Characterization of Uncinula necator, the grapevine powdery mildew fungus

Evans, Katherine J.

January 1996

Bibliography: leaves 148-166. This study identifies genetic variation in Australian Uncinula necator populations. Techniques were developed for molecular and phenotypic markers for U. necator. Mating types of Australian clonal lines were identified and viable cleistothecia and infective ascospores were produced in vitro. The study establishes the foundation for investigating the population biology of U. necator, by identifying two distinct genetic groups, A and B, and micro-geographical variation among 35 clonal lines from various Australian viticultural regions.

Powdery mildew diseases

Powdery mildew diseases Australia

Grapes Diseases and pests Australia

Biological control of spider mites (Acari: Tetranychidae) on grape emphasizing regional aspects

Prischmann, Deirdre A.

06 July 2000

During summer of 1998 and 1999, 34 and 10 vineyard sites, respectively, were sampled to assess spider mite pests and associated biological control by phytoseiid mites. Vineyards studied spanned five major valleys in western Oregon where grape production occurs. Leaf samples were taken from site perimeters and centers. One leaf was taken every ten meters of border length, five meters inward from the border to prevent wind-biased or extreme edge effects, while 20 leaves were taken at regular intervals from centers. Variables recorded at each site were: plant age, grape variety, chemical spray information and local vegetation occurring in proximity to vineyards. Sites were categorized as either agricultural or riparian based on what surrounding vegetation type was in the majority. Several parametric and non-parametric tests were used to analyze data, including multiple linear regressions using a computer-based genetic algorithm in conjunction with the AIC criterion to pre-select a subset of explanatory variables. Typhlodromus pyri was the predominant phytoseiid mite and Tetranychus urticae was the most abundant tetranychid mite sampled. High levels of T. urticae were found when predator densities were very low, and low levels of T. urticae occurred when predator densities were moderate or high. Phytoseiid densities were highest in June and July, while T. urticae densities were highest from August to September. The latter's densities were significantly higher in vineyards surrounded primarily by agriculture, while phytoseiid densities were not significantly different between the two categories. Predatory phytoseiids had significantly higher densities on vineyard edges, while T. urticae densities were higher in vineyard centers. Caneberry, cherry and grape habitats appeared to be sources of predator immigration, while no vegetation type consistently served as a short-range or nearby immigration source for spider mites. Due to insufficient data, pesticide information was not included in multiple linear regression models, although certain chemicals used in vineyards can potentially impact mite populations. Impacts of surrounding vegetation type, grape variety, regional location, plant age, and presence of other mites on phytoseiid and T. urticae densities are discussed. / Graduation date: 2001

Grapes -- Diseases and pests -- Oregon

Characterization of Uncinula necator, the grapevine powdery mildew fungus / Katherine J. Evans.

Evans, Katherine J.

January 1996

Bibliography: leaves 148-166. / vi, 169, [4] leaves, [20] leaves of plates : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / This study identifies genetic variation in Australian Uncinula necator populations. Techniques were developed for molecular and phenotypic markers for U. necator. Mating types of Australian clonal lines were identified and viable cleistothecia and infective ascospores were produced in vitro. The study establishes the foundation for investigating the population biology of U. necator, by identifying two distinct genetic groups, A and B, and micro-geographical variation among 35 clonal lines from various Australian viticultural regions. / Thesis (Ph.D.)--University of Adelaide, Dept. of Crop Protection, 1996

Powdery mildew diseases.

Powdery mildew diseases Australia.

Grapes Diseases and pests Australia.

The molecular and biological characterisation of ORF5 of three South African variants of Grapevine Vitivirus A

Blignaut, Marguerite

03 1900

Thesis (MSc (Genetics))--University of Stellenbosch, 2009. / Grapevine Vitivirus A (GVA), genus Vitivirus, family Flexiviridae is a well characterised single-stranded RNA virus that has been implicated in the grapevine diseases, Kober stem grooving and Shiraz disease. The virus infects both its host, Vitis vinifera and the experimental model plant, Nicotiana spp.. Biological studies performed on the virus in its herbaceous host, Nicotiana benthami- ana, revealed that many divergent variants of the virus exists in South Africa and can induce di erent symptoms in the model plant. Further molecular analysis divided the variants into three molecular groups based on molecular heterogeneity and nucleotide identity. The establishment of an infectious full-length cDNA clone of GVA contributed towards the elucidation of gene functions for 4 of the 5 open reading frames (ORF's), and indicated ORF5 as the pathogenicity determinant within the genome. Further studies also showed that ORF5 encodes for a nucleic acid binding protein that exhibits suppression activity of a plants' natural virus silencing mechanism. Many proteins that have previously been identi ed as the pathogenicity determinant within a viral genome have been found to encode for suppression activity. Although suppression activity has been elucidated within the ORF5 of the Italian cDNA clone of GVA, IS 151, no such study has yet been performed on the divergent South African variants of GVA. Three variants, GTR1-1, GTR1- 2 and GTG11-1, which represent each of the molecular groups (Group III, II and I), were selected for this study. The aim of this study was to visually elucidate suppression activity of RNA transgene silencing by the ORF5's of GTR1-1, GTR1-2 and GTG11-1 in a transient expression assays in transgenic N. benthamiana (line 16c). Pathogenicity studies for these variants were also performed. The ORF5 of the infectious full-length clone, GVA118, which can also serve as an expression vector, was deleted and provided with restriction enzyme sites into which the respective ORF5s and the marker genes, GFP and GUS could be cloned directionally. Infectivity, symptom development and systemic movement were compared between the di erent full length clones after co-in ltration in N. benthamiana. Preliminary results obtained in this study failed to visually indicate any suppression activity encoded by the ORF5 of GTR1-1, GTR1-2 and GTG11-1. The deletion of ORF5 within GVA118 was successful and rendered the infectious full length clone asymptomatic. Directional cloning of the ORF5 of GTR1-1 into the unique restriction enzymes provided previously, resulted in much milder symptoms than those observe for GTR1-2 and GTG11-1. No GFP and GUS accumulation could be detected. This study has established an infectious full-length cDNA clone, pBINSN-e35SGVA118 ORF5-1-1-pA, that can possibly induce much milder symptoms in the herbaceous host, N. benthamiana. This construct can be further characterised as a possible expression vector of foreign proteins in herbaceous hosts and grapevine.

Pathogenicity

Dissertations -- Genetics

Theses -- Genetics

Virus diseases of plants

The construction of an infectious clone of grapevine virus A (GV A)

Du Preez, Jacques

04 1900

Thesis (MSc (Genetics))--University of Stellenbosch, 2005. / An infectious clone of a viral RNA genome is one that can be used, either as an in vitro transcript or as cDNA, to produce an infection in a susceptible plant. Infectious clones serve as a tool to study viral RNA genomes at a molecular level to gain deeper insight into genome organization, viral gene function, presence of regulatory sequences and gene expression. In the Western Cape (and elsewhere) a new crippling grapevine disease, known as Shiraz disease, is emerging of which the aetiology and pathogenic agents involved are not yet fully understood. Grapevine virus A (GVA), genus Vitivirus, family Flexiviridae, is thought to be the associated with this disease. The aim of this study was to construct a full-length infectious cDNA clone of GVA, which will aid in the molecular study of the viral genome. This clone could ultimately be used to investigate GVA’s involvement in Shiraz disease, which could lead to the unravelling of the aetiology and control of the disease. A full-length clone of GVA, named GVA-IC2/T7-2972-3, was constructed in several steps using restriction digestion/ligation and primer overlap extension PCR. Grapevine virus A cDNA fragments were obtained from GVAinfected Nicotiana benthamiana and Vitis vinifera plants using three different techniques, of which the Rapid direct-one-tube RT-PCR was most successful. A 5’ T7 promoter and a 3’ poly-A tail were incorporated and the full-length clone was cloned into pBluescript II SK (+). Full-length sequencing of the clone, revealed two significant frameshift mutations. The first mutation was a single base pair insertion (one G) in a slippery site of 6 G’s at position 1380 – 1385 in open reading frame one (ORF 1) of the viral genome. This mutation was corrected by PCR-based site-directed mutagenesis, which resulted in pSK-GVA-mutagen-3 and pSK-GVA-mutagen-4. The second mutation was a single base pair deletion (one G) at position 6959 in ORF4, which coded for the coat protein (CP). Several techniques were attempted to correct this mutation, but none were successful. Even though the second mutation could not be corrected, in vitro transcriptions were performed on three clones followed by subsequent infections of N. benthamiana plants. The three clones included pSK-GVA-mutagen-3, pSKGVA- mutagen-4 (both hosting the mutation at position 6959) and GVA-IC2/T7-2972-3 (hosting both mutations). At 21 days post-inoculation no significant visual symptoms were observed in plants infected with in vitro RNA or in plants infected with wild type GVA. Rapid direct-one-tube RT-PCR results revealed the presence of viral RNA in infected leaves and apical leaves of infected plants, and provided preliminary evidence that the mutated clones were still capable of systemic infection and viral movement. These results are still inconclusive, and several post-infection studies will have to be performed to confirm these findings. Koch's postulates will also have to be proved in order to confirm the infectious nature of the clones. The effect of the two mutations in the constructed clones will be investigated further and post-infection analysis performed to deduce whether the viral progeny are devoid of the mutations. Three full-length GVA cDNA clones (hosting mutations) seemingly capable of systemic infection in N. benthamiana plants were constructed in this study and have laid the foundation for molecular and mutational analysis of the GVA genome. This could lead to the study of pathogen-host interactions in order to unravel the aetiology of Shiraz disease in the future.

Dissertations -- Genetics

Theses -- Genetics

Grapes -- Diseases and pests -- Control

RNA viruses -- Reproduction

Molecular characterization of grapevine virus E in South Africa

De Koker, Wenhelene Crystal

12 1900

Thesis (MSc)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Grapevine virus E (GVE) is a newly identified virus that has been detected in an established vineyard in South Africa. This virus is a member of the genus Vitivirus, family Flexiviridae. Members of this genus are known to infecte grapevine and are associated with various disease complexes, such as the Rugose wood complex (RWC) and Shiraz disease (SD). However, the role and impact of GVE in South African vineyards are still unknown. It is important to study these viruses to determine how they infect and the possible impact they may have on vine health. The accurate and early detection of grapevine viruses is the first important step in disease management. In this study, reverse transcription-polymerase chain reaction (RT-PCR), double antibody sandwich enzyme linked immunesorbent assay (DAS-ELISA) and quantitative (q)RT-PCR were used for the detection of GVE in the vineyard (Vitis vinifera cv Merlot) where GVE was first identified in South Africa. Reverse transcription-PCR was used for detection and determining the incidence of GVE. The incidence was as low as 3% in the vineyard surveyed. All the GVE positive plants were co-infected with GLRaV-3 and no disease association could therefore be made. Evaluation of the Bioreba Grapevine virus A (GVA) DAS-ELISA kit showed that it did not detect GVE. No cross-reactivity occurred with epitopes of GVE, confirming this kit to be a valid and specific assay for GVA infection. The relative virus titer of GVE was calculated over the growing season of 2010/2011, using qRT-PCR. No fluctuation in virus titer was observed during that growing season. Transmission experiments were performed in an attempt to transfer GVE from grapevine to an alternative host. Three different transmission buffers as well as nine different herbaceous plant species, that have shown to be susceptible to several plant viruses in previous studies, were evaluated. In these experiments, GVE could not be transmitted to any of the herbaceous species. To further characterize GVE, chimeric clones were constructed with GVA. The ORF2 and ORF5 of GVE were cloned into previously constructed GVA ORF2 and ORF5 deletion mutants. Construction of the chimeric clones, 35S-GVA-GR5-ΔORF2-GVE-ORF2 and 35S-GVA-118-ΔORF5-GVE-ORF5 were successful and they were evaluated for their infectivity in N. benthamiana. The 35S-GVA-GR5-ΔORF2-GVE-ORF2 chimera was able to infect and replicate in these plants and disease symptoms such as yellowing of veins and leaf curling were observed. Virus, derived from this vector, was detected by TPIA, RT-PCR and DAS-ELISA. The 35S-GVA-118-ΔORF5-GVE-ORF5 chimeric vector was not able to infect N. benthamiana as no disease symptoms were observed in any of the infiltrated plants and virus was not detected with serological analysis and RT-PCR. This study was aimed at further characterizing the recently identified virus GVE. Here, insight is given into the prevalence of this virus in the vineyard where it was first identified and attempts to biologically characterize GVE were made. / AFRIKAANSE OPSOMMING: Grapevine virus E (GVE) is „n nuut geïndetifiseerde virus wat onlangs in „n gevestigde wingerd in Suid Afrika opgespoor is. Hierdie virus vorm deel van die genus Vitivirus, familie Betaflexiviridae. Spesies in hierdie genus is bekend vir wingerdinfeksies en word met „n verskeidenheid wingerd siektes geassosieer, soos bv. Rugose wood complex (RWC) en Shiraz siekte (SD). Die rol en impak van GVE is nog onbekend. Dit is dus belangrik om die virus te bestudeer om te bepaal hoe dit infekteer en of dit enige impak het op wingerd gesondheid. Akkurate en vroeë opsporing van virusse is die eerste belangrike stap vir virussiekte beheer. In hierdie studie word tru-transkripsie (TT) – polimerase ketting reaksie (PKR), dubbel teenliggaam (DAS) -ensiem gekoppelde immuno-absorberende analise (ELISA) en qTT-PKR gebruik vir die opsporing van GVE in die wingerd (Vitis vinifera cv Merlot) waar dit vroeër in Suid Afrika geïdentifiseer was. Vir opsporing en bepaling van verspreiding is TT-PKR gebruik. Daar is bepaal dat 3% van die wingerd met GVE geïnfekteer is. Al die GVE-positiewe stokke het ook positief getoets vir GLRaV-3 en geen assosiasie met siekte simptome kon gemaak word nie. Evaluering van die Bioreba GVA DAS-ELISA met GVE positiewe stokke het nie GVE opgespoor nie. Geen kruisreaktiwiteit het plaasgevind met epitope van GVE nie en dus is die DAS-ELISA ʼn betroubare toets vir GVA infeksie. Die relatiewe virus titer van GVE was ook bepaal oor die groeiseisoen van 2010/2011 deur qTT-PKR te gebruik. Geen fluktuasie in virus titer gedurende die groeiseisoen is waargeneem nie. Transmissie eksperimente is gedoen om GVE vanaf wingerd na ʼn alternatiewe gasheer oor te dra. Drie verskillende transmissie buffers en tien verskillende sagteplant spesies, wat voorheen vatbaarheid vir plantvirusse getoon het, is gebruik. In die transmissie eksperimente kon GVE nie na enige van die sagteplante oorgedra word nie. Om GVE verder te karakteriseer is hibried-virusse met GVA gemaak. Die leesraam (ORF) 2 en ORF5 van GVE gekloneer in GVA ORF2 en -ORF5 delesie konstrukte, 35S-GVA-GR5-ΔORF2 en 35S-GVA-118-ΔORF5, onderskeidelik (Blignaut, 2009; Du Preez, 2010). Klonering van die hibried konstrukte, 35S-GVA-GR5-ΔORF2-GVE-ORF2 en 35S-GVA-118-ΔORF5-GVE-ORF5, was suksesvol en is in N. benthamiana geëvalueer. Virus afkomstig van die 35S-GVA-GR5-ΔORF2-GVE-ORF2 hibried konstruk, kon plante suksesvol infekteer en kon repliseer binne hierdie plante. Siektesimptome soos vergeling van die are en rolblaar is ook waargeneem in plante geïnfekteer met hierdie hibried konstruk. Plante is getoets met weefsel afdruk immuno analise (TPIA), TT-PKR en DAS-ELISA en is positief gevind vir virus afkomstig van hierdie konstruk. Die 35S-GVA-118-ΔORF5-GVE-ORF5 hibried kon nie N. benthamiana infekteer nie en geen siektesimptome is waargeneem in enige van die plante geïnfiltreer met hierdie konstruk. Serologiese analise en TT-PKR het ook nie virus in die N. benthamiana plante opgespoor nie. Die doel van hierdie studie was om GVE te karakteriseer. In hierdie studie word insig gegee oor die verspreiding van hierdie virus in Suid Afrika en pogings is gemaak om GVE biologies te karakteriseer.

Grapevine virus E

Theses -- Genetics

Dissertations -- Genetics

Sequencing and detection of a new strain of grapevine leafroll-associated virus 3 in South Africa

Bester, Rachelle

12 1900

Thesis (MSc)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Grapevine leafroll-associated virus 3 (GLRaV-3) is the type member of the genus Ampelovirus in the family Closteroviridae and is considered to be the main contributing agent of grapevine leafroll disease (GLD) worldwide. A metagenomic sequencing study of a grapevine leafroll-diseased vineyard led to the discovery of a new variant of GLRaV-3 in South Africa. This new variant was most related to a New Zealand isolate, NZ-1. In this study, we sequenced two isolates, GH11 and GH30, of the new variant group of GLRaV-3. These isolates have less than 70% nucleotide (nt) identity to other known GLRaV-3 variants, indicating that they should be considered variants of a different strain of GLRaV-3. We propose that the GLRaV-3-like virus identified in this study be grouped together with NZ-1 and some Napa Valley isolates as Group VI of GLRaV-3. This study also provided further evidence that next-generation sequencing is an invaluable approach to identify novel viruses and variants, in that the draft sequence generated with bioinformatic tools in this study was 98% identical to the GH11 sequence generated using Sanger sequencing. The study further confirmed that the industry standard ELISA is still an effective GLRaV-3 diagnostic method and that it is able to detect all known variant groups of GLRaV-3. However, this assay is not able to differentiate between GLRaV-3 variant groups. In the current study therefore, a real-time RT-PCR was designed that is able to detect GLRaV-3 variant groups I, II, III and VI, using a single primer pair targeting the Hsp70h gene of GLRaV-3. If high-resolution melting (HRM) curve analysis is added to the real-time RT-PCR, it is possible to differentiate between variant groups based on three melting point intervals. The RT-PCR HRM assay provides a more sensitive and rapid tool to detect and differentiate between different GLRaV-3 variant groups. Finally, a multiplex RT-PCR was designed to differentiate between the variant groups present in South Africa. This multiplex RT-PCR offers a validation method for the RT-PCR HRM and provides an end-point PCR alternative for variant identification. In order to investigate the spread and impact of different GLRaV-3 variants in vineyards, sensitive diagnostic techniques are a necessity. The abovementioned tools will contribute to the understanding of the pathogenesis of GLD and aid epidemiological studies to investigate how these different GLRaV-3 variant groups are spreading, the association of specific GLRaV-3 variants to disease symptoms and the mealybug vector transmission efficiency for each GLRaV-3 variant. / AFRIKAANSE OPSOMMING: Grapevine leafroll-associated virus 3 (GLRaV-3) is ’n lid van die genus Ampelovirus in die familie Closteroviridae en word beskou as die hoof bydraende faktor van wingerd-rolbladsiekte wêreldwyd. ’n Metagenomiese studie het bewys dat daar ’n nuwe variant van GLRaV-3 bestaan wat nog nie voorheen in Suid Afrika opgespoor kon word met die huidige opsporingsmetodes nie. Hierdie nuwe variant was naaste verwant aan ’n Nieu-Seelandse isolaat, NZ-1. In hierdie studie is die genoomvolgorde van twee isolate, GH11 en GH30, van hierdie nuwe GLRaV-3 variant groep bepaal. Hierdie twee isolate was minder as 70% identies aan ander GLRaV-3 variante, wat daarop dui dat hulle as variante van ’n nuwe virus-ras beskou behoort te word. Ons beveel aan dat hierdie GLRaV-3-verwante virus geklassifiseer word saam met die NZ-1 isolaat en ander isolate uit Kalifornië, as groep VI van GLRaV-3. Hierdie studie het ook verdere bewyse verskaf dat volgende-generasie volgordebepalingstegnologie ’n waardevolle benadering is om nuwe virusse en variante te identifiseer, deurdat die huidige studie gewys het dat die voorlopige volgorde, wat gegenereer is deur bioinformatika-instrumente, 98% identies was aan die GH11 volgorde wat met Sanger volgordebepaling verkry was. Hierdie studie het ook gevind dat die industrie-standaard ELISA, nog steeds ’n effektiewe GLRaV-3 diagnostiese metode is en wel infeksies, veroorsaak deur al die variant-groepe, sal kan identifiseer. Die ELISA toets is egter nie in staat om te onderskei tussen GLRaV-3 variant-groepe nie. In hierdie studie is ’n variant-identifiseerbare in-tyd tru-transkripsie polimerase ketting reaksie (PKR) ontwerp wat GLRaV-3 variant-groepe I, II, III en VI kan identifiseer deur middel van ’n enkele inleier-stel wat die GLRaV-3 Hsp70h-geen teiken. As hoë-resolusie smeltingskurwe-analise bygevoeg word by die in-tyd tru-transkripsie PKR, is dit moontlik om te onderskei tussen variant-groepe op grond van drie smeltingspunt intervalle. Die tru-transkripsie hoë-resolusie smeltingskurwe-toets verskaf meer sensitiewe en geoutomatiseerde metodes om GLRaV-3 variant-groepe te identifiseer en te onderskei. ’n Veelvuldige tru-transkripsie PKR is ook ontwerp om tussen variante wat tans in Suid-Afrika aangetref word, te onderskei en te dien as ’n valideringsmetode vir die in-tyd tru-transkripsie hoë-resolusie smeltingskurwe-toets. Sensitiewe en akkurate toetse, soos bogenoemde, is noodsaaklik vir die bestudering van die verspreiding en impak van die verskillende GLRaV-3 variante in wingerd. Hierdie metodes kan gebruik word om kennis ten opsigte van rolblad patogenese te verbreed en om by te dra tot epidemiologiese studies wat ondersoek hoe hierdie variant-groepe versprei, of daar ’n assosiasie bestaan tussen ’n spesifieke variant en siekte-simptome en of daar ’n verskil is in die witluisvektor oordragseffektiwitiet vir elke GLRaV-3 variant.

Grapevine leafroll-associated virus 3

Grapes -- Diseases and pests

Molecular variants

Theses -- Genetics

Dissertations -- Genetics

The incidence and distribution of grapevine yellows disease in South African vineyards

Carstens, Roleen

04 1900

Thesis (MSc)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: South Africa is ranked eighth in the world as far as international wine production is concerned and in terms of area under bearing vines South Africa is ranked 12th. In 2011 the wine industry contributed R4 204.4 million to the South African economy in state revenue from wine products. The importance of viticulture to the economy of South Africa forces the industry to limit the effect of all disease causing pathogens in order to keep their competitive edge. Aster yellows (AY) phytoplasma 16SrI-B subgroup was reported for the first time in grapevine (Vitis vinifera L. (Vitaceae)) in South Africa in 2006. Worldwide phytoplasma diseases of grapevine cause serious damage ranging from lower yields to the death of vines. The lack of knowledge about the epidemiology of AY disease makes it difficult to determine the impact of the disease on the South African wine industry. The aim of this study was to conduct surveys in disease-affected vineyards in the Vredendal region to determine the incidence and spatial distribution of the disease in a variety of cultivars. The field surveys based on visual symptoms of AY disease were confirmed by polymerase chain reaction (PCR). A survey was also conducted in and around AY-infected vineyards in search of possible alternative host plants of the phytoplasma. Spatial distribution of AY-affected vines were analysed using the PATCHY spatial analysis package. A rapid decline of AY-affected Chardonnay eventually leading to the death of vines was observed, confirming the sensitivity of Chardonnay towards grapevine yellows infections. Symptomless AY infections occurred and AY could not be detected in all symptomatic vines, which indicate uneven distribution of AY in individual vines. Molecular analyses using PCR-RFLP showed that all vines sampled in the Vredendal vicinity contained AY phytoplasma only. No phytoplasmas were present in any weeds or other possible host plants tested. Although the mean yearly disease incidences of Chardonnay (29.95%) and Chenin blanc (16.64%) were higher than Pinotage (5.80%) over the four-year survey period, there was no statistically significant difference between the disease incidences of these three cultivars. The mean yearly disease incidence showed a trend over time and the disease incidence of the first year was significantly lower than that of the other years. Chardonnay showed a cumulative disease incidence of 37.77% at the end of the 4-year study which means that Chardonnay vineyards can be 100% AY infected in ten years’ time. Spatial distribution patterns of AY-infected vines were mostly non-random with clustering of disease affected vines along and across vine rows. With the exception of one vineyard, aggregation of AY-affected vines mostly occurred on the edge of vineyards adjacent to infected vineyards. This epidemiological study gives an indication of the sensitivity of the different cultivars towards AY, the tempo of spreading and the future impact of the disease on the South African wine industry. It also contributes valuable information towards the development of a management strategy for grapevine yellows disease in South African vineyards. / AFRIKAANSE OPSOMMING: Suid- Afrika is op agtste op die wêreld ranglys wat internasionale produksie van wyn aan betref, en in terme van oppervlakte onder wingerd, is Suid-Afrika 12de. In 2011 het die wynbedryf R4 204.4 miljoen tot die Suid-Afrikaanse ekonomie bygedra in staats inkomste uit wyn produkte. Die belangrikheid van wingerd tot die ekonomie van Suid-Afrika dwing die bedryf om die effek van alle siekteveroorsakende patogene te beperk, om sodoende hul kompeterende voordeel te behou. Aster vergeling (AY) fitoplasma 16SrI-B subgroep is vir die eerste keer in 2006 in wingerd (Vitis vinifera L. (Vitaceae)) in Suid-Afrika waargeneem. Fitoplasma siektes van wingerd veroorsaak wêreldwyd ernstige skade wat wissel van laer opbrengste tot die afsterf van wingerdstokke. Die gebrek aan kennis oor die epidemiologie van astervergeling siekte maak dit moeilik om die impak van die siekte op die Suid-Afrikaanse wynbedryf te bepaal. Die doel van hierdie studie was om ‘n opname te maak in siekte geaffekteerde wingerde in die Vredendal omgewing om sodoende siekte voorkoms en verspreidingspatrone van die siekte in 'n verskeidenheid van kultivars te bepaal. Die veld opnames, gebaseer op visuele simptome van aster vergeling siekte, was bevestig deur polimerase kettingreaksie (PKR). ‘n Opname is ook in en om aster vergeling geaffekteerde wingerde uitgevoer, op soek na moontlike alternatiewe gasheer plante van die fitoplasma. Verspreidingspatrone van astervergeling geaffekteerde wingerde is ontleed met behulp van die PATCHY ruimtelike analise pakket. 'n Vinnige agteruitgang van AY geaffekteerde Chardonnay, wat uiteindelik gelei het tot die afsterf van wingerde, is waargeneem, wat die sensitiwiteit van Chardonnay teenoor wingerdvergeling infeksie bevestig. Simptoomlose astervergeling fitoplasma infeksies kom voor en astervergeling fitoplasma kon nie opgespoor word in alle simptomatiese wingerdstokke nie, wat op oneweredige verspreiding van AY fitoplasma in individuele wingerdstokke dui. Molekulêre ontledings met behulp van PKR-RFLP het getoon dat alle wingerdstokke, wat in die Vredendal omgewing getoets is, slegs astervergeling fitoplasma bevat. Geen fitoplasmas was teenwoordig in enige onkruide of ander moontlike gasheer plante. Hoewel die gemiddelde jaarlikse siekte voorkoms van Chardonnay (29,95%) en Chenin Blanc (16,64%) oor die vier-jaar opname periode hoër was as dié van Pinotage (5,80%), was daar geen statisties beduidende verskil tussen die siekte voorkoms van hierdie drie kultivars nie. Die gemiddelde jaarlikse siekte voorkoms het 'n tendens oor tyd getoon, en die siekte voorkoms van die eerste jaar was betekenisvol laer as dié van die ander jare. Chardonnay het ‘n kumulatiewe siekte voorkoms van 37.77% aan die einde van die 4-jaar studie getoon, wat beteken dat Chardonnay wingerde binne 10 jaar 100% besmet kan wees met AY. Verspreidingspatrone van AY geaffekteerde wingerdstokke was meestal nie-ewekansig met bondeling van geaffekteerde wingerdstokke in en oor wingerd rye. Bondeling van AY geaffekteerde wingerdstokke het, met die uitsondering van een wingerd, meestal op die kant van wingerde aanliggend aan besmette wingerde, voorgekom. Die epidemiologiese studie gee 'n aanduiding van die sensitiwiteit van die verskillende kultivars ten opsigte van AY, die tempo van die verspreiding en die toekomstige impak van die siekte op die Suid-Afrikaanse wynbedryf. Dit dra ook waardevolle inligting by tot die ontwikkeling van 'n strategie vir die bestuur van wingerdvergeling siekte in Suid-Afrikaanse wingerde.

Grapevine yellows disease

UCTD

Theses -- Genetics

Dissertations -- Genetics

Japanese beetle Popillia japonica Newman: foliar feeding on wine grapes in Virginia

Boucher, T. Jude

January 1986

The natural infestation level for 1985 of the Japanese beetle, Popillia japonica Newman, in the Shenandoah Valley of Virginia failed to reduce berry quality, yield or shoot growth in a commercial vineyard. Intensive postveraison foliage feeding by Japanese beetle resulted 1n fruit with lower soluble solids and higher total titratable acidity at harvest, but did not affect pH, sugar per berry, berry weight, yield, leaves per vine or shoot length. Intensive previraison feeding also resulted in fruit with higher total titratable acidity. All other parameters were unaffected. In a separate experiment with 0, 10, 20, and 33% leaf removal, no relationship was shown between leaf area loss and soluble solids, total titratable acidity or pH. Data from one season of damage by the beetle indicate that control measures may not be warranted in some years. In a third experiment, grape leaves on potted vines were artificially damaged by removing leaf disks with a paper punch. The leaves showed an increased loss of efficiency (measured in net photosynthesis, Pn) for the remaining tissue as leaf area loss (LAL) increased. This loss of efficiency in the remaining leaf area at low levels of damage was more pronounced after 12 days than after either 1 or 5 days. The additive effect on Pn of both LAL and lowered efficiency predicted the total shutdown of Pn at 60% damage at 1 and 5 days after treatment, but not at 12 days. / Master of Science

LD5655.V855 1986.B682

Japanese beetle

Grapes -- Diseases and pests -- Virginia

Grapes -- Physiology

Development of a pest management system for table grapes in the Hex River Valley

De Villiers, Marelize

03 1900

Thesis (PhD (Agric) (Conservation Ecology and Entomology))--University of Stellenbosch, 2006. / A study was performed to develop a generic pest monitoring system for sampling the main table grape pests in vineyards in the Hex River Valley, Western Cape Province of South Africa. The presence of phytophagous and predatory mites on cover crop plants was also investigated as this may contribute to biological control of the phytophagous mites in vines. Life table studies for Epichoristodes acerbella (Walker), an important phytosanitary pest, were conducted to determine whether or not this pest was sensitive to high temperatures. Information gained from the latter can also be used for breeding purposes in the possible future development of a sterile insect technique (SIT) programme to control this pest. The sampling system consisted of inspecting 20 plots of five vines per plot per one to two hectares. The top fork of each of the five vines per plot was examined for Planococcus ficus (Signoret) to a distance of within 30 cm of the stem, as well as the distal 15 cm of one cane per vine for the presence of P. ficus and damage caused by Phlyctinus callosus Boh. One bunch per vine was examined for insect damage or presence, and one leaf per vine for the presence of leaf infesting arthropods, such as Tetranychus urticae Koch, P. ficus and Frankliniella occidentalis (Pergande). Corrugated cardboard bands, tied around the stem of one vine per plot, were used to monitor activity of P. callosus. Blue sticky traps, at a density of four to five traps per one to two hectares, were used to monitor activity of F. occidentalis. Pheromone traps, at a density of one trap per one to two hectares, were used to monitor activity of P. ficus, E. acerbella and Helicoverpa armigera (Hübner). All the above-mentioned inspections were done at two-weekly intervals, except traps for E. acerbella and H. armigera, which were inspected weekly. In each of the rows in which the sample plots were situated, one leaf of each of the cover crop plant species was examined for the presence of phytophagous mites and their predators. The abundance and distribution of cover crop plants were determined using a co-ordinate sampling system. Cover crop sampling was done at monthly intervals. The current threshold for P. ficus is 2% stem infestation, which is reached when more than 65 males per pheromone trap are recorded. Counting mealybugs on the sticky pads in the pheromone traps is time consuming. However, the number of grid blocks on the sticky pad with males present can be counted. When P. ficus males are found in 27 blocks on the sticky pad, stem inspections should commence. Due to the spatial association between P. ficus bunch and stem infestation, stem infestation could give an indication of where bunch infestation could be expected. The use of blue sticky traps for predicting halo spot damage, caused by F. occidentalis, is not recommended. The presence of thrips on the vine leaves could not give an indication of where to expect bunch damage, since thrips on the leaves and halo spot damage were not spatially associated. A suitable sampling method for F. occidentalis still needs to be developed. The monitoring system described here can only provide information on the infestation status of the vineyard. For E. acerbella, H. armigera and P. callosus, the traps and cardboard bands could be used to identify vineyards where these pests are present and therefore, where phytosanitary problems may arise. The presence of P. callosus under the bands was spatially associated with P. callosus damage and could be used as an indicator of the latter. The presence of drosophilid flies in the bunches could not be used as an indicator of the presence of E. acerbella in the bunches. If 5% bunch damage is used as an economic threshold for E. acerbella and P. callosus, there will be a good chance of not under spraying if control measures are applied at 1% bunch damage. Epichoristodes acerbella favoured more moderate constant temperatures, with constant temperatures of 28°C and above being unfavourable for development. The economic threshold for Tetranychus urticae Koch is six mites per leaf, or if presence-absence sampling is used, 11 to 29% leaf infestation. Three important predatory mites, that kept T. urticae under control, were found in the Hex River Valley, namely Euseius addoensis (Van der Merwe & Ryke), Neoseiulus californicus (McGregor) and an undescribed phytoseiid in the genus Typhlodromus. Various cover crop plants served as hosts for T. urticae and predatory mites. The presence of these plants created suitable conditions for the survival of these mites and may have influenced their presence on the vine leaves. In the case of phytosanitary pests, both field and pack shed inspections can be used to conclude with a 99% degree of certainty that infestation levels in the pack shed will be 10% or less, since similar results for both methods were obtained. However, more than 20 plots will have to be inspected.