Parallel increases in grip strength in two species of Anolis lizards after a major hurricane on Dominica

Parallel increases in grip strength in two species of Anolis lizards after a major hurricane on Dominica

A recent study showed that hurricanes can act as selective agents affecting the phenotype of anole populations subjected to these extreme climatic events. Specifically, Anolis lizards that survived hurricanes were shown to have larger toepads than those that did not. To test whether hurricanes more...

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Bibliographic Details
Published in:Journal of zoology (1987) Vol. 309; no. 2; pp. 77 - 83
Main Authors: Dufour, C. M. S., Donihue, C. M., Losos, J. B., Herrel, A.
Format: Journal Article
Language:English
Published: London Blackwell Publishing Ltd 01-10-2019
Wiley
Subjects:
Animal biology
Anolis
Anolis cristatellus
Anolis oculatus
clinging performance
Dominica
extreme weather events
Grip strength
hurricane effect
Hurricanes
Lamella
Life Sciences
Lizards
Microstructure
Phenotypes
Populations
Setae
Species
Survival
toepad morphology
Dominica
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Summary:A recent study showed that hurricanes can act as selective agents affecting the phenotype of anole populations subjected to these extreme climatic events. Specifically, Anolis lizards that survived hurricanes were shown to have larger toepads than those that did not. To test whether hurricanes more generally impact populations of Anolis lizards, we collected data on toepad size, lamella number and grip strength for two species of Anolis on the island of Dominica in 2018 and compared them with data collected in 2016 before Hurricane Maria devastated the island. Our results show that populations of both species showed higher clinging forces in 2018, consistent with our predictions that lizards that are better clingers would be more likely to survive hurricanes. Unexpectedly, the increase in clinging force was not accompanied by an increase in toepad size or lamella number, suggesting that the increase in clinging strength is more likely driven by changes at the level of the setae microstructure. While the mechanism driving this pattern cannot be determined until future before/after hurricane comparisons are made, our data provide further evidence that hurricanes may be a previously overlooked driver of form and function in Anolis lizards. Extreme climate events like hurricanes, volcanoes or earthquakes have devastating effects on natural ecosystems and ecological communities. To test whether hurricanes impact populations of Anolis lizards, we collected data on toepad size, lamella number and grip strength for two species of Anolis on the island of Dominica in 2018 and compared them with data collected in 2016 before Hurricane Maria devastated the island. Our results indicate that the populations of both species showed higher clinging forces in 2018, consistent with our predictions that lizards that are better clingers would be more likely to survive hurricanes. Unexpectedly, the increase in clinging force was not accompanied by an increase in toepad size or lamella number, suggesting that the increase in clinging strength is more likely driven by changes at the level of the setae microstructure. While the mechanism driving this pattern cannot be determined until future before/after hurricane comparisons are made, our data provide further evidence that hurricanes may be a previously overlooked driver of form and function in Anolis lizards.
ISSN:0952-8369
1469-7998
DOI:10.1111/jzo.12685