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Developmental Patterns Underlying Variation in Form And Function Exhibited by House Gecko Toe Pads.

Journal article

Aaron H. Griffing, T. Gamble, Ashmika Behere, Timothy E. Higham, G. Keller, John Resener, Thomas J Sanger
Integrative and Comparative Biology, 2024
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APA   Click to copy
Griffing, A. H., Gamble, T., Behere, A., Higham, T. E., Keller, G., Resener, J., & Sanger, T. J. (2024). Developmental Patterns Underlying Variation in Form And Function Exhibited by House Gecko Toe Pads. Integrative and Comparative Biology.

Chicago/Turabian   Click to copy
Griffing, Aaron H., T. Gamble, Ashmika Behere, Timothy E. Higham, G. Keller, John Resener, and Thomas J Sanger. “Developmental Patterns Underlying Variation in Form And Function Exhibited by House Gecko Toe Pads.” Integrative and Comparative Biology (2024).

MLA   Click to copy
Griffing, Aaron H., et al. “Developmental Patterns Underlying Variation in Form And Function Exhibited by House Gecko Toe Pads.” Integrative and Comparative Biology, 2024.

BibTeX   Click to copy 

@article{aaron2024a,
  title = {Developmental Patterns Underlying Variation in Form And Function Exhibited by House Gecko Toe Pads.},
  year = {2024},
  journal = {Integrative and Comparative Biology},
  author = {Griffing, Aaron H. and Gamble, T. and Behere, Ashmika and Higham, Timothy E. and Keller, G. and Resener, John and Sanger, Thomas J}
}

Abstract

Adhesive toe pads have evolved numerous times over lizard evolutionary history, most notably in geckos. Despite significant variation in adult toe pad morphology across independent origins of toe pads, early developmental patterns of toe pad morphogenesis are similar among distantly related species. In these distant phylogenetic comparisons, toe pad variation is achieved during the later stages of development. We aimed to understand how toe pad variation is generated among species sharing a single evolutionary origin of toe pads (house geckos-Hemidactylus). We investigated toe pad functional variation and developmental patterns in three species of Hemidactylus, ranging from highly scansorial (H. platyurus), to less scansorial (H. turcicus), to fully terrestrial (H. imbricatus). We found that H. platyurus generated significantly greater frictional adhesive force and exhibited much larger toe pad area relative to the other two species. Furthermore, differences in the offset of toe pad extension phase during embryonic development results in the variable morphologies seen in adults. Taken together, we demonstrate how morphological variation is generated in a complex structure during development and how that variation relates in important functional outcomes.