Molecular Characterization Analysis and Adaptive Responses of (Lepidoptera: Noctuidae) to Nutritional and Enzymatic Variabilities in Various Maize Cultivars.

The fall armyworm, Smith (Lepidoptera: Noctuidae), a common agricultural pest known for its extensive migration and wide host ranges, causes considerable harm to maize ( L.). In this study, we utilized two molecular marker genes, and , to compare the genetic characteristics of the collected original samples. Additionally, through an interactive study between larvae and six maize varieties aiming to understand the insect's adaptability and resistance mechanisms, our analysis revealed that both the and genes identified as the corn strain. Further examination of the larvae showed significant differences in nutritional indices, digestive, and detoxification enzyme activities. Special maize varieties were found to offer higher efficiency in nutrient conversion and assimilation compared with common varieties. This study revealed adaptations in 's digestive and detoxification processes in response to the different maize varieties. For instance, larvae reared on common maize exhibited elevated amylase and lipase activities. Interestingly, detoxification enzyme activities exhibited different patterns of variation in different maize varieties. The Pearson correlation analysis between nutritional indices, enzyme activities, and the nutritional content and secondary metabolites of maize leaves provided deeper insights into the pest's adaptability. The results highlighted significant relationships between specific nutritional components in maize and the physiological responses of . Overall, our findings contribute substantially to the understanding of 's host plant adaptability, offering critical insights for the development of sustainable pest management strategies.