Genetics and race variability of the lucerne - Colletotrichum trifolii pathosystem in Australia

The Australian-bred lucerne cultivars, Trifecta and Sequel, were found to possess useful levels of resistance to both Colletotrichum trifolii races 1 and 2. Race 2 has only been previously observed in the United States and surveys did not reveal its presence in Australia. Multilocus fingerprinting using random amplified polymorphic DNA (RAPDs) analysis revealed low diversity (<10% dissimilarity) within Australian C. trifolii collections, and between the Australian race 1 isolates and a US race 2 isolate. Studies on the inheritance of resistance to C. trifolii race 1 in individual clones from Trifecta and Sequel revealed the presence of 2 different genetic mechanisms. One inheritance was for resistance as a recessive trait, and the other indicated that resistance was dominant. The recessive system has never been previously reported, whereas in the US, 2 completely dominant and independent tetrasomic genes Anl and Ant have been reported to condition C. trifolii resistance. It was not possible to fit the observed segregations from our studies to a single-gene model. In contrast to US studies, clones of cv. Sequel exhibiting the recessive resistance reacted differently to spray and stem injection with C. trifolii inoculum, being resistant to the former and susceptible to the latter, providing additional evidence for the presence of a different genetic mechanism conditioning resistance to those previously reported in the US. As C. trifolii is one of the most serious diseases of lucerne worldwide, the future development of molecular markers closely linked to the dominant and recessive resistances identified in these studies, and the relationships between these resistances and Anl and Ans as determined by genetic mapping, appear to be useful areas of future study.

Estudio del patosistema geminivirus-moscas blancas, Bemisia tabaci (Hemiptera Aleyrodidae) en cultivos de soja. Study of the geminivirus-whiteflies Bemisia tabaci (Hemiptera Aleyrodidae) pathosystem in soybean crops.

La soja es la especie oleaginosa de mayor importancia y consumo en el mundo. Su cultivo se efectúa en aproximadamente 50 países, aunque el 90 por ciento de la producción está concentrada en: Estados Unidos (40 por ciento), Brasil (24 por ciento), Argentina (18 por ciento) y China (8 por ciento). En nuestro país durante la campaña agrícola 2006/07 se alcanzaron 15.981.264 ha y 47.482.784 t. Actualmente, ocupa una amplia zona ecológica, desde los 23º a los 39º de latitud sur y la región pampeana, con cerca del 90 por ciento de la superficie sembrada en las provincias de Santa Fe (28.5 por ciento), Córdoba (28 por ciento) y Buenos Aires (23 por ciento) es la principal productora. Entre los factores que limitan la producción de este cultivo se encuentra el patosistema begomovirus - mosca blanca (Bemisia tabaci Gennadius), que causa pérdidas económicas, al reducir los rendimientos y calidad de los productos obtenidos y aumentar los costos de producción por el uso intensivo de insecticidas. La continua aplicación de agroquímicos para el control del insecto conlleva la selección de individuos resistentes en la población, que puede verse acelerada si se tiene en cuenta que, durante el ciclo de cultivo, se desarrollan varias generaciones. Además, formas inmaduras y adultos se alojan en el envés de las hojas y la acción de los insecticidas es menos eficaz. Ante esto, los agricultores aumentan el número y frecuencia de las aplicaciones, con lo que se incrementa la presión de selección en las poblaciones, favoreciendo el surgimiento de estirpes resistentes. El control químico resulta antieconómico y genera un severo peligro ambiental, con perjuicios para la salud humana y animal. Por lo tanto, resulta imprescindible la búsqueda de formas alternativas de control de la plaga y de los virus que transmite, a través del manejo integrado sustentable, dentro del cual se destacan la resistencia de la planta hospedante (HPR) y el empleo de métodos culturales. Con respecto a los geminivirus, como primer paso en la búsqueda de resistencia, es de gran importancia identificar las especies y/o razas que se encuentran infectando al cultivo de soja. Además, se presupone la existencia de fuentes de resistencia a moscas blancas en germoplasma de soja y, por ende, a los begomovirus que transmiten y que es posible la caracterización de los mecanismos que confieren dicha resistencia. En base a la problemática expuesta se proponen los siguientes objetivos de trabajo:- Aislar y caracterizar molecularmente a las nuevas especies y/o razas de begomovirus detectadas en cultivos de soja y ajustar las técnicas que permitan su identificación.- Detectar y caracterizar los mecanismos de resistencia, antixenosis, antibiosis o ambas, frente a la mosca blanca B. tabaci en distintos cultivares de soja. Para cumplimentar tales objetivos se efectuará el clonado y secuenciación del genoma completo de los diferentes begomovirus detectados; serán ajustadas técnicas de hibridación molecular con marcado no radioactivo y producidos clones infecciosos que, posteriormente, se emplearán para inocular distintas especies (rango de hospedantes). Por otro lado, se tratará de detectar y caracterizar fuentes de resistencia a B. tabaci en germoplasma de soja (cultivares comerciales y líneas en proceso avanzado de mejoramiento). Como primer paso se efectuará la cría de la mosca blanca bajo condiciones controladas.Se medirán variables indicadoras de antibiosis (en condiciones de no elección o alimentación forzada): número de huevos, ninfas y adultos, tasa de mortalidad, duración del ciclo biológico, longevidad y peso de insectos adultos. Complementariamente se determinará antixenosis (en condiciones de libre elección): índice de atracción y preferencia para la oviposición y su correlación con el número de tricomas foliares. Los resultados del proyecto serán de inmediata transferencia a fitotecnistas, semilleros y sector productivo en general, permitiendo la reducción de pérdidas significativas ocasionadas por begomovirus y por su vector.

Quantitative analysis of two important epidemiological features of the common bean: Phaeoisariopsis griseola pathosystem

This work quantifies two important epidemiological features of the bean (Phaseolus vulgaris)/Phaeoisariopsis griseola pathosystem. The first is the effect of the number of nights of leaf wetness on infection efficiency. Infection efficiency was below 10% when inoculated leaflets were exposed to less than two nights of leaf wetness. Optimum infection efficiencies were obtained after three to four nights of leaf wetness, at about 50%. Further nights of leaf wetness did not increase the infection efficiency. The second feature quantified is the relative rate of leaflet defoliation for varying levels of angular leaf spot severity. It increased with disease severity according to a logarithm-like curve, and a relative rate of 0.23 day-1 was estimated for a severity of 18%. The implications of these results on the disease epidemiology are discussed.

The citrus leprosis pathosystem

Citrus leprosis is considered the main viral disease for the Brazilian citrus production, particularly for the State of São Paulo, due to the high costs spent for the chemical control of its vector, the tenuipalpid mite Brevipalpus phoenicis. In addition, its global importance has significantly increased in the last years, with the dissemination of the virus to new countries in South and Central America. In Brazil, despite its economical importance and occurrence for more than seven decades, the most significant advances towards understanding the pathosystem interactions have been obtained only in the last ten years. This review focuses on various aspects of the disease, beginning with a historical view, its main characteristics, alternatives for its control, its increasing economical importance in Brazil and abroad, and the new data on the search for understanding the interactions amongst the mite vector, the virus, and the plant host.

A qualitative host-pathogen interaction in the Theobroma cacao-Moniliophthora perniciosa pathosystem

The aim of this study was to test whether resistance of clones of Theobroma cacao ( cocoa) varied between isolates of Moniliophthora (formerly Crinipellis) perniciosa, the cause of witches' broom disease. Developing buds of vegetatively propagated T. cacao grown in greenhouses in the UK were inoculated with 16 000 spores of M. perniciosa per meristem in water, under conditions where water condensed on the inoculated shoot for at least 12 h after inoculation. The proportion of successful inoculations varied between clones and was inversely correlated with time to symptom production or broom formation. A specific interaction was demonstrated among three single-spore isolates of M. perniciosa and the clone Scavina 6 (SCA 6) and a variety of susceptible clones. Isolates Castenhal-I and APC3 were equally likely to infect SCA 6 and the other clones, but isolate Gran Couva A9 never infected SCA 6, although it was as virulent on the other clones. The interaction was maintained when the wetness period was extended to 70 h. Offspring of SCA 6 x Amelonado matings were all susceptible to both Castenhal-I and GC-A5, with no evidence of greater variability in susceptibility to GC-A5 than Castanhal-I. This suggests recessive inheritance of a single homozygous factor conferring resistance to GC-A5, from SCA 6. The progenies were slightly more susceptible to Castanhal-I than GC-A5. The implications for managing the disease are discussed.

Increased production of beta-1,3 glucanase and proteins in Bipolaris sorokiniana pathosystem treated using commercial xanthan gum

Barley plants (cultivars Embrapa 127, 128 and 129) treated with xanthan gum, and with different time intervals between the administration of the inducer and the pathogen, demonstrated induction of resistance against Bipolaris sorokiniana. Induction was shown to have local and systemic action. In order to prove the resistance effect, biochemical analyses were performed to quantify proteins and the enzymatic activity of beta-1,3 glucanase. Results demonstrated that barley plants treated with the inducer, showed an increase in the concentration of proteins, as well as in the activity of the enzyme beta-1,3 glucanase, when compared with the extract from healthy plants. In infected plants, protein concentrations decreased and enzymatic activity was lower than in healthy plants. Results suggest that barley plants treated with xanthan gum developed mechanisms responsible for induced resistance, which are still unknown. The most important macromolecule in the defense mechanism was demonstrated to be PR-protein, due to its accumulation and concentration of proteins. However, it may not be the only macromolecule responsible for the resistance effect. (C) 2004 Elsevier SAS. All rights reserved.

Diversity in the sunflower: Puccinia helianthi pathosystem in Australia

Sunflower rust caused by Puccinia helianthi is the most important disease of sunflower in Australia with the potential to cause significant yield losses in susceptible hybrids. Rapid and frequent virulence changes in the rust fungus population limit the effective lifespan of commercial cultivars and impose constant pressure on breeding programs to identify and deploy new sources of resistance. This paper contains a synopsis of virulence data accumulated over 25 years, and more recent studies of genotypic diversity and sexual recombination. We have used this synopsis, generated from both published and unpublished data, to propose the origin, evolution and distribution of new pathotypes of P. helianthi. Virulence surveys revealed that diverse pathotypes of P. helianthi evolve in wild sunflower populations, most likely because sexual recombination and subsequent selection of recombinant pathotypes occurs there. Wild sunflower populations provide a continuum of genetically heterogeneous hosts on which P. helianthi can potentially complete its sexual cycle under suitable environmental conditions. Population genetics analysis of a worldwide collection of P. helianthi indicated that Australian isolates of the pathogen are more diverse than non-Australian isolates. Additionally, the presence of the same pathotype in different genotypic backgrounds supported evidence from virulence data that sexual recombination has occurred in the Australian population of P. helianthi at some time. A primary aim of the work described was to apply our knowledge of pathotype evolution to improve resistance in sunflower to sunflower rust. Molecular markers were identified for a number of previously uncharacterised sunflower rust R-genes. These markers have been used to detect resistance genes in breeding lines and wild sunflower germplasm. A number of virulence loci that do not recombine were identified in P. helianthi. The resistance gene combinations corresponding to these virulence loci are currently being introgressed with breeding lines to generate hybrids with durable resistance to sunflower rust.

Chitinase and peroxidase activity in different stages of eucalypt leaves after inoculation with Puccinia psidii and acibenzolar-S-metil

Chitinase and peroxidase activity in different stages of eucalypt leaves after inoculation with Puccinia psidii and acibenzolar-S-metil To elucidate some biochemical processes during infection in the pathosystem Puccinia psidii x eucalyptus, the defense metabolism in different-stage leaves was compared between rust-resistant and susceptible clones, respectively. In addition, chitinase and peroxidase activities were assayed. Each treatment consisted of 4 replicates, in a completely randomized design: 2 clones, inoculated and not inoculated with P. psidii; sprayed with acibenzolar-S-methyl (ASM) and distilled water; and represented by the 1(st) leaf pair (size equivalent to 1/5 total leaf development), 2(nd) pair (2/5 total development), and 4(th) pair (4/5 total leaf length). Leaves were harvested in 4 periods: 0, 24, 72 and 96 hours after inoculation. Results indicated that ASM treatment or P. psidii action led to higher chitinase and peroxidase activity level but did not alter the expression of these activities in developed leaves (4(th) pair) during the experiment. Alterations in enzyme levels after inoculation were only observed in developing leaves (1(st) and 2(nd) pairs), which suggests that the response to infection was concomitant to chitinase and peroxidase synthesis. The highest increases in enzymatic activities were observed in resistant clones at 72 hours after inoculation and in susceptible ones previously treated with ASM and later inoculated with the pathogen.

Pathogenic specialisation within Colletotrichum trifolii in Australia, and lucerne cultivar reactions to all known Australian pathotypes

Anthracnose and crown rot, caused by Colletotrichum trifolii, are serious diseases of lucerne (Medicago saliva L.) in humid regions of the world. A race survey was conducted by inoculating individual lucerne clones (genotypes) with C. trifolii isolates collected from a range of Medicago hosts, locations, and years in south-eastern Queensland. This survey revealed for the first time in Australia the presence of race 2 (virulence on anthracnose resistance gene An I) and the first world report of race 4 (virulence on An(2)). A collection of North American race I and race 2 C. trifolii isolates, when inoculated onto the Australian differential clones, gave responses that were in agreement with their North American reactions. A RAPD analysis was conducted on 9 Australian C. trifolii isolates including races 1, 2, and 4; two C. destructivum and one C. gloeosporioides isolate were included as known outliers. For the C. trifolii isolates, 94.6% similarity was found regardless of host origin or race, compared with 2.2% similarity between this group and the C. gloeosporioides and C. destructivum isolates, confirming that the new races belong to C. trifolii. Currently, it is hypothesised that only plants carrying genes An, and An2 are resistant to the 3 races. Of 22 cultivars screened against the 3 races, only UQL-1, Hallmark, and Pioneer 54Q53 had >30% of plants resistant to the 3 races in separate screenings. The research highlights the need to find new sources of resistance to C. trifolii in lucerne.

Análise transcriptômica da interação mamoeiro-Papaya Meleira Virus

O mamoeiro (Carica papaya L.) é uma das fruteiras mais cultivadas nas regiões tropicais e subtropicais do mundo. O Brasil faz parte do grupo dos países que mais produzem e exportam mamão no mundo. O Espírito Santo e a Bahia são responsáveis por mais de 70% da área brasileira produtora deste fruto. Porém, doenças causadas por microrganismos infecciosos afetam de modo considerável sua produção. Entre as principais doenças, destaca-se a meleira do mamoeiro, causada pelo Papaya meleira virus (PMeV), que ainda não possui uma cultivar resistente. Interessantemente os sintomas somente são desencadeados após a frutificação. Os mecanismos moleculares envolvidos no desenvolvimento dos sintomas e na resposta de defesa da planta ao PMeV ainda não foram esclarecidos. Para entender os pontos chaves desta interação, que permitam o desenvolvimento de metodologias de melhoramento genético, um estudo transcriptômico foi abordado. A tecnologia RNA-seq foi usada para o sequenciamento do transcriptoma a partir de plantas com 3, 6 e 8 meses de idade após plantio, inoculadas e não inoculadas com o PMeV. Os genes diferencialmente expressos nos 3 tempos e nas duas condições foram preditos e analisados. Estas análises revelaram um padrão de expressão geral dos genes envolvidos nesta interação. Foram encontrados 21 genes com o perfil de expressão alterado nas plantas inoculadas exclusivamente nos seis meses de idade. Destes, 8 genes envolvidos em processos de respostas de defesa e morte celular, resposta ao estresse e resposta ao estímulo biótico e abiótico foram reprimidos; enquanto os demais (13 genes), envolvidos principalmente em processos metabólicos primários, biogêneses, diferenciação e ciclo celular, comunicação e crescimento celular, bem como processos envolvidos em reprodução, e desenvolvimento da floração, foram superexpressos. Estes resultados sugerem que, aos seis meses de idade, a planta é obrigada a alterar seu programa de expressão gênica, direcionando a resposta para os processos próprios do desenvolvimento, requeridos nesse estádio fisiológico, que primam sob a resposta ao estresse, fato que finalmente leva ao desenvolvimento dos sintomas.

A risk infection simulation model for fusarium head blight of wheat

Fusarium Head Blight (FHB) is a disease of great concern in wheat (Triticum aestivum). Due to its relatively narrow susceptible phase and environmental dependence, the pathosystem is suitable for modeling. In the present work, a mechanistic model for estimating an infection index of FHB was developed. The model is process-based driven by rates, rules and coefficients for estimating the dynamics of flowering, airborne inoculum density and infection frequency. The latter is a function of temperature during an infection event (IE), which is defined based on a combination of daily records of precipitation and mean relative humidity. The daily infection index is the product of the daily proportion of susceptible tissue available, infection frequency and spore cloud density. The model was evaluated with an independent dataset of epidemics recorded in experimental plots (five years and three planting dates) at Passo Fundo, Brazil. Four models that use different factors were tested, and results showed all were able to explain variation for disease incidence and severity. A model that uses a correction factor for extending host susceptibility and daily spore cloud density to account for post-flowering infections was the most accurate explaining 93% of the variation in disease severity and 69% of disease incidence according to regression analysis.

An analysis of the risk of cocoa moniliasis occurrence in Brazil as the result of climate change

The aim of this study was to evaluate the potential risk of moniliasis occurrence and the impacts of climate change on this disease in the coming decades, should this pathogen be introduced in Brazil. To this end, climate favorability maps were devised for the occurrence of moniliasis, both for the present and future time. The future scenarios (A2 and B2) focused on the decades of 2020, 2050 and 2080. These scenarios were obtained from six global climate models (GCMs) made available by the third assessment report of Intergovernmental Panel on Climate Change (IPCC). Currently, there are large areas with favorable climate conditions for moniliasis in Brazil, especially in regions at high risk of introduction of that pathogen. Considering the global warming scenarios provided by the IPCC, the potential risk of moniliasis occurrence in Brazil will be reduced. This decrease is predicted for both future scenarios, but will occur more sharply in scenario A2. However, there will still be areas with favorable climate conditions for the development of the disease, particularly in Brazil's main producing regions. Moreover, pathogen and host alike may undergo alterations due to climate change, which will affect the extent of their impacts on this pathosystem.

GFP-fluorescent protein on the study of blister spot in coffee plants

In Brazil, Colletotrichum gloeosporioides is associated with a complex of symptoms in coffee culture. Although this pathogen had its pathogenesis observed and identified, its importance has still been questioned due to its several endophytic forms, raising doubts as to the real importance of the pathosystem. The aim of this study was to demonstrate, by using an isolate transformed with the gene gfp, the infection and colonization capability of C. gloeosporioides in coffee seedlings. After the fourth day of inoculation, manifestation of symptoms as punctual necrosis could be observed, which progressed during the evaluation period, culminating in the death of seedlings. Epifluorescence microscopy confirmed the presence of the pathogen in the seedlings, as well as the visualization of internal colonization of tissues, acervulus formation and conidium production, confirming that it was responsible for the observed symptoms.

Networks and plant disease management: concepts and applications

A network is a natural structure with which to describe many aspects of a plant pathosystem. The article seeks to set out in a nonmathematical way some of the network concepts that promise to be useful in managing plant disease. The field has been stimulated by developments designed to help understand and manage animal and human disease, as well as by technical infrastructures, such as the internet. It overlaps partly with landscape ecology. The study of networks has helped identify likely ways to reduce flow of disease in traded plants, to find the best sites to monitor as warning sites for annually reinvading disease, and to understand the fundamentals of how a pathogen spreads in different structures. A tension between the free flow of goods or species down communication channels and free flow of pathogens down the same pathways is highlighted.

Adjuvantes e herbicidas e a infectividade de Fusarium graminearum, agente potencial de biocontrole de Egeria densa e Egeria najas

Foram estudados os efeitos da adição de adjuvantes e a associação com herbicidas na infectividade do fungo dentro do patossistema Fusarium graminearum x Egeria spp. Foram utilizadas plantas sadias de Egeria densa e E. najas inoculadas com uma suspensão de arroz moído colonizado por F. graminearum, na concentração de 0,7 g L-1. Os tubos de ensaio contendo as plantas imersas na referida suspensão foram mantidos em incubadora à temperatura de 25 ºC e fotoperíodo de 12 horas diárias de luz, por oito dias, durante os quais foram avaliados os sintomas nas plantas a cada dois dias e o crescimento destas através do incremento de matéria fresca ao final do experimento. O efeito de 14 adjuvantes e 6 herbicidas, adicionados à suspensão de inóculo, sobre a ação de F. graminearum em E. densa e E. najas foi avaliado. de modo geral, os adjuvantes melhoraram a eficiência do bioerbicida e a associação herbicida + fungo proporcionou maior severidade de doença e controle do crescimento das plantas.