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The purpose of this study was to evaluate the cytochrome P450-dependent monooxygenase activities in methidathion resistant and susceptible strains of Amblyseius womersleyi Schicha. Artificial laboratory selections for resistance and susceptibility to methidathion were performed in an organophosphate resistant strain of A. womersleyi (Kanaya strain). Selections for susceptibility were also performed in a susceptible strain of this predaceous mite (Ishigaki Strain). After the selection process, the LC(50) of methidathion for the selected strains of A. womersleyi were 816 mg/l (Kanaya R), 4.61 mg/l (Kanaya S) and 1.59 mg/l (Ishigaki S). The monooxygenase activities were determined biochemically by the O-deethylation of 7-ethoxycoumarin (7-EC). The monooxygenase activity in adult females of Kanaya R strain (51.1 pmol/30 min/mg protein) was 3.60- and 5.42-fold higher than the activity observed for Kanaya S and Ishigaki S strains, respectively. Significant correlation between monooxygenase activity and LC(50) (mg/l) of methidathion was observed analyzing 16 populations of A. womersleyi with different susceptibilities to methidathion. Monooxygenase activity was also evaluated in different life stages (egg, larva, protonymph, deutonymph and adult) of A. womersleyi. The lowest activity was observed for the larval stage, which presented the highest susceptibility to methidathion. Protonymph, deutonymph and adult presented the highest monooxygenase activities. These stages were the most tolerant to methidathion. Monooxygenase activities of the Kanaya R strain were higher than of the Kanaya S strain in all developmental stages. The present study can be helpful for the implementation of a program involving release of insecticide-resistant populations of A. womersleyi in the field. The monooxygenase activity determination is easier and quicker than the estimation of LC(50), requiring fewer mites.
The purpose of this study was to evaluate the cytochrome P450-dependent monooxygenase activities in methidathion resistant and susceptible strains of Amblyseius womersleyi Schicha. Artificial laboratory selections for resistance and susceptibility to methidathion were performed in an organophosphate resistant strain of A. womersleyi (Kanaya strain). Selections for susceptibility were also performed in a susceptible strain of this predaceous mite (Ishigaki Strain). After the selection process, the LC(50) of methidathion for the selected strains of A. womersleyi were 816 mg/l (Kanaya R), 4.61 mg/l (Kanaya S) and 1.59 mg/l (Ishigaki S). The monooxygenase activities were determined biochemically by the O-deethylation of 7-ethoxycoumarin (7-EC). The monooxygenase activity in adult females of Kanaya R strain (51.1 pmol/30 min/mg protein) was 3.60- and 5.42-fold higher than the activity observed for Kanaya S and Ishigaki S strains, respectively. Significant correlation between monooxygenase activity and LC(50) (mg/l) of methidathion was observed analyzing 16 populations of A. womersleyi with different susceptibilities to methidathion. Monooxygenase activity was also evaluated in different life stages (egg, larva, protonymph, deutonymph and adult) of A. womersleyi. The lowest activity was observed for the larval stage, which presented the highest susceptibility to methidathion. Protonymph, deutonymph and adult presented the highest monooxygenase activities. These stages were the most tolerant to methidathion. Monooxygenase activities of the Kanaya R strain were higher than of the Kanaya S strain in all developmental stages. The present study can be helpful for the implementation of a program involving release of insecticide-resistant populations of A. womersleyi in the field. The monooxygenase activity determination is easier and quicker than the estimation of LC(50), requiring fewer mites.
The cabbage beetle, Colaphellus bowringi Baly (Coleoptera: Chrysomelidae), is a serious pest of crucifers in China, undergoing an imaginal summer and winter diapause in the soil. The effects of host plants on diapause incidence were tested in the beetle. The ratio of adults entering diapause was significantly low when they fed on the mature leaves of Chinese cabbage Shanghaiqin (Brassica chinesis var communis) than those feeding on Chinese cabbage Suzhouqin (Brassica chinesis var communis), radish (Raphanus sativus var longipinnatus) and stem mustard (Brassica juncea var tumida) at 25°C combined with 13: 11 (L: D) h. Fewer adults entered diapause on young leaves compared to physiologically aged and mature radish leaves at 25°C combined with 13: 11 (L: D) h. The effect of host plant species on diapause induction was also evident under continuously dark rearing conditions or at different photoperiods. These experimental results demonstrate that host plant mediation of diapause induction exists in the cabbage beetle. However, at temperatures < 20°C or photoperiods of 16: 8 (L: D) h combined with 25°C, all individuals entered diapause regardless of the host plants, indicating that the effects of host plants on diapause induction could be expressed only within a limited range of temperatures and photoperiods.
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