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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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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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Nitrogen fertilization of the host plant influences susceptibility, production and aggressiveness of Botrytis cinerea secondary inoculum and on the efficacy of biological control / Effet de différents nutritifs sur la sensibilité des plantes aux pathogènes et sur l'efficacité de la lutte biologiqueAbro, Manzoor Ali 07 March 2013 (has links)
L'azote est connu pour influencer la sensibilité de certaines plantes à diverses maladies. Dans le cas des maladies causées par Botrytis cinerea, le rôle de la fertilisation azotée semble être variable, avec des niveaux élevés favorisant ou réduisant la gravité en fonction des études. Pour vérifier si cette variabilité pourrait être due à des différences possibles entre plantes hôtes, à la pression d'inoculum ou à un comportement différent de différentes souches de l'agent pathogène, des études ont été menées pour évaluer l'effet de différents régimes de fertilisation azotée sur la sensibilité de la tomate et de la laitue à six isolats de B. cinerea. Des effets épidémiologiques éventuels de la fertilisation azotée à travers la sporulation du pathogène et la pathogénicité de l'inoculum secondaire ont également été étudiés sur la tomate. Les plantes ont été cultivées dans un système hors-sol fertirrigué au goutte à goutte. Une nutrition azotée différentielle allant de 0,5 à 30 mM de nitrate a été appliquée pendant les quatre dernières semaines avant l'inoculation des plantes sur des feuilles (laitue) ou sur des plaies d'effeuillage (tomates). Après inoculation, les plantes ont été incubées dans des conditions propices au développement de la maladie. Sur la tomate, l'apparition de la maladie a été retardée et la sévérité globale des symptômes était plus faible pour tous les isolats aux doses de fertilisation azotée les plus élevées, indépendamment de la concentration d'inoculum. Toutefois, le taux d'expansion des lésions sur tige a été affecté différemment selon les souches, diminuant avec des niveaux croissants de fertilisation azotée pour les isolats les plus agressifs, mais augmentant pour les isolats moins agressifs. En contraste avec la tomate, la fertilisation azotée a augmenté la sévérité de la maladie sur la laitue pour tous les isolats testés. La sporulation de B. cinerea sur tomate a diminué significativement avec l'augmentation de la fertilisation azotée des plantes jusqu'à 15-30 mM de nitrate et la pathogénicité des spores a été fortement influencée par l'état nutritionnel de leur substrat de production. Elle était la plus élevée pour les spores produites sur des plantes ayant reçu des niveaux de fertilisation azotée très faibles ou très élevés (0,5 ou 30 mM nitrate) et la plus faible pour celles produites sur des plantes ayant reçu une fertilisation azotée modérée. La fertilisation des plantes a aussi fortement affectée l'efficacité de deux agents de lutte biologique (Trichoderma atroviride et Microdochium dimerum) à protéger les plaies d'effeuillage de la tomate contre B. cinerea. Les plus hauts niveaux de protection ont été obtenus avec la fertilisation azotée élevée et ceci a pu être lié à un retard dans le développement des symptômes sur les tiges, parfois associé à un ralentissement de l'expansion des lésions. Des études histologiques ont montré que la diminution de la gravité de la maladie sous fertilisation azotée élevée a été associée à une altération structurelle des cellules du mycélium de Botrytis. En présence d'un agent de lutte biologique, l'effet de l'agent pathogène a été en outre associé à une vacuolisation, dépôt de glycogène et mort des cellules mycéliennes. Les hypothèses pour expliquer ces résultats sont discutées à la lumière des effets physiologiques possibles de la fertilisation azotée sur la disponibilité des nutriments pour l'agent pathogène dans les tissus de l'hôte et de la production possible de métabolites de défense de la plante. Ces résultats ouvrent de nouvelles perspectives pour manipuler la fertilisation azotée comme un outil pour la protection intégrée des cultures maraîchères / Nitrogen (N) fertilization is known to influence the susceptibility of many plants to a variety of diseases. In the case of diseases caused by Botrytis cinerea, the role of N fertilization appears to be variable, with high levels either fostering or reducing severity depending on the studies. To test whether this variability could be due to possible differences in the host plants, inoculum pressure or in the behavior of different strains of the pathogen, studies were carried out to investigate the effect of different N fertilization regimes on the susceptibility of tomato and lettuce to six isolates of B. cinerea. Possible epidemiological effects of N fertilization through the sporulation of the pathogen and on the pathogenicity of resulting secondary inoculum were also investigated on tomato. Plants were grown in a soil-less drip-irrigation system. Differential N nutrition ranging from 0.5 to 30 mM NO3- was applied for the last four weeks prior to inoculation on the leaves (lettuce) or on leaf pruning wounds (tomato) and incubation of the plants in conditions conducive to disease development. On the tomato stems, disease onset was delayed and overall severity was lower for all isolates on plants with higher N inputs, regardless of inoculum concentration. However, the rate of stem lesion expansion was differentially affected depending on the strains, decreasing with increasing N fertilization levels for the more aggressive isolates, while increasing for the less aggressive isolates.In contrast with tomato, high N fertilization increased disease severity on lettuce for all isolates tested. On tomato plant tissue, sporulation of B. cinerea decreased significantly with increasing N fertilization up to 15-30 mM NO3- and the pathogenicity of the spores was significantly influenced by the nutritional status of their production substrate. It was highest for spores produced on plants with very low or very high N fertilization (0.5 or 30 mM NO3-) and lowest for those from plants with moderate levels of N fertilization. Plant fertilization also strongly affected the efficacy of two biocontrol agents (Trichoderma atroviride and Microdochium dimerum) to protect pruning wounds of tomato against B. cinerea. The highest levels of protection were obtained with high N fertilization and related to a delay in symptom development on the stems, sometimes associated with a slowdown in lesion expansion. Histological studies showed that the decrease in disease severity at high N fertilization was associated to structural alteration of Botrytis mycelial cells. In the presence of a biocontrol agent, the effect on the pathogen was further associated to vacuolisation, glycogen deposition and mycelial cell death. Hypotheses to explain these results are discussed in light of the possible physiological effects of nitrogen fertilization on nutrient availability for the pathogen in the host tissue and of possible production of defense metabolites by the plant. These results also open new possibilities for including the manipulation of N fertilization as a tool for the integrated protection of vegetable crops
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BIOLOGY, EPIDEMIOLOGY AND MODELLING OF BOTRYTIS CINEREA PERS.:FR., THE CAUSAL AGENT OF GREY MOULD IN GRAPEVINECILIBERTI, NICOLA 28 January 2015 (has links)
Gli obbiettivi di questa tesi di dottorato erano: i) valutare l’effetto di differenti condizioni ambientali sulla biologia ed epidemiologia di isolati di B. cinerea appartenenti alle sub-popolazioni transposa e vacuma, e ii) sviluppare un nuovo modello previsionale per predire il rischio di muffa grigia nei vigneti tra le fasi fenologiche di sviluppo delle infiorescenze e maturazione dei grappoli.
Gli effetti della temperatura, durata di bagnatura e umidità relativa sulle infezioni di infiorescenze e bacche di Vitis vinifera sono stati valutati con inoculazioni artificiali di isolati di B. cinerea. Gli effetti della temperatura, attività dell’acqua, umidità relativa e composizione delle bacche di uva sulla germinazione dei conidi, crescita miceliale e produzione di conidi sono stati valutati su substrati artificiali. I risultati evidenziano che la capacità di causare infezioni varia con gli isolati indipendentemente dall’appartenenza alle sub-popolazioni transposa o vacuma. Inoltre, le risposte dei differenti isolati al variare delle condizioni ambientali risultano essere simili.
Basandosi sui risultati ottenuti sono state sviluppate equazioni matematiche per spiegare l’effetto dei fattori ambientali sull’incidenza delle infezioni di infiorescenze e bacche, germinazione dei conidi, crescita miceliale e produzione di conidi. Un nuovo modello previsionale è stato sviluppato per predire le infezioni di Botrytis cinerea nei vigneti utilizzando le equazioni sviluppate e seguendo un approccio meccanicistico. Il modello è stato validato per 6 anni (2009-2014) in 13 vigneti localizzati in Italia e Francia. Il nuovo modello risulta essere più completo di quelli proposti finora in letteratura e può essere utilizzato per migliorare le strategie di controllo della muffa grigia nei vigneti. / The aims of this Doctoral work were: i) to investigate the effect of different environmental conditions on biology and epidemiology of B. cinerea strains belonging the two transposon types vacuma and transposa, and ii) develop a new weather-driven mechanistic model in order to predict risk of grey mould in vineyards from early growth of inflorescences to berry ripening.
The effect of temperature, wetness duration and relative humidity on infection of Vitis vinifera inflorescences and berries was investigated by artificial inoculation of B. cinerea strains. The effect of temperature, water activity, relative humidity and grape berry composition on conidia germination, colony growth and conidial production was investigated in agar-medium. The results showed that the ability to cause infection was a strain rather than a transposon genotype attribute. Moreover, the general response to different environmental conditions is similar among different B. cinerea strains.
Based on these data, equations were developed to account the combined effects of environmental factors on infection incidence, conidia germination, colony growth and conidial production. A new previsional model for Botrytis cinerea infections on grapevine was elaborated using the equations developed and following a mechanistic approach. The model was validated over a 6-year period (2009 to 2014) in 13 vineyards located in different grape-growing areas of Italy and France. The model is more complete than the others proposed in literature and represents an improvement to control grey mould in vineyards.
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Genetic characterization and fungicide resistance profiles of Botrytis cinerea in rooibos nurseries and pear orchards in the Western Cape of South AfricaWessels, 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.
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