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چکیده
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This study evaluates the efficacy of Spodoptera littoralis nucleopolyhedrovirus (SpliNPV) and laboratory‐synthesized carbon
quantum dot nanoparticles (CQDNPs) against the second instar Spodoptera littoralis larvae under laboratory and greenhouse
conditions. Individually, both SpliNPV and CQDNPs exhibited substantial lethality (91.6% and 83.3% at 1 × 108 OBs/ml and
700 mg/ml, respectively) (p < 0.05). The LC50 values were 1.88 × 105 OB/ml and 434.2 mg/mL, and the LT50 values were 8.9 and
9.8 days, respectively. Four LC‐based combined treatments demonstrated significant additive effects, with the SpliNPV
(LC50) + CQDNPs (LC25) combination achieving the optimum effect with a mortality rate of 86.3% and an LT50 value of 6.6 days,
leading to its selection for the suspoemulsion nanoparticle (SENP) formulation. The SENP formulation displayed superior
performance, achieving the highest mortality rates and fastest killing times across all environments: 89.0% in laboratory
conditions, 83.3% on eggplant plants, and 76.6% on pepper plants. In contrast, the suspoemulsion (SE) and unformulated (UF)
formulations showed lower efficacy, emphasizing the importance of formulation in enhancing the biological activity of
SpliNPV. The LT50 values further supported these findings, with the SENP formulation demonstrating the shortest LT50 values,
indicating faster lethality. A significant decrease in CHS‐B, IIM2, PER3, REPAT14, and CDA1 expression was observed, particularly in the combined CQDNPs + SpliNPV treatment, while API expression increased significantly. These findings highlight
the potential of nanoparticle‐enhanced formulations like SENP, and integrating CQDNPs with SpliNPV can significantly
enhance pest control efficacy.
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