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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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Molecular detection of Phaeomoniella chlamydospora in grapevine nurseriesRetief, Estianne 04 1900 (has links)
Thesis (MScAgric)--University of Stellenbosch, 2005. / ENGLISH ABSTRACT: Phaeomoniella chlamydospora is the main causal organism of Petri disease, which causes
severe decline and dieback of young grapevines (1-7 years old) and also predisposes the wood
for infection by other pathogens. Knowledge about the epidemiology and especially inoculum
sources of this disease is imperative for subsequent development of management strategies.
Through isolation studies it was shown that Pa. chlamydospora is mainly distributed through
infected propagation material in South Africa. However, the infection pathways and inoculum
sources in grapevine nurseries are still unclear. The only existing method to detect this pathogen
in various media is by means of isolation onto artificial growth media. This has proven to be
problematic since this fungus is extremely slow growing (up to 4 weeks from isolation to
identification) and its cultures are often over-grown by co-isolated fungi and bacteria before it
can be identified. The aim of this study was (i) to develop a protocol for the molecular detection
of Pa. chlamydospora in grapevine wood, and (ii) to use this protocol along with others, to test
different samples (water, soil, rootstock and scion cuttings and callusing medium) collected from
nurseries in South Africa at different nursery stages for the presence of Pa. chlamydospora.
A protocol was developed and validated for the molecular detection of Pa.
chlamydospora in grapevine wood. Firstly, several previously published protocols were used to
develop a cost-effective and time-efficient DNA extraction method from rootstock pieces of
potted grapevines. Subsequently, PCR amplification using species-specific primers (Pch1 and
Pch2) was found to be sensitive enough to detect as little as 1 pg of Pa. chlamydospora genomic
DNA from grapevine wood. The protocol was validated using various grapevine material from 3
different rootstock cultivars (101-14 Mgt, Ramsey and Richter 99) collected from each of 3
different nurseries, including grapevines that were subjected to hot water treatment. The basal
end of the rootstock was parallel analysed for Pa. chlamydospora using isolations onto artificial
medium and molecular detection. The identity of PCR products obtained from a subset of
samples, that only tested positive for Pa. chlamydospora based on molecular detection, was
confirmed to be Pa. chlamydospora specific through restriction digestion with AatII. Molecular
detection was found to be considerably more sensitive than isolations, detecting Pa. chlamydospora from samples with positive as well as negative isolations. On average, the
molecular technique detected Pa. chlamydospora in 80.9% of the samples, whereas only 24.1%
of the samples tested positive for Pa. chlamydospora by means of isolations. Pa. chlamydospora
was not isolated from hot water treated samples. The results confirm the importance of hot water
treatment for proactive management of Petri disease in grapevine nurseries. However, Pa.
chlamydospora DNA was molecularly detected in hot water treated samples in frequencies
similar to that detected in non-hot water treated samples. As expected, the DNA in hot water
treated plants was not destroyed and could be detected by the developed molecular detection
protocol. This is an important consideration when using molecular detection for disease
diagnosis or pathogen detection and shows that these methods should be used in conjunction
with other diagnostic tools. Most importantly, the DNA extraction protocol was shown to be 10
to 15 times cheaper than commercial DNA extraction kits.
Preliminary studies showed that the aforementioned molecular detection technique was
not specific and sensitive enough for detection of Pa. chlamydospora in soil and water
(unpublished data). Therefore, a one-tube nested-PCR technique was optimised for detecting Pa.
chlamydospora in DNA extracted from soil, water, callusing medium and grapevine wood.
Rootstock cane sections and soil samples were taking from the mother blocks from several
nurseries. Water samples were collected from hydration and fungicide tanks during pre-storage
and grafting. Scion and rootstock cuttings were also collected during grafting and soil were
collected from the nursery beds prior to planting. The one-tube nested-PCR was sensitive
enough to detect as little as 1 fg of Pa. chlamydospora genomic DNA from water and 10 fg from
wood, callusing medium and soil. PCR analyses of the different nursery samples revealed the
presence of several putative Pa. chlamydospora specific bands (360 bp). Subsequent sequence
analyses and/or restriction enzyme digestions of all 360 bp PCR bands confirmed that all bands
were Pa. chlamydospora specific, except for five bands obtained from callusing media and one
band from water. Considering only Pa. chlamydospora specific PCR bands, the molecular
detection technique revealed the presence of Pa. chlamydospora in 25% of rootstock cane
sections and 17% of the soil samples collected from mother blocks, 42% of rootstock cuttings
collected during grafting, 16% of scion cuttings, 40% of water samples collected after the 12-
hour pre-storage hydration period, 67% of water samples collected during grafting and 8% of the
callusing medium samples. These media should therefore be considered as potential inoculum
sources or infection points of the pathogen during the nursery stages. The results furthermore
confirmed previous findings that Pa. chlamydospora is mainly distributed through infected
rootstock canes and cuttings. Infected scion cuttings were also shown to be potential carriers of the pathogen. Management strategies should include wound protection of rootstock mother
plants, eradicating this pathogen from rootstock-cuttings (e.g. hot water treatment), biological or
chemical amendments in the hydration water and callusing medium and wound protection from
soil borne infections. / AFRIKAANSE OPSOMMING: Phaeomoniella chlamydospora is die hoof veroorsakende organisme van Petri se siekte
wat lei tot die agteruitgang en terugsterwing van jong wingerdplante (1-7 jaar oud) en veroorsaak
verhoogde vatbaarheid van hout vir infeksie deur ander patogene. Kennis oor die epidemiologie
en veral die inokulumbronne van die siekte is noodsaaklik vir die daaropvolgende ontwikkeling
van beheerstrategieë. Isolasies het getoon dat Pa. chlamydospora meestal versprei deur middel
van geïnfekteerde voortplantingsmateriaal in Suid-Afrika. Die infeksieweë en inokulumbronne
in wingerdkwekerye is egter steeds onbekend. Die enigste bestaande metode vir die opsporing
van die patogeen, in verskeie mediums, is deur middel van isolasie op kunsmatige
groeimediums. Dit is egter gevind om problematies te wees aangesien die swam uiters stadig
groei (dit vat tot 4 weke vanaf isolasie tot identifikasie) en die kulture is telkens oorgroei deur
ander organismes voordat identifikasie kan plaasvind. Die doel van die studie was (i) om ‘n
protokol te ontwikkel vir die molekulêre opsporing van Pa. chlamydospora in wingerdhout, en
(ii) om die protokol te gebruik, saam met ander, om verskillende monsters (water, grond,
onderstok- en bostok-ente en kallusmedium) te toets, wat versamel is van kwekerye in Suid-
Afrika, tydens verskillende kwekerystadiums, vir die teenwoordigheid van Pa. chlamydospora.
‘n Protokol is ontwikkel en geverifieer vir die molekulêre opsporing van Pa.
chlamydospora in wingerdhout. Eerstens is verskeie protokols wat voorheen gepubliseer is, is as
grondslag gebruik vir die ontwikkeling van ‘n ekonomiese en tydbesparende DNA ekstraksie
protokol. Hierna is PKR (polimerase ketting reaksie) amplifikasie met spesie-spesifieke inleiers
(Pch1 en Pch2) gevind om sensitief genoeg te wees om so min as 1 pg van Pa. chlamydospora
genomiese DNA van wingerdhout op te spoor. Die protokol is geverifieer deur verskeie
wingerdhoutmateriaal van 3 verskillende onderstokkultivars (101-14 Mgt, Ramsey en Richter
99) te gebruik, wat elk versamel is van 3 verskillende kwekerye. ‘n Aantal van die wingerstokke
is ook onderwerp aan warmwaterbehandeling. Die basale kant van die onderstok is parallel
geanaliseer vir Pa. chlamydospora deur gebruik te maak van isolasies op kunsmatige
groeimedium asook molekulêre opsporing. Die identiteit van ‘n submonster van PKR produkte
van verskeie monsters, wat slegs positief getoets het vir Pa. chlamydospora met die molekulêre opsporing, is bevestig om Pa. chlamydospora spesifiek te wees. Dit is gedoen deur middel van
restriksie ensiem analise met AatII. Molekulêre opsporing is gevind om aansienlik meer
sensitief te wees as isolasies, deurdat Pa. chlamydospora opgespoor is van positiewe sowel as
negatiewe isolasies. Die molekulêre tegniek het Pa. chlamydospora in ‘n gemiddeld van 80.9%
van die monsters opgespoor, terwyl slegs ‘n gemiddeld van 24.1% van die monsters postief
getoets het vir Pa. chlamydospora, deur middel van isolasies. Pa. chlamydospora is nie
geïsoleer van die monsters wat warmwaterbehandeling ondergaan het nie. Die resultate bevestig
hoe belangrik warmwaterbehandeling is vir die proaktiewe beheer van Petri se siekte in
wingerdkwekerye. Pa. chlamydospora DNA is met die molekulêre tegniek opgespoor, in
warmwaterbehandelde monsters, in getalle wat ooreenstemmend is met die van niewarmwaterbehandelde
monsters. Soos verwag, is DNA in warmwaterbehandelde plante nie
vernietig nie en kon dit telke male opgespoor word deur die ontwikkelde molekulêre opsporing
protokol. Dit is ‘n belangrike feit wat in ag geneem moet word wanneer molekulêre opsporing
gebruik word in siekte diagnose en opsporing van patogene en dit is ‘n aanduiding dat die
metodes gebruik moet word in samewerking met ander diagnostiese tegnieke. Die DNA
ekstraksie protokol het getoon om tot en met 10 tot 15 kere goedkoper te wees as kommersiële
DNA ekstraksie pakkette.
Voorlopige studies het getoon dat die bogenoemde molekulêre opsporings tegniek nie
spesifiek en sensitief genoeg is vir die opsporing van Pa. chlamydospora uit grond en water nie
(ongepubliseerde data). Daarom is ‘n enkel-buis geneste-PKR tegniek geoptimiseer vir die
opsporing van Pa. chlamydospora DNA wat geëkstraheer is vanaf grond, water, kallusmedium
en wingerdhout. Dele van onderstokke en grond monsters is geneem vanaf moederblokke van
verskeie kwekerye. Gedurende die voor-opberging en enting periodes is watermonsters
versamel vanaf hidrasie en fungisied tenke. Bostok- en onderstokente is ook versamel
gedurende enting en grond is versamel vanaf kwekerybeddens net voor uitplanting. Die enkelbuis
geneste-PKR was sensitief genoeg om so min as 1 fg van Pa. chlamydospora genomiese
DNA vanaf water en 10 fg vanaf hout, kallusmedium en grond op te spoor. PKR analise van die
verskillende kwekerymonsters het getoon dat daar ‘n teenwoordigheid is van verskeie putatiewe
Pa. chlamydospora spesifieke bande (360 bp). Daaropvolgende analise deur middel van DNA
volgordebepaling en restriksie ensiem analise het bevestig dat al die 360 bp PKR bande wel Pa.
chlamydospora spesifiek is, behalwe vir vyf bande wat verkry is vanaf kallusmedium en een
band verkry vanaf water. As slegs Pa. chlamydospora spesifieke bande in ag geneem word, is
daar met molekulêre opsporing die teenwoordigheid van Pa. chlamydospora gevind in 25% van
die onderstokke, 17 % van die grond versamel vanaf moederblokke, 42% van die onderstokente versamel tydens enting, 16% van die bostokente, 40% van die watermonsters versamel voor die
12-uur hidrasie periode, 67% van die watermonsters versamel gedurende enting en 8% van die
kallusmediummonsters. Hierdie mediums moet dus beskou word as potensiële inokulumbronne
of infeksiepunte van die patogeen gedurende die kwekerystadiums. Die resultate bevestig ook
verdere bevindinge wat aandui dat Pa. chlamydospora meestal versprei word deur geïnfekteerde
onderstokke en ente. Geïnfekteerde bostokente is ook aangedui om potensiële draers van die
patogeen te wees. Beheerstrategieë moet dus wondbeskerming van onderstok moederplante
insluit, asook uitwissing van die patogeen vanaf onderstokente (bv. warmwaterbehandeling),
toediening van biologiese of chemiese stowwe in die hidrasie water en kallusmedium en
wondbeskerming teen grondgedraagde infeksies.
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Pome fruit trees as alternative hosts of grapevine trunk disease pathogensCloete, Mia 03 1900 (has links)
Thesis (MScAgric (Plant Pathology))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: A survey was undertaken on apple and pear trees in the Western Cape Province to determine
the aetiology of trunk diseases with reference to trunk diseases occurring on grapevine.
Grapevine trunk diseases cause the gradual decline and dieback of vines resulting in a
decrease in the vine’s capability to carry and ripen fruit. In recent years, viticulture has been
expanding into several of the well established pome fruit growing areas. The presence of
trunk pathogens in pome fruit orchards may affect the health of the pome fruit trees as well as
cause a threat to young vineyards planted in close proximity to these potential sources of
viable inoculum.
Several genera containing species known to be involved in trunk disease on pome
fruit and grapevine were found, including Diplodia, Neofusicoccum, Eutypa,
Phaeoacremonium and Phomopsis. Diplodia seriata and D. pyricolum, were isolated along
with N. australe and N. vitifusiforme. Four Phaeoacremonium species, P. aleophilum, P.
iranianum, P. mortoniae and P. viticola, two Phomopsis species linked to clades identified in
former studies as Phomopsis sp. 1 and Phomopsis sp. 7, and Eutypa lata were found. In
addition, Paraconiothyrium brasiliense and Pa. variabile, and an unidentified Pyrenochaetalike
species were found. Of these the Phaeoacremonium species have not been found on pear
wood and it is a first report of P. aleophilum occurring on apple. This is also a first report of
the Phomopsis species and Eutypa lata found occurring on pome trees in South Africa
Two new coelomycetous fungi were also found including a Diplodia species,
Diplodia pyricolum sp. nov., and a new genus, Pyrenochaetoides gen. nov. with the type
species, Pyrenochaetoides mali sp. nov., were described from necrotic pear and apple wood.
The combined ITS and EF1-α phylogeny supported the new Diplodia species, which is
closely related to D. mutila and D. africana. The new species is characterised by conidia that
become pigmented and 1-septate within the pycnidium, and that are intermediate in size
between the latter two Diplodia species. Phylogenetic inference of the SSU of the unknown
coelomycete provided bootstrap support (100%) for a monophyletic clade unrelated to known
genera, and basal to Phoma and its relatives. Morphologically the new genus is characterised
by pycnidial with elongated necks that lack setae, cylindrical conidiophores that are seldomly
branched at the base, and Phoma-like conidia. The phylogenetic results combined with its
dissimilarity from genera allied to Phoma, lead to the conclusion that this species represents a
new genus. A pathogenicity trial was undertaken to examine the role of these species on apple,
pear and grapevine shoots. N. australe caused the longest lesions on grapevine shoots, while
Pyrenochaetoides mali, Pa. variabile, D. seriata and P. mortoniae caused lesions that were
significantly longer than the control inoculations. On pears, D. pyricolum and N. australe
caused the longest lesions, followed by D. seriata and E. lata. On apples, the longest lesions
were caused by N. australe and P. iranianum. D. seriata, D. pyricolum, E. lata, N.
vitifusiforme, Pa. brasiliense, P. aleophilum and P. mortoniae also caused lesions on apple
that were significantly longer than the control.
The study demonstrated that close cultivation of grapevine to apple and pear orchards
may have inherent risks in terms of the free availability of viable inoculum of trunk disease
pathogens. / No Afrikaans abstract available.
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The characterization of the basidiomycetes and other fungi associated with esca of grapevines in South AfricaWhite, Chana-Lee 12 1900 (has links)
Thesis (MSc (Plant Pathology))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Esca is a disease affecting grapevines and is potentially devastating as there are economic
losses due to a decrease in yield, wine quality and berry quality. Vineyards also need to be
replaced earlier and therefore esca has a great impact on the wine, table grape and raisin
industries. The disease is known to affect vineyards worldwide and has been studied
extensively in Europe, but not in South Africa. Esca diseased grapevines were observed for
the first time prior to 1981 in South African vineyards. The disease is primarily caused by
Phaeoacremonium aleophilum, Phaeomoniella chlamydospora (both causing brown and
black wood streaking) and white rot basidiomycete species such as Fomitiporia mediterranea
which cause wood rot in the trunks and arms of generally older grapevines. Species of the
Botryosphaeriaceae and Phomopsis (mainly Phomopsis viticola) and Eutypa lata have also
been isolated from esca diseased vines, but their association with esca is unclear.
Some of the symptoms associated with the disease on most grapevine cultivars
include ‘tiger-stripe’ foliar symptoms, apoplexy and berry symptoms such as shriveling,
discoloration and ‘black measles’. These external symptoms as well as internal symptoms are
thought to be a result of toxin and enzyme production by the fungi involved. Symptom
expression is erratic and varies from year to year making investigations into the causal fungi
and the toxins and enzymes secreted in planta difficult.
Vines with internal or external symptoms of esca were sampled in this study from
table and wine grape cultivars in 37 towns in the Western Cape, Northern Cape and Limpopo
provinces. The majority of sampled vines were over ten years of age, but vines as young as
two to three years were also found to be infected. The external symptoms included dieback,
tiger striped leaves, berry symptoms (shriveling, insufficient colouring and black spots) and
apoplexy. These symptoms resembled those found on grapevines in Europe, Australia and the
USA. The internal symptoms found were also similar to European symptoms and included
white rot, black and brown wood streaking, brown necrosis within white rot, sectorial brown
necrosis and central brown/ red/ black margin. The fungi mostly isolated from the white rot
were the basidiomycetes. Black and brown wood streaking was primarily caused by
Phaeomoniella chlamydospora. Brown necrosis within the white rot was caused by
Phaeomoniella chlamydospora and less frequently by Phaeoacremonium spp., Eutypa lata,
Botryosphaeriaceae and Pleurostomophora richardsiae. The sectorial brown necrosis and the central/ brown/ red/ black margin were dominated by Phaeomoniella chlamydospora. The
fruiting bodies of the basidiomycetes were found on only a few grapevines.
The fungal species associated with the internal wood symptoms were characterized on
cultural growth patterns, morphology as well as phylogenetic inference. The gene areas
sequenced included the internal transcribed spacers and the 5.8S rRNA gene for the
basidiomycetes and Phomopsis isolates, the partial b-tubulin gene for Phaeoacremonium
isolates and the partial translation elongation-1a gene for the Botryosphaeriaceae isolates.
The basidiomycete isolates fell into ten taxa within the Hymenochaetales of which two could
be linked to known genera, namely Fomitiporia and Phellinus. The ten basidiomycete taxa do
not correspond to any published sequences. Eutypa lata, Diaporthe ambigua, Diplodia
seriata, Neofusicoccum australe, Neofusicoccum parvum, Phomopsis viticola, Phomopsis sp.
1, Phaeomoniella chlamydospora and six species of Phaeoacremonium including P.
aleophilum, P. alvesii, P. parasiticum, P. iranianum, P. mortoniae and P. sicilianum were
also isolated of which the latter three are reported for the first time in South Africa.
To understand the role of the basidiomycetes in the complex, toxin and enzyme
analyses was determined for these fungi. Selected basidiomycete isolates were grown up in
liquid broth and extractions performed to test for the presence of 4-hydroxy-benzaldehyde.
All of the basidiomycete isolates were able to produce this toxin which is known to be
phytotoxic. The basidiomycetes were then tested for the presence of certain wood degrading
enzymes. All of the taxa were able to produce manganese peroxidase. Laccase was produced
by all taxa, except Taxon 8. Lignin peroxidase was produced by Taxa 1, 2, 7, Fomitiporia sp.
and the Phellinus sp. All the basidiomycete isolates were able to produce cellulose and none
were able to produce xylanase. These enzyme tests showed that the basidiomycetes produce a
wide variety of enzymes which are able to degrade cellulase and lignin which are both
structural components of wood.
Given the wide distribution of esca in the grape growing regions investigated in South
Africa and the diverse amount of species found, this disease must surely be seen as a limiting
factor to the productive lifespan of vineyards and quality of produce. Preventative measures
such as sanitation and pruning wound protection contribute to the management of the disease,
but many questions still remain about the synergy of the causal fungi, epidemiology and
management of esca. / AFRIKAANSE OPSOMMING: Esca is ‘n wingerd siekte wat potensieel skade kan aanrig as gevolg van ekonomiese verliese
weens verlaagde opbrengs, wyn kwaliteit en vrug kwaliteit. Wingerde moet ook vroeër
vervang word en daarom het esca ’n groot impak op die wyn, tafeldryf en rosyne industrieë.
Esca word wêreldwyd gevind op wingerd en is al intensief nagevors in Europa, maar nog nie
in Suid-Afrika. Esca is vir die eerste keer in die 1980’s in Suid-Afrikaanse wingerde
gerapporteer. Die primêre veroorsaakende organismes van esca is Phaeoacremonium
aleophilum, Phaeomoniella chlamydospora wat bruin en swart vaatweefsel verkleuring
veroorsaak en basidiomycete spesies soos Fomitiporia mediterranea wat wit verotting
veroorsaak in die stam en arms van ouer wingerd. Spesies van die Botryosphaeriaceae en
Phomopsis (hoofsaaklik Phomopsis viticola) en Eutypa lata is ook al vanaf esca simptome
geïsoleer, maar hul assosiasie met die siekte is nie duidelik nie.
Algemene simptome wat voorkom op die meeste wingerd kultivars met esca sluit in
‘tiger-stripe’ blaar simptome, apopleksie en vrug simptome soos verdroging, verkleuring en
spikkels (black measles). Interne en eksterne simptome kan wees as gevolg van toksiene en
ensiem produksie van die swamme wat betrokke is by esca. Eksterne simptoom uitdrukking
is wisselvallig en varieer van jaar tot jaar. Dit bemoelik die bestudering van die swamme en
die toksiene en ensieme wat afgeskei word in planta.
Wingerd monsters met eksterne en interne simptome is versamel van tafel en
wyndruif kultivars in 37 dorpe in die Wes-Kaap, Noord-Kaap en Limpopo provinsies. Die
meerderheid monsters was ouer as tien jaar maar wingerde wat twee tot drie jaar oud was,
was ook gevind. Die eksterne simptome wat op hierdie kultivars gevind is het terugsterwing,
‘tiger striped’ blare, vrug simptome (verkrimping en onvoldoende verkleuring) en apopleksie
ingesluit. Hierdie simptome stem ooreen met soortgelyke simptome gevind op wingerd in
Europa, Australië en die VSA. Interne simptome was ooreenstemmend met simptome wat
gevind word in Europa. Die interne simptome het wit verotting, bruin en swart
streepvorming, bruin nekrose met wit verotting, sektoriale bruin nekrose en sentrale bruin/
rooi/ swart kante ingesluit. Basidiomycete swamme is meestal uit die wit verotting gedeeltes
geïsoleer. Swart en bruin hout streepvorming was meestal deur Phaeomoniella
chlamydospora veroorsaak. Bruin nekrose binne die wit verotting was meestal deur
Phaeomoniella chlamydospora veroorsaak en in ‘n mindere mate deur Phaeoacremonium
spp., Eutypa lata, Botryosphaeriaceae en Pleurostomophora richardsiae. Phaeomoniella
chlamydospora was die hoof veroorsakende organisme van sektoriale bruin nekrose en die sentrale bruin/ rooi/ swart kante. Vrugliggame van die basiodiomycete is op enkele wingerde
gevind.
Swam soorte wat geassosieer word met die interne hout simptome was verder
gekarakteriseer op kultuur groei, morfologiese eienskappe, en filogenetiese analise. Die geen
areas waarvan die basis paar volgorde bepaal was sluit in die interne getranskribeerde spasies
en die 5.8S rRNA geen vir die basidiomycete en Phomopsis isolate, die gedeeltelike btubulien
geen vir Phaeoacremonium isolate en die gedeeltelike translasie velenging-1a geen
vir die Botryosphaericeae isolate. Die basidiomycete isolate was versprei oor tien taksons
binne die Hymenochaetales waarvan twee genusse gekoppel kon word aan die genera
Fomitiporia en Phellinus. Die tien basidiomycete taksons kom nie ooreen met enige
gepubliseerde DNS volgordes. Eutypa lata, Phomopsis viticola, Phomopsis sp. 1, Diaporthe
ambigua, Diplodia seriata, Neofusicoccum parvum, Neofusicoccum australe, Phaeomoniella
chlamydospora en ses spesies van Phaeoacremonium insluitend P. aleophilum, P. alvesii, P.
parasiticum, P. iranianum, P. mortoniae en P. sicilianum is ook geïsoleer. Hierdie is die
eerste keer dat P. iranianum, P. mortoniae en P. sicilianum in Suid-Afrika gerapporteer
word.
Om die rol wat die basidiomycete in die siekte-kompleks speel beter te verstaan is
toksien en ensiem analises uitgevoer. Geselekteerde basidiomycete isolate is gekweek in
vloeibare groei medium en ekstraksies uitgevoer om te toets vir die teenwoordigheid van 4-
hydroxy-benzaldehyde. Al die basidiomycete isolate kon 4-hydroxy-benzaldehyde, wat
bekend is om fitotoksies te wees, produseer. Die basidiomycete isolate was verder getoets vir
die produksie van spesifieke hout afbrekende ensieme. Al die basidiomycete taksons kon
mangaan-peroksidase produseer. Lakkase was geproduseer deur al die taksons, uitsluitend
Takson 8. Lignien-peroksidase was geproduseer deur Taksons 1, 2, 7, Fomitiporia sp. en die
Phellinus sp. Al die basidiomycete isolate kon sellulose produseer, maar geen kon xilanase
produseer. Die ensiem analises het gewys dat die basidiomycete wat moontlik betrokke is by
esca ‘n wye reeks van ensieme kan produseer wat sellulose en lignien kan degradeer.
Sellulose en lignien is beide strukturele komponente van hout.
Weens die wye verspeiding van esca geaffekteerde wingerde in Suid Afrika en die
wye reeks van spesies wat betrokke is by die siekte kompleks moet esca sekerlik gesien word
as een van die beperkende faktore op die produktiewe leeftyd van wingerde en die kwaliteit
van druiwe wat geproduseer word. Sanitasie en snoeiwond beskerming is voorkomende
maatreëls wat ingestel kan word om die effek en verspreiding van esca te beperk maar daar is nog baie vrae wat antwoorde benodig oor die sinergie van die veroorsakende swamme,
epidemiologie en bestuur van esca.
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Simptomatologie en anatomie van gleufstam ('legno riccio') by die wingerdstok (Vitis)Kriel, G. J. le R. (Gabriel Jacobus le Roux) 12 1900 (has links)
Thesis MSc(Agric)--Stellenbosch University, 1973. / ENGLISH ABSTRACT: no abstract available / AFRIKAANSE OPSOMMING: geen opsomming
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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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Entomopathogenic nematodes for the control of the vine mealybug (Planococcus ficus) in South African wine and table grapesLe Vieux, Patrique Dayne 12 1900 (has links)
Thesis (MSc)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: Planococcus ficus (Signoret) (Hemiptera: Pseudococcidae), the vine mealybug, is of economic importance to the wine and table grape (viticulture) industries, as it characteristically causes more damage than other mealybug species. Mealybug infestations contaminate grapes with their waxy secretions, egg-sacs and honeydew production, on which sooty mould grows, resulting in the fruit being unmarketable. Many export grapes are rejected, prior to shipment, as a result of infestations and phytosanitary concerns with regard to mealybug infestations. They are also vectors for various plant viruses. Up to date, the most common method of mealybug control in South Africa has been the use of chemical insecticides. Unfortunately, mealybugs are difficult to control chemically, due to their secretive/hidden lifestyle, where chemicals do not reach them. Of great concern is the ability of mealybugs to rapidly build up resistance to insecticides as well as the negative environmental effects associated with chemical pesticide use. Alternatively, entomopathogenic nematodes (EPNs), belonging to the families Heterorhabditidae and Steinernematidae, have been identified as lethal insect pathogens and their insecticidal action, towards a variety of insect pests, has proven them to be valuable and effective biocontrol agents.
Laboratory bio-assays, to determine the ability of eight different EPN isolates to infect and kill P. ficus, were conducted. Six of the isolates were indigenous species and the other two, Heterorhabditis bacteriophora and Steinernema feltiae, were produced in Germany and are commercially available in South Africa. Planococcus ficus was highly susceptible to two indigenous species, Heterorhabditis zealandica and Steinernema yirgalemense; responsible for 96% ± 2% and 65% ± 10% mealybug mortalities, respectively. Biological studies illustrated that both H. zealandica and S. yirgalemense are able to complete their life cycles within adult female P. ficus. There was no significant difference in the pathogenicity of commercially produced H. bacteriophora, recycled through an insect host, and those from the formulated commercial product. However, commercially produced S. feltiae individuals, that were recycled through an insect host, were statistically more effective than those that were not. The LC50 and LC90 values for H. zealandica, in the current study, were 19 and 82 infective juveniles (IJs) respectively, which were similar to the LC50 and LC90 values for S. yirgalemense at 13 and 80, respectively. The LC50 and LC90, for commercially available H. bacteriophora, were greater than they were for both H. zealandica and S. yirgalemense, with values of 36 and 555, respectively. Such results indicate that there is a definite positive relationship which exists between the concentration of IJs of all three nematode species, used for inoculation, and the percentage mortality of P. ficus. Sand column tests resulted in S. yirgalemense outperforming H. zealandica significantly, with average mortalities of 95% ± 1.4% and 82% ± 4.1%, respectively. As a result S. yirgalemense was chosen for further studies in the field.
IJs of commercially produced H. bacteriophora and S. feltiae were exposed to imidacloprid in laboratory bioassays to determine the effect on survival and infectivity. This study established the fact that these two EPN species can be applied, in combination with imidacloprid, in an integrated pest management scheme. Soil application field trials at Welgevallen and Nietvoorbij, using S. yirgalemense and mealybugs in Eppendorf tubes, buried 15 cm in the soil, resulted in 50% ± 10% and 52% ± 12% mealybug mortalities, respectively, when applying IJs at a concentration of 80 IJs/cm2. No significant difference was found between mealybug mortalities as a result of the three IJ concentrations applied (20, 40 and 80 IJs/cm2) for both vineyards. Persistence trials indicated that after four months post application, Cydia pomonella larval mortalities showed no significant reduction in infectivity on the Welgevallen vineyard, while on the Nietvoorbij vineyard there were no larval mortalities. Tests to establish whether or not S. yirgalemense and H. zealandica produced ant deterrent factors, showed no significant differences between the number of intact cadavers for both nematode species and for cadavers that were either four or six days old. There is, however, indication that deterrent factors may be in action in cadavers that were used six days after inoculation with 60% and 49% remaining intact for H. zealandica and S. yirgalemense infected cadavers respectively. All freeze killed cadavers were consumed by Linepithema humile (Mayr) (Argentine ant).
The effects of low temperatures on EPN movement and infectivity were tested for H. zealandica and S. yirgalemense in the laboratory. The mortality of P. ficus at 14˚C, as opposed to 25˚C, for S. yirgalemense and H. zealandica were found to be 9.1% ± 2.6% and 2.5% ± 1.2% respectively. Vertical sand column tests were also conducted at 14˚C for S. yirgalemense and H. zealandica, which produced low mealybug mortalities of 3.5% ± 2.4% and 8.5% ± 1.4% respectively. This illustrates the low infectivity of the two local species at low temperatures. Laboratory persistence trials, conducted over a period of four months with S. yirgalemense, showed steady persistence of 100%, while H. zealandica had a statistically significant decrease of codling moth mortalities to 44% ± 5%.
A three armed olfactometer was designed to establish if S. yirgalemense responds and moves towards chemical cues in the soil. A significant greater average number of IJs moved towards the grape vine roots (246 ± 0.124 IJs), than to the mealybugs (133 ± 0.168 IJs) and to the control (4 ± 1.02 IJs). This demonstrates that S. yirgalemense does actively seek out its hosts and that volatile cues produced by damaged grape vine roots, are more attractive to the EPN than cues produced by P. ficus.
This study illustrates that S. yirgalemense has great potential as a biopesticide for controlling P. ficus in the soil of South African grape vineyards. Emphasis was placed on soil application of S. yirgalemense in the field, which produced good results, while laboratory tests indicate the potential for further aerial field application trials on grape vines. As the EPNs are not negatively affected by the agrochemical imidacloprid, the simultaneous use and combined action of both agents will potentially provide the farmer with excellent control against P. ficus. Further field- and aerial application studies will complement the current study and hopefully provide positive results for the efficient control of P. ficus found on grape vines. / AFRIKAANSE OPSOMMING: Planococcus ficus (Signoret) (Hemiptera: Pseudococcidae), die wingerd witluis, is van groot ekonomiese belang vir die wyn en tafeldruif industrieë, aangesien dit kenmerkend meer skade veroorsaak as enige ander witluis spesies. Witluis infestasies besmet druiwe met hulle wasagtige afskeidings, eierssakke en heuningdou produksie, waarop swamme groei, wat tot gevolg het dat die druiwe onbemarkbaar is. Baie besendings druiwe, bestem vir uitvoer, word afgekeur weens witluis besmettings en ook as gevolg van fitosanitêre oorwegings. Hulle tree ook op as vektore van verskeie plantvirusse. Die mees algemene manier waarmee witluis in Suid-Afrika beheer word, is chemiese behandeling. Ongelukkig is witluis baie moeilik om chemies te beheer vanweë hulle verskuilde lewenswyse wat dit moeilik maak vir chemikalieë om hulle te bereik. Die vermoë van witluis om vinnig weerstand op te bou teen insekdoders, asook die negatiewe effek van chemiese middels op die omgewing, is kommerwekkend. Alternatiewelik, kan entomopatogeniese nematodes (EPNs) van die families Heterorhabditidae en Steinernematidae gebruik word vir die beheer van witluis. Hierdie nematodes is geïdentifiseer is as dodelike insek patogene, vir ʼn groot verskeidenheid van pes insekte en daar is bewys dat hulle as waardevolle en effektiewe biologiese beheer agente kan optree.
Laboratorium biotoetse is gedoen om die vermoë van agt EPN isolate te evalueer om P. ficus te beheer. Ses van die EPN isolate is inheems, terwyl die ander twee, Heterorhabditis bacteriophora en Steinernema feltiae, in Duitsland produseer is en kommersieel beskikbaar is in Suid-Afrika. Planococcus ficus is hoogs vatbaar vir die twee inheemse EPN spesies, naamlik Heterorhabditis zealandica en Steinernema yirgalemense en hulle is verantwoordelik vir 96% ± 2% en 65% ± 10% van witluis mortaliteit. Biologiese studies het aangetoon dat beide H. zealandica en S. yirgalemense in staat is om hul lewensiklus te voltooi in volwasse wyfies van P. ficus. Daar is geen beduidende verskil gevind in die patogenisiteit van die geformuleerde kommersiële produk H. bacteriophora en dié wat in vivo geproduseer is nie. Daar is egter in die geval van S. feltiae, gevind dat die nematodes, wat in insekte produseer is, statisties beduidend meer effektief was, as dié wat kommersieel beskikbaar was. Die LC50 en die LC90 waardes van H. zealandica, in die huidige studie, was 19 en 82 infektiewe larwes (IJs), wat baie naby die LC50 en LC90 waarders van S. yirgalemense van 13 en 80 was. Die LC50 en LC90 vir die kommersieel beskikbare H. bacteriophora was groter as vir beide H. zealandica en S. yirgalemense, met waardes van 36 en 555 onderskeidelik. Hierdie resultate dui daarop dat daar ʼn positiewe verwantskap bestaan tussen die konsentrasie van die IJs van drie EPN spesies en die persentasie mortaliteit van P. ficus. Sand kolomtoetse dui daarop dat S. yirgalemense baie beter vaar as H. zealandica met gemiddelde mortaliteite van 95% ± 1.4% en 82% ± 4.1% onderskeidelik. Op grond van hierdie resultate is S. yirgalemense gebruik vir verdere veld studies.
IJs van kommersieel geproduseerde H. bacteriophora en S. feltiae is in laboratorium biotoetse blootgestel aan imidacloprid om die effek op die oorlewing en infektiewe vermoë vas te stel. Hierdie studie het aangetoon dat die twee EPN spesies aangewend kan word saam met imidacloprid in ʼn geïntegreerde plaagbestuur opset.
Grond aanwendings is in veld proewe by Welgevallen en Nietvoorbij gedoen deur gebruik te maak van S. yirgalemense en P. ficus volwasse wyfies in Eppendorf buisies, 15 cm in die grond begrawe, het albei 50% ± 10% en 52% ± 10% witluis mortaliteit, respektiewelik, tot gevolg gehad, met die toediening van nematodes teen ʼn konsentrasie van 80 IJs/cm2. Geen beduidende verskille is gevind tussen die witluismortaliteit en die resultate van die verskillende EPN konsentrasies (20, 40 en 80 IJs/cm2) wat op beide wingerde toegedien is nie. Oorlewings toetse het aangedui dat, drie maande na toediening, met Cydia pomonella as indikator, geen beduidende verskille in die infeksie potensiaal van die Welgevallen wingerd to gevolg gehad het nie, terwyl daar op die Nietvoorbij wingerd geen verdere larvale mortaliteit gevind is was nie.
Toetse om vas te stel of S. yirgalemense en H. zealandica afkrikmiddels vir miere in besmette insek kadawers produseer het aangetoon dat daar geen beduidende verskil is tussen die getal kadawers wat intakt is vir beide EPN spesies en kadawers wat vier of ses dae oud is nie. Daar is egter aangetoon dat die afskrikmiddels wel ses dae na infeksie deur insek kadawers afgeskei word; aangesien 60% en 49% van die oorblywende kadawers nog volledig was toe dit geïnfekteer was met H. zealandica en S. yirgalemense, onderskeidelik. Al die insek kadawers, wat deur bevriesing doodgemaak is, was deur Linepithema humile (Mayr) (Argentynse mier) verorber.
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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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Detection of nepoviruses by ELISA in tissue-cultured and field-grown grapevinesJohnson, Raymond Camille Joseph January 1988 (has links)
The detection by serology of nematode-transmitted polyhedral viruses (nepoviruses) in grapevines is often unreliable. Nepoviruses were detected by enzyme-linked immunosorbent assay (ELISA) in tissue-cultured and field-grown grapevines. Nepovirus detection in in vitro plants (plantlets) was affected by virus distribution and growth room temperature. The reliability of virus detection in field-grown grapevines was improved when modified grinding buffers were used.
Arabis mosaic virus (AMV) was detected by ELISA, for the first time, in in vitro grapevines initiated from field-and screenhouse-grown plants throughout the summer. The virus was not reliably and repeatedly detected in in vitro plantlets grown at 25°C.
AMV and grapevine fanleaf virus (GFLV) distribution was not uniform throughout the plantlets. This distribution was affected by the culture room temperature. The best plant parts to sample for virus detection came from the zones of rapidly proliferating shoots. The viruses were sometimes not detected in samples taken from other tissues.
Growth room temperature had an important effect on virus detection in plantlets. The highest virus titres were found in plants growing at 15°C. Temperature increases in 5°C steps to 30°C reduced virus titre. AMV became undetectable in nearly all plantlets growing at 30°C for as little as 30 days. Growth at 30°C reduced ELISA absorbance values by 76% after 8 days and after 21 days the values were at 4% of pre-treatment levels. The virus titre dropped below detectable levels in most plantlets. AMV could not be detected in plantlets or rooted explants after being placed in a 30°C treatment for 2 months.
Tomato ringspot virus was detected by ELISA, for the first time, in in vitro grapevine plants. The virus was repeatedly detected in in vitro plants growing at 20°C.
Under the typical summer conditions experienced at Sidney, B.C., modifying the standard ELISA grinding buffer (0.01 M phosphate buffered saline, pH 7.4, 0.05% Tween-20, 0.2% ovalbumin, 2% polyvinylpyrrolidone) was essential for reliable detection of AMV or GFLV. AMV was reliably detected by ELISA in foliar samples from field or screenhouse plants throughout the summer when the grinding buffer was modified by increasing the pH to at least 8.2 and adding 1% nicotine or 0.15 M phosphate buffered saline. The most reliable results with GFLV were obtained with the nicotine enhanced buffers.
In comparison, because of the increased workload associated with growing plants in vitro and the unreliable detection of viruses in these plants, it remained preferable to detect nepoviruses in field plants by ELISA. / Land and Food Systems, Faculty of / Graduate
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The ecology of Botrytis cinerea on grape in the Western Cape ProvinceVan Schoor, Jan Adriaan 03 1900 (has links)
Thesis (MScAgric)--University of Stellenbosch, 2004. / ENGLISH ABSTRACT: Botrytis cinerea Pers.: Fr., a pathogen of grapevine (Vitis vinifera L.), moves mainly
through conidia by air currents in vineyards which are deposited intermittently on the
surfaces of leaves, inflorescences and bunches. Little is known about the relationship between
the inoculum dosage in air and incidence of Botrytis bunch rot, and how the relationship is
influenced by environmental and host factors. To better understand this relationship,
information is needed on the period over which conidia have accumulated, the time they are
able to survive and remain infectious, time of symptom expression in relation to conidium
arrival at the infection court and host surface wetness. The aims of this study were (i) to
estimate the amount of viable B. cinerea occurring in air in vineyards, and at different
positions on leaves, inflorescences and bunches of grape at different phenological stages, (ii)
to determine the relationships between the number of B. cinerea colonies recorded on spore
traps placed in the bunch zone of vines and the incidence of B. cinerea recorded from the
different tissues, and (iii) to compare the efficacy of fenhexamid on leaves and inflorescences
carrying natural B. cinerea inoculum with those inoculated with dry, airborne conidia.
Different techniques were used to detect viable Botrytis cinerea in air currents and on
plant material obtained from table (cultivars Dauphine and Waltham Cross in Paarl- and
Worcester-district) and wine grape (cultivars Chardonnay, Sauvignon Blanc and Merlot in
Stellenbosch- and Malmesbury district) vineyards in the Western Cape province during
2001-02 and 2002-03. For four consecutive days during prebloorn, bloom, pea-size, bunch
closure, veraison and harvest, sets of Petri dishes with freshly prepared Kerssies' B. cinerea
selective medium (spore traps) were left overnight in the bunch zone of vines. Plant material
was collected from the vines on the fourth day. Leaves, infloresence and bunches were
treated with paraquat to terminate host resistance and to promote the development of the
pathogen on the tissues. The B. cinerea inoculum dosage in air, and the incidence at which
the pathogen was detected at various positions on leaves and in bunches normally differed
between vineyards. However, the various tests revealed that the pathogen generally occurred
in a consistent pattern in air in the bunch zone of vines, on leaves and in bunches from all
vineyards. The inoculum dosage in air in the bunch zone of the vine was generally highest
during prebioom or during bloom, it decreased at pea size and mostly remained at a very low
level at the later growth stages. The estimations of viable B. cinerea residing naturally on leaves and in bunches, showed that their amounts depicted levels occurring in air in the bunch
zone of the vine. Necrotic leaves occurring early season in vineyards were identified as an
important source of secondary inoculum for dispersal to the developing bunches. Latent
infections at the various positions in bunches were few at véraison and harvest. However, due
to the necrotrophic ability of the pathogen, extensive berry rot (due to berry-to-berry contact)
and thus severe bunch rot developed from a single berry that become symptomatic at the base
of the pedicel/berry attachment zone. The B. cinerea occupation pattern explains why
Botrytis bunch rot develops mostly from the inner bunch and why disease management
strategies should concentrate on the bloom to pre-bunch closure stage and on inhibiting B.
cinerea development in the inner bunch during the early part of the season. Thus, to
effectively reduce B. cinerea in grapevine, preventative applications are recommended to
reduce two primary infection events: (a) between budding and pre-bloom to counteract
primary leaf infection; (b) during late bloom or early pea size stage, to reduce the amount of
the pathogen on leaves and infloresences and to prevent colonisation of floral debris. A third
spray can be applied at bunch closure to reduce the amount of B. cinerea at various positions
of the inner bunch, especially for cultivars with tight bunches.
The efficacy of fenhexamid on leaves and inflorescences carrying natural B. cinerea
inoculum was compared with those inoculated with dry, airborne conidia. Shoots were
obtained during late bloom from a vineyard (wine grape cultivar Merlot) in the Stellenbosch
region. The shoots were divided into two main groups. One group of shoots was left
uninoculated, the other shoots were inoculated by dusting with dry B. cinerea conidia in a
settling tower. Before inoculation, equal numbers of shoots in each main group was sprayed
with fenhexamid, or left unsprayed. Following inoculation and incubation, shoots of each
treatment were divided in two equal groups. The one lot of shoots were rinsed in water. The
other lot of shoots were immersed in paraquat solution to terminate host resistance and to
promote the development of the pathogen from the tissues. For both uninoculated and
inoculated shoots, irrespective of fungicide treatment, leaves remained asymptomatic at both
the blade and petiole position for the water rinse treatment. No symptom of B. cinerea decay
developed at any of the positions on leaves from shoots sprayed with fenhexamid. Spraying
of shoots with fenhexamid completely suppressed B. cinerea infection and symptom
expression on both uninoculated and inoculated inflorescens. For inoculated shoots, B.
cinerea developed from approximately 50% of the laterals in the water rinse treatment.
However, inflorescences rinsed in water remained asymptomatic. The laboratory studies showed that fungicides, if applied properly to shoots and bunches
under controlled conditions, effectively reduced the amount of B. cinerea at the various
positions on leaves and inflorescence, and prevented infection and symptom expression at
bloom. However, these goals are not achieved in vineyards where the fungicides are applied
by conventional spraying methods. Therefore, more work is needed to evaluate fungicide
application techniques by conventional spraying methods for proper fungicide coverage, and
the reduction of B. cinerea in bunches. / AFRIKAANSE OPSOMMING: Botrytis cinerea Pers.: Fr., 'n patogeen van druiwe (Vilis vinifera L.), beweeg hoofsaaklik
deur middel van konidia in lugstrome deur die wingerd, en word dan afwisselend op die
oppervlakte van die blare, bloeiwyses en trosse gedeponeer. Daar is nog min bekend oor die
verhouding tussen die hoeveelheid inokulum in die lug en die voorkoms van Botrytis op die
trosse, en hoe die verhouding deur omgewings- en gasheerfaktore beïnvloed word. Ten einde
hierdie interaksie beter te verstaan, word inligting benodig oor die tydperk waarin die konidia
akkumuleer, die tyd wat hulle oorleef en virulent bly, en die tyd van simptoom-uitdrukking in
verhouding tot die verspreiding van die konidia by die infeksie-setel en benatbaarheid van die
gasheer-oppervlakte. Die doel van hierdie studie was (i) om die hoeveelheid lewensvatbare B.
cinerea wat in die lug voorkom, asook by verskeie posisies op blare, bloeiwyses en trosse by
verskillende fenologiese stadiums te kwantifiseer, (ii) om die verhouding tussen die aantal
aangetekende B. cinerea kolonies op spoorvangers wat in die trossone van die wingerd
geplaas is, en die voorkoms van B. cinerea, aangeteken van verskeie weefsels, te bepaal, en
(iii) om die effektiwiteit van fenhexamid op blare en bloeiwyses wat natuurlike B. cinerea
inokulum dra, te vergelyk met dié wat met droë, luggedraagde konidia geïnokuleer is.
Verskillende tegnieke is gebruik om lewensvatbare Botrytis cinerea in lugstrome en op
plantmateriaal van tafeldruiwe (kultivars Dauphine en Waltham Cross In Paarl- en
Worcester-distrik) en wyndruiwe (kultivar Chardonnay, Sauvignon Blanc en Merlot in
Stellenbosch- en Malmesbury distrik) in wingerde van die Wes-Kaap provinsie gedurende
2001-02 en 2002-03 te kwantifiseer. Petri bakkies met vars voorbereide Kerssies medium,
selektief vir B. cinerea (spoorvangers), is vir vier agtereenvolgende dae gedurende
vóórblom, blom, ertjiekorrel, trostoemaak, kleurbreek en oes, oornag in die trossone van
wingerdstokke in betrokke wingerde, gelaat. Plantmateriaal is op die vierde dag versamel.
Blare, bloeiwyses en trosse is met paraquat behandel ten einde die gasheerweerstand af te
breek en ontwikkeling van die patogeen op die weefsel te bevorder. B. cinerea inokulum in
die lug, en die frekwensie waarby die patogeen op verskeie posisies op blare en in die trosse
voorgekom het, het normaalweg tussen wingerde verskil. Die verskeie toetse het getoon dat
die patogeen normaalweg in 'n vaste patroon in die lug en die trossones van wingerde, asook
op blare en in trosse van alle wingerde voorkom. Die inokulumkonsentrasie in die lug in die
trossones van wingerdstokke was normaalweg die hoogste gedurende vóórblom of gedurende blom. Die inokulumdruk het by ertjiekorrel verminder en meestal by 'n 'n baie lae vlak
tydens die latere groeistadia gebly.
Die bepaling van lewensvatbare B. cinerea wat natuurlik op blare en in trosse gedeponeer
is, het getoon dat hul hoeveelhede ooreenstem met vlakke wat in die lug in die trossone van
die wingerd voorkom. Nekrotiese blare vroeg in die seisoen is 'n belangrike bron van
sekondêre inokulum en speel dus 'n belangrike rol by die verspreiding van Botrytis tussen die
ontwikkelende trosse. Latente infeksies by die verskeie posisies in trosse was laag by
kleurbreek en oes. Weens die saprofitiese vermoëns van die patogeen, kan uitgebreide
korrelvrot (a.g.v. korrel-tot-korrel kontak) en dus ernstige trosvrot, ontwikkel. 'n Enkele
korrel kan by die basis van die pedisel/korrel vashegtingsone simptomaties raak, en vandaar
na aangrensende korrels versprei. Die B. cinerea kolonisasiepatroon verduidelik waarom
Botrytis trosvrot meestal vanaf die binneste tros ontwikkel en waarom siektebeheerstrategieë
op die vóórblom- tot blomstadium gekonsentreer moet word, en op die inhibering van B.
cinerea ontwikkeling in die binneste tros gedurende die vroeë stadia van die seisoen. Dus, om
B. cinerea effektief tydens die twee primêre infeksie stadiums in wingerde te verminder, kan
voorkomende toedienings aanbeveel word: (a) tussen knopvorming en vóórblom om primêre
blaarinfeksie te verhoed; (b) gedurende láátblom en vroeë ertjiekorrel om die hoeveelheid
inokulum op die blare en bloeiwyses te verminder, en die kolonisasie van blomdebris te
voorkom. 'n Derde toediening kan tydens trostoemaak aangewend word om B. cinerea by
verskeie posisies in die binneste tros te verminder, veral by kultivars met digte trosse.
Die effektiwitiet van fenhexamid op blare en bloeiwyses waarop natuurlike B. cinerea
inokulum voorkom is vergelyk met dié wat met droë, luggedraagde konidia geïnokuleer is.
Lote is vanaf 'n wingerd (wyndruif kultivar Merlot) in die Stellenbosch distrik tydens
láátblom verkry en in twee hoofgroepe verdeel. Die een groep lote is geïnokuleer deur droë
B. cinerea konidia in 'n afsettingstoring te strooi, terwyl die ander groep nie geïnokuleer is
nie. Vóór inokulasie, is die helfte van die lote in elke groep met fenhexamid behandel, terwyl
die ander helfte onbehandeld gelaat is. Ná inokulasie en inkubasie, is lote van elke
behandeling verder in twee eweredige groepe verdeel. Die een groep lote is in water gespoel,
terwyl die ander groep lote in 'n paraquatoplossing gedompel is om die gasheerweerstand te
verwyder, en die ontwikkeling van die patogeen vanuit die weefsels te bevorder. Vir die
waterspoelbehandeling van beide ongeïnokuleerde en geïnokuleerde lote, ongeag van die
fungisiedbehandeling, het die blare asimptomaties by beide die bladoppervlakte en blaarsteelposisie gebly. Geen simptome van B. cinerea verrotting het by emge van die
blaarposisies van die lote, met fenhexamid gespuit, ontwikkel nie. Die spuit van die lote met
fenhexamid het die B. cinerea infeksie en die simptoomontwikkeling op beide die
ongeïnokuleerde en geïnokuleerde bloeiwyses heeltemalonderdruk. By die geïnokuleerde
lote, het B. cinerea vanaf ongeveer 50% van die laterale in die waterspoelbehandeling
ontwikkel, alhoewel, bloeiwyses wat in water afgespoel is, heeltemal asimptomaties gebly
het.
Laboratoriumstudies het getoon dat fungisiedes, indien korrek toegedien op lote en trosse
onder gekontroleerde toestande, tot effektiewe vermindering van B. cinerea getalle by die
verskillende posisies op blare en bloeiwyses lei, en infeksie en simptoomuitdrukking tydens
blom voorkom. Weens die feit dat die doelwitte nie behaal kan word in wingerde waar die
fungisiede deur konvensionele spuitmetodes toegedien is nie, moet meer studies gedoen word
om fungisied toedieningstegnieke, by konvensionele spuitmetodes, VIr deeglike
fungisiedbedekking en die vermindering van B. cinerea in trosse, te evalueer.
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