Journal
PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES
Volume 290, Issue 2003, Pages -Publisher
ROYAL SOC
DOI: 10.1098/rspb.2023.0804
Keywords
dietary ecology; ecological adaptation; frugivory; phylogenetic signal; sensory ecology; alcohol
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Studying fruit traits and their interactions with seed dispersers can help us understand biodiversity patterns, ecosystem function, and evolution. Fruit ethanol is common and variable, and may influence seed dispersers. In this study, we investigated fruit ethanol content in a Costa Rican tropical dry forest and found that phylogeny and seed dispersal syndrome explain variation in ethanol levels, with mammal-dispersed fruits having higher ethanol concentrations than bird-dispersed fruits. These findings contribute to our understanding of the role of fruit ethanol as a selective pressure on frugivore sensory systems and metabolism.
Studying fruit traits and their interactions with seed dispersers can improve how we interpret patterns of biodiversity, ecosystem function and evolution. Mounting evidence suggests that fruit ethanol is common and variable, and may exert selective pressures on seed dispersers. To test this, we comprehensively assess fruit ethanol content in a wild ecosystem and explore sources of variation. We hypothesize that both phylogeny and seed dispersal syndrome explain variation in ethanol levels, and we predict that fruits with mammalian dispersal traits will contain higher levels of ethanol than those with bird dispersal traits. We measured ripe fruit ethanol content in species with mammal- (n = 16), bird- (n = 14) or mixed-dispersal (n = 7) syndromes in a Costa Rican tropical dry forest. Seventy-eight per cent of fruit species yielded measurable ethanol concentrations. We detected a phylogenetic signal in maximum ethanol levels (Pagel's & lambda; = 0.82). Controlling for phylogeny, we observed greater ethanol concentrations in mammal-dispersed fruits, indicating that dispersal syndrome helps explain variation in ethanol content, and that mammals may be more exposed to ethanol in their diets than birds. Our findings further our understanding of wild fruit ethanol and its potential role as a selective pressure on frugivore sensory systems and metabolism.
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