Abstrakt: |
Background: Acyrthosiphon pisum Harris is the most destructive pest worldwide because of its ability to feed on plants directly and transmit plant viruses as a vector. This study aims to identify triterpenoid saponins from Oxytropis hirta Bunge as biopesticides to control aphids. Results: Three new azukisapogenol triterpenoid saponins (1–3), a new pinoresinol lignan glycoside (8), and four known saponins (4–7) were identified from the root of O. hirta. Compounds 4–7 displayed significant aphicidal activities against A. pisum with oral toxicities (LC50 = 51.10–147.43 μg/mL, 72 h), deterrent effects (deterrence index = 1.00, 100–200 μg/mL, 24 h), and aphid reproduction inhibitory effects (inhibition rates = 75.91–86.73%, 400 μg/mL, 24 h), respectively. The carboxyl groups at C‐3 GlcA and C‐30 were functional groups for their aphicidal activities. The toxic symptoms caused by the optimal 5 involved insect body‐color changes from light green to dark or gray‐green, and then brown until death. The intestinal cavity, apical microvilli, nuclei, mitochondria, and electron dense granules in the midgut tissues of A. pisum were the target sites showing aphicidal activity. The suppression of pepsin and α‐amylase, and the activation of lipase and trypsin could be the signs of organelle damage in the midgut tissues. Conclusion: Azukisapogenol triterpenoid saponins from O. hirta could be used as biopesticides to control aphids for their multiple efficacies, including oral toxicity, deterrent activity, and reproduction inhibitory activity. The toxic symptoms involved insect body‐color changes. Midgut tissues and their related enzymes were the targets for saponins showing aphicidal activities. © 2022 Society of Chemical Industry. [ABSTRACT FROM AUTHOR] |