Relationships among catalpol sequestration, metabolism and nutritional efficiencies of the catalpa sphinx, Ceratomia catalpae (Lepidoptera: Sphingidae)

Abstract

AbstractSequestration of defensive compounds acquired from the environment can be costly to herbivorous insects. The catalpa sphinx, Ceratomia catalpae Boisduval (Lepidoptera: Sphingidae) sequesters the iridoid glycoside catalpol, which it acquires from Catalpa spp. (Lamiales: Bignoniaceae) host plants, at concentrations above those in host plant leaves. Previous research has shown that C. catalpae larvae are avoided by predatory arthropods; however, catalpol sequestration is negatively associated with the larval immune response, suggesting a cost to sequestration. By measuring the mass of C. catalpae larvae, their frass, and their diet, as well as respiration rate and catalpol sequestration, this study aimed to determine whether sequestration is also associated with reduced growth and nutritional efficiency. I found that respiration rate was negatively correlated with the amount of catalpol sequestered and positively correlated with the concentration, or proportion dry mass of catalpol sequestered, and that the amount of catalpol sequestered was positively correlated with three of four measures of nutritional efficiency. Larger larvae that were closer to pupation sequestered very low proportions dry mass of catalpol and had a reduced respiratory rate per unit mass. These results suggest that sequestration has some costs for expenditure of energy, but is positively correlated with several growth and nutrition‐related processes. Instead, the immunological cost of sequestration measured in previous studies could be due to direct effects on immune system components. Further research on the potential metabolic costs of chemical defense in other specialist species is recommended.