Background: Panonychus citri is a major citrus pest worldwide. The short life cycle and high reproductive potential of P. citri, combined with heavy acaricide use, have led to high levels of resistance to acaricides, posing a threat to global resistance management programs. Here, resistance monitoring was established to determine the pyridaben resistance status of ten P. citri populations in China from 2014 to 2021 using a leaf-dipping assay. Four characterized strains-the susceptible strain (Lab_S), the resistant strain (Pyr_R), as well as the segregated resistant strain (Pyr_Rs) and the segregated susceptible strain (Pyr_Control) derived from the crossing of the Lab_S and Pyr_R strains, were used to evaluate the life-history characteristics using age-stage, two-sex life tables.Results: Most P. citri populations developed high resistance to pyridaben. Resistance levels exceeded 1000-fold in Yuxi, Anyue, Nanning, and Ganzhou populations compared with the Lab_S strain. Compared with Pyr_Control, two key fitness cost criteria, developmental period and fecundity, showed significant differences in Pyr_Rs under consistent conditions. The intrinsic rate of increase, net reproductive rate and gross reproductive rate were lower in the resistant strain compared with the Pyr_Control strain. The Pyr_Rs strain had a lower relative fitness of 0.934 compared with the Pyr_Control. Moreover, the life-history traits and population parameters of the Pyr_R strain also showed significant differences compared with the Lab_S strain. Conclusion:The resistance levels to pyridaben varied greatly among the different P. citri populations and showed regional differences. Substantial fitness costs are associated with pyridaben resistance. This study provides potential implications for developing strategies for resistance management in P. citri.
BACKGROUND Panonychus citri is a globally dominant citrus plant pest mite. Pesticide‐induced population resurgence is a concern for mite control. Exposure to sublethal concentrations of pesticides has stimulated reproduction and outbreak risks in many pests. Pyridaben, a mitochondrial electron transport inhibitor, has been frequently used worldwide in mite control. In the study, sublethal and transgenerational effects of pyridaben exposure on Pyr_Rs (resistant) and Pyr_Control (susceptible) strains were systematically investigated in both exposed parental generation (F0) and unexposed offspring generations (F1 and F2) by evaluating life‐table and physiological parameters. RESULTS After exposure to pyridaben, the fecundity of both strains was significantly reduced in F0 generation while significantly induced in F1 generation. Interestingly, these effects also stimulated the fecundity of the F2 generation in Pyr_Control strain while no significant effects occurred for Pyr_Rs strain. The intrinsic rate of increase (r) and finite rate of increase (λ) were significantly decreased only in F1 generation of Pyr_Control strain after exposure treatment. Meanwhile, the population projection indicated a smaller population size in F1 generation of Pyr_Control strain while a population increase for Pyr_Rs strain after sublethal treatment. Subsequent detoxification enzyme assays indicated that only P450 activities in F0 generation were significantly activated by LC30 exposure to pyridaben in both strains. Significant downregulation of reproduction‐related (Pc_Vg) genes was observed in the F0 generations of both strains. Significant upregulation of P450 (CYP4CL2) and Pc_Vg of the F1 generation in both strains suggested the presence of delayed hormesis effects on the reproduction and developed tolerance to pyridaben, although the effects did not last over a longer period (F2 generation). CONCLUSION These results provide evidence for transgenerational hormesis effects of low concentrations of pyridaben exposure that may lead to population increase and resurgence risks of resistant‐mites in natural settings by stimulating reproduction. © 2023 Society of Chemical Industry.
Panonychus citri is a dominant citrus pest mite in the world. Pesticide-induced population resurgence is a concern for environmental and resistance risk assessment in mite control. To evaluate the effective mite management strategies, the sublethal and transgenerational effects of pyridaben on P. citri were assessed using life-table parameters. Two segregated pyridaben-resistant and susceptible strains (previously obtained from the crossing between laboratory susceptible strain and pyridaben-resistant population) were used in our study. After exposure to LC30 pyridaben, the fecundity of Pyr_Control and Pyr_Rs strains were both significantly reduced in the parental generation (F0). Life-table results showed that LC30 pyridaben significantly induced the fecundity of both strains in F1 generation (egg stage was prolonged as well). Interestingly, this effect also stimulated the fecundity of F2 generation in Pyr_Control strain. But no significant effects were observed in Pyr_Rs strain. While detoxification enzyme assays indicated that only the activity of P450s was significantly activated by LC30 pyridaben in Pyr_Control and Pyr_Rs strains (1.242- fold and 1.355-fold increase, respectively). The expressions of P450 gene (CYP4CL2) and reproduction-related gene (Pc_Vg) were determined and the results showed that the expression of Pc_Vg of pyridaben treated mites in F0 generation was significantly reduced in both strains. In Pyr_Control and Pyr_Rs strains, the significant upregulation CYP4CL2 (2.029-fold and 2.516-fold increase, respectively) and PcVg (1.771-fold and 2.924-fold increase, respectively) of F1 generation suggested there were delayed hormesis effects on reproduction and developed tolerance to pyridaben. No significant difference was found between LC30 treatments and controls in F2 generation of both strains. These results provided evidence that transgenerational hormesis effects of low concentration of pyridaben might lead to mite population outbreak and resistance risk in the field through stimulating the reproduction and developing tolerance to pyridaben. Furthermore, LC30 pyridaben could affect the offspring populations of susceptible strain in the longer-term as compared to resistant strain.
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