Carlos Marcelo Soares

Evidence of field-evolved resistance of Spodoptera frugiperda to Bt corn expressing Cry1F in Brazil that is still sensitive to modified Bt toxins.

Brazil ranked second only to the United States in hectares planted to genetically modified crops in 2013. Recently corn producers in the Cerrado region reported that the control of Spodoptera frugiperda with Bt corn expressing Cry1Fa has decreased, forcing them to use chemicals to reduce the damage caused by this insect pest. A colony of S. frugiperda was established from individuals collected in 2013 from Cry1Fa corn plants (SfBt) in Brazil and shown to have at least more than ten-fold higher resistance levels compared with a susceptible colony (Sflab). Laboratory assays on corn leaves showed that in contrast to SfLab population, the SfBt larvae were able to survive by feeding on Cry1Fa corn leaves. The SfBt population was maintained without selection for eight generations and shown to maintain high levels of resistance to Cry1Fa toxin. SfBt showed higher cross-resistance to Cry1Aa than to Cry1Ab or Cry1Ac toxins. As previously reported, Cry1A toxins competed the binding of Cry1Fa to brush border membrane vesicles (BBMV) from SfLab insects, explaining cross-resistance to Cry1A toxins. In contrast Cry2A toxins did not compete Cry1Fa binding to SfLab-BBMV and no cross-resistance to Cry2A was observed, although Cry2A toxins show low toxicity to S. frugiperda. Bioassays with Cry1AbMod and Cry1AcMod show that they are highly active against both the SfLab and the SfBt populations. The bioassay data reported here show that insects collected from Cry1Fa corn in the Cerrado region were resistant to Cry1Fa suggesting that resistance contributed to field failures of Cry1Fa corn to control S. frugiperda.

Translocation and insecticidal activity of Bacillus thuringiensis living inside of plants

The major biological pesticide for the control of insect infestations of crops, Bacillus thuringiensis was found to be present naturally within cotton plants from fields that had never been treated with commercial formulations of this bacterium. The ability of B. thuringiensis to colonize plants as an endophyte was further established by the introduction of a strain marked by production of green fluorescent protein (GFP). After inoculation of this preparation close to the roots of cotton and cabbage seedlings, GFP‐marked bacteria could be re‐isolated from all parts of the plant, having entered the roots and migrated through the xylem. Leaves taken from the treated plants were able to cause toxicity when fed to the Lepidoptera Spodoptera frugiperda (cotton) and Plutella xylostella (cabbage). These results open up new horizons for understanding the natural ecology and evolution of B. thuringiensis and use of B. thuringiensis in insect control.

Avaliação de larvicidas de origem microbiana no controle da traça-das-crucíferas em couve-flor

Two bioinsecticides based on Bacillus thuringiensis sub species kurstaki (Btk) and aizawai (Bta) and non-systemic insecticide of biological origin based on spinosad were evaluated on cauliflower crop for diamondback moth, Plutella xylostella (L.) (Lep.:Plutellidae) control. The experiment was conducted in a vegetable production area of Brazlândia, Brazil. The crop was conducted using the same technology of production adopted by farmers for pest control management. The experiment was conducted between July and September 2002. Randomized blocks with four treatments and four replications were used. Six holes per plant in the four central leaves, were used as a parameter to indicate the necessity of applying insecticides. The number of holes was evaluated weekly. Based on this parameter spinosad was applied three times and Btk and Bta six times. Similar results were obtained in the treatments using insecticides. However significant differences in production were observed between treatments in which insecticide was used and the untreated control. The area treated with Btk produced 78.1% of commercial heads, the area treated with Bta 76.5 % and the one treated with spinosad 75.5 %. On the untreated area 34.4% of the production was lost. The increase on profitability per hectare were U

Screening of Bacillus thuringiensis strains effective against mosquitoes

785.32; for Btk U

Avaliação de produtos à base de Bacillus thuringiensis no controle da traça-das-crucíferas

592.99 for spinosal and U

Synergistic activity of Bacillus thuringiensis toxins against Simulium spp. larvae

612.71 for Bta.

COMPOSITION BASED ON BACILLUS SPP. AND CORRELATE GENERA AND THEIR USE IN PEST CONTROL

The objective of this work was to evaluate 210 Bacillus thuringiensis strains against Aedes aegypti and Culex quinquefasciatus larvae to select the most effective. These strains were isolated from different regions of Brazil and are stored in a Bacillus spp. collection at Embrapa Recursos Geneticos e Biotecnologia, Brasilia, Brazil. The selected strains were characterized by morphological (microscopy), biochemical (SDS-PAGE 10%) and molecular (PCR) methods. Six B. thuringiensis strains were identified as mosquito-toxic after the selective bioassays. None of the strains produced the expected PCR products for detection of cry4, cry11 and cyt1A genes. These results indicate that the activity of mosquitocidal Brazilian strains are not related with Cry4, Cry11 or Cyt proteins, so they could be used as an alternative bioinsecticide against mosquitoes.

Inventory of breeding-sites and species of Anopheline mosquitoes in the Juruá valley

Two experiments were performed to evaluate the susceptibility of the diamondback moth to insecticides based on Bacillus thuringiensis in cabbage cv. Itiban. The first experiment was carried out from July to September 2003, in a production area in Brazlândia (DF), Brazil. Randomized blocks with six treatments and ten replicates were used. The tested products were: commercial B. thuringiensis kurstaki (S1450), commercial B. thuringiensis aizawai (Bta) and three experimental formulations based on strains S1450BB, S811BB, S845BB of B. thuringiensis from the collection of Bacillus spp. of Embrapa Genetic Resources and Biotecnology. The second experiment was carried out in the experimental area of Embrapa, from October 2003 to January 2004. Randomized blocks with six treatments and four repetitions were used. The tested products were the same as those used in the first experiment with the addition of Spinosad and without S811BB. Products were applied when the level of attack on the plants by the pests reached six holes in the two pairs of central leaves pf the cabbage. Commercial Bta was the most effective product in the first experiment, after five applications and differed from the other products. S845BB and S1450BB were not significantly different when compared to the commercial product S1450, which were applied six times. The product S811BB was also applied six times, but its effectiveness was lower than the other products and was not different to the control. In the second experiment, all products were similar, just differing in the number of applications. Commercial S1450 was applied five times and the other products the base of Bt were applied six times.

Suscetibilidade da traça-das-crucíferas a Bacillus thuringiensis em repolho no Distrito Federal - doi: 10.5102/ucs.v8i1.995

Species of Simulium spread diseases in humans and animals such as onchocerciasis and mansonelosis, causing health problems and economic loses. One alternative for controlling these insects is the use of Bacillus thuringiensis serovar israelensis (Bti). This bacterium produces different dipteran-active Cry and Cyt toxins and has been widely used in blackfly biological control programs worldwide. Studies on other insect targets have revealed the role of individual Cry and Cyt proteins in toxicity and demonstrated a synergistic effect among them. However, the insecticidal activity and interactions of these proteins against Simulium larvae have not been reported. In this study we demonstrate that Cry4Ba is the most effective toxin followed by Cry4Aa and Cry11Aa. Cry10Aa and Cyt1Aa were not toxic when administered alone but both were able to synergise the activity of Cry4B and Cry11Aa toxins. Cyt1Aa is also able to synergise with Cry4Aa. The mixture of all toxin-producing strains showed the greatest level of synergism, but still lower than the Bti parental strain.