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The use of potato and maize disease prediction models using automatic weather stations to time fungicide applications in KwaZulu-Natal.Van Rij, Neil Craig. January 2003 (has links)
Maize grey leaf spot (GLS), caused by Cercospora zeae-maydis, and potato late blight
(LB), caused by Phytophthora infestans, are foliar diseases of maize and potato, two
of the most widely grown crops in KwaZulu-Natal (KZN), after sugarcane and timber.
Commercial maize in KZN accounts for just on 4.3% of the national maize crop. This
is worth R563 million using an average of the yellow and white maize price for the
2001/02 season (at R1 332.87 ton(-1)).
In 2003 KZN produced about 5% of the national
potato crop (summer crop: 7531 300 10kg pockets from 2243 hectares). This equates
to a gross value of R89.4 million based on an average price of R1 188 ton(-1) in 2001.
Successful commercial production of maize and potatoes depends upon control of these
diseases by translaminar fungicides with highly specific modes of action.
This study extends an existing model available for timing of fungicide sprays for GLS
and tests and compares two LB models for two calendar-based spray programmes. The
study also evaluated the use of an early blight model which is caused by Alternaria
solani, and over the single season of evaluation showed potential for use in KZN. For
the GLS model it was found that a number of refinements are needed, e.g., the amount
of infected maize stubble at planting and not the total amount of maize residue at
planting.
Based on two years' data, it was found that for the LB models there are no significant
differences in levels of control between using a predicted fungicide programme and a
calendar-based programme. The importance of knowing initial infection sites, and
hence initial inoculum, was demonstrated. This led to the creation of a KZN LB
incidence map, now being used to more accurately time the start of a preventative spray
programme and to time the inclusion of systemic fungicides in the preventative spray
programme.
This study has contributed to the further development and expansion of the Automatic
Weather Station Network (AWSN) at Cedara, which now comprises 15 automatic
weather stations in KZN. The AWSN is currently used to aid farmers and advisers in
decision-making regarding fungicide spray timing for GLS and LB. / Thesis (M.Sc.Agric.)-University of Natal, Pietermaritzburg, 2003.
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The effect of seaweed concentrate on turfgrass growth, nematode tolerance and protein synthesis under moisture stress conditionsSun, Hongwei 06 June 2008 (has links)
A preliminary experiment was conducted to determine the effects of salinity and moisture stress on the pathogenicity of root-knot nematodes (RKN) in turfgrass plants. The results indicated that RKN infection adversely affected both visual and functional parameters of bentgrass. Salinity and moisture stress further exaggerated the damage caused by RKN.
Under well-watered conditions, the effects of SWC and RKN infection on bentgrass plants were studied. Applications of Swe at 0.5 liter ha⁻¹ and 1.0 liter ha⁻¹ effectively enhanced bentgrass growth under both RKN-free and RKN-infected condition. It was shown that RKN caused less damage to SWC-treated plants than to non-treated plants. In addition, a soil drench of 0.5 liter ha⁻¹ and 1.0 liter ha⁻¹ at 10 day intervals was required to enhance bentgrass growth under RKN-free and RKN-infected conditions, respectively.
The effects of seven SWC treatments on the growth of nematode-free and RKN infected bentgrass plants were tested under three irrigation regimes. Rooting and leaf moisture parameters, quality and clipping yield were all improved to some degree by SWC applications. High dosage SWC treatments, applied as a soil drench at one liter ha⁻¹ every 10 days, were most effective in improving plant growth. Application of SWC was more beneficial to RKN-infected plants than RKN-free plants, and to abiotically stressed plants than to abiotic stress-free plants.
In a separate study, seaweed application was also shown to enhance both top growth and root growth of lance nematode (Hoplolaimus galeatus) or RKN infected bentgrass grown under drought or salinity stress condition. With SWC application, almost all of the symptoms caused by nematode infection and the abiotic stress were partially overcome. In addition, root development, leaf water status and clipping yield were all improved. It was apparent that soil drench SWC treatments were more effective in enhancing bentgrass growth than foliar Swc treatments. Application of SWC slightly reduced the number of nematodes per unit of fresh root (for RKN) and per unit weight of soil (for lance nematodes).
Protein extracted from SWC-treated or non-treated ryegrass plants under different stress conditions indicated that SWC altered plant protein synthesis, possibly by inducing selective gene expressions. / Ph. D.
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Methoprene as a protectant against five species of stored-product insects in wheatZeledon, Manuel E. January 1984 (has links)
Call number: LD2668 .T4 1984 Z44 / Master of Science
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The use of adjuvants to improve fungicide spray deposition on grapevine foliageVan Zyl, Sybrand Abraham 03 1900 (has links)
Thesis (MScAgric (Plant Pathology))--Stellenbosch University, 2009. / ENGLISH ABSTRACT: Sufficient fungicide deposition on the target site is an essential requirement for effective chemical management of fruit- and foliar diseases such as grey mould of grapevines. Control failure is often attributed to insufficient quantitative deposition on susceptible grapevine tissue. However, in high disease pressure situations control failure might also be attributed to poor qualitative deposition. The primary objective of spray technology is to optimise deposition, of which the plant surface is a critical component in the spray application process, specifically in the retention of spray droplets. Adjuvant technology is reported to improve the wettability and spread of droplets by surface-acting-agents on the target surface and thereby improve deposition and retention of the fungicide active ingredient. However, this relatively new spray technology on viticulture and horticultural crops, and possible effects of adjuvants on epicuticular wax affecting plant disease development, needs to be investigated. Moreover, the development of useful prescriptions for adjuvants by determining water volumes and adjuvant dosages is required for different pesticide tank mixes. The aims of this study were, firstly to determine the effect of selected adjuvants on quantitative and qualitative spray deposition on grapevine leaves and subsequent biological efficacy of a fungicide, and secondly to evaluate selected adjuvants under field conditions and determine the effects of adjuvant dosage and spray volume on deposition.
Leaves were sprayed under similar laboratory conditions to pre-run-off with 1 mL of a mixture of fenhexamid (Teldor® 500 SC, Bayer) at recommended dose, a fluorescent pigment (SARDI Fluorescent Pigment, 400 g/L EC; South Australian Research and Development Institute) at 0.2 L/100 L, as well as 15 selected commercial adjuvants to manipulate the deposition quality of a given quantity of deposited spray. Spray deposition on leaves was illuminated under black light (UV-A light in the 365 nm region) and visualised under a stereo microscope (Nikon SMZ800) at 10× magnification. Photos of sprayed leaf surfaces were taken with a digital camera (Nikon DMX 1200). Digital images were quantitatively and qualitatively analysed with Image-Pro Discovery version 6.2 for Windows (Media Cybernetics) software, to determine spray deposition. The sprayed leaves were inoculated with 5 mg dry airborne conidia of Botrytis cinerea in a spore settling tower and
incubated for 24 h at high relative humidity (≥ 93%). Leaf discs were isolated onto Petri dishes with paraquat-amended water agar and rated 11 days later for development of B. cinerea from isolated leaf discs. B. cinerea incidence on the upper and lower surfaces of water sprayed leaves averaged 90.4% and 95.8%, respectively. Despite full spray cover of leaves, applications with fenhexamid alone did not completely prevent infection and resulted in 34.6% and 40.8% B. cinerea incidence on the upper and lower surfaces of leaves, respectively. Through the addition of certain adjuvants, B. cinerea incidences were significantly lower (2.9-17.1% and 10.0-30.8%, respectively), while some adjuvants did not differ from the fungicide-only treatment, even though they might have improved spray deposition. The effects of Hydrosilicote and Solitaire alone and in combination with fenhexamid on germinating Botrytis conidia on leaf surfaces were studied in a histopathology study using epifluorescence microscopy. Distinct differences were observed in conidium mortality, germination and germ tube lengths between adjuvants alone and in combination with the fungicide, which might be attributed to indirect effects of the adjuvant mode of action on B. cinerea. The laboratory study clearly demonstrated the potential of adjuvants to improve the bio-efficacy of a fungicide directly through improved deposition on grapevine leaf surfaces.
For the vineyard evaluations, the same fluorometry, photomicrography and digital image analysis protocol were used to assess quantitative and qualitative spray deposits under varying adjuvant dosage and volume applications. The Furness visual droplet-rating technique was initially included to determine optimum spray volume with a STIHL SR400 motorised backpack mistblower by assessment of pigment deposition on Chardonnay leaves under illuminated black light. Both assessment protocols showed that quantitative spray deposition increased with increasing spray volume applications of 40 L/ha to 750 L/ha, but decreased at 900 L/ha, possibly due to run-off. The addition of selected adjuvants at recommended dosage and at 600 L/ha demonstrated the potential of adjuvants to increase quantitative and qualitative deposition significantly on upper and lower leaf surfaces. Agral 90, BB5, Nu-film-P, and Solitaire significantly improved deposition on upper and lower leaf surfaces compared with the fenhexamid only and water sprayed control. Break-thru S 240 and Villa 51 did not improve quantitative deposition, although remarkably better qualitative deposition was obtained. An adjuvant dosage effect (within the registered dosage range) was evident, especially those retained on the upper leaf surfaces. Agral 90 and Nu-film-P affected significant improvement of spray deposition at the higher, but not at the lower dosage tested. Solitaire improved deposition at the lower dosage tested, whereas reduced deposition at the
higher dosage was attributed to excessive spray run-off. No significant improvement of spray deposition was observed for both dosages tested with Villa 51. Spray mixtures with adjuvants Agral 90 and Solitaire yielded similar deposition values at 600 L/ha compared with the fenhexamid only control at 900 L/ha, but reduced deposition at the higher spray volume, possibly due to spray run-off. This study clearly demonstrated the potential of adjuvants to improve quantitative and qualitative deposition, but highlights the necessity to match adjuvant dosages and application volumes on the spray target to achieve maximum spray deposition. / AFRIKAANSE OPSOMMING: Effektiewe beheer van vrug- en blaarsiektes soos vaalvrot op wingerde benodig voldoende deponering van die swamdoder op die teikenoppervlak. Verlies aan beheer word gewoonlik aan onvoldoende kwantitatiewe deponering op vatbare wingerddele toegeskryf. Onder ‟n hoë siektedruk kan mislukte beheer ook moontlik toegeskryf word aan swak kwalitatiewe deponering. Die primêre doelwit van spuittegnologie is om deponering te optimaliseer met die plantoppervlak as ‟n belangrike komponent in die spuittoedieningsproses, spesifiek in die retensie van spuitdruppels. Byvoemiddel tegnologie het bewys dat oppervlak-aktiewe-agente verbeterde benatting en verspreiding van druppels op die teiken oppervlakte tot gevolg kan hê, en verder ook die deponering en retensie van die aktiewe fungisied bestanddele kan verbeter. Hierdie relatiewe nuwe spuittegnologie op wingerd- en hortologiese verbouing, asook die moontlike effekte van byvoegmiddels op epikutikulêre waks om siekte ontwikkeling te beïnvloed, moet ondersoek word. Verder word nuttige aanbevelings benodig vir byvoegmiddel toedienings by verskillende spuitvolumes en dosisse van die betrokke spuitmengsel. Die doelwit van hierdie studie was, eerstens om die effek van sekere byvoegmiddels op kwantitatiewe en kwalitatiewe spuitbedekking van wingerdblare te bepaal en dan te vergelyk met die biologiese effektiwiteit van ‟n fungisied, en tweedens om van die byvoegmiddels onder veldtoestande te evalueer, asook die effek van byvoegmiddel dosisse en spuitvolumes te bepaal.
Blare is onder dieselfde laboratorium toestande tot net voor-afloop met 1 mL van ‟n spuitmengsel, bestaande uit fenhexamied (Teldor® 500 SC, Bayer) teen die aanbevole dosis, ‟n fluoreserende pigment (400 g/L EC; Suid Australiese Navorsing en Ontwikkeling Instituut) teen 0.2 L/100 L, sowel as 15 geselekteerde kommersiële byvoegmiddels gespuit om die kwalitatiewe deponering, vir ‟n gegewe kwantiteit van spuitdeponering, te manipuleer. Die fluoreserende pigment is op die blaaroppervlak belig met ‟n swart lig (UV-A ligbron in die 365 nm golflengte) en deponering is onder ‟n stereo mikroskoop (Nikon SMZ800) teen 10× vergroting waargeneem. Die gespuite blaaroppervlaktes is op die manier met ‟n digitale kamera afgeneem (Nikon DMX 1200), waarna die digitale foto‟s kwantitatief
en kwalitatief deur die gebruik van „Image-Pro Discovery version 6.2 for Windows (Media Cybernetics)‟ sagteware geanaliseer is om spuitbedekking te bepaal. Na elke blaarspuit is die blare met 5 mg droë konidia van B. cinerea in ‟n inokulasietoring geïnokuleer en daarna vir 24 h onder hoë relatiewe humiditeit (≥ 93%) geïnkubeer. ‟n Aantal skyfies vanuit elke blaar is op Petri bakkies met paraquat medium geïsoleer en 11 dae later is die persentasie van B. cinerea ontkieming bepaal. Die gemiddelde voorkoms van B. cinerea op die blare wat slegs met water gespuit is, was 90.4% op die boonste en 95.8% op die onderste blaaroppervlaktes. Spuitbehandelings met slegs fenhexamied, ongeag goeie blaarspuitbedekking, kon nie die B. cinerea infeksie ten volle voorkom nie, en infeksie van gemiddeld 34.6% en 40.8% is onderskeidelik op die boonste- en op die onderste blaaroppervlaktes waargeneem. Met die byvoeging van sekere byvoegmiddels het die voorkoms van B. cinerea betekenisvol verminder (2.9-17.1% en 10.0-30.8%, onderskeidelik), terwyl ander byvoegmiddels nie van die fenhexamied behandeling verskil het nie, hoewel hierdie middels meestal wel spuitdeponering verbeter het. Die effek van slegs Hydrosilicote en Solitaire, en in kombinasie met fenhexamied op ontkiemende Botrytis conidia, is bestudeer in ‟n histopatologiese studie deur middel van die gebruik van epifluoresensie mikroskopie op die blaaroppervlak. Duidelike verskille in die aantal dooie konidia, ontkiemingpersentasies en kiembuislengtes is tussen die byvoegmiddels en in kombinasie met fenhexamied waargeneem, waar sommige waarnemings moontlik aan die indirekte effek van die byvoegmiddel op B. cinerea toegeskryf kan word. Hierdie laboratoriumstudie wys duidelik dat byvoegmiddels oor goeie potensiaal beskik om die bio-effektiwiteit van die fungisied te verbeter deur die direkte verbetering van deponering op die wingerdblaaroppervlak.
Dieselfde fluorometrie, fotomikrografie en digitale foto-analise protokol is in ‟n wingerd evaluasie om die kwantitatiewe en kwalitatiewe spuitdeponering van verskillende byvoegmidel dosisse and spuitvolumes te bepaal, gebruik. Die Furness visuele druppel meting tegniek is aanvanklik ingesluit om die optimale spuit volume met ‟n „STIHL SR400 motorised backpack mistblower‟ te bepaal deur visuele meetings van gedeponeerde pigment op Chardonnay blare onder ‟n swart ligbron. Beide protokolle wys dat kwantitatiewe spuitbedekking met ‟n toename in spuit volumes 40 L/ha tot 750 L/ha verbeter het, maar afgeneem het teen 900 L/ha, moontlik as gevolg van druppel-afloop. Die byvoeging van ‟n byvoegmiddel teen die aanbevole dosis en 600 L/ha wys uitstekende potensiaal om kwantitatiewe en kwalitatiewe deponering betekenisvol op boonste en onderste blaaroppervlaktes te verbeter. Agral 90, BB5, Nu-film-P, en Solitaire het deponering
betekenisvol op boonste en onderste blare in vergelyking met die fenhexamied alleen en die water kontrole verbeter. Break-thru S 240 en Villa 51 het nie kwantitatiewe deponering verbeter nie, alhoewel verbeterde kwalitatiewe bedekking met hierdie produkte waargeneem is. ‟n Byvoegmiddel dosis effek (binne die registreerde dosis reeks) was duidelik waarneembaar, veral vir druppel retensie op die boonste oppervlak van blare. Agral 90 and Nu-film-P verbeter die spuit deponering betekenisvol met die hoër getoetste dosis, maar nie teen die lae dosis nie. Solitaire verbeter egter die deponering teen die laer dosis, maar minder deponering teen ‟n hoër dosis kan moontlik toegeskryf word aan oormatige druppel-afloop. In die geval van Villa 51 was geen betekenisvolle verbetering van spuitdeponering vir beide die behandelingsdosisse waargeneem nie. Spuitmengsels met byvoegmiddels, Agral 90 en Solitaire, het soortgelyke deponerings gelewer teen 600 L/ha in vergelyking met die fenhexamied kontrole teen 900 L/ha, maar deponering neem af teen hoër spuitvolumes met byvoegmiddels moontlik as gevolg van druppel-afloop. Hierdie studie wys duidelik die uitstekende potensiaal van Byvoegmiddels om kwantitatiewe en kwalitatiewe deponering te verbeter, maar beklemtoon die noodsaaklikheid van die korrekte gebruik van byvoegmiddel dosis en volume om die maksimum spuitdeponering op die teiken te verkry.
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Assessment of inoculation techniques to evalute apple resistance to Phytophthora cactorumZondo, Patience Thembelihle 03 1900 (has links)
Thesis (MSc)--University of Stellenbosch, 2001. / ENGLISH ABSTRACT: Phytophthora cactorum (Lebert & Cohn) Schrot. is the primary cause of crown, collar and
root rot diseases of apple (Malus domestica Borkh.) trees worldwide. This pathogen is most
destructive in commercial apple orchards under waterlogged soil conditions and has recently
been identified as causing serious disease in some South African apple orchards. Crown,
collar and root diseases are difficult to control because of their unpredictability and
catastrophic nature. The use of resistant cultivars and rootstocks is economical and
environmentally considerate. Therefore the need to develop screening techniques that will
enable the selection of desirable disease resistant traits as part of an apple-breeding program in
South Africa was identified. The work undertaken in this study was aimed at optimizing
different techniques to test resistance.
Using two direct inoculation techniques (excised stem and intact stem) the
aggressiveness of lO isolates of P. cactorum on apple rootstocks was determined. The
susceptibilities of five apple rootstocks were also compared. Results have shown isolate by
rootstock interaction which means isolate aggressiveness was influenced by rootstocks tested.
The selectivity of isolates suggests that there may be several strains of the pathogen.
Population studies of the pathogen might contribute valuable information that could lead to
better interpretation of results. Rootstock susceptibility was monitored in vitro throughout the
season by inoculating at monthly intervals for 26-months. It was observed that during winter,
rootstock susceptibility was low compared to high susceptibility during summer. These
results have revealed new information regarding changes in the relative resistance of the
different rootstocks over the growing season, e.g. the susceptibility pattern of rootstock
MMl06 occurred 1 to -2 months later than that of other rootstocks. This finding has
important implications on the way in which resistance test results are interpreted, and
emphasizes the importance of not relying on point sampling. Furthermore, useful information
has been acquired regarding the epidemiology of the disease with regard to "windows of
susceptibility". The phenomenon of a phase shift in susceptibility of different rootstocks needs to be tested on a broader scale to assess whether it has any practical application on
resistance testing.
Although different inoculation techniques are applied in breeding programs, up to now
there is no consensus on which technique works best for seedling selections. Since large
numbers of individuals must be tested to improve the chances of detecting resistant genotypes,
mass inoculations of young seedlings is a rapid way of identifying resistant individuals. Two
different screening methods were tested during this study. Using the sand-bran technique,
seedlings were transplanted onto inoculated soil and the root mass was used as a measure of
resistance. In a second method zoospore inoculum was applied to seedlings growing in a
sand:bark mixture at different concentrations and the seedlings were subjected either to water
drenching or not. In both trials the aggressiveness of isolates differed significantly from each
other and only higher inoculum concentrations were effective in causing disease. The age of
seedlings used in tests emerged as an important factor. Seedlings under five-months-old
should not be used. Drenching inoculated seedlings enhanced disease development but the
production of sufficiently high numbers of zoospores was a laborious task. Thus, it is
recommended that the sand-bran inoculum technique be tested with the drenching treatment
for mass selection.
In conclusion this study confirms the importance of both choice of isolate and choice of
inoculation intervals in determining susceptibility of rootstocks to infection. In spite of the
fact that stem inoculation bioassays have limited resemblance to natural disease situations,
these bioassays are useful for obtaining an indication as to whether genotypes have a degree of
resistance and merit further testing. For this reason refinement of the stem inoculation
bioassay is worthwhile pursuing. With regard to seedling trials, both the sand-bran and the
zoospore technique appear promising but refinement of these techniques is necessary in order
to present a more practical way of testing large volumes of seedlings. / AFRIKAANSE OPSOMMING: Evaluering van inokulasietegnieke om weerstand teen Phytophthora cactorum in appels
te evalueer:
Phytophthora cactorum (Lebert & Cohn) Schrot. is die primêre oorsaak van kroon-, kraag en
wortelvrot van appelbome (Malus domestica Borkh.). Dit is die mees verwoestende patogeen
in kommersiële appelboorde waar daar versuipte toestande grond voorkom. P. cactorum is
onlangs identifiseer as die patogeen wat ernstige kroon- en kraag-verotting in Suid Afrikaanse
appelboorde veroorsaak. Kroon-, kraag- en wortelvrot is moeilik om te beheer as gevolg van
die onvoorspelbaarheid en rampspoedige aard van die siekte. Die gebruik van kultivars en
onderstamme wat weerstandbiedend is teen siektes en plae is omgewingsvriendelik en is
ekonomies van belang, dus het die behoefte ontstaan om inokulasietegnieke te ontwikkelom
weerstandige saailinge te identifiseer en te selekteer as deel van 'n appelteelprogram in Suid
Afrika. Die doelwit van hierdie studie is om verskillende inokulasietegnieke te toets en te
verfyn om weerstand in appelsaailinge te identifiseer.
Deur gebruik te maak van twee inokulasietegnieke (die afgesnyde loot- en intakte loot
tegniek), is die relatiewe aggressiwiteit van 10 isolate van P. cactorum en die vatbaarheid van
vyf appelonderstamme ondersoek. Resultate het aangetoon dat die aggressiwiteit van die
isolate gevarieer het na aanleiding van die onderstam wat getoets is. Die selektiwiteit van die
isolate is 'n aanduiding dat daar moontlik verskeie rasse van die patogeen voorkom.
Toekomstige studies op die populasiestruktuur van P. cactorum sal 'n belangrike bydrae
maak tot die interpretasie van resultate oor weerstand en weerstandsteling.
Die vatbaarheid van onderstamme was ook in in vitro proewe ondersoek deur
maandelikse inokulasies toe te pas oor 'n tydperk van 26 maande. Dit is opgemerk dat die
onderstamvatbaarheid gedurende die winter laag was in vergelyking met die somer. Nie al die
onderstamme het dieselfe gereageer gedurende verskillende toetstye nie. Hierdie resultate
toon aan dat die relatiewe weerstand van verskillende onderstamme oor die groeiseisoen
verskil, byvoorbeeld die vatbare reaksie van die onderstam 'l\.1MI06' het een tot twee maande
later voorgekom in vergelyking met ander onderstamme wat getoets is. Hierdie bevinding het belangrike implikasies op die interpretasie van weerstandstoetsing en beklemtoon die
moontlike tekortkominge in enkelproefwaarnemings. Bruikbare inligting ten opsigte van die
epidemiologie van die siekte is versamel wat beskryf kan word in terme van vensters van
vatbaarheid wat verskil van onderstam tot onderstam. Verdere ondersoeke in die verband
word aanbeveel.
Hoewel verskeie inokulasietegnieke bestaan om jong saailinge vir weerstand te toets, is
daar tot op hierdie stadium nog nie ooreenstemming oor die beste tegniek wat toegepas moet
word om saailingseleksie te doen nie. Omdat groot getalle saailinge getoets moet tydens die
seleksieproses sal massa-inokulasie van saailinge die aangewese metode wees. Twee
verskillende inokulasie tegnieke is getoets in die studie. Deur gebruik te maak van die sandsemel
tegniek, is saailinge geplant in geinfesteerde plantmedium, waartydens die wortelmassa
van saailinge gebruik is om die reaksie op infeksie te kwantifiseer. Die soëspoor
inokulasietegniek was toegepas op saailinge wat in 'n sand en basmengsel geplant is teen
verskillende inokulurnkonsentrasies. 'n Waterverdrenkingsbehandeling is ook getoets. In
albei hierdie proewe het die aggressiwiteit van die isolate van mekaar verskil. Slegs die hoër
inokulumkonsentrasies was effektief in die ontwikkeling van die siekte. Die ouderdom van
saailinge is ook uitgewys as 'n belangrike faktor wat 'n rol speel in weerstandstoetsing.
Saailinge jonger as 5 maande word nie aanbeveel vir hierdie toetse nie. Verdrenking van
saailinge het die voorkoms van die siekte verhoog, maar die produksie van groot getalle
soëspore was 'n beperkende faktor in die uitvoering van die proef Dit word aanbeveel dat die
sand-semel inokulasietegniek verder evalueer moet word onder verskeie toestande, onder
andere deur dit met verdrenkinghte kombineer.
Die belang van die keuse van isolaat en inokulasiedatum in bepaling van relatiewe
weerstand van onderstamme teen P. cactorum is tydens die studie bevestig. Afgesien van die
beperking van die staminokulasietegnieke in soverre dit verwyderd is van natuurlike infeksie,
word die tegnieke aanbeveel om 'n indikasie te kry van die relatiewe weerstand van
onderstamme. Beide die sand-semel en soëspoor tegnieke kan gebruik word om weerstandige
saailinge te identifiseer, maar tegniese verfyning van hierdie tegnieke is nodig om saailinge in
massa te evalueer.
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Suppression of Botrytis cinerea by antagonists in living, moribund and dead grapevine tissueVolkmann, Anette (Anette Sigrid) 12 1900 (has links)
Thesis (MScAgric)--University of Stellenbosch, 2001. / ENGLISH ABSTRACT: Several attempts have been made to reduce Botrytis cinerea grey mould in vineyards and
in storage by means of biological control. However, the so called "silver bullet" approach in
utilising a single antagonist, has its limitations when compared with synthetic fungicides.
Often the antagonist has a limited spectrum of activity and the duration of its effectiveness is
less than that provided by synthetic fungicides. Furthermore, antagonists are more likely to
be effective in preventing initial infection rather than resumption of latent infection.
Therefore, due to the various infection sites in grape bunches utilised by B. cinerea and the
fact that the pathogen can remain latent in the grapevine tissue, it may be possible to obtain
effective control of the pathogen by integrating fungicides and different biological control
agents each aimed at a different site in grape bunches, protecting the bunch at the various
phenological stages of growth and under different micro climatic conditions. In this study the
potential of three fungal antagonists (Glioc/adium roseum, Uloc/adium atrum and
Trichoderma harzianum) and one yeast (Trichosporon pullulans) to colonise different sites in
grape bunches, and to reduce B. cinerea infection, was investigated in commercial vineyards.
As the biological control agents were used in an integrated system, the effect of various
fungicides frequently applied to local vineyards on the organisms was also investigated.
Fungicide trials were conducted taking into account two possible scenarios. Firstly, the
possible effect of fungicides applied to the vineyard after an application of the biological
control agent or shortly before the application of the biocontrol agent. This entailed exposing
the biocontrol agents to relatively low concentrations of the active ingredient of the
fungicides, similar to the residue levels to which these organisms would be exposed under
field conditions. Secondly, the possibility of applying the organisms and the fungicides at the
same time by making use of spray tank mixtures. This meant exposing the biocontrol agents
to relatively high doses of the active ingredient of the various fungicides. Mycelial growth
and germination tests were performed on agar in Petri dishes to determine the effect of
fungicides. It was assumed that if the fungicide effectively inhibits the antagonist at 2.5 !-lg a.Uml, the fungicide and antagonist can not be used in an integrated programme. Based on
this criterium, T harzianum can not be applied to vineyards with penconazole,
mancozeb/metalaxyl, pyrifenox or mancozeb. In addition T harzianum can not be applied as
tank mixtures with iprodione. However, T harzianum can be used in conjunction with
pyrimethanil, folpan, iprodione, fosetyl-Al and copperhydroxide, provided the chemicals and
the antagonist are applied alternately. Gliocladium roseum can not be applied in a tank
mixture with pyrimethanil and penconazole, but can be used on grapevine in conjunction with
penconazole, pyrifenox, pyrimethanil, iprodione and fosetyl-Al. Ulocladium atrum can not
be applied with pyrimethanil and iprodione. Ulocladium atrum can be applied in conjunction
with penconazole, pyrifenox, pyrimethanil, iprodione, fosetyl-Al and mancozeb. The fungus
can be applied in a tank mixture with penconazole and pyrifenox.
The antagonists were applied as conidial suspensions to bunches at various phenological
stages in commercial vineyards planted with the wine grape cultivar Chardonnay in the
Stellenbosch region, or the table grape cultivar Dauphine planted in Paarl region. Bunches
were collected 2 wk after application, surface-sterilised and used for determining antagonist
colonisation and B. cinerea infection at specific sites in the bunches. In Chardonnay, the
antagonists colonised the different sites, but colonisation during the three seasons was
inconsistent and sporadic. Ulocladium atrum and G. roseum colonised floral debris to a
degree in the 1996 season. However, in the 1997 season these two antagonists did not
develop from floral debris. Trichoderma harzianum colonised floral debris extensively in the
1996 season. In the 1997 season colonisation by T harzianum dropped, but unlike G. roseum
and U atrum, T harzianum occurred at a low level in flowers. Ulocladium atrum only
colonised bunches during bloom, and was not found in bunches monitored from pea-size
stage to véraison. This finding suggests that the saprophyte colonised moribund and dead
flower parts occurring in bunches during full bloom to the pre-pea size stage, and is not likely
to be found in living tissue. Gliocladium roseum colonised grape berries and pedicels to
some degree and T harzianum colonised these grape parts extensively. Botrytis cinerea
occurred inconsistently and at low frequencies in the different sites in bunches. It was
therefore not possible to comment on the effectivity of the various antagonists in the three
seasons during which the trials were performed. However, it was noted that, during the peasize
stage in 1996, when high levels of B. cinerea were recorded, T harzianum controlled
these infections in the pedicels more effectively than any other treatment. / AFRIKAANSE OPSOMMING: ONDERDRUKKING VAN BOTRYTIS CINEREA DEUR ANTAGONISTE IN
LEWENDE, AFSTERWENDE EN DOOIE WINGERDWEEFSEL
Die benadering om Botrytis cinerea verrotting van wingerd met behulp van 'n enkele
biologiese beheeragent in plaas van met sintetiese fungisiede te beheer, het sekere
beperkinge. Antagoniste het dikwels 'n beperkte spektrum van aktiwiteit, en die duur van hul
effektiwiteit is minder as dié van fungisiede. Antagoniste is gewoonlik ook minder effektief
in die beheer van latente infeksie. Die patogeen het verder die opsie om druiwetrosse deur
verskillende infeksieweë te koloniseer. Fungisiede kan druiwetrosse beter teen infeksie deur
veelvuldige infeksieweë beskerm as 'n enkele antagonis. In die lig hiervan is die beheer van
die patogeen deur 'n kombinasie van fungisiede en verskillende biologiese beheeragente, wat
elk gemik is om 'n ander infeksiepunt in die druiwe te beskerm, ondersoek. Drie swamagtige
antagoniste (Glioc/adium roseum, Uloc/adium atrum en Trichoderma harzianum) en een gis
(Trichosporon pullulans) is in die ondersoek gebruik.
Voorloper ondersoeke, waar twee moontlike scenarios in ag geneem is, is met fungisiede
uitgevoer. In die eerste scenario is die effek van fungisiede, aangewend op wingerd kort vóór
aanwending van die biologiese beheeragent, of kort ná aanwending, ondersoek. Hierdie
proef het die blootstelling van die biologiese beheeragent aan relatief lae konsentrasies van
die aktiewe bestanddeel van die fungisied, vergelykbaar met residuvlakke waaraan die
organismes onder veldtoestande blootgestel sou word, behels. Tweedens is die moontlikheid
om antagoniste en fungisiede gelyktydig as spuitpompmengsels toe te dien, ondersoek. In
hierdie proef is die biologiese beheeragente aan relatief hoë dosisse van die aktiewe
bestanddeel van verskillende fungisiede blootgestel. Miseliumgroei en ontkiemingstoetse is
op agar in Petribakkies uitgevoer om die effek van die fungisiede te bepaal. As kriterium is
aanvaar dat indien 'n fungisied die antagonis effektief by 2.5J..lglml aktiewe bestanddeel
inhibeer, die fungisied en antagonis nie in 'n geïntegreerde program gebruik kan word nie.
Gebaseer op hierdie kriterium kan T harnzianum nie aangewend word in 'n wingerd wat met
penconazole, mancozeb/metalaxyl, pyrifenox of mancozeb behandel is nie. Ook kan T
harzianum nie in 'n spuitpompmengsel met iprodione aangewend word nie. Trichoderma harzianum kan egter saam met pyrimethanil, folpan, iprodione en fosetyl-Al gebruik word,
mits dié chemikalieë en die antagonis afwisselend aangewend word. Glioc/adium roseum
kan nie in 'n spuitpompmengsel met pyrimethanil en penconazole aangewend word nie, maar
kan saam met penconazole, pyrifenox, pyrimethanil, iprodione en fosetyl-Al gebruik word.
Uloc/adium atrum kan nie saam met pyrimethanil, iprodione en fosetyl-Al gebruik word nie.
Die swam kan wel in 'n spuitpompmengselmet penconazole en pyrifenox aangewend word.
In verdere proewe is die antagoniste as spoorsuspensies op trosse op verskillende
groeistadia in kommersiële wingerde, wat met die wyndruitkultivar Chardonnay of die
tafeldruifkultivar Dauphine aangeplant is, ondersoek. Trossies is twee weke na toediening
versamel, oppervlakkig gesteriliseer en gebruik om vlakke van antagoniskolonisasie en B.
cinerea infeksie op spesifieke nisse in die trosse te bepaal. In die geval van Chardonnay het
die antagoniste die verskillende nisse gekoloniseer, maar die kolonisasie was sporadies en nie
konstant gedurende die drie seisoene van ondersoek nie. Uloc/adium atrum en G. roseum het
blomdeeltjies tot 'n beperkte mate in die 1996 seisoen gekoloniseer, maar nie in die
daaropvolgende seisoen nie. Daarteenoor het T. harzianum blomdeeltjies ekstensief in die
1996 seisoen gekoloniseer, en in 'n beperkte mate in die daaropvolgende seisoen.
Uloc/adium atrum kon nie trosse van ertjiekorrelgrootte tot deurslaan vestig nie. Hierdie
bevinding dui daarop dat die saprofiet afsterwende en dooie blomdeeltjies, wat van volblom
tot ertjiekorrelstadium in die trosse voorkom, koloniseer, maar dat dit nie in lewende weefsel
voorkom nie. Daarteenoor het T. harzianum die verskillende trosdele ekstensief
gekoloniseer. Botrytis cinerea het gedurende die drie seisoene wisselvallig en teen lae
frekwensies in die verskillende nisse in die trosse voorgekom. Dit was gevolglik nie
moontlik om 'n konkrete afleiding oor die effektiwiteit van die verskillende antagoniste as
biobeheeragente van B. cinerea te maak nie.
In die geval van Dauphine was die onderskeie organismes swak koloniseerders van
blomdeeltjies. Trichoderma harizanum kon egter die lewende trosdele koloniseer.
Kolonisasievlakke was laag en was nooit meer as 50% nie. In beide seisoene het die
kolonisasievermoë van T. harzianum drasties ná trostoemaak gedaal. Daarteenoor het beide
G. roseum en U atrum tydens al die ontwikkelingstadia die lewende trosdele swak
gekoloniseer. Botrytis cinerea het ook uiters sporadies en teen baie lae vlakke voorgekom. Die bevindinge het getoon dat klimaatsomstandighede wat in tafeldruifwingerde in die
Wes-Kaap heers, nie geskik is vir die vestiging van die biologiese beheeragente wat in die
studie ondersoek is nie.
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Infection by dry, airborne Botrytis cinerea conidia and fungicide efficacy on different parts of grape bunches and vineletsVan Rooi, Cicelia 03 1900 (has links)
Thesis (MScAgric)--University of Stellenbosch, 2002. / ENGLISH ABSTRACT: The evaluation of fungicide efficacy in commercial vineyards can be influenced by the
sporadic occurrence of Botrytis cinerea at various positions on vines, differences in bunch
structure during bunch development and the phenomenon that symptom expression in shoots
and bunches is governed by the resistance reaction of the various shoot and bunch parts. It
has been postulated that, following air and water dispersal, infection by solitary conidia
should playa prominent role in the epidemiology of B. cinerea on grapevine. The aim of this
study was to determine (i) infection and (ii) fungicide efficacy at specific sites on shoots of
vinelets and bunches (table grape cultivar Dauphine and the wine grape cultivar Merlot)
inoculated with dry, airborne conidia of B. cinerea.
Vinelets, prepared from cuttings, and bunches obtained from the vineyards at full bloom,
pea size, bunch closure, véraison and harvest stages, were sprayed in a spray chamber at the
recommended dosages with iprodione, pyrimethanil, cyprodinil/fludioxonil and fenhexamid
or were left unsprayed. After 24 h the vinelets or bunches were dusted with dry conidia of
Botrytis cinerea in a settling tower and incubated for 24 h at a high relative humidity (±93%).
Following incubation, both the vinelets or bunches were divided into three groups. Vinelets
and bunches of the one group were surface-sterilised, the others were left unsterile. Vinelets
and bunches of one unsterile group were placed in dry chambers, kept for 14 days at 22°C
with a 12 h photoperiod daily and monitored for symptom expression and the development of
B. cinerea. Vinelets and bunches of the sterile group, and from one unsterile group were
used for isolation. From each of these vinelets leaf blades, leaf petioles, shoots and
inflorescences were removed. Sites used for isolation in bunch parts were rachises, laterals
and pedicels, and sites on berries were the pedicel-end, cheek and style-end. The different
parts and segments were placed in Petri dishes on Kerssies' B. cinerea selective medium, or
on water agar medium supplemented with paraquat and incubated for 14 days at 22°C with a
12 h photoperiod daily. Infection and fungicide efficacy was determined by observing intact vinelets and bunches for symptom expression, and by estimating the amount of B. cinerea at
the various sites on the vinelets and bunches with isolation studies. No symptoms of B.
cinerea decay developed on sprayed and unsprayed vinelets that were kept in dry chambers
during the 2 wk observation period. The isolation and incubation studies showed that the
different fungicides were highly and nearly equally efficient in reducing superficial B.
cinerea inoculum and latent infection. .In the case of leaf blades, which showed a high
amount of B. cinerea on unsprayed vinelets under the two sterility regimes, decay was
significantly reduced by each fungicide on both cultivars. This was not the case for the other
parts, which yielded B. cinerea at low incidences under the two sterility regimes.
The study with bunches showed that dry, airborne conidia, and the fungicide sprays,
penetrated loose and tight clustered bunches from bloom to harvest and evenly landed on the
various bunch parts. At full bloom, the amount of B. cinerea in unsprayed bunches was high
on the laterals and pedicels, but low on the embryos. Unsprayed intact bunches at full bloom
were highly susceptible to B. cinerea and developed symptoms of grey mould. The
fungicides inhibited symptom expression at full bloom, but could not prevent infection.
Unsprayed bunches inoculated at the other stages remained asymptomatic. The amount of B.
cinerea was generally high in the rachises and laterals at pea size and bunch closure stages,
and in the pedicel end of berries at harvest. Infection was constantly low in the berry cheek.
The fungicides had a differential effect on infection at the various sites. In the case of
rachises, the amount of B. cinerea was at each growth stage drastically reduced by each
fungicide. In laterals, it was effectively reduced at pea size and bunch closure. However, at
these two sites, significant differences were found between the fungicides in efficacy at
stages when the amount of B. cinerea was high. This study showed that if these fungicides
are applied properly to vine in commercial vineyards between budding and prebloom, during
flowering, and at bunch closure, they should effectively prevent infection and symptom
expression and thus the development of B. cinerea epiphytotics. / AFRIKAANSE OPSOMMING: INFEKSIE DEUR DROË, LUGGEDRAAGDE BOTRYTIS CINEREA
KONIDIA EN DIE EFFEK VAN FUNGISlEDE OP VERSKILLENDE
SETELS BINNE WINGERDTROSSE EN OP LOTE:
Evaluering van fungisieddoeltreffendheid in kommersiële wingerde word beïnvloed deur
die sporadiese voorkoms van Botrytis cinerea op verskeie posisies van wingerddele, verskille
in trosstruktuur tydens trosontwikkeling, en die feit dat simptoomuitdrukking in lote en trosse
deur die weerstandsaksie van die verskillende morfologiese dele van lote en trosse beheer
word. In die natuur speel infeksie deur enkel konidia 'n prominente rol in die epidemiologie
van B. cinerea van wingerd. Die doel van hierdie studie was om (i) infeksie en (ii) die effek
van fungisiede op verskillende posisies op lote en trosse (tafeldruif kultivar Dauphine,
wyndruif kultivar Merlot), wat met droë, luggedraagde konidia van B. cinerea geïnokuleer is,
te bepaal.
Lote, verkry vanaf steggies, en trosse versamel vanuit die wingerde tydens blom-,
ertjiekorrel-, trostoemaak-, deurslaan- en oesstadium, is teen aanbevole dosisse met iprodione,
pyrimethanil, cyprodinillfludioxonil of fenhexamid in 'n spuitkas bespuit, of is onbehandeld
gelaat. Na 24 h is die lote en trosse met droë konidia van B. cinerea in 'n inokulasietoring
geïnokuleer en daarna vir 24 h onder hoë humiditeit [±93% RH] geïnkubeer. Na inkubasie is
die lote en trosse in drie groepe verdeel. Die een groep lote en trosse is oppervlakkig
gesteriliseer om die patogeen op die oppervlakte te elimineer, en die ander twee groepe is
onbehandeld gelaat. Die lote en trosse van een nie-steriele groep is vir 14 dae in droë
voghokke by 22°C met 'n 12 uur daaglikse fotoperiode geplaas, en daagliks vir siekteuitdrukking
en die ontwikkeling van B. cinerea gemonitor. Lote en trosse van die ander twee
groepe is vir isolasiestudies gebruik. Vanaf elke loot is blaarskywe, blaarstele, internodes en
ongeopende blomtrossies verwyder. Vanaftrosse is ragisse, laterale en korreisteie verwyder,
en vanaf korrels is skilsegmente aangrensend aan die korrelsteel, die stempel-end, en die
wang verwyder. Die dele en segmente is op B. cinerea selektiewe medium, en op paraquat
medium in Petri bakkies geplaas en vir 14 dae by 22°C met 'n 12 uur daaglikse fotoperiode
geïnkubeer. Infeksie en die fungisiedeffek is bepaal deur die intakte lote en trosse vir siekte- uitdrukking te monitor, en deur die hoeveelheid B. cinerea op verskeie posisies op lote en
trosse te bepaal. Geen simptome het op enige posisie op bespuite en onbespuite lote, wat in
droë hokke gehou is, ontwikkel nie. Die isolasie- en inkubasiestudies het getoon dat die
verskillende fungisiede hoogs effektief op lote was, en inokulumvlakke van die patogeen
doeltreffend verlaag het. In die geval van blaarskywe, wat hoë vlakke van B. cinerea op
onbespuite steggies onder die twee steriliteitskondisies getoon het, is verrotting op beide
kultivars betekenisvol deur die fungisiedes verlaag. Dit het egter nie vir die ander dele,
waarop daar 'n lae voorkoms van B. cinerea onder die twee steriliteitskondisies was, gegeld
me.
Die studie met trosse het getoon dat droë, luggedraagde konidia en fungisiednewels beide
oop en kompakte trosse vanaf blomstadium tot oes penetreer en eweredig op die verskillende
dele land. Met blomstadium was die hoeveelheid B. cinerea in onbespuite trosse hoog op
laterale en korrelstele, maar laag op die embrios. Onbespuite, intakte trosse was hoogs
vatbaar vir B. cinerea by blomstadium en het simptome van vaalvrot ontwikkel. Die
fungisiede het siekte-uitdrukking by blomstadium voorkom, maar kon nie infeksie voorkom
me. Onbespuite trosse wat op ander stadia geïnokuleer is, het geen siekte-uitdrukking getoon
me. Die hoeveelheid B. cinerea was hoër in die ragi, asook in laterale by ertjiekorrel- en
trostoemaak stadium, en hoër in korreisteie by oesstadium. Infeksie was konstant laag in die
korrelskil. Die fungisiede het 'n differensiële effek op infeksie by die verskillende posisies
gehad. In die geval van ragi was die hoeveelheid B. cinerea drasties deur elke fungisied by
alle groeistadia verlaag. In laterale was dit effektief by ertjiekorrel- en trostoemaakstadium
verminder. By hierdie twee posisies waar die hoeveelheid B. cinerea hoog was, is daar egter
betekenisvolle verskille in die doeltreffendheid van fungisiedes gevind. Hierdie studie toon
dat as fungisiede behoorlik in kommersiële wingerde tussen botvorming en blomstadium, en
tydens blom- en trostoemaakstadium toegedien word, infeksie en siekte-uitdrukking, en dus
ook die epifitotiese ontwikkeling van B. cinerea, voorkom behoort te word.
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The biology and management of aerial populations of woolly apple aphid, Eriosoma lanigerum (Hausmann) (Homoptera: aphididae)Heunis, J. M. (Juanita Maria) 03 1900 (has links)
Dissertation (PhD)--University of Stellenbosch, 2001. / ENGLISH ABSTRACT: The basic biology of Eriosoma lanigerum (Hausmann) and its natural enemy,
Aphelinus mali (Haldeman), was investigated in the Western Cape Province of South
Africa.
The first instar nymph can be identified by the absence of cornicles and the
adult female by the presence of the vulva. Body length and distance between cornicles
can be used to distinguish between the 2nd
, 3rd and 4th instars.
The development of E. lanigerum was negatively influenced by temperatures
above 27DC. The net replacement rate (Ro) and intrinsic rate of increase (rm) peaked at
20DC. The theoretical lower and upper threshold temperatures for development were
estimated at 4.48DC and 28.07DC, respectively.
Crawlers of E. lanigerum migrated from the roots up into the trees during
spnng to start new infestations. Colonies became visible from December and
maximum colony numbers were reached from the end of summer until autumn, at
which time most of the colonies were parasitised by A. mali. Colony numbers
declined at the end of autumn after high parasitism and the appearance of winged E.
lanigerum. The aphid overwintered on the tree. Chemical sprays, rain during spring
and high temperature influenced population numbers negatively.
E. lanigerum can be monitored by counting the unparasitised colonies in leaf
axils of half of each of 25 trees per 2 hectare plot with 5 unparasitised colonies as the
economic threshold. Sampling error was high at 40% but increasing the number of
trees did not reduce it. Presence-absence sampling, which will reduce the time
required for monitoring, did not seriously compromise the reliability of decisions
regarding the necessity for intervention. Chemicals containing nitrogen usually sprayed for bitterpit control stimulated
the settling of E. lanigerum crawlers on Granny Smith trees, while fruit weevil
barriers for the control of Phlyctinus callos us Boh. limited crawler movement into the
trees but did not prevent colonisation.
All the postembryonic developmental stages of E. lanigerum were parasitised
by A. mali. Complete parasitism of the population was never reached as younger
instars sheltered under other aphids and mummified aphids.
Development of A. mali was not influenced negatively by high temperatures.
The minimum developmental temperature and number of degree days needed for
development of the larval stage and emergence of the adult from the mummy were
.6.72°C and 172.41°D, and 10.27°C and 109.89°D respectively. Mummies collected
during early winter survived long periods of cold storage in postdiapause. The
rrummum threshold temperature for postdiapause development of A. mali was
·10.15°C.
Most chemicals tested against A. mali adults were highly toxic to the wasp,
except endosulfan and two growth regulators, flufenoxuron and fenoxycarb. The
mortality of adults exposed to the fungicides tested was low within the first 24 hours.
The percentage emergence from the mummies was high for all chemicals tested, but
more than 60% of the adults died soon after emergence from mummies treated with
chlorpyrifos. Nearly 30% of the adults died soon after they emerged from carbaryl
(XLR-Plus) and fenthion treated mummies. The growth regulators, flufenoxuron and
fenoxycarb, did not influence fecundity adversely. / AFRIKAANSE OPSOMMING: Die basiese biologie van Enosoma lanigerum (Hausmann) en sy natuurlike
vyand, Aphelinus mali (Haldeman), in die Weskaap Provinsie van Suid-Afrika
isondersoek.
Die eerste instar nimf kan aan die afwesigheid van kornikels en die
volwassenes aan die teenwoordigheid van die vulva uitgeken word. Die
liggaamslengte en afstand tussen die kornikels kan gebruik word om tussen instar 2, 3
en 4 te onderskei.
Die ontwikkeling van E. lanigerum word nadelig deur temperature bo 27°C
beïnvloed. Die netto vervangingstempo (Ro) en intrinsieke tempo van toename (rm)
was die hoogste by 20°C. Die teoretiese minimum en maksimum temperatuur
drempelwaardes vir ontwikkeling was 4.48°C en 28.07°C onderskeidelik.
In die lente beweeg E. lanigerum kruipers op vanaf die wortels tot in die bome
om nuwe kolonies te begin. Kolonies is sigbaar vanaf Desember en die hoogste
koloniegetalle word aan die einde van die somer tot die herfs bereik, wanneer die
meeste van die kolonies dan ook deur A. mali geparasiteer word. Teen laat-herfs neem
koloniegetalle af as gevolg van hoë parasitisme en die verskyning van gevleuelde E.
,lanigerum. E. lanigerum oorwinter op die appelboom. Chemiese behandelings, reën
gedurende die lente en hoë temperatuur beïnvloed koloniegetalle nadelig.
E. lanigerum kan deur die aantal ongeparasiteerde kolonies in die blaaroksels
van die helfte van 25 bome per 2 hektaar blok te tel, met 5 ongeparasiteerde kolonies
as die ekonomiese drempelwaarde, gemonitor word. Die steekproefnemingsfout was
hoog (40%), maar kon nie verminder word deur die aantal bome wat gemonitor is te
verhoog nie. Steekproefneming, vir aan- of afwesigheid van kolonies, wat monitortyd sal verminder, het min invloed op die betroubaarheid van besluitnemings oor die
noodsaaklikheid van bespuitings gehad.
Stikstofbevattende chemikalieë, wat vir die beheer van bitterpit gespuit word,
stimuleer vestiging van E. lanigerum kruipers op Granny Smith bome, terwyl
snuitkewerversperrings, vir die beheer van Phlyctinus callosus Boh., die opwaartse
beweging van kruipers in die bome beperk, maar nie kolonievorming van E.
lanigerum verhoed nie.
Alle postembrioniese ontwikkelingstadiums van E. lanigerum is deur A. mali
geparasiteer. Totale parasitisme is nooit bereik nie, omdat jonger instars onder ander
bloedluise en gemummifiseerde bloedluise skuil.
Die ontwikkeling van A. mali word nie deur hoë temperature benadeel nie. Die
minimum ontwikkelingstemperatuur en graaddae, nodig vir ontwikkeling van die
larwale stadium en die verskyning van die volwassene uit die mummie, was 6.72°C
met 172.4loD en 10.27°C met 109.89°D, onderskeidelik. Mummies wat vroeg in die
winter versamel is, het lang periodes van koelopberging oorleef. Die minimum
temperatuur drempelwaarde vir A. mali ontwikkeling in postdiapouse was 10.15°C.
Die meeste van die chemikalieë wat getoets is, was hoogs toksies vir die
volwasse wesp, behalwe endosulfan en die twee groeireguleerders, flufenoxuron en
fenoxycarb. Die mortaliteit van volwassenes wat aan swamdoders blootgestel is, was
laag binne die eerste 24 uur na blootstelling. Die persentasie uitkoms vanuit mummies
was hoog vir al die chemikalieë wat getoets is, maar met chlorpyrifos het 60% van die
volwassenes net na uitkoms doodgegaan. Ongeveer 30% van die volwassenes is dood
na verskyning vanuit mummies wat met carbaryl (XLR-Plus) en fenthion gespuit is.
Die groeireguleerders, flufenoxuron en fenoxycarb, het nie die vrugbaarheid van die
parasiet merkbaar beïnvloed nie.
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A pathogen-derived resistance strategy for the broad-spectrum control of grapevine leafroll-associated virus infectionFreeborough, Michael-John, 1971- 12 1900 (has links)
Thesis (PhD)--University of Stellenbosch, 2003. / ENGLISH ABSTRACT: Grapevine leafroll-associated virus-3 is one of ten members of the C/osteroviridae
that are known to infect grapevine. Nine of these viruses are associated with
grapevine leafroll disease, of which GLRaV-1 and GLRaV-3 are the most important
and widespread. Members of the C/osteroviridae are unique amongst the viruses, as
it is the only known family whose members encode a heat shock protein 70 kOa
homolog (Hsp70h). The Hsp70h is a movement protein (MP) that is required for the
active translocation of the virion structure through the plasmodesmata into adjacent
cells. Broad-spectrum resistance to unrelated viruses can be obtained by a
pathogen-derived resistance (POR) strategy that is based on the expression of a
dysfunctional MP in plants. The Hsp70h has two distinct domains. The N-terminal two
thirds of the protein is an ATPase domain and shares high homology with the
ATPase domains of all Hsp70h proteins from the C/osteroviridae and Hsp70 proteins
from the prokaryote and eukaryote kingdoms. Conserved amino acids are found in
the ATPase domain and are required for the positioning of the ATP at the catalytic
site for ATP hydrolysis. The C-terminal domain is variable and the function of this
domain in the Closteroviridae is not known. In prokaryote and eukaryote Hsp70
proteins, the C-terminal domain is required for protein-protein interactions.
The American NY-1 isolate of GLRaV-3 has been sequenced and POR
strategies have been attempted with the coat protein, divergent coat protein and
replicase genes, but not with a dysfunctional form of the hsp70h gene. In this study,
double-stranded RNA was isolated from a commercial vineyard with unknown virus
status, but with distinct grapevine leafroll symptoms, and from two grapevine sources
of known virus status, one with mild and one with severe symptoms. The GLRaV-3
hsp70h gene was amplified by RT-PCR from the dsRNA and the gene sequence was
analysed. The hsp70h gene from the three virus sources contained more than 94%
nucleotide sequence homology to the NY-1 isolate and the conserved amino acids
required for ATPase activity were present. The hsp70h gene isolated from GLRaV-3
from a commercial Stellenbosch vineyard showing clear leafroll symptoms was
selected for further work and was subjected to site-directed mutagenesis to engineer
four point mutations in the gene. These four mutations resulted in the substitution of
Asn for Asp", Gly for Thr1O, Lys for Glu 174 and Asn for Asp 197.
The wild type (WT) and mutated (Mut) forms of the hsp 70h genes were cloned
into a bacterial expression vector. Expression of both the WT- and Mut-Hsp proteins
was achieved, and the protein was expressed in the insoluble inclusion bodies. All
attempts to refold and isolate active proteins from the inclusion bodies were
unsuccessful. Attempts to increase the concentration of soluble protein within the
expressing bacteria were unsuccessful. Due to the lack of active protein, biochemical
tests on the ATPase activity of the WT- and Mut-Hsp proteins could not be
conducted. The wt- and mut-hsp genes were cloned into a plant expression vector for
transformation into tobacco plants. These transformations were successful and gave
rise to 22 Km' and 18 Km' plants from the WT- and Mut-Hsp constructs respectively.
Two plant lines, M5 and M10, transformed with the mut-hsp transgene construct,
appeared to have a high level of resistance to the challenging potato X potexvirus,
whereas all the other tested plants were susceptible to the challenging virus. It was
thus shown that a dysfunctional form of the GLRaV-3 Hsp70h could provide
resistance to an unrelated virus in tobacco. / AFRIKAANSE OPSOMMING: Wingerdrolblaar-geassosieerde virus 3 (GLRaV-3) is een van 10 lede van die
Closteroviridae wat wingerd kan infekteer. Nege van die virusse is met
wingerdrolblaar geassosieer. Die GLRaV-1 en GLRaV-3 is die belangrikste en mees
wyd verspreide lede van die rolblaar-geassosieerde Closteroviridae. Lede van die
Closteroviridae is uniek in die opsig dat die virusse vir 'n 70 kDa-homoloë
hitteresponsproteïen (Hsp70h) kodeer. Die Hsp70 is 'n bewegingsproteïen (MP) wat
belangrik is vir die translokasie van die virus deur die plasmodesmata na die
naasliggende sel. Breë-spektrum weerstand teen onverwante virusse kan behaal
word deur 'n patogeen-afgeleide weerstandstrategie (POR), wat op die uitdrukking
van 'n disfunksionele MP wat in plante uitgedruk word, gebaseer is. Die Hsp70hproteïen
het twee gebiede. Die N-terminale gebied is In ATPase-gebied en toon hoë
homologie met ander ATPase-gebiede van Hsp70h-proteïene van die
Closteroviridae, asook die prokariotiese en eukariotiese koninkryke. Gekonserveerde
aminosure wat belangrik is vir die posisionering van ATP in die katalitiese domein vir
ATP-hidrolise is in die ATPase-gebied gevind. Die C-terminale gebied is variërend en
die funksie van die gebied in die Closteroviridae is onbekend. In prokariotiese en
eukariotiese Hsp70h-proteïene is die C-terminale gebied belangrik vir proteïenproteïen
interaksies.
Die nukleotiedvolgorde van die Amerikaanse NY-1-isolaat van GLRaV-3 is al
bepaal en POR-strategieë is ook op die kapsiedproteïen, uiteenlopende
kapsiedproteïen en die replikasie-proteïen uitgevoer, maar nog nie op 'n
disfunksionele vorm van die Hsp70h-geen nie. In hierdie studie is dubbelstring-RNA
(dsRNA) van 'n kommersiële wingerd met onbekende virusstatus wat
rolblaarsimptome toon, geïsoleer, asook van twee wingerde met 'n bekende
virusstatus, een met ligte en een met strawwe simptome. Die GLRaV-3 hsp70h-geen
is met hulp van die polimerasekettingreaksie-metode (PKR) vanaf die dsRNA
geamplifiseer en die geen se nukleotiedvolgorde is bepaal. Die hsp 70-gene van drie
verskillende wingerde het meer as 94% homologie met die NY-1-isolaat getoon. Die
gekonserveerde aminosure wat vir ATPase-aktiwiteit belangrik is, was teenwoordig.
Die hsp70h-geen van GLRaV-3, wat uit 'n kommersiële wingerd met duidelike
rolblaarsimptome in die Stellenbosch-gebied geïsoleer is, is vir verdere navorsing
gekies en dit is aan setel-gerigte mutagenese blootgestelom vier mutasies van die
geen te bewerkstellig. Die gevolg van hierdie vier mutasies was die verandering van
Asn na Asp", Gly na Thr1o, Lys na Glu174 en Asn na Asp197.
Die wilde (WT) en veranderde (Mut) vorms van die hsp-gene is in 'n bakteriese
uitdrukkingsvektor gekloneer. Uitdrukking van beide die WT- en die Mut-Hspproteïene
is behaal, maar die proteïene was in die onoplosbare fraksie geleë.
Pogings om die onoplosbare proteïene te isoleer en in 'n aktiewe oplosbare vorm te
verkry, was onsuksesvol. Verdere pogings om die proteïene in die oplosbare fraksie
van die bakteriese ekspressiesisteem uit te druk, was ook onsuksesvol. As gevolg van die gebrek aan aktiewe proteïen kon biochemiese toetse nie op die ATPaseaktiwiteit
van die WT- en Mut-Hsp proteïne gedoen word nie.
Die wt- en mut-hsp-gene is ook in In plantekspressievektor gekloneer vir
transformasie in tabakplante. Hierdie transformasies was suksesvol en het aanleiding
gegee tot 22 kanamisienbestande (Km') en 18 Km' plante vanaf die WT- en Mut-Hspkonstrukte
onderskeidelik. Twee plantlyne, M5 en M10, wat met die mut-hsptransgene
getransformeer is, het 'n hoë vlak van weerstand teen die infekterende
aartappelvirus X getoon in vergelyking met ander plante wat met die virus geïnfekteer
is. Daar is dus bewys gelewer dat 'n disfunksionele vorm van die GLRaV-3 Hsp70h
weerstand kan bied teen 'n onverwante virus in tabak.
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Susceptibility of five strains of vine mealybugs, Planococcus ficus (Signoret), to chlorpyrifosDe Wet, Owen 03 1900 (has links)
Thesis (MScAgric)--Stellenbosch University, 2004. / ENGLISH ABSTRACT: Colonies of Planococcus ficus (Signoret) were reared from three different areas, Hex River
Valley, Robertson and Stellenbosch. An insectary colony and a table grape colony from
Nietvoorbij experimental farm were also included in the study. A range of concentrations of
chlorpyrifos was applied topically to individuals from the different colonies. The Stellenbosch
population had the lowest LDso, although it was not significantly different from that of the
insectary and Robertson colonies. The Hex River Valley and table grape colonies had a
significantly higher LDso than the Robertson, Stellenbosch and insectary colonies, although the
relative tolerance was 1.5, which would probably not result in significant control failure in the
field. However, this does indicate that there is potential for the development of resistance to
chlorpyrifos in the vine mealybug in South Africa. / AFRIKAANSE OPSOMMING: Kolonies van Planococcus ficus (Signoret), is versamel en geteel uit drie verskillende areas,
Hex.riviervallei, Robertson en Stellenbosch. 'n Bestaande insektarium kolonie van die Lanbou
Navorsings Raad en 'n tafeldruif kolonie vanaf Nietvoorbij proefplaas is ook ingesluit in die
studie. 'n Reeks konsentrasies van chlorpyrifos is topikaal aangewend aan individue van die
verskillende kolonies. Die Stellenbosch populasie het die laagste LDso getoon alhoewel dit nie
betekenisvol verskil het van die LDso van die insektarium - en Robertson kolonies nie. Die
Hexriviervallei en tafeldruif kolonies se LDso was betekenisvol hoër as die Robertson,
Stellenbosch and insektarium kolonies. Alhoewel die relatiewe weerstand 1.5 was, sal dit
waarskynlik nie tot 'n aansienlike beheermislukking in die veld lei nie. Nogtans dui dit op die
potensiaal vir moontlike ontwikkeling van weerstand teen chlorpyrifos in die wingerdwitluis.
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