Abstract
Protected areas safeguard biodiversity and provide opportunities for human recreation. However, abundant anthropogenic food subsidies associated with human activities in protected areas can lead to high densities of generalist predators, posing a threat to rare species at broad spatial scales. Reducing anthropogenic subsidies could curb populations of overabundant predators, yet the effectiveness of this strategy is unclear. We characterized changes in the foraging ecology, body condition, and demography of a generalist predator, the Steller's jay, three years after implementation of a multi-faceted management program to reduce anthropogenic subsidies in a protected area in California. Stable isotope analysis revealed that the proportional contribution of anthropogenic foods to jay diets declined from 88% to 47% in response to management. Overlap between jay home ranges decreased after management began, while home range size, body condition, and individual fecundity remained stable. Adult density in subsidized areas decreased markedly from 4.33 (SE: ±0.91) to 0.65 (±0.20) jays/ha after the initiation of management, whereas density in unsubsidized areas that were not expected to be affected by management remained stable (0.70 ± 0.22 pre-management, 0.58 ± 0.38 post-management). Thus, the response of jays to management was density-dependent such that reduced densities facilitated the maintenance of individual body condition and fecundity. Importantly, though, jay population size and collective reproductive output declined substantially. Our study provides evidence that limiting anthropogenic subsidies can successfully reduce generalist predator populations and be part of a strategy to increase compatibility of species protection and human recreation within protected areas.
| Original language | English (US) |
|---|---|
| Article number | 109081 |
| Journal | Biological Conservation |
| Volume | 256 |
| DOIs | |
| State | Published - Apr 2021 |
Bibliographical note
Funding Information:We thank Holly Todaro, Jessica Guenther, Gabby Jukkala, Lake White, and numerous other field and laboratory technicians for their indispensable role in the collection of field data and sample processing. We also thank Alex Tabone, Portia Halbert, and all the staff at Big Basin for facilitating field work for this project. This work was funded by Save the Redwoods League (grants 125 and 132 ), California State Parks (grant C1868006 ), the National Science Foundation Graduate Research Fellowship Program (Grant No. DGE-1747503 ), and support was provided by the Graduate School and the Office of the Vice Chancellor for Research and Graduate Education at the University of Wisconsin-Madison with funding from the Wisconsin Alumni Research Foundation .
Funding Information:
We thank Holly Todaro, Jessica Guenther, Gabby Jukkala, Lake White, and numerous other field and laboratory technicians for their indispensable role in the collection of field data and sample processing. We also thank Alex Tabone, Portia Halbert, and all the staff at Big Basin for facilitating field work for this project. This work was funded by Save the Redwoods League (grants 125 and 132), California State Parks (grant C1868006), the National Science Foundation Graduate Research Fellowship Program (Grant No. DGE-1747503), and support was provided by the Graduate School and the Office of the Vice Chancellor for Research and Graduate Education at the University of Wisconsin-Madison with funding from the Wisconsin Alumni Research Foundation.
Publisher Copyright:
© 2021 Elsevier Ltd
Keywords
- Anthropogenic subsidy
- Cyanocitta stelleri
- Protected area
- Spillover predation
- Visitor education
