was studied on two waxflower cvs. Mullering Brook and My Sweet Sixteen using light and electron microscopy. Conidial germination and protoappressorial formation occurred within 8 h post-inoculation (hpi). Infection of most floral organs, including petals, anthers and filaments, stigma, and hypanthium, was within 24 hpi. Infection cushions on stamen bases were formed at 36 hpi by saprophytic hyphae that originated from anthers. This infection route probably gives rise to the typical tan-coloured Botrytis symptoms that appear to radiate from this part of the flower. Subcuticular hyphae were present at very high density near stamen bases. They evidently resulted at multiple penetrations from single infection cushions. Flower abscission occurred at 72 hpi. At this time, floral tube tissues remained uninfected. This temporal pattern infers the possible transmission of a signal (e.g. ethylene) upon Botrytis infection (6–36 hpi) that intiates a defence response of shedding infected flowers (72 hpi). Susceptibility of waxflower before and after harvest to B. cinerea under various environmental conditions (laboratory, greenhouse, and field) was investigated. Flowers, either on plants or on cut stems showed similar susceptibility to B. cinerea and abscised under cool temperatures (~20 ºC) and high humidity (>95% RH) conditions following infection. Compared to cv. Mullering Brook, cv. My Sweet Sixteen was somewhat more resistant to B. cinerea infection under field conditions. Constitutive and inducible antifungal compounds in waxflower flower tissues were screened in cvs. CWA Pink, Stephan’s Delight, Mullering Brook and My Sweet Sixteen using thin layer chromatography bioassays with isolates of B. cinerea and Alternaria alternata (pathogenic) and Cladosporium cladosporioides (non-pathogenic). Common inhibition zone observed at Rf 0.28–0.38, 0.46–0.56 and 0.67–0.76 contained phenolic compounds. There were at least five (cv. Mullering Brook) and one (cv. My Sweet Sixteen) inducible antifungal phenolic compounds as judged by increases in inhibition area as a result of B. cinerea infection and methyl jasmonate treatment. The total areas of B. cinerea- and MeJA-induced inhibition zones were approximately 2.0- and 2.5-folds greater, respectively, than zones from control flowers. Preharvest sprays of three different known host plant defence elicitors, methyl jasmonate (MeJA), benzothiadiazole (BTH), and silicon (Si), were applied to waxflower cvs. Mullering Brook and My Sweet Sixteen plants. BTH or Si sprays generally had no significant effect on postharvest Botrytis severity on either cultivar. MeJA sprays did not reduce B. cinerea on cv. Mullering Brook. MeJA slightly suppressed B. cinerea on cv. My Sweet Sixteen at 500 and 750 µM. Overall, field applications of these host plant defence elicitor chemicals as spray treatments had little effect on vase life, water uptake and relative fresh weight of the cut sprigs. Moreover, they did not appreciably suppress B. cinerea or associated postharvest floral abscission. The efficacy of combined elicitor treatments and combined pre- and postharvest MeJA treatments were assessed. Preharvest foliar applications of MeJA (1000 µM; 2 or 4 times), MeJA (1000 µM) combined with BTH (150 mg/L), and MeJA combined with Si (1500 mg SiO2/L) generally did not suppress postharvest B. cinerea development and flower abscission from harvested sprigs. A pre- plus post-harvest 1000 µM MeJA spray treatment consistently but only slightly suppressed B. cinerea infection on flowers from both pot- and field-grown plants. Pre- and post-harvest MeJA treatments reduced B. cinerea development, but increased flower abscission. Combined MeJA and anti-ethylene treatments were then screened for potential to suppress B. cinerea while preventing flower abscission. However, the combined MeJA and 1-MCP treatment reduced neither Botrytis disease nor flower abscission on sprigs from pot- and field-grown plants. The combined MeJA and STS treatment reduced disease severity for up to 6 days on sprigs harvested from pot-grown plants but tended to increase Botrytis severity on sprigs from field-grown plants 6 days after inoculation. Antifungal effects of the essential oil S-carvone against B. cinerea germination and mycelial growth were demonstrated in vitro. Inhibition increased with increasing S-carvone concentrations from 0.64 mM to 5.08 mM. However, in planta, S-carvone concentrations in this range did not affect either Botrytis disease levels or flower abscission on cut waxflower flowers.
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