Author
Listed:
- Robert M. Pringle
(Princeton University)
- Tyler R. Kartzinel
(Princeton University
Brown University)
- Todd M. Palmer
(University of Florida)
- Timothy J. Thurman
(McGill University
Smithsonian Tropical Research Institute
McGill University)
- Kena Fox-Dobbs
(University of Puget Sound)
- Charles C. Y. Xu
(McGill University
McGill University)
- Matthew C. Hutchinson
(Princeton University)
- Tyler C. Coverdale
(Princeton University
Cornell University)
- Joshua H. Daskin
(Princeton University
Yale University)
- Dominic A. Evangelista
(The State University of New Jersey)
- Kiyoko M. Gotanda
(McGill University
McGill University
University of Cambridge)
- Naomi A. Man in ’t Veld
- Johanna E. Wegener
(University of Rhode Island)
- Jason J. Kolbe
(University of Rhode Island)
- Thomas W. Schoener
(University of California)
- David A. Spiller
(University of California)
- Jonathan B. Losos
(Washington University)
- Rowan D. H. Barrett
(McGill University
McGill University)
Abstract
Biological invasions are both a pressing environmental challenge and an opportunity to investigate fundamental ecological processes, such as the role of top predators in regulating biodiversity and food-web structure. In whole-ecosystem manipulations of small Caribbean islands on which brown anole lizards (Anolis sagrei) were the native top predator, we experimentally staged invasions by competitors (green anoles, Anolis smaragdinus) and/or new top predators (curly-tailed lizards, Leiocephalus carinatus). We show that curly-tailed lizards destabilized the coexistence of competing prey species, contrary to the classic idea of keystone predation. Fear-driven avoidance of predators collapsed the spatial and dietary niche structure that otherwise stabilized coexistence, which intensified interspecific competition within predator-free refuges and contributed to the extinction of green-anole populations on two islands. Moreover, whereas adding either green anoles or curly-tailed lizards lengthened food chains on the islands, adding both species reversed this effect—in part because the apex predators were trophic omnivores. Our results underscore the importance of top-down control in ecological communities, but show that its outcomes depend on prey behaviour, spatial structure, and omnivory. Diversity-enhancing effects of top predators cannot be assumed, and non-consumptive effects of predation risk may be a widespread constraint on species coexistence.
Suggested Citation
Robert M. Pringle & Tyler R. Kartzinel & Todd M. Palmer & Timothy J. Thurman & Kena Fox-Dobbs & Charles C. Y. Xu & Matthew C. Hutchinson & Tyler C. Coverdale & Joshua H. Daskin & Dominic A. Evangelist, 2019.
"Predator-induced collapse of niche structure and species coexistence,"
Nature, Nature, vol. 570(7759), pages 58-64, June.
Handle:
RePEc:nat:nature:v:570:y:2019:i:7759:d:10.1038_s41586-019-1264-6
DOI: 10.1038/s41586-019-1264-6
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Cited by:
- Dongli, Duan & Chengxing, Wu & Yuchen, Zhai & Changchun, Lv & Ning, Wang, 2022.
"Coexistence mechanism of alien species and local ecosystem based on network dimensionality reduction method,"
Chaos, Solitons & Fractals, Elsevier, vol. 159(C).
- Glynn, Peter J & Glynn, Peter W & Maté, Juan & Riegl, Bernhard, 2020.
"Agent-based model of Eastern Pacific damselfish and sea urchin interactions shows increased coral reef erosion under post-ENSO conditions,"
Ecological Modelling, Elsevier, vol. 423(C).
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