Predator-induced collapse of niche structure and species coexistence

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. Evangelista; Kiyoko M. Gotanda; Naomi A. Man in ’t Veld; Johanna E. Wegener; Jason J. Kolbe; Thomas W. Schoener; David A. Spiller; Jonathan B. Losos; Rowan D.H. Barrett

doi:10.1038/s41586-019-1264-6

Predator-induced collapse of niche structure and species coexistence

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. Evangelista, Kiyoko M. Gotanda, Naomi A. Man in ’t Veld, Johanna E. Wegener, Jason J. Kolbe, Thomas W. Schoener, David A. Spiller, Jonathan B. Losos, Rowan D.H. Barrett

Research output: Contribution to journal › Article › peer-review

119 Scopus citations

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.

Original language	English
Pages (from-to)	58-64
Number of pages	7
Journal	Nature
Volume	570
Issue number	7759
DOIs	https://doi.org/10.1038/s41586-019-1264-6
State	Published - Jun 6 2019

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Pringle, R. M., Kartzinel, T. R., Palmer, T. M., Thurman, T. J., Fox-Dobbs, K., Xu, C. C. Y., Hutchinson, M. C., Coverdale, T. C., Daskin, J. H., Evangelista, D. A., Gotanda, K. M., A. Man in ’t Veld, N., Wegener, J. E., Kolbe, J. J., Schoener, T. W., Spiller, D. A., Losos, J. B., & Barrett, R. D. H. (2019). Predator-induced collapse of niche structure and species coexistence. Nature, 570(7759), 58-64. https://doi.org/10.1038/s41586-019-1264-6

@article{e3ca30b34d6a4a4cb783ceb3cc00ea09,

title = "Predator-induced collapse of niche structure and species coexistence",

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.",

author = "Pringle, \{Robert M.\} and Kartzinel, \{Tyler R.\} and Palmer, \{Todd M.\} and Thurman, \{Timothy J.\} and Kena Fox-Dobbs and Xu, \{Charles C.Y.\} and Hutchinson, \{Matthew C.\} and Coverdale, \{Tyler C.\} and Daskin, \{Joshua H.\} and Evangelista, \{Dominic A.\} and Gotanda, \{Kiyoko M.\} and \{A. Man in {\textquoteright}t Veld\}, Naomi and Wegener, \{Johanna E.\} and Kolbe, \{Jason J.\} and Schoener, \{Thomas W.\} and Spiller, \{David A.\} and Losos, \{Jonathan B.\} and Barrett, \{Rowan D.H.\}",

note = "Publisher Copyright: {\textcopyright} 2019, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2019",

month = jun,

day = "6",

doi = "10.1038/s41586-019-1264-6",

language = "English",

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Pringle, RM, Kartzinel, TR, Palmer, TM, Thurman, TJ, Fox-Dobbs, K, Xu, CCY, Hutchinson, MC, Coverdale, TC, Daskin, JH, Evangelista, DA, Gotanda, KM, A. Man in ’t Veld, N, Wegener, JE, Kolbe, JJ, Schoener, TW, Spiller, DA, Losos, JB & Barrett, RDH 2019, 'Predator-induced collapse of niche structure and species coexistence', Nature, vol. 570, no. 7759, pp. 58-64. https://doi.org/10.1038/s41586-019-1264-6

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T1 - Predator-induced collapse of niche structure and species coexistence

AU - Pringle, Robert M.

AU - Kartzinel, Tyler R.

AU - Palmer, Todd M.

AU - Thurman, Timothy J.

AU - Fox-Dobbs, Kena

AU - Xu, Charles C.Y.

AU - Hutchinson, Matthew C.

AU - Coverdale, Tyler C.

AU - Daskin, Joshua H.

AU - Evangelista, Dominic A.

AU - Gotanda, Kiyoko M.

AU - A. Man in ’t Veld, Naomi

AU - Wegener, Johanna E.

AU - Kolbe, Jason J.

AU - Schoener, Thomas W.

AU - Spiller, David A.

AU - Losos, Jonathan B.

AU - Barrett, Rowan D.H.

PY - 2019/6/6

Y1 - 2019/6/6

N2 - 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.

AB - 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.

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DO - 10.1038/s41586-019-1264-6

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SN - 0028-0836

VL - 570

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ER -

Predator-induced collapse of niche structure and species coexistence

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