TY - JOUR T1 - Frugivore gut passage increases seed germination: an updated meta-analysis JF - bioRxiv DO - 10.1101/2021.10.12.462022 SP - 2021.10.12.462022 AU - Haldre S. Rogers AU - Brittany R. Cavazos AU - Ann Marie Gawel AU - Alex Karnish AU - Courtenay A. Ray AU - Ethan Rose AU - Hugo Thierry AU - Evan C. Fricke Y1 - 2021/01/01 UR - http://biorxiv.org/content/early/2021/10/13/2021.10.12.462022.abstract N2 - Many plants rely on animal mutualists for reproduction. Quantifying how animal mutualists impact plant performance provides a foundation for modelling how change in animal communities affects the composition and functioning of plant communities. We performed a meta-analysis of 2539 experiments, 6 times more than the last comprehensive meta-analysis, examining how gut passage by frugivores influences seed germination. We simultaneously analyzed multiple predictor variables related to study methodology, location, and frugivore identity to disentangle methodological from ecological impacts on effect sizes. We found that gut passage by birds, fish, reptiles, bats, primates, and other mammals on average increased seed germination, but that the magnitude varied across vertebrate groups. The positive effects of gut passage were largely explained by the de-inhibitory effects of pulp removal rather than by the scarification of seed tissues. Some previous studies and meta-analyses that found no effect of gut passage only tested scarification or did not distinguish between these tests of scarification and pulp removal. We found that, for a typical fleshy-fruited plant species, the lack of gut passage reduces germination by 60%. From an evolutionary perspective, this indicates a large risk associated with reliance on animal mutualists that is balanced against the benefits of animal-mediated seed dispersal. From a conservation perspective, this highlights the potential for large demographic consequences of frugivore declines on plant populations. Our database and findings advance quantitative predictions for the role of fruit-frugivore interactions in shaping plant communities in the Anthropocene.Competing Interest StatementThe authors have declared no competing interest. ER -