Abstract
Zinc is an essential micronutrient crucial in various biological processes of an organism. However, the effects of zinc vary depending on its chemical form. Therefore, the aim of this study was to conduct a comparative analysis of the life history performances and hemolymph metabolism of Spodoptera litura exposed to different concentrations of dietary zinc chloride (ZnCl(2)) and zinc sulfate (ZnSO(4)), utilizing two-sex life tables and untargeted metabolomics. The preadult survival rate of S. litura significantly decreased, while the preadult developmental period of S. litura was prolonged as the dietary ZnCl(2) concentration increased. However, the fecundity of S. litura at 50 mg/kg dietary ZnCl(2) was significantly increased. The intrinsic rate of increase (r) and the finite rate of increase (λ) in S. litura in the control group (CK, no exogenous ZnCl(2) or ZnSO(4) added) and with 50 mg/kg dietary ZnCl(2) were significantly higher than those at 100 mg/kg, 200 mg/kg, and 300 mg/kg. Dietary ZnSO(4) exerts a devastating effect on the survival of S. litura. Even at the lowest concentration of 50 mg/kg dietary ZnSO(4), only 1% of S. litura could complete the entire life cycle. Furthermore, as the dietary ZnSO(4) concentration increased, the developmental stage achievable by the S. litura larvae declined. High-throughput untargeted metabolomics demonstrated that both 100 mg/kg dietary ZnCl(2) and ZnSO(4) decreased the hemolymph vitamins levels and increased the vitamin C content, thereby helping S. litura larvae to counteract the stress induced by ZnCl(2) and ZnSO(4). Simultaneously, dietary ZnCl(2) obstructed the chitin synthesis pathway in the hemolymph of S. litura, thus extending the developmental period of S. litura larvae. These results indicate that low concentrations of Zn(2+) positively impact populations of S. litura, but the effectiveness and toxicity of Zn depend on its chemical form and concentration.