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Abstract The ecological interaction between fleshy fruits and frugivores is influenced by diverse mixtures of secondary metabolites that naturally occur in the fruit pulp. Although some fruit secondary metabolites have a primary role in defending the pulp against antagonistic frugivores, these metabolites also potentially affect mutualistic interactions. The physiological impact of these secondary metabolites on mutualistic frugivores remains largely unexplored. Using a mutualistic fruit bat (Carollia perspicillata), we showed that ingesting four secondary metabolites commonly found in plant tissues affects bat foraging behavior and induces changes in the fecal metabolome. Our behavioral trials showed that the metabolites tested typically deter bats. Our metabolomic surveys suggest that secondary metabolites alter, either by increasing or decreasing, the absorption of essential macronutrients. These behavioral and physiological effects vary based on the specific identity and concentration of the metabolite tested. Our results also suggest that a portion of the secondary metabolites consumed is excreted by the bat intact or slightly modified. By identifying key shifts in the fecal metabolome of a mutualistic frugivore caused by secondary metabolite consumption, this study improves our understanding of the effects of fruit chemistry on frugivore physiology.
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Data from: "Untargeted Metabolomics Reveals Fruit Secondary Metabolites Alter Bat Nutrient Absorption"
Data from: Untargeted Metabolomics Reveals Fruit Secondary Metabolites Alter Bat Nutrient Absorption; by Gelambi, M. & Whitehead, S. R. Published in the Journal of Chemical Ecology, 2024. Using a mutualistic fruit bat (Carollia perspicillata), our research explores how four secondary metabolites (piperine, tannin acid, eugenol, and phytol) commonly found in plant tissues affect the foraging behavior and induce changes in the fecal metabolome. In this study, bats were captured and housed in flight cages. Nightly trials exposed them to varying concentrations of secondary metabolites. Objective 1 involved non-choice trials to measure food consumption, while Objective 2 evaluated the impact of metabolite consumption on the bat fecal metabolome. Fecal samples were collected, stored, and later analyzed to understand how secondary metabolites influence bat behavior and metabolism. All the analyses were performed in R v. 4.2.1.
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- PAR ID:
- 10555225
- Publisher / Repository:
- Zenodo
- Date Published:
- Format(s):
- Medium: X
- Right(s):
- Creative Commons Attribution 4.0 International
- Sponsoring Org:
- National Science Foundation
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