Lizards fail to plastically adjust nesting behavior or thermal tolerance as needed to buffer populations from climate warming

Rory S. Telemeco; Brooke Fletcher; Ofir Levy; Angela Riley; Yesenia Rodriguez-Sanchez; Colton Smith; Collin Teague; Amanda Waters; Michael J. Angilletta; Lauren B. Buckley

doi:10.1111/gcb.13476

Lizards fail to plastically adjust nesting behavior or thermal tolerance as needed to buffer populations from climate warming

Rory S. Telemeco^*, Brooke Fletcher, Ofir Levy, Angela Riley, Yesenia Rodriguez-Sanchez, Colton Smith, Collin Teague, Amanda Waters, Michael J. Angilletta, Lauren B. Buckley

^*Corresponding author for this work

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

43 Scopus citations

Abstract

Although observations suggest the potential for phenotypic plasticity to allow adaptive responses to climate change, few experiments have assessed that potential. Modeling suggests that Sceloporus tristichus lizards will need increased nest depth, shade cover, or embryonic thermal tolerance to avoid reproductive failure resulting from climate change. To test for such plasticity, we experimentally examined how maternal temperatures affect nesting behavior and embryonic thermal sensitivity. The temperature regime that females experienced while gravid did not affect nesting behavior, but warmer temperatures at the time of nesting reduced nest depth. Additionally, embryos from heat-stressed mothers displayed increased sensitivity to high-temperature exposure. Simulations suggest that critically low temperatures, rather than high temperatures, historically limit development of our study population. Thus, the plasticity needed to buffer this population has not been under selection. Plasticity will likely fail to compensate for ongoing climate change when such change results in novel stressors.

Original language	English
Pages (from-to)	1075-1084
Number of pages	10
Journal	Global Change Biology
Volume	23
Issue number	3
DOIs	https://doi.org/10.1111/gcb.13476
State	Published - 1 Mar 2017
Externally published	Yes

Funding

Funders	Funder number
State of Arizona Game and Fish Department	SP724806
National Science Foundation	EF-1065638, 1346899
Arizona State University	15-1432

Keywords

Sceloporus tristichus
Sceloporus undulatus
incubation
mechanistic model
phenotypic plasticity

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1111/gcb.13476

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title = "Lizards fail to plastically adjust nesting behavior or thermal tolerance as needed to buffer populations from climate warming",

abstract = "Although observations suggest the potential for phenotypic plasticity to allow adaptive responses to climate change, few experiments have assessed that potential. Modeling suggests that Sceloporus tristichus lizards will need increased nest depth, shade cover, or embryonic thermal tolerance to avoid reproductive failure resulting from climate change. To test for such plasticity, we experimentally examined how maternal temperatures affect nesting behavior and embryonic thermal sensitivity. The temperature regime that females experienced while gravid did not affect nesting behavior, but warmer temperatures at the time of nesting reduced nest depth. Additionally, embryos from heat-stressed mothers displayed increased sensitivity to high-temperature exposure. Simulations suggest that critically low temperatures, rather than high temperatures, historically limit development of our study population. Thus, the plasticity needed to buffer this population has not been under selection. Plasticity will likely fail to compensate for ongoing climate change when such change results in novel stressors.",

keywords = "Sceloporus tristichus, Sceloporus undulatus, incubation, mechanistic model, phenotypic plasticity",

author = "Telemeco, {Rory S.} and Brooke Fletcher and Ofir Levy and Angela Riley and Yesenia Rodriguez-Sanchez and Colton Smith and Collin Teague and Amanda Waters and Angilletta, {Michael J.} and Buckley, {Lauren B.}",

note = "Publisher Copyright: {\textcopyright} 2016 John Wiley & Sons Ltd",

year = "2017",

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doi = "10.1111/gcb.13476",

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AU - Fletcher, Brooke

AU - Levy, Ofir

AU - Riley, Angela

AU - Rodriguez-Sanchez, Yesenia

AU - Smith, Colton

AU - Teague, Collin

AU - Waters, Amanda

AU - Angilletta, Michael J.

AU - Buckley, Lauren B.

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AB - Although observations suggest the potential for phenotypic plasticity to allow adaptive responses to climate change, few experiments have assessed that potential. Modeling suggests that Sceloporus tristichus lizards will need increased nest depth, shade cover, or embryonic thermal tolerance to avoid reproductive failure resulting from climate change. To test for such plasticity, we experimentally examined how maternal temperatures affect nesting behavior and embryonic thermal sensitivity. The temperature regime that females experienced while gravid did not affect nesting behavior, but warmer temperatures at the time of nesting reduced nest depth. Additionally, embryos from heat-stressed mothers displayed increased sensitivity to high-temperature exposure. Simulations suggest that critically low temperatures, rather than high temperatures, historically limit development of our study population. Thus, the plasticity needed to buffer this population has not been under selection. Plasticity will likely fail to compensate for ongoing climate change when such change results in novel stressors.

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KW - Sceloporus undulatus

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Lizards fail to plastically adjust nesting behavior or thermal tolerance as needed to buffer populations from climate warming

Abstract

Funding

Keywords

UN SDGs

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