Experimentally simulating the evolution-To-ecology connection: Divergent predator morphologies alter natural food webs

Jason J. Kolbe; Sean T. Gier; Oriol Lapiedra; Kelsey P. Lyberger; Jessica N. Pita-Aquino; Haley A. Moniz; Manuel Leal; David A. Spiller; Jonathan B. Losos; Thomas W. Schoenerd; Jonah Piovia-Scotti

doi:10.1073/pnas.2221691120

Experimentally simulating the evolution-To-ecology connection: Divergent predator morphologies alter natural food webs

Jason J. Kolbe, Sean T. Gier, Oriol Lapiedra, Kelsey P. Lyberger, Jessica N. Pita-Aquino, Haley A. Moniz, Manuel Leal, David A. Spiller, Jonathan B. Losos, Thomas W. Schoenerd, Jonah Piovia-Scotti

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3 Scopus citations

Abstract

The idea that changing environmental conditions drive adaptive evolution is a pillar of evolutionary ecology. But, the opposite that adaptive evolution alters ecological processes has received far less attention yet is critical for eco-evolutionary dynamics. We assessed the ecological impact of divergent values in a key adaptive trait using 16 populations of the brown anole lizard (Anolis sagrei). Mirroring natural variation, we established islands with short-or long-limbed lizards at both low and high densities. We then monitored changes in lower trophic levels, finding that on islands with a high density of short-limbed lizards, web-spider densities decreased and plants grew more via an indirect positive effect, likely through an herbivore-mediated trophic cascade. Our experiment provides strong support for evolution-To-ecology connections in nature, likely closing an otherwise well-characterized eco-evolutionary feedback loop.

Original language	English
Article number	e2221691120
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	120
Issue number	24
DOIs	https://doi.org/10.1073/pnas.2221691120
State	Published - 2023

Keywords

Anolis
eco-evolutionary dynamics
evolution-To-ecology connection
trophic cascade

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10.1073/pnas.2221691120

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Kolbe, J. J., Gier, S. T., Lapiedra, O., Lyberger, K. P., Pita-Aquino, J. N., Moniz, H. A., Leal, M., Spiller, D. A., Losos, J. B., Schoenerd, T. W., & Piovia-Scotti, J. (2023). Experimentally simulating the evolution-To-ecology connection: Divergent predator morphologies alter natural food webs. Proceedings of the National Academy of Sciences of the United States of America, 120(24), Article e2221691120. https://doi.org/10.1073/pnas.2221691120

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title = "Experimentally simulating the evolution-To-ecology connection: Divergent predator morphologies alter natural food webs",

abstract = "The idea that changing environmental conditions drive adaptive evolution is a pillar of evolutionary ecology. But, the opposite that adaptive evolution alters ecological processes has received far less attention yet is critical for eco-evolutionary dynamics. We assessed the ecological impact of divergent values in a key adaptive trait using 16 populations of the brown anole lizard (Anolis sagrei). Mirroring natural variation, we established islands with short-or long-limbed lizards at both low and high densities. We then monitored changes in lower trophic levels, finding that on islands with a high density of short-limbed lizards, web-spider densities decreased and plants grew more via an indirect positive effect, likely through an herbivore-mediated trophic cascade. Our experiment provides strong support for evolution-To-ecology connections in nature, likely closing an otherwise well-characterized eco-evolutionary feedback loop.",

keywords = "Anolis, eco-evolutionary dynamics, evolution-To-ecology connection, trophic cascade",

author = "Kolbe, {Jason J.} and Gier, {Sean T.} and Oriol Lapiedra and Lyberger, {Kelsey P.} and Pita-Aquino, {Jessica N.} and Moniz, {Haley A.} and Manuel Leal and Spiller, {David A.} and Losos, {Jonathan B.} and Schoenerd, {Thomas W.} and Jonah Piovia-Scotti",

year = "2023",

doi = "10.1073/pnas.2221691120",

language = "English",

volume = "120",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

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Kolbe, JJ, Gier, ST, Lapiedra, O, Lyberger, KP, Pita-Aquino, JN, Moniz, HA, Leal, M, Spiller, DA, Losos, JB, Schoenerd, TW & Piovia-Scotti, J 2023, 'Experimentally simulating the evolution-To-ecology connection: Divergent predator morphologies alter natural food webs', Proceedings of the National Academy of Sciences of the United States of America, vol. 120, no. 24, e2221691120. https://doi.org/10.1073/pnas.2221691120

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AU - Gier, Sean T.

AU - Lapiedra, Oriol

AU - Lyberger, Kelsey P.

AU - Pita-Aquino, Jessica N.

AU - Moniz, Haley A.

AU - Leal, Manuel

AU - Spiller, David A.

AU - Losos, Jonathan B.

AU - Schoenerd, Thomas W.

AU - Piovia-Scotti, Jonah

PY - 2023

Y1 - 2023

N2 - The idea that changing environmental conditions drive adaptive evolution is a pillar of evolutionary ecology. But, the opposite that adaptive evolution alters ecological processes has received far less attention yet is critical for eco-evolutionary dynamics. We assessed the ecological impact of divergent values in a key adaptive trait using 16 populations of the brown anole lizard (Anolis sagrei). Mirroring natural variation, we established islands with short-or long-limbed lizards at both low and high densities. We then monitored changes in lower trophic levels, finding that on islands with a high density of short-limbed lizards, web-spider densities decreased and plants grew more via an indirect positive effect, likely through an herbivore-mediated trophic cascade. Our experiment provides strong support for evolution-To-ecology connections in nature, likely closing an otherwise well-characterized eco-evolutionary feedback loop.

AB - The idea that changing environmental conditions drive adaptive evolution is a pillar of evolutionary ecology. But, the opposite that adaptive evolution alters ecological processes has received far less attention yet is critical for eco-evolutionary dynamics. We assessed the ecological impact of divergent values in a key adaptive trait using 16 populations of the brown anole lizard (Anolis sagrei). Mirroring natural variation, we established islands with short-or long-limbed lizards at both low and high densities. We then monitored changes in lower trophic levels, finding that on islands with a high density of short-limbed lizards, web-spider densities decreased and plants grew more via an indirect positive effect, likely through an herbivore-mediated trophic cascade. Our experiment provides strong support for evolution-To-ecology connections in nature, likely closing an otherwise well-characterized eco-evolutionary feedback loop.

KW - Anolis

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KW - evolution-To-ecology connection

KW - trophic cascade

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Experimentally simulating the evolution-To-ecology connection: Divergent predator morphologies alter natural food webs

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