Sublethal effects of nitenpyram on the biological traits and metabolic enzymes of the white-backed planthopper, Sogatella furcifera (Hemiptera: Delphacidae)
Yu Shi, Hongsong Chen, Shuai Wu, Fujin Xia, Minrong He, Lang Yang, Rongyu Li, Xun Liao, Ming Li
Journal:CROP PROTECTION
IF:3.04
DOI:10.1016/j.cropro.2022.105931
PMID:
Published:2022-02-04
research field:肿瘤学分子生物学肿瘤生物学癌症诊断
Abstract
Neonicotinoid insecticide nitenpyram is widely used in controlling rice hoppers including Sogatella furcifera (Horváth). At present, the effects of nitenpyram on the biological traits and metabolic enzymes of S. furcifera remain unclear. In this study, we applied an age-stage, two-sex life table to evaluate the sublethal effects of nitenpyram on S. furcifera under one- or multi-generation exposure. Fecundity of F 0 individuals was significantly decreased in the LC 25 treatment group compared to the control. Additionally, in contrast to control, the preadult period, male adult longevity, female adult longevity, longevity, total preoviposition period (TPOP), oviposition days and fecundity were significantly decreased in the F 1 and F 6 generations, while the development time of the 1st, 3rd and 5th -instar in the F 6 generation were significantly shorter than the control and (or) the F 1 generation. Moreover, except for the mean generation time ( T ) that was significantly decreased in the F 1 and F 6 generations, other population parameters such as the intrinsic rate of increase ( r i ), finite rate of increase ( λ ) and net reproductive rate ( R 0 ) were not influenced by nitenpyram exposure. The P450 and EST were both significantly increased in the F 0 and F 6 individuals after nitenpyram (LC 25 ) treatment, and the P450 showed a higher activity in the F 6 generation than F 0 . The mRNA levels of four P450 genes ( CYP4CE3 , CYP417A4 , CYP439A3 and CYP6FJ3 ) were induced by nitenpyram (LC 25 ) treatment in both the F 0 and F 6 generation, and these four P450 genes were also significantly upregulated in the F 6 generation compared with F 0 . Our findings are useful for developing rational application strategies for using pesticides and understanding the metabolic resistance of nitenpyram in S. furcifera .
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