Clinging performance on natural substrates predicts habitat use in anoles and geckos

For arboreal lizards, the ability to cling or adhere to the substrate is critical for locomotion during prey capture, predator escape, thermoregulation and social interactions. Thus, selection on traits related to clinging is likely strong. Correlations between morphology, performance and habitat us...

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Bibliographic Details
Published in:Functional ecology 2021-11, Vol.35 (11), p.2472-2482
Main Authors: Wright, Amber N., Kennedy‐Gold, Stevie R., Naylor, Emily R., Screen, Robyn M., Piantoni, Carla, Higham, Timothy E.
Format: Article
Language:English
Subjects:
adhesion
Anolis carolinensis
Anolis sagrei
community ecology
Ecological effects
Enclosures
functional morphology
Geckos
Habitat availability
Habitat utilization
Habitats
Lamellae
lizard
Lizards
Locomotion
Morphology
Performance prediction
Phelsuma laticauda
Prey
Resource partitioning
Social factors
Social interactions
Species
Substrates
Texture
Thermoregulation
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Summary:For arboreal lizards, the ability to cling or adhere to the substrate is critical for locomotion during prey capture, predator escape, thermoregulation and social interactions. Thus, selection on traits related to clinging is likely strong. Correlations between morphology, performance and habitat use have been documented in arboreal lizards, providing a framework for using functional traits to predict habitat use in the field. We tested the hypothesis that clinging performance predicts habitat use in an actively assembling community of introduced lizards in Hawaiʻi comprised of anoles (Anolis carolinensis, A. sagrei) and day geckos (Phelsuma laticauda). We measured morphological traits (toepad area and lamellae number) and tested clinging performance on two artificial and eight natural substrates in the laboratory. We measured habitat use in 10 m × 10 m outdoor enclosures where habitat availability was controlled and the lizard species assemblage was manipulated to reflect all species combinations. The enclosure experiment generated more than 9,000 habitat use observations from 360 lizards. Morphological traits that predict performance in Anolis were not predictive in Phelsuma, indicating that direct measures of performance are necessary for comparisons between the genera. Measuring clinging performance on multiple substrates provided key insights into patterns of habitat use. While all three species performed best on an artificial smooth substrate (acrylic), performance on natural substrates predicted which texture (rough vs. smooth) was most often used by each species. Performance predicted perch height use: species with the greatest clinging performance (A. carolinensis and P. laticauda) across substrates perched twice as high as A. sagrei. We did not observe habitat shifts in the height or texture of perches used by any species in response to experimental manipulation of the lizard species assemblage. Our results highlight the inextricable link between ecology, morphology and performance, the importance of measuring functional traits in ecologically relevant ways, and the potential for resource partitioning to be influenced by differences in the ability to attach to different substrates. Resumen En lagartos arborícolas, la habilidad de adherirse al sustrato es fundamental para capturar presas, huir de depredadores, termorregular e interactuar entre individuos. Por eso es probable que este rasgo esté permanentemente bajo fuerte selección. Correlaciones
ISSN:0269-8463
1365-2435
DOI:10.1111/1365-2435.13919