A genetic and biochemical study of the antibiosis mechanism of host-plant resistance in soybeans to the Mexican bean beetle /

Rufener, George Keith

January 1987

No description available.

Agriculture

Mexican bean beetle--Host plants

Soybean--Disease and pest resistance

Antibiosis

Interactions between Xanthomonas campestris pv. manihotis (ISPP list 1980) and cassava (Manihot esculenta Crantz)

Asiedu, Samuel Kwaku

January 1984

No description available.

Cassava -- Diseases and pests.

Xanthomonas manihotis.

Host-parasite relationships.

Phytopathogenic bacteria -- Host plants.

Host plants of the tobacco flea beetle, Epitrix parvula F.

Glass, Edward H.

09 September 2008

A study of the host plants of the tobacco flea beetle was made in Pittsylvania County from April 1 to September 23, 1939. The work was divided into field observations, rearing experiments end population studies. From field observations made throughout the season it was found that this insect fed mostly on the solanaceous plants. especially tobacco. In the spring before the tobacco was transplanted and in the late summer after the harvesting of the crop, the flea beetle fed on a wide variety or plants. Rearing experiments were made using 29 plant species representing 11 families most of which were known as hosts of the adult beetle. These were planted in a small plot of land of a common tobacco soi1. Beetles were caged over these for 4 days and records were kept as to the number of adults that developed from the eggs laid. No beetles emerged from any of the non-solanaceous plants, whereas at least a few developed on all the Solanaceae tested. Many more beetles developed on tobacco, potato and jimson weed than on any of the others. For the population studies tobacco flea beetle and solanaoeous weed counts were made in 14 tobacco fields selected for this purpose. Beetle counts were made at weekly intervals from May 26 until the middle of August and were computed to show the average number of beetles per tobacco plant. Weed counts were made in June and September and were computed to show the average number of weeds per 100 square yards. The data indicated that only tobacco in the beds and potato in the field were of importance in building up the early flee beetle infestation of tobacco. / Master of Science

LD5655.V855 1940.G626

Tobacco flea beetle -- Host plants

Tobacco -- Diseases and pests

Drosophila suzukii (Matsumura) (Diptera: Drosphilidae): Risk Assessment For An Invasive Vinegar Fly In Virginia Vineyards

Shrader, Meredith Edana

22 June 2017

Drosophila suzukii (Matsumura) (Diptera: Drosophila) is an invasive frugivore and has become a significant pest of small fruit, cherry and grape throughout the United States. It may be possible to determine if a Virginia vineyard is at risk of D. suzukii infestation by analyzing the biotic and abiotic factors around each vineyard. This pest is known to utilize a wide range of cultivated and wild host plants. A host plant survey was conducted at four vineyards in the Piedmont Region of Virginia to identify hosts used by D. suzukii around vineyards. The seasonal availability of host plants and adult emergence from them were tracked. Six host plant species of D. suzukii were identified, some available season-long. Monitoring D. suzukii in cultivated crops is crucial for the timing of spray applications. Homemade and commercially available baits and traps were deployed in two vineyards to determine the efficacy and selectivity towards D. suzukii. The homemade and commercially available baits that contained red wine caught the most D. suzukii, but none were exclusively attractive to D. suzukii. Wine grape susceptibility was assessed in laboratory choice and no-choice ovipositional bioassays. Ovipositional susceptibility was determined by measuring the physiological and morphological parameters using six wine grape varieties. More eggs were laid in grapes as penetration force decreased. Penetration force and not skin thickness was the limiting factor for oviposition. Survivorship of eggs laid in intact grapes was analyzed and survivorship to adulthood was dependent upon variety and survivorship usually exceeded 9% survival seen in previous studies. Larval developmental parameters of D. suzukii were affected by grape variety and the density of Z. indianus. D. suzukii mortality was increased in most cases when in competition with Z. indianus, but was less pronounced when reared in Viognier grapes. My Z. indianus oviposition study demonstrated that they will follow injury created by D. suzukii, and then the Z. indianus larvae may outcompete D. suzukii within the berries. These studies greatly improved our understanding of D. suzukii biology and ecology in Virginia vineyards. / Ph. D.

Drosophila suzukii

Zaprionus indianus

host plants

interspecific competition

wine grapes

trapping

The association and transmission of Leptographium procerum (Kendr.) wing., by root feeding insects in Christmas tree plantations

Nevill, Ralph John Leslie

12 October 2005

Procerum root disease (PRD), caused by Leptographium procerum (Kendr.) Wingf., is the most serious problem facing Christmas tree growers of eastern white pine, (Pinus strobus L.). Limited studies have shown an association between PRD affected trees and insect infestations, and L. procerum has been recovered from field collected insects. The objectives of this study were to demonstrate the association of L. procerum with the life cycle of potential insect vectors and determine if the insect associates could transmit the fungus to healthy trees. To study the association of PRD with potential insect vectors, PRD symptomatic trees from 4 Christmas tree plantations were excavated and examined monthly, June - September in 1988 and 1989, and April - September 1990. Potential insect vectors were collected weekly in baited pit-fall traps placed in: 1) paired plots placed in asymptomatic and symptomatic areas of PRD symptomatic plantations, 2) plots in plantations where PRD was absent, 3) plots in the headlands of plantations, 4) plots in forested areas and 5) one plot in an urban setting. Trees in the plots were also inspected for evidence of weevil feeding and for development of PRD. Larvae of two weevil species, Hylobius pales (Herbst.) and Pissodes nemorensis Germ., were recovered from 52, 42, and 43% of PRD symptomatic eastern white pine in 1988, 1989, and 1990, respectively. Hylobius pales and P. nemorensis contaminated with L. procerum were recovered from all plots. The proportion of H. pales contaminated with L. procerum was 73.0% in 1988, 86.5% in 1989 and 72.9% in 1990 while the proportion of P. nemorensis contaminated with the fungus was 17.8, 21.2 and 14.2% in 1988, 1989 and 1990, respectively. Over the three year period of the study, the proportion of PRD infected trees in the symptomatic paired plots rose from 3.6 to 29%. None of the trees in the asymptomatic plots became symptomatic. Transmission of L. procerum was determined by caging field collected and artificially infested H. pales and P. nemorensis on eastern white pine seedlings for 24 hours. To determine if transmission of the fungus during oviposition leads to contamination of the brood,field collected H. pales adults were allowed to feed and oviposit on fresh white pineee bolts. Feeding by artificially infested H. pales adults resulted in transmission of L. procerum 90 and 98% of eastern white pine seedlings in 1989 and 1990, respectively. Field collected H. pales adults transmitted the fungus to 58 and 68% of seedlings in 1989 and 1990, respectively. Artificially infested and field collected P. nemorensis adults transmitted L. procerum to 100 and 28% of the seedlings respectively. All bolts oviposited on by field collected H. pales became colonized by L. procerum and 100% of the weevils that emerged from them were contaminated with the fungus. The results from this study confirms the rules for insect transmission of a plant pathogen. / Ph. D.

LD5655.V856 1990.N485

Christmas tree growing

Phytopathogenic fungi -- Host plants

Dynamique spatio-temporelle des mouches des fruits (Diptera Tephritidae) en fonction des facteurs biotiques et abiotiques dans les vergers de manguiers de l'ouest du Burkina Faso / Spatial and temporal dynamics of mango fruit flies species (Diptera Tephritidae) with biotic an abiotic factors in Burkina Faso (West Africa) and development of improved control methods against these pests

Ouedraogo, Sylvain

17 February 2011

Ravageurs de quarantaine, les mouches des fruits (Diptera : Tephritidae) constituent unecontrainte importante à l’exportation de la mangue au Burkina Faso. L’objectif de cette étudeétait d’améliorer nos connaissances sur l’écologie de ces ravageurs. Entre décembre 2007 etdécembre 2009, 1156598 Tephritidae ont été capturés dans 7 vergers présentant 8 cultivarsdifférents. Pendant cette période, l’évolution de la température, de l’hygrométrie et de lapluviométrie a été notée. 19764 mangues ont été collectées et observées afin de déterminerleur niveau d’infestation par ces insectes. Dix-huit espèces des genres Bactrocera, Ceratitis,et Dacus ont été identifiées, B. invadens et C. cosyra étant les plus abondantes. Les pics despopulations de mâles et de femelles, apparaissent entre mai et juin selon les sites. Les femelles,présentent aussi un pic en période de floraison des manguiers. Sept espèces de Tephritidaeinfestent les mangues et l’incidence moyenne de leurs dégâts varie entre 0% (Sabre) et 12,5%(Keitt), Keitt et Brooks sont les cultivars les plus infestés. 64% de ces dégâts sont causés parB. invadens et 31% par C. cosyra. L’inventaire des essences ligneuses autour de ces sites ainsique la collecte et l’incubation de leurs fruits entre avril 2008 et décembre 2009 ont aussi étéeffectués. 105 ligneux ont été recensés autour des vergers. Les fruits de 13 d’entre eux sontinfestés par 7 espèces de Tephritidae dont 6 se retrouvent aussi dans les mangues. Il s’agitsurtout de C. cosyra mais aussi de C. silvestrii, C. puntata et B. invadens.Ce travail montre les corrélations significativees entre les facteurs climatiques, la fluctuationdes populations, et les dégâts observés. Les espèces ligneuses alentours sont des refugespermettant le maintien des populations même hors saison de la mangue. Ces résultatsnouveaux permettent l’adaptation de la lutte contre ces ravageurs économiquement importantsau contexte agro-écologique de notre zone d’étude / Classified as a quarantine pest, mango fruit flies (Diptera Tephritidae) are an importantconstraint for mango exportation from Burkina Faso. The main objective of this study was theenhanced understanding of the ecology of mango’s Tephritids. 1156598 Tephritid flies weretraped from December 2007 to December 2009 in 7 mango orchards. During this monitoring,temperature, relative humidity and rainfalls were registered. 19764 mango fruits from 8cultivars were collected and obsreved during mango season in order to assess fruit fliesdamages. Eighteen Tephritids species notably from Bactrocera, Ceratitis and Dacus genuswere identified and B. invadens and C. cosyra are the dominant ones. The population peaks ofmales and females appear in the months of May & June according to the sites. The femalespresent a peak during the flowering period also of the mango trees. Seven species of mangoinfesting fruit flies have been identified and the incidence of this infestation varies between0% (Sabre) and 12.5% (Keitt). Keitt and Brooks are the most infested mango cultivars. 64 %of these damages are caused by B. invadens while 31 % by C. cosyra. The inventory of thewoody plants around these sites as well as the collection and the incubation of their fruitsbetween April 2008 and December 2009 were also carried out. 105 woody trees had beenlisted around the mango orchards. Out of which, the fruits of 13 trees were found infested by7 species of Tephritids, of which, 6 are also found in mangos. It is especially C. cosyra butalso C. silvestrii, C. puntata and B. invadens.This work shows significant correlations between Tephiritids population fluctuations, climaticfactors and mango damages. The woody species around mango tree orchards shelter thesepests even after mango season. These new results allow the adaptation of the mango fruit fliescontrol methods in the particular agro-ecological area of our study zone

Fluctuation des populations

Dégâts

Insectes ravageurs

Mangue

Plantes hôtes

Climate

Populations fluctuations

Damages

Insects pests

Mango

Host plants

Climat

Efeitos direto e indireto dos begomovírus Tomato severe rugose virus (ToSRV) e Tomato yellow leaf curl virus (TYLCV) no desempenho biológico de Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) / Direct and indirect effects of begomovirus Tomato severe rugose virus (ToSRV) and Tomato yellow leaf curl virus (TYLCV) on fitness of Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae)

Maluta, Nathalie Kristine Prado

24 January 2013

Sabe-se que a grande maioria dos fitopatógenos depende quase que exclusivamente de vetores para disseminarem-se para novos hospedeiros, porém pouco foi estudado no que se refere aos efeitos dos micro-organismos sobre seus insetos vetores. Sendo Bemisia tabaci uma praga de elevada importância e vetora de inúmeros vírus para plantas cultiváveis, é de extrema relevância estudar os efeitos provocados pelos vírus sobre seu desempenho biológico. Assim, esta pesquisa objetivou: a) avaliar os efeitos direto e indireto dos begomovírus Tomato severe rugose vírus (ToSRV) e Tomato yellow leaf curl virus (TYLCV) sobre parâmetros biológicos de B. tabaci biótipo B e Q respectivamente, dos quais: duração e viabilidade do período ninfal; razão sexual; fecundidade; fertilidade e longevidade. Os resultados encontrados variam de positivos, neutros a negativos, dependendo do parâmetro, efeito e espécie do vírus estudado. Sendo assim, observou-se que há efeito direto de ambos os vírus na duração do período ninfal, sendo menor em insetos virulíferos que em sadios. Ademais, há um incremento no número médio de ovos depositados por insetos virulíferos com ToSRV (225,2 ovos/fêmea) quando comparado com insetos sadios (180,1 ovos/fêmea). Já TYLCV afetou diretamente a longevidade de machos os quais tiveram a duração da fase adulta incrementada quando virulíferos (30 dias) e 24 dias quando sadios. Há um efeito indireto negativo de ToSRV sobre a viabilidade ninfal de seu vetor, sendo de 52% quando estes são mantidos em plantas infectadas e 86% em plantas sadias de tomate. A razão sexual também foi afetada por este vírus, favorecendo as fêmeas, sendo de 2:1 a proporção entre fêmeas e machos em plantas infectadas. Ademais, a longevidade de machos foi reduzida drasticamente quando em plantas infectadas com ToSRV. Também foi detectado um efeito indireto positivo do TYLCV sobre a fecundidade de fêmeas de B. tabaci biótipo Q, as quais depositaram em média maior quantidade de ovos em plantas infectadas que em plantas sadias de tomate, sendo 52,8 e 33,2 ovos respectivamente. Tais resultados permitem concluir que, nas condições em que os ensaios foram realizados, ToSRV afeta diretamente de forma positiva seu vetor, enquanto possui efeitos indiretos principalmente negativos sobre parâmetros biológicos de B. tabaci biótipo B. Igualmente TYLCV possui efeitos diretos positivos sobre o biótipo Q da espécie de mosca-branca. Já indiretamente este vírus, diferentemente de ToSRV, afeta positivamente a biologia de seu vetor B. tabaci biótipo Q, favorecendo a fecundidade dos indivíduos que se desenvolveram em plantas infectadas de tomate. / It is known that the vast majority of pathogens relies almost exclusively vector for spreading to new hosts, but little has been studied regarding the effects of micro-organisms on its insect vectors. Bemisia tabaci is a pest of high importance vector of numerous virus to cultivated plants, it is extremely important to study the effects caused by viruses on its biological performance. Thus, this study aimed to: a) evaluate the direct and indirect effects of the begomovirus Tomato severe rugose virus (ToSRV) and Tomato yellow leaf curl virus (TYLCV) on biological parameters of B. tabaci biotype B and Q respectively, of which duration and viability of nymphal development; sex ratio; fecundity; fertility and longevity. The results range from positive, neutral to negative, depending on the parameter, effect and species of the virus studied. Thus, it was observed that there is a direct effect of the both virus in the duration of nymphal development, being less than viruliferous insects in healthy individuals. Moreover, there is an increase in the average number of eggs laid by viruliferous insects with ToSRV (225,2 eggs / female) when compared with healthy insects (180,1 eggs / female). Already TYLCV directly affected the longevity of males which lasted adulthood increased when viruliferous (30 days and 24 when healthy). There is an indirect negative effect on the viability of ToSRV nymphal of its vector, and 52% when they are kept in infected plants and 86% in healthy tomato plants. The sex ratio was also affected by this virus, favoring females, with a ratio of 2:1 between females and males in infected plants. Furthermore, the longevity of males was reduced dramatically when plants infected with ToSRV. We also detected a positive indirect effect of TYLCV on fertility of female B. tabaci biotype Q, which placed greater average number of eggs in infected plants than on healthy plants of tomato, 52,8 and 33,2 eggs respectively. These results indicate that, under conditions in which the tests were performed, ToSRV directly affects positively its vector, while indirect effects has mostly negative on biological parameters of B. tabaci biotype B. TYLCV also has positive direct effects on the Q biotype of the whitefly species. Already indirectly this virus, unlike ToSRV, positively affects the biology of its vector B. tabaci biotype Q, favoring the fecundity of individuals that developed in infected tomato plants.

Begomovirus

Begomovírus

Host plants

Insect vectors

Insetos vetores

Mosca-branca - Desempenho biológico

Plantas hospedeiras

Whitefly - biological fitness

Psilídeos (Hemiptera: Psylloidea) associados a olerícolas e estudo das interações com suas plantas hospedeiras / Psyllids (Hemiptera: Psylloidea) associated with vegetable crops and study of interactions with their host plants

Kuhn, Taciana Melissa de Azevedo

28 March 2018

Os psilídeos (Hemiptera: Psylloidea) são insetos sugadores de floema que se destacam como vetores de bactérias associadas a doenças emergentes em várias culturas agrícolas, como \'Candidatus Liberibacter solanacearum\' (CaLsol), que afeta batata, cenoura e tomate na América do Norte e Central, Europa, África e Nova Zelandia. Estudos recentes mostram associações de CaLsol com diversas espécies de olerícolas e psilídeos vetores, sugerindo a existência de mais interações do que as atualmente conhecidas. No Brasil, ainda não há registros de CaLsol nem dos psilídeos já conhecidos como vetores. Embora Psylloidea seja um grupo diversificado, apenas 89 espécies encontram-se identificadas no Brasil, sendo a maioria delas em áreas de floresta, havendo poucas informações sobre psilídeos em olerícolas. Assim, os objetivos do presente trabalho foram: 1) Avaliar a diversidade de espécies de Psylloidea associadas a cultivos de olerícolas na região Centro-Sul do Brasil, buscando-se identificar a ocorrência de espécies vetoras ou potenciais vetoras de CaLsol; 2) Avaliar a preferência hospedeira, sobrevivência e desenvolvimento de duas espécies de psilídeos associados a olerícolas, Russeliana capsici Burckhardt e R. solanicola Tuthill, em diferentes espécies vegetais que poderiam atuar como hospedeiras de CaLsol ou dos vetores; 3) Caracterizar o comportamento alimentar de adultos e imaturos de R. solanicola em plantas com diferentes níveis de adequação para o seu desenvolvimento, usando a técnica Electrical Penetration Graph (EPG). No levantamento realizado com métodos diretos (rede entomológica, batida de planta e inspeção visual) e indiretos (bandeja amarela com água) em várias localidades de seis estados brasileiros, foram encontrados 2813 exemplares de psilídeos, pertencentes a 7 famílias e 20 gêneros, com maior frequência de R. solanicola (95,1%), R. capsici (91,6%) e Isogonoceraia divergipennis (85,4%) em Daucus carota, Capsicum annuum (pimenta) e Solanum tuberosum, respectivamente. Observaram-se imaturos de R. capsici em C. annuum, e de R. solanicola em D. carota e na planta espontânea Parthenium hysterophorus. Em ensaios de escolha, houve preferência para pouso e oviposição de R. solanicola em D. carota e P. hysterophorus, e de R. capsici em C. annuum, Nicandra physalodes e S. americanum. Observou-se desenvolvimento completo (ovo-adulto) de R. solanicola em D. carota, S. tuberosum, N. physalodes, P. hysterophorus, e Bidens pilosa, enquanto que R. capsici mostrou especificidade hospedeira, desenvolvendo-se apenas em C. annum (pimentão e pimenta). O estudo de EPG mostrou que ninfas e adultos de R. solanicola atingem o floema tanto em plantas hospedeiras (D. carota e P. hysterophorus) como em não hospedeiras (C. annuum e S. lycopersicum), mas com variações significativas em parâmetros de atividade estiletar que permitem diferenciar o comportamento alimentar nas diferentes espécies vegetais. Os estudos demonstram uma íntima associação de R. solanicola e R. capsici com cultivos de olerícolas e seu potencial como vetores de CaLsol, em caso de introdução deste patógeno no Brasil. / Psyllids (Hemiptera: Psylloidea) are phloem-feeding insects with increased importance as vectors of phloem-limited bacteria associated with emerging diseases in agricultural crops, e.g. \'Candidatus Liberibacter solanacearum\' (CaLsol), which causes severe losses in potatoes, carrots and tomatoes in North and Central America, Europe, Africa and New Zealand. Recent studies show associations of CaLsol with diverse species of vegetables and psyllid vectors, suggesting that more interactions than those currently known are likely. In Brazil, there are no records of CaLson and psyllid species already known as vectors. Although Psylloidea is a diversified group, only 73 species were identified in Brazil and most of them on forest trees, with scarce information about psyllids on vegetable crops. Therefore, the objectives of this work were: 1) To survey the diversity of psyllid species vectors associated with vegetable crops in the Central-South region of Brazil, aiming to identify vector or potential vector species of CaLsol; 2) To evaluate host plant preference, survival and egg-adult development of two psyllid species associated with vegetable crops, Russeliana capsici and R. solanicola, on various plant species that could serve as hosts of the pathogen or vectors; 3) To characterize the feeding behavior of adults and nymphs of R. solanicola on plants with variable levels of suitability as developing hosts, by using the Electrical Penetration Graph (EPG) technique. In the survey carried out with direct (sweep net, stem-tap, visual inspection) and indirect (yellow pan trap) methods in various localities of six Brazilian states, 2,813 psyllid speciments of 7 families and 20 genera were collected, with higher frequencies of R. solanicola (95,1%), R. capsici (91,6%) and Isogonoceraia divergipennis (85,4%) on Daucus carota, Capsicum annuum (pepper) and Solanum tuberosum, respectively. Immatures of R. capsici were observed on C. annuum, and those of R. solanicola were observed on D. carota and on the weed Parthenium hysterophorus. Choice tests in the laboratory revealed settling and oviposition preferences of R. solanicola on D. carota and P. hysterophorus, and of R. capsici on C. annuum, Nicandra physalodes and S. americanum. Complete egg-adult development was observed for R. solanicola on D. carota, S. tuberosum, Nicandra physalodes, P. hysterophorus and Bidens pilosa, whereas R. capsici showed host specificity by developing only on C. annum (green pepper and capsicum). The EPG study showed that R. solanicola nymphs and adults reach the phloem both on host (D. carota e P. hysterophorus) and non-host (C. annuum e S. lycopersicum) plants, but with significant differences on stylect activity parameters, allowing distinction of the feeding behavior among the different plant species. Overall, the studies indicate a close association of R. solanicola and R. capsici with vegetable crops, as well as their potential as vectors of CaLsol in case of introduction of this pathogen in Brazil.

'Candidatus Liberibacter solanacearum'

Comportamento alimentar

Feeding behavior

Host plants

Potenciais vetores

Potential vectors

Preferência hospedeira

\'Candidatus Liberibacter solanacearum\'

Análise da comunidade fúngica associada à cana-de-açúcar e estudo da interação Trichoderma virens - planta hospedeira / Analysis of sugarcane-associated fungal community and study of the interaction Trichoderma virens host plant

Romão, Aline Silva

21 June 2010

Fungos associados às plantas desempenham diversas funções biológicas importantes e constituem imensos reservatórios de novos compostos químicos, atividades biológicas e processos biotecnológicos ainda subexplorados. A diversidade estimada para esses microrganismos é enorme, porém menos de 7 % das espécies é conhecida. Em cana-de-açúcar, uma das principais culturas agrícolas do Brasil, estudos de interação e diversidade são recentes e ainda incipientes, principalmente com relação à comunidade fúngica e sua interação com plantas transgênicas. Uma das espécies presentes na comunidade fúngica associada à cana-de-açúcar é o fungo Trichoderma virens, o qual apresenta grande potencial de exploração como agente de controle biológico, promotor de crescimento vegetal e produtor de enzimas e metabólitos secundários. Nesse sentido, o presente trabalho buscou primeiramente determinar a estrutura e diversidade da comunidade de fungos (endófitos de raiz e rizosfera) associados a duas variedades de cana-de-açúcar, uma convencional (SP80-1842) e outra transgênica (IMI-1, expressando resistência ao herbicida imazapir), e avaliar possíveis efeitos da transgênese, do estágio de crescimento e do manejo agrícola. Além disso, uma linhagem de T. virens, isolada como endófito de raiz dessa planta, foi selecionada para estudos de interação fungo-planta e determinação dos mecanismos envolvidos na sua atividade de controle biológico. Na primeira etapa do trabalho, que compreendeu isolamento, caracterização e avaliação de alterações na comunidade fúngica, os resultados obtidos mostraram que a comunidade fúngica associada à cana-de-açúcar é formada por pelo menos 35 gêneros diferentes, a maioria do filo Ascomicota, sendo que a sua estrutura incluiu um grande número de gêneros pouco frequentes e um pequeno número de gêneros altamente frequentes (Penicillium, Fusarium, Aspergillus, Trichoderma e Epicoccum), dos quais alguns apresentam especificidade ao local de isolamento (raiz ou rizosfera). A avaliação de possíveis efeitos sobre a comunidade fúngica mostrou que a idade da planta foi o único fator que influenciou de forma significativa as características dessa comunidade, sendo que os efeitos da transgênese, se existentes, devem ser secundários quando comparados às fontes naturais de variação. Na segunda etapa, a linhagem de T. virens T.v.223 foi transformada pelo sistema Agrobacterium tumefaciens e o transformante gerado (expressando resistência à higromicina B e a proteína GFP) foi utilizado em ensaios de interação via reisolamento e microscopia. Os resultados revelaram que esse fungo não promoveu alterações fenotípicas visíveis na planta hospedeira, colonizou predominantemente as raízes, onde formou camadas densas de micélio ao seu redor, antes de penetrar o espaço intercelular das primeiras camadas de célula da epiderme do tecido radicular. Por último, mutantes de T. virens deficientes para produção de quitinases foram gerados por deleção gênica e silenciamento gênico via RNAi e avaliados quanto à capacidade de controle biológico de diferentes fitopatógenos em ensaios em casa de vegetação. Curiosamente, os resultados mostraram que as enzimas quitinolíticas podem ser essenciais à atividade de controle biológico efetuada por T. virens, mas que a importância e a participação dessas enzimas no processo dependem do tipo de planta e de patógeno envolvidos na interação, já que mais de um mecanismo deve contribuir para o controle biológico por T. virens, como por exemplo, a indução de resistência da planta. / Plant-associated fungi perform several important biological functions and are considered a vast source of novel chemical compounds, biological activities and biotechnological processes, whose potential is underexplored. The estimated diversity for these microorganisms is massive, but less than 7% of the species are already known. Sugarcane, one of the most important crops in Brazil, has only recently been studied regarding interactions and diversity, but these studies are still incipient, mainly concerning fungal community and its interaction with transgenic plants. One of the species found on sugarcane fungal community is the fungus Trichoderma virens, whose potential on biological control, growth promotion, and enzymes and secondary metabolites production is huge. Taking this into consideration, the current work aimed to determine the structure and diversity of the fungal community (root endophytes and rhizosphere) associated to two varieties of sugarcane, the conventional (SP80-1842) and the transgenic counterpart (IMI-1, expressing imazapyr herbicide resistance), and assess possible effects from transgenese, growth stage and management. In addition, a strain of T. virens, isolated as a sugarcane endophyte, was selected to perform the fungal-plant interaction assays and to determine its biological control mechanisms. The results of the first part of this work, including the isolation, characterization and evaluation of fungal community changes, showed that the sugarcane fungal community is made up by at least 35 different genera, most of them belonging to Ascomycota phylum, and its structure included many genera observed in very low frequencies, and a few genera highly frequent (Penicillium, Fusarium, Aspergillus, Trichoderma and Epicoccum), from which some have specificity to the place of isolation (root or rhizosphere). Assessing possible effects upon the fungal community showed that the growth stage was the only factor significantly influencing the communitys features, besides, if transgenese effects are present, they may be minor compared to other natural sources of variation. The second part of this work included the Agrobacterium tumefaciens-mediated transformation of T. virens strain T.v.223 and utilization of the generated transformant (hygromycin B resistant and GFPexpressing) to perform interaction studies by re-isolation and microscopy. The results revealed that this fungus did not promote any phenotypic change in the host plant, it was found mostly in roots, formed a dense mycelia cover over the roots and was able to penetrate intercellular spaces of root epidermis first layers. Finally, T. virens chitinase-deficient mutants were generated by gene deletion and RNAi gene silencing, and tested for biological control activity against different phytopathogens in greenhouse assays. Curiously, the results showed that chitinolytic activity may be essential to the biocontrol activity of T. virens, but its significance and the input of each chitinase depends on the plant and pathogen playing the interaction, since more than one mechanism may account for T. virens biological control, for instance, the induction of plant resistance.

Cana-de-açúcar

Chitin

Diversidade

Diversity

Fungi

Fungos

Host plants

Plantas hospedeiras

Plantas transgênicas

Quitina

Sugarcane

Transgenic plants

Trichoderma.

Trichoderma.

Efeito de maize bushy stunt phytoplasma na sobrevivência de Dalbulus maidis (DeLong & Wolcott) (Hemiptera: Cicadellidae) sobre milho e plantas infestantes / Effect of maize bushy stunt phytoplasma on Dalbulus maidis (DeLong & Wolcott) (Hemiptera: Cicadellidae) survival on corn and weeds

Ramos, Anderson

22 January 2016

O milho (Zea mays L.) é uma cultura de grande importância para o agronegócio brasileiro, que enfrenta diversos problemas fitossanitários. Dentre as doenças destaca-se o enfezamento vermelho, que está associado ao molicute fitopatogênico, \'maize bushy stunt phytoplasma\' (MBSP). Este fitoplasma é transmitido por um grupo restrito de cicadelídeos (Hemiptera: Cicadellidae), constituído principalmente por espécies do gênero Dalbulus; no Brasil é relatada a presença de apenas uma espécie vetora, a cigarrinha-do-milho, Dalbulus maidis (DeLong & Wolcott). A cigarrinha-do-milho possui profunda associação e coevolução com o milho, sendo considerada específica dessa cultura. No México há relatos de D. maidis se desenvolvendo em espécies selvagens do gênero Zea e Tripsacum. Mas no Brasil a única planta hospedeira conhecida de D. maidis é o milho. Portanto, não se sabe como esta cigarrinha, assim como o fitoplasma por ela transmitido, sobrevivem ao longo período de entressafra que ocorre em algumas regiões brasileiras. Estudos têm demonstrado que a presença de fitopatógenos na planta e nos insetos e as alterações por eles causadas na fisiologia dos mesmos, podem melhorar desempenho biológico do inseto vetor. No México, MBSP é altamente patogênico a outras espécies de cigarrinhas do gênero Dalbulus que se alimentam no milho e competem com D. maidis. Considerando-se que no Brasil outras espécies de cigarrinhas apresentam pequenas populações em milho, postulase que este fitoplasma as afete negativamente, reduzindo sua capacidade de competição com D. maidis. O presente trabalho investigou possíveis plantas hospedeiras alternativas do inseto e do fitoplasma, outros possíveis vetores do MBSP, e o efeito do fitoplasma na sobrevivência de D. maidis e em alguns parâmetros biológicos desse vetor e do cicadelídeo Agallia albidula Uhler, espécie não vetora, presente na vegetação espontânea da cultura do milho. Dez espécies de plantas daninhas em milharais foram submetidas à inoculação de MBSP com adultos infectivos de D. maidis, mas em nenhuma delas foi detectada a infecção pelo fitoplasma, indicando que o fitoplasma possui alta especificidade em relação a plantas hospedeiras. Duas espécies de cicadelídeos comuns na vegetação rasteira de cultivos de milho, A. albidula e Planicephalus flavicosta (Stål) foram testadas como vetores de MBSP, e nenhuma delas foi capaz de transmitir o patógeno para o milho, indicando que a especificidade de vetores também é elevada. A infecção de D. maidis por MBSP afetou negativamente a sobrevivência de adultos deste inseto vetor. Por outro lado, plantas de milho infectadas por MBSP estimularam a oviposição das cigarrinhas D. maidis e A. albidula. Entretanto, a sobrevivência de ninfas de A. albidula foi muito baixa tanto em plantas sadias quanto em plantas infectadas pelo fitoplasma, indicando que o milho, independentemente do fitoplasma, não é um bom hospedeiro para desenvolvimento de A. albidula. / Corn (Zea mays L.) is an important crop for Brazilian agribusiness, but it is affected by various pests and diseases. A stunting disease associated with the phytopathogenic mollicute, maize bushy stunt phytoplasma (MBPS), is a one of the main problems. This phytoplasma is transmitted by a narrow range of leafhoppers (Hemiptera: Cicadellidae), mainly in the genus Dalbulus. In Brazil, the only known vector is the corn leafhopper, Dalbulus maidis (DeLong & Walcott). The corn leafhopper has a deep association and co-evolution with corn, and it is thought to be specific to this crop. In Mexico there are reports of D. maidis developing on wild species of Zea and Tripsacum. Because corn is the only known host of D. maidis in Brazil, it is unknown how this leafhopper and MBSP survive the long corn off-season that occurs in some Brazilian growing regions. Studies have shown that the presence of pathogens in plants and insects and the physiological changes caused by them can improve the biological performance of insect vectors. In Mexico, MBSP is highly pathogenic to some Dalbulus species that feed on corn and compete with D. maidis. Considering that in Brazil other leafhopper species have small populations in corn, it is postulated that MBSP may negatively affect them and reduce their ability to compete with D. maidis. The current study investigated possible alternative host plants of MBSP and D. maidis, other possible leafhopper vectors of MBSP and the effects of the phytoplasma on D. maidis survival and in some biological parameters of this vector and of Agallia albidula Uhler, a non-vector leafhopper present in the weedy vegetation of corn fields. Ten weed species commonly present in corn fields were inoculated with MBSP by infective adults of D. maidis, but none of them became infected with the phytoplasma, suggesting that MBSP has high host plant specificity. Two leafhopper species that inhabit the weedy vegetation of corn fields, A. albidula e Planicephalus flavicosta (Stål), were tested as vectors of MBSP, but none of them was able to transmit the pathogen to corn, indicating that the vector specificity of this phytoplasma is also high. Infection of D. maidis by MBSP negatively affected adult survival. On the other hand, infection of corn plants by MBSP induced higher oviposition by D. maidis and A. albidula. However, the survival of A. albidula nymphs was very low not only on infected plants, but also on healthy corn plants, indicating corn is not a suitable developmental host for A. albidula, regardless of the phytoplasma infection.

Cigarrinha-do-milho

Corn leafhopper

Fitoplasma do milho

Host plants

Maize bushy stunt phytoplasma

Off-season survival

Plantas hospedeiras

Sobrevivência na entressafra