Development of a model to predict sporulation of Bremia lactucae in lettuce

Tchervenivanova, Eli

January 1995

The effect of temperature and duration of leaf wetness (DLW) on sporulation of Bremia lactucae was determined for lettuce cv. Ithaca. A single spore isolate of B. lactucae was produced and was identified using lettuce differential lines each of which had known gene for resistance. Potted lettuce plants were inoculated with the isolate and incubated at 15 C, at 100% relative humidity for 24 h and then at a relative humidity lower than 70%. Seven days later, the plants were submitted to five different temperatures (5, 10, 15, 20 and 25 C) and six durations of leaf wetness (4, 6, 8, 10, 12 and 14 h). The number of spores produced was determined at the end of each wet period. After 4 h of incubation no spores were observed at any of the temperatures. Highest number of spores was found at 10 and 15 C for more than 10 h of DLW. The rate of sporulation rapidly increased between 8 and 10 h for all the temperatures, including 25 C, where the amount of spores produced was very low. The observed number of spores was transformed into proportion of maximum sporulation (PMS) by providing each data by the maximum number of spores observed for each experiment. The Richards model was used to describe sporulation as a function of leaf wetness duration and the rate and maximum value expressed as a function of temperature. This approach resulted in a three-dimensional equation that explained 87% of the variation in the PMS. Spore viability was also estimated for each temperature and DLW. It was zero after 6 h of incubation and reached almost the maximum after 10 h for all the temperatures. The sporulation model was validated under field conditions and it predicted high, medium, low, or no sporulation in 8 out of 11 times.

Bremia lactucae.

The role of birds as predators and potential biocontrol agents of insect pests in corn fields /

Tremblay, Annie C.

January 1999

This project investigated the impact of bird predation on insect pest populations within two cornfields of Southwestern Quebec. Birds were excluded from portions of these fields through the use of bird-proof netting. Rhopalosiphum maidis, Ostrinia nubilalis, Agrotis spp. and Sphenophorus spp. were all found at greater densities in plots where birds were excluded as compared with the non covered plots. Only the adult Diabrotica longicornis population was not reduced by birds. Results significantly suggest that birds can reduce insect pest populations. Bird visits in cornfields with respect to distance from field edge, type of edge habitat and corn phenology were also studied. Red-winged Blackbird, Song and Chipping Sparrows and American Robin were the most frequently observed bird species inside cornfields. Early in the summer, birds tended to stay closer to the field edge, especially when composed of mature coniferous trees. Different bird species visited the cornfields at specific periods during corn development.

Birds -- Food -- Québec (Province).

Towards integrated control of cotton pests in Guatemala : an economic analysis

Pira, Lars Henrik.

January 1981

No description available.

Pests -- Control -- Guatemala.

The status of the biological control of pineapple mealybugs in Hawaii

Gonzalez-Hernandez, Hector

January 1995

Thesis (Ph. D.)--University of Hawaii at Manoa, 1995. / Includes bibliographical references (leaves 120-122). / Also available in microform / xvii, 128 leaves, bound ill. 29 cm

Mealybugs -- Control -- Hawaii

Agricultural change as an adaptive process : adoption of modern methods and responses to pest outbreaks by rice farmers in Chachoengsao Province, Central Thailand

Stone, Frederick Doren

January 1983

Typescript. / Thesis (Ph. D.)--University of Hawaii at Manoa, 1983. / Bibliography: leaves [459]-474. / Microfiche. / xxiv, 474 leaves, bound ill. (some col.), maps 29 cm

Agriculture -- Thailand -- Chachoengsao

Controlling Soilborne Diseases of Potato and Influencing Soil Microbiology with Brassica Cover Crops

Lynch, Ryan P.

January 2008

No description available.

Cover crops

Soil microbiology

Soilborne plant diseases -- Control

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

Leaf blackening and the control thereof in selected Protea species and cultivars

Windell, Nicole Elizabeth

03 1900

Thesis (MScAgric)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Leaf blackening, a postharvest disorder which is characterized by a dark brown to black discoloration, is found in most commercially important Protea cut flower species and cultivars. As this disorder is known to increase with storage time, it is a major concern to the South African industry as the use of sea freight is increasingly preferred due to lower transport costs and a more favourable carbon footprint. The cause of leaf blackening has been strongly linked to a carbohydrate stress exerted by the large inflorescence, thus requiring the utilization of sugar bound polyphenols in the foliage, which when removed, can oxidize enzymatically or non-enzymatically. A study where harvesting was done throughout the season as well as on selected days at 08:00, 12:00, 15:00 and 17:00, concluded that leaf blackening incidences in Protea cv. Sylvia stems varies significantly throughout the season, between years and even with the harvest time of day. Leaf blackening incidences increased from October onwards and remained high until February, before decreasing to acceptably lower levels towards March to May. Carbohydrate- and phenolic content together with water status of leaves at harvest was not able to accurately predict incidence of the associated leaf blackening. However, irrespective of the season of harvesting, leaf blackening was significantly lower when stems were harvested later in the day than compared to stems harvested in the morning. Low sucrose and high water content at these harvest times was positively correlated to high incidences of leaf blackening. In a next study where uptake dynamics of glucose pulsing was investigated, Protea cv. Sylvia was harvested at different times throughout the day, dehydrated to various levels and pulsed with an increasing range of glucose concentrations. Pulsing solution uptake per stem was found to be highly influenced by these factors, as dehydration of stems and a harvest time later during the day both decreased stem water potential, which then increased pulse-solution uptake within a certain time period. The daily harvest time influenced transpiration, whilst pulse-solution uptake decreased with an increase in glucose pulse concentration. When stems were pulsed pre-storage with an increasing range of glucose concentrations, not only did pulses of between 4.7 – 13.7% glucose significantly delayed the incidence of leaf blackening, but it also maintained a positive water balance longer in stems during vase life. Ethanol or acetaldehyde vapour did not provide a viable alternative for reducing leaf blackening incidence in Protea cv. Sylvia, although a synergistic effect was found when ethanol vapour or pulsing was used in combination with glucose. A commercial verification trial disclosed that Protea magnifica and Protea ‘Pink Ice’ reacted more beneficial to ethanol vapour than was observed in ‘Sylvia’. This study confirms that carbohydrate availability within the Protea cut stem remains a key factor in the control of leaf blackening. Factors which assist in maintaining high internal carbohydrate levels, such as enhanced glucose pulse uptake or effective vase solution utilization will contribute to providing an optimum control of leaf blackening during vase life following long-term cold storage. / AFRIKAANSE OPSOMMING: Loofblaarverbruining is ‘n na-oes defek wat gekarakteriseer word deur ‘n donker bruin na swart verkleuring wat voorkom in meeste kommersieël belangrike Protea snyblom spesies en kultivars. Hierdie defek is bekend daarvoor dat dit toeneem met stoortyd, dus is dit ‘n groot kommer vir die Suid-Afrikaanse industrie, met toenemende gebruik van seevrag as vervoer keuse wat laer vervoer kostes en meer gunstige ‘koolstof voetspoor’ bevoordeel. Die oorsaak van loofblaarverbruining word sterk gekoppel aan ‘n koolhidraat stres wat uitgeoefen word deur die groot bloeiwyse op die loofblare, waar suiker-gebonde polifenoliese verbindings ensiematies of nieensiematies geoksideer word met die verwydering van die suiker verbinding. 'n Studie waar geoes was regdeur die seisoen, sowel as op geselekteerde dae om 08:00, 12:00, 15:00 en 17:00, het bevind dat die voorkoms van loofblaarverbruining in stele van Protea kv. Sylvia aansienlik geskil regdeur die seisoen, tussen jare en selfs met die oes tyd gedurende die dag. Die voorkoms van loofblaarverbruining het toegeneem vanaf Oktober en het hoog gebly tot en met Februarie, voordat dit gedaal het tot aanvaarbare laer vlakke teen Maart, tot en met Mei. Koolhidraat-en fenoliese inhoud sowel as die water status van die blare by oes was onsuksesvol om die voorkoms van die gepaardgaande loofblaarverbruining akkuraat te voorspel. Loofblaarverbruining was egter aansienlik laer as stele geoes later in die dag teenoor stele geoes in die oggend, ongeag die seisoen van oes. Lae sukrose en 'n hoë water inhoud geassosieer met hierdie oes-tye was positief gekorreleerd met ‘n hoë voorkoms van loofblaarverbruining. In 'n volgende studie waar die opname dinamika van glukose pulsing ondersoek was, is Protea kv. Sylvia stele geoes op verskillende tye dwarsdeur die dag, gedehidreer tot verskillende vlakke en met 'n toenemende reeks van glukose konsentrasies gepuls. Pulsoplossing opname per steel is sterk beïnvloed deur hierdie faktore, aangesien dehidrasie van die stele asook stele geoes later gedurende die dag die afname van steel waterpotensiaal veroorsaak het, terwyl die puls-oplossing opname versnel het binne ‘n bepaalde tyd. Die tyd van oes beïnvloed ook transpirasie, terwyl vaas oplossing opname afgeneem met 'n toename in glukose puls konsentrasie. Wanneer ‘Sylvia’ stele gepuls was voor stoor met 'n reeks van toenemende glukose konsentrasies, het nie net die puls van tussen 4.7 – 13.7% glukose aansienlik die voorkoms van loofblaarverbruining vertraag nie, maar dit het ook ‘n positiewe water balans langer in stele gedurende die vaas lewe behou. Nie etanol of asetaldehied dampe is bevind as geskikte alternatief vir glukose pulsing om die voorkoms van loofblaarverbruining in Protea kv. Sylvia te verlaag nie, alhoewel ‘n sinergistiese effek waargeneem was wanneer etanol in kombinasie met glukose gebruik was. ‘n Kommersieële bevestigingstoetsing het bevind dat Protea magnifica en ‘Pink Ice’ meer voordeel uit ‘n ethanoldamp behandeling kon trek teenoor ‘Sylvia’. Hierdie studie het bevestig die belangrikheid van koolhidraat beskikbaarheid in die Protea snyblom, vir beheer van loofblaarverbruining. Faktore wat die handhawing van hoë interne koolhidrate vlakke, soos bevorderde glukose puls opname of effektiewe vaas oplossing benutting sal bydra tot ‘n optimal beheer van loofblaarverbruining tydens vaas lewe na langtermyn koueopberging. / National Research Fund (NRF) for their financial support in 2009; Protea Producers of South Africa (PPSA) and Productschap Tuinbouw (PT) as well as the Frank Batchelor Will Trust Grant for the financial support.

Fungal diseases of plants

Leaves -- Diseases and pests

Theses -- Horticulture

Dissertations -- Horticulture

Ecologia da paisagem e controle de pragas agrícolas /

Garcia, Adriano Gomes.

January 2014

Orientador: Paulo Fernando de Arruda Manera / Banca: Wesley Augusto Conde Godoy / Banca: Carlos Roberto Padovani / Resumo: / Abstract: / Mestre

Besouro.

Pragas agricolas - Controle.

Ecologia da paisagem.

Consórcios.

Modelos matemáticos.

Agricultural pests Control

Metodologias de aplicação de sulfonamida heterocíclica no controle de Meloidogyne javanica e Pratylenchus brachyurus em soja /

Oriani, Eduardo Elias.

January 2015

Orientador: Pedro Luiz Martins Soares / Banca: Rita de Cássia Panizzi / Banca: Sílvia Renata Siciliano Wilcken / Resumo: Os problemas com nematoides aumentaram significativamente nas áreas de cultivo de soja e práticas de redução populacional são fundamentais para minimizar as perdas na produtividade. Três metodologias de aplicação, utilizando a nova sulfonamida nematicida, para controle do M. javanica e P. brachyurus em soja foram avaliadas: 1) aplicação no sulco de plantio sobre as sementes, 2) aplicação em área total 5 dias antes do plantio, 3) aplicação no sulco de plantio sobre as sementes, e mais uma aplicação complementar 20 dias após a emergência (DAE) em área total. Foram avaliados: i) número de plantas por metro linear (14 DAE); ii) altura das plantas e massa fresca da parte aérea (45 e 90 DAE); iii) população de diferentes estádios de desenvolvimento de nematoide (ovos, juvenis e adultos) nas raízes (45 e 90 DAE); iv) índice de galhas (45 e 90 DAE); v) produtividade. Dentre as metodologias testadas, a aplicação da sulfonamida nematicida aplicada no sulco de plantio sobre as sementes apresentou redução populacional de M. javanica aos 45 DAE na dose de 1.500 g i.a/ha e na dose de 2.000 g i.a/ha foi detectada redução populacional aos 90 DAE. Essa metodologia não mostrou efeito sobre P. brachyurus nas doses testadas. A segunda metodologia, com aplicação da sulfonamida, em área total 5 dias antes do plantio, reduziu a população de M. javanica aos 90 DAE nas doses de 500 e 1.500 g i.a/ha. Essa metodologia também reduziu a população de P. brachyurus aos 45 DAE na dose de 1.500 g i.a/ha. A terceira metodologia, com aplicação da sulfonamida nematicida no sulco de plantio (150 g i.a /ha) e mais uma aplicação complementar em área total 20 DAE (750 g i.a /ha) reduziu significativamente a população de M. javanica até 45 DAE e reduziu as galhas até 90 DAE. Essa metodologia não... / Abstract: Problems with nematodes have been increasing on soybeans fields. Programs for nematode population reduction are essential to reduce yield losses. Three application methodologies, using the novel sulfonamide nematicide, were tested to control M. javanica e P. brachyurus in soybean: 1) furrow application at sowing planting 2) broadcast application in the total area 5 days before planting, 3) furrow application at sowing and an additional total area application 20 days after emergence (DAE). Evaluations consisted in: i) number of plants per linear meter (14 DAE); ii) plants height and fresh weight of shoots (45 and 90 DAE); iii) nematode population of different developmental stages (eggs, juveniles and adults) in the roots (45 and 90 DAE); iv) gall index (45 and 90 DAE); v) yield. Among tested methodologies, sulfonamide nematicide furrow application at sowing presented M. javanica population reduction 45 DAE with 1.500 g a.i/ha and with 2.000 g a.i/ha was detected population reduction 90 DAE. This methodology did not reduce P. brachyurus population in any of the doses tested. The second methodology, with application in the total area 5 days before planting, reduced M. javanica population with 500 and 1.500 g a.i/ha 90 DAE. This methodology also reduced P. brachyurus with 1.500 g a.i/ha 45 DAE. The third methodology, sulfonamide nematicide furrow application at sowing (150 g a.i/ha) and an additional total area application 20 DAE (750 g a.i/ha) significantly reduced M. javanica population until 45 DAE and showed gall index reduction until 90 DAE. This methodology also did not have any effect on P. brachyurus population in any of the doses tested. In all methodologies tested the sulfonamide did not show negative crop response, did not increase the plant height, fresh weight and yield / Mestre

Soja - Doenças e pragas - Controle.

Defensivos vegetais.

Nematoda em plantas.

Produtos químicos agrícolas.

Sulfonamidas.

Agricultural pests Control