Document Type
Article
Journal/Book Title/Conference
Biotropica
Author ORCID Identifier
Karen H. Beard https://orcid.org/0000-0003-4997-2495
Volume
53
Issue
2
Publisher
Wiley-Blackwell Publishing, Inc.
Publication Date
12-17-2020
First Page
681
Last Page
692
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.
Abstract
Insectivorous vertebrates, especially on islands, can exert top-down control on herbivorous prey, which can transfer through a food chain to reduce herbivory. However, in many systems insectivorous vertebrates feed on more than one trophic level, especially consuming arthropod predators, and this intraguild predation can diminish trophic cascades. Our goal was to determine, using an exclosure experiment, the relative importance of anole lizards and coqui frogs in controlling spider and arthropod abundances as well as herbivory rates in the understory of the Luquillo Experimental Forest, Puerto Rico. We found that exclosures removing both anoles and coquis doubled spider abundance compared to exclosures with anoles and coquis at natural densities. The effect of coquis on spiders was greater and occurred more quickly than that of anoles, potentially because of the higher natural densities of coquis and removal of both vertebrates produced no interactive effects. We found support for the idea that anoles, but not coquis, reduce foliar arthropod abundances on one of the two studied plant species. However, there was also evidence that anole removal decreased herbivory, the opposite of what we would expect if there was a trophic cascade. Potential explanations include that anoles reduced predatory arthropods on foliage more than they reduced herbivorous arthropods. Results highlight that the food web in tabonuco forest is not simple and that there are complex and dynamic relationships among vertebrate insectivores, predatory arthropods, and herbivorous arthropods that do not consistently result in a trophic cascade.
Recommended Citation
Beard KH, Durham SL, Willig MR, Zimmerman JK. Lizard and frog removal increases spider abundance but does not cascade to increase herbivory. Biotropica. 2021; 53: 681–692. https://doi.org/10.1111/btp.12909