Métodos de isolamento de bactérias do filoplano de tomateiro visando populações específicas e implicações como agentes de biocontrole

Em um processo de seleção de bactérias do filoplano de tomateiro (Lycopersicon esculentum) com potencial para o controle de doenças da parte aérea da cultura, diferentes métodos de isolamento foram utilizados visando obter isolados da população total, da população da superfície foliar e isolados que habitam locais protegidos do filoplano e/ou que toleram fatores de estresse. Foi testada a capacidade de 300 isolados em controlar in vivo, as doenças causadas por Alternaria solani, Pseudomonas syringae pv. tomato e Phytophthora infestans. Os testes foram repetidos para cada um dos antagonistas selecionados, estudando-se, também, a capacidade de controlar a mancha-bacteriana, causada por Xanthomonas vesicatoria. Os resultados demonstraram haver predomínio de antagonistas provenientes de folíolos do terço superior da planta de população total ou da superfície. Entretanto, o único antagonista selecionado, isolado de folíolos do terço inferior, foi obtido de locais protegidos do filoplano e/ou capaz de tolerar fatores de estresse.In a process of selecting tomato (Lycopersicon esculentum) phylloplane bacteria with potential for controlling aerial diseases of this crop, different isolation methods were used to obtain the isolates from total leaf surface and also from protected sites of the phylloplane. Three hundred isolates were tested in vivo for their ability to control diseases caused by Alternaria solani, Pseudomonas syringae pv. tomato and Phytophthora infestans. The results demonstrated a predominance of antagonists in the total population originating on the surface of the leaflets harvested from the upper leaves of the plants. Only one selected antagonistic isolate obtained from the lower leaves was recovered from the protected sites of the phylloplane and/or was stress tolerant

Biological control of eucalyptus bacterial wilt with rhizobacteria

The antagonistic potential of 298 rhizobacteria obtained from the rhizosphere and rhizoplane of tomato and eucalyptus plants was assessed for the control of bacterial wilt of eucalyptus caused by Ralstonia solanacearum. Several tests were performed using tomato plants as a screening system to select efficient rhizobacteria. Different methods for antagonist delivery and pathogen inoculation were evaluated: (1) seeds were microbiolized (soaked for 12 h in a suspension of the antagonist propagules) and germinated seedlings had their roots immersed in the pathogen inoculum suspension; (2) seedlings originated from microbiolized seeds were transplanted to soil infested with R. solanacearum and (3) roots of seedlings were immersed in a suspension of propagules of the antagonist and subsequently in a suspension of R. solanacearum. Nine isolates (UFV-11, 32, 40, 56, 62, 101, 170, 229, and 270) were selected as potential antagonists to R. solanacearum as they suppressed bacterial wilt in at least one of the methods assessed. The selected antagonists were evaluated against two isolates of R. solanacearum using in vitro and in vivo (inoculated eucalyptus) tests. Isolates UFV-56 (Bacillus thuringiensis), UFV-62 (Bacillus cereus) and a commercial formulation of several rhizobacteria (Rizolyptus®) suppressed bacterial wilt in eucalyptus protecting the plants during the early stages of development

Isolation and selection of Hemileia vastatrix antagonists

Organic coffee growing is rapidly increasing in Brazil, and many diseases, especially coffee leaf rust (Hemileia vastatrix), are threatening its production. This study is a first step towards a biocontrol program for coffee rust on organically grown plants. In three organic coffee farms in the state of Minas Gerais, 393 microbial strains including 154 bacterial and 239 fungal strains were isolated from leaves, leaf debris, and soil samples, and in 6 month-old coffee plants, 17 of these isolates reduced both the infection frequency (IF) and the number of H. vastatrix urediniospores produced per leaf (UPL) by more than 70 %. The isolates were identified as eight bacteria isolates, seven Bacillus spp. and one Pseudomonas sp., and nine fungal isolates, four Fusarium spp., two Penicillium spp., one Aspergillus sp., one Acremonium sp. and one Cladosporium sp. Each fungal and bacterial isolate was applied 0, 4, 8, 12 or 16 days before and 0, 4, 8, 12 or 16 days after H. vastatrix inoculation, and the efficiency in reducing both IF and UPL was evaluated. The efficiency was higher and lasted longer when the bacterial isolates were applied before H. vastatrix inoculation. Six Bacillus (B10, B25, B143, B157, B171, B175), two Fusarium (F205, F281), and one Pseudomonas (B286) isolates are potentially efficient as biocontrol agents of H. vastatrix and will be tested using field experiments

Biocontrol of tomato late blight with the combination of epiphytic antagonists and rhizobacteria

Control of tomato late blight (LB) in Brazil is heavily based on chemicals. However, reduction in fungicide usage is required in both conventional and organic production systems. Assuming that biological control is an alternative for LB management, 208 epiphytic microorganisms and 23 rhizobacteria (RB) were isolated from conventional and organically grown tomato plants and tested for antagonistic activity against Phytophthora infestans. Based on in vitro inhibition of sporangia germination and detached leaflet bioassays, four EP microorganisms (Aspergillus sp., Cellulomonas flavigena, Candida sp., and Cryptococcus sp.) were selected. These microorganisms were applied either singly or combined on tomato plants treated or not with the RB Bacillus cereus. On control plants, LB progress rate (r), area under disease progress curve, and final disease severity were high. Lowest values of final severity were recorded on plants colonized by B. cereus and treated with C. flavigena, Candida sp. and Cryptococcus sp. There was no reduction on disease severity in plants treated only with RB. Biological control of LB resulted in low values of r and final severity. Integration of biological control with fungicides, cultural practices, and other measures can contribute to manage LB on tomato production systems

Evidence that the biocontrol agent Bacillus cereus synthesizes protein that can elicit increased resistance of tomato leaves to Corynespora cassiicola

Isolate UFV-101 of Bacillus cereus was selected in previous studies for promoting growth inducing resistance in plants. In a previous study, supernatant from cultures of the microorganism in a liquid medium was found to induce resistance in tomato foliage against the pathogens Pseudomonas syringae pv. tomato, Xanthomonas vesicatoria, Alternaria solani and Corynespora cassiicola. In the present work the microorganism was grown in a minimal medium for 48 h and the cells precipitated for centrifugation. The supernatant was concentrated by lyophilization, dialyzed in a 12 kDa cut-off point membrane and fractioned in column containing Sephadex G25 balanced in PBS buffer. The fractions corresponding to a protein peak were applied to tomato seedlings. After four days leaflets were collected and inoculated with the pathogen. C. cassiicola. The numbers of lesions produced by the pathogen on leaflets exposed to the bacterial supernatant were similar to those exposed to acibenzolar-S-methyl but fewer than in those treated with water. It is concluded that the supernatant contained protein which induced resistance in the tomato leaves against C. cassiicola.O isolado UFV-101 foi selecionado em ensaios prévios como promotor de crescimento e indutor de resistência. O sobrenadante, advindo do cultivo desse microrganismo em meio líquido, demonstrou a capacidade de induzir resistência em tomateiro contra os patógenos Pseudomonas syringae pv. tomato, Xanthomonas vesicatoria, Alternaria solani e Corynespora cassiicola. Neste trabalho, a bactéria foi cultivada em meio mínimo por 48 h e as células precipitadas por centrifugação. O sobrenadante, depois de concentrado por liofilização, foi dializado em membrana com ponto de corte 12 kDa e fracionado em coluna contendo Sephadex G25 equilibrada em tampão PBS. As frações correspondentes ao pico protéico foram aplicadas em mudas de tomateiro. Depois de quatro dias foram coletados folíolos e inoculados com o patógeno desafiador. Folíolos expostos ao sobrenadante da bactéria apresentaram número de lesões semelhantes a aqueles expostos ao acibenzolar-S-methyl e em número inferior a aqueles tratados com água. Desta forma, neste trabalho, a natureza protéica do sobrenadante foi confirmada, bem como, sua atividade indutora de resistência contra o patógeno C. cassiicola