ABSTRACT
Like conventional crops, transgenic plants expressing insecticidal toxins from Bacillus thuringiensis (Bt) are subjected to water deprivation. However, the effects of water deprivation over the insecticidal activity of Bt plants are not well understood. We submitted Bt maize and Bt soybean to water deprivation and evaluated biochemical stress markers and the insecticidal activity of plants against target insects. Bt maize (DAS-Ø15Ø7-1 × MON-89Ø34-3 × MON-ØØ6Ø3-6 × SYN-IR162-4) containing the PowerCore Ultra traits, Bt soybean (DAS-444Ø6-6 × DAS-81419-2) with the Conkesta E3 traits, and commercial non-Bt cultivars were cultivated and exposed to water deprivation in the greenhouse. Leaves were harvested for quantification of hydrogen peroxide, malondialdeyde (MDA), and total phenolics and insecticidal activity. Maize or soybean leaf disks were used to evaluate the insecticidal activity against, respectively, Spodoptera frugiperda (J.E Smith) and Chrysodeixis includens (Walker) neonates. Except for Bt soybean, water deprivation increased hydrogen peroxide and MDA contents in Bt and non-Bt plants. Both biochemical markers of water deficit were observed in lower concentrations in Bt plants than in non-Bt commercial cultivars. Water deprivation did not result in changes of phenolic contents in Bt and non-Bt maize. For Bt or non-Bt soybean, phenolic contents were similar despite plants being exposed or not to water deprivation. Water deprivation did not alter substantially insect survival in non-Bt maize or non-Bt soybean. Despite water deprivation-induced biochemical changes in plants, both Bt plants maintained their insecticidal activity (100% mortality) against the target species.
Subject(s)
Bacillus thuringiensis , Insecticides , Animals , Bacillus thuringiensis/genetics , Bacillus thuringiensis Toxins , Bacterial Proteins/genetics , Endotoxins , Hemolysin Proteins/genetics , Larva , Plants, Genetically Modified/genetics , Glycine max/genetics , Spodoptera/genetics , Water Deprivation , Zea mays/geneticsABSTRACT
ABSTRACT: Cyhalofop-butyl stands out among the herbicides in the control of imidazolinone-resistant Echinochloa species; but, rice farmers are not always satisfied with the control achieved with this herbicide. The objectives were to evaluate in regional scale the susceptibility of Echinochloa populations to cyhalofop-butyl, and quantify the effect of the weed phenology on its efficacy of control. For this, three trials were carried out under greenhouse conditions with a fully random design, using Echinochloa populations collected in rice fields in the southern region of Brazil. In two trials, the susceptibility level of 156 (2012/13 growth season) and 103 (2013/14 growth season) populations were evaluated with the application of cyhalofop-butyl at 360g ha-1. In other trial, in which treatments were arranged in a bi-factorial design (A = 6 x B = 5), it was evaluated six cyhalofop-butyl rates and five phenological stages of E. crus-galli populations. Echinochloa populations had showed differential susceptibility to cyhalofop-butyl, especially in the 2013/14 growth season, where 20 out of the 103 populations had control lower than 90%. The efficacy of this herbicide was inversely proportional to the phenological stage, and the application timing delay contributed directly to the decrease of susceptibility to the herbicide. Cyhalofop-butyl is an effective alternative to control imidazolinone-resistant Echinochloa populations, as long as the application timing occurs in the early phenological stages (2 to 4 leaves).
RESUMO: Cyhalofop-butyl destaca-se dentre os herbicidas usados no manejo de populações de capim-arroz resistente às imidazolinonas, mas nem sempre o orizicultor fica satisfeito com o resultado obtido com este herbicida. Objetivou-se avaliar a suscetibilidade de populações de capim-arroz (Echinochloa spp.) ao cyhalofop-butyl e, quantificar o efeito da fenologia da infestante sobre a eficácia do seu controle. Para isto, três experimentos foram realizados em casa de vegetação com delineamento inteiramente casualizado, utilizando-se populações de capim-arroz coletadas na região Sul do Brasil. Em dois experimentos, a suscetibilidade de 156 (safra 2012/13) e 103 (safra 2013/14) populações foram avaliadas frente à aplicação do herbicida cyhalofop-butyl na dose de 360g ha-1. Em outro experimento, em que se arranjaram os tratamentos em esquema bi-fatorial, foram avaliados seis doses do herbicida e cinco estádios fenológicos de populações de E. crus-galli. Foi verificada variação na resposta das populações de capim-arroz ao cyhalofop-butyl, em especial na safra 2013/14, em que 20, das 103 populações testadas, tiveram controle menor que 90%. A eficácia do controle foi inversamente proporcional ao estádio fenológico e, o atraso no controle da infestante contribui diretamente para a diminuição da sua suscetibilidade ao herbicida. Cyhalofop-butyl é uma alternativa eficaz para controlar capim-arroz resistente às imidazolinonas, desde que a aplicação ocorra nos estádios iniciais de desenvolvimento (2 a 4 folhas).
ABSTRACT
Dichomeris famulata Meyrick, 1914 (Lepidoptera: Gelechiidae) é uma nova praga da espiga de milho no Brasil, sendo seu estudo importante em áreas de produção de sementes porque os grãos atacados pelas lagartas não germinam. O objetivo deste trabalho foi estudar a sua biologia em condições de laboratório (25±2°C, UR de 65±10 por cento e fotofase de 14 horas). O ciclo biológico (ovo-adulto) foi de 35,2 dias. O período de incubação foi de 4,1 dias. A duração média da fase larval foi de 21,1 dias, sendo observados cinco ínstares larvais. A fase pupal durou 8,4 dias e o peso de pupa de machos e fêmeas foi de 12,4 e 11,3mg, respectivamente. As fêmeas colocaram, em média, 118 ovos, apresentando um período de pré-oviposição de 10,7 dias e de oviposição de 14,0 dias. A longevidade média de machos e fêmeas foi de 37,02 e 44,16 dias, respectivamente, e a razão sexual de 0,48. As lagartas danificam os estilo-estigmas e os grãos em estado leitoso por meio de pequenos orifícios de entrada, prejudicando o endosperma e principalmente a região do embrião, inutilizando-os para sementes. Os resultados obtidos neste trabalho fornecem subsídios para o estabelecimento de estratégias de manejo do inseto, especialmente em áreas de produção de sementes.
The caterpillar Dichomeris famulata Meyrick, 1914 (Lepidoptera: Gelechiidae) is a new pest of corn ear in Brazil, and its study is important in seed fields. The aim of this was to study the biology of this pest under laboratory conditions (25±2°C, 65±10 percent of RH and 14-hours of photophase). The biological cycle (egg-adult) was of 35.2 days. The incubation period was of 4.1 days. The average larval development time was of 21.1 days, and 5 instars were observed. The pupal period was of 8.4 days and the pupae weight was of 12.4 and 11.3 mg for males and females, respectively. The females laid an average of 118 eggs with a pre-oviposition period of 10.7 days and an oviposition time of 14.0 days. The mean longevity of males and females was of 37.02 and 44.16 days, respectively, and sex ratio was of 0.48. The caterpillars damage the silks and grains at the milk stage through little entry orifices, damaging the endosperm and, more importantly, the embryo, reducing the seed germination. These results can support the establishment of strategies to manage this new corn ear pest, especially in seed fields.
