Ecologically-related variation of digit morphology in <i>Cyrtodactylus</i> (Gekkota, Squamata) reveals repeated origins of incipient adhesive toepads

Riedel J, Eisele K, Gabelaia M, Higham TE, Wu J, Do QH, Nguyen TQ, Meneses CG, Brown RM, Ziegler T, Grismer LL, et al. (2024)
Functional Ecology.

Zeitschriftenaufsatz | E-Veröff. vor dem Druck | Englisch
 
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Autor*in
Riedel, JendrianUniBi; Eisele, Katrin; Gabelaia, Mariam; Higham, Timothy E.; Wu, Joseph; Do, Quyen Hanh; Nguyen, Truong Quang; Meneses, Camila G.; Brown, Rafe M.; Ziegler, Thomas; Grismer, L. Lee; Russell, Anthony P.
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Abstract / Bemerkung
Exploitation of different locomotor substrates in different ecological niches has driven the evolution of specialized morphological structures, and similar ecological demands, such as the structure of the microhabitat, often lead to convergent or parallel evolution. The evolution of adhesive toepads in geckos remains understudied because of the paucity of phylogenetically-informed investigations of candidate clades exhibiting purported incipient expression of these (i.e. species having evolved some, but not all, parts of the complex adhesive system of pad-bearing geckos). Using Cyrtodactylus, a speciose genus with well-established ecotypes, we tested the hypothesis that microhabitats that require more climbing will lead to the acquisition of incipient adhesive morphology. We measured subdigital scale area, a proxy for adhesive toepad evolution, and quantified subdigital scale shape for 77 of the 354 described species, including at least one representative of each ecotype. Subdigital scale area increased from terrestrial through generalist and saxicoline (rock-dwelling) to arboreal ecotypes, with subdigital scale shape evolving from ancestral conditions for padless lizards to lateromedially expanded lamella-like scales only in the arboreal ecotypes. This significant link between phenotype and environment supports the contention that scansorial, and particularly arboreal, Cyrtodactylus ecotypes have evolved incipiently expressed adhesive toepads. This highlights the suitability of this genus as a model system for studying the ecology and evolution of adhesive toepads as well as being a promising candidate for research on adaptive radiations. Read the free Plain Language Summary for this article on the Journal blog.
Stichworte
2D geometric morphometrics; adaptative radiation; adhesive system; bent-toed geckos; ecomorphology; ecotypes; toepad
Erscheinungsjahr
2024
Zeitschriftentitel
Functional Ecology
ISSN
0269-8463
eISSN
1365-2435
Page URI
https://pub.uni-bielefeld.de/record/2990413

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Riedel J, Eisele K, Gabelaia M, et al. Ecologically-related variation of digit morphology in <i>Cyrtodactylus</i> (Gekkota, Squamata) reveals repeated origins of incipient adhesive toepads. Functional Ecology. 2024.
Riedel, J., Eisele, K., Gabelaia, M., Higham, T. E., Wu, J., Do, Q. H., Nguyen, T. Q., et al. (2024). Ecologically-related variation of digit morphology in <i>Cyrtodactylus</i> (Gekkota, Squamata) reveals repeated origins of incipient adhesive toepads. Functional Ecology. https://doi.org/10.1111/1365-2435.14597
Riedel, Jendrian, Eisele, Katrin, Gabelaia, Mariam, Higham, Timothy E., Wu, Joseph, Do, Quyen Hanh, Nguyen, Truong Quang, et al. 2024. “Ecologically-related variation of digit morphology in <i>Cyrtodactylus</i> (Gekkota, Squamata) reveals repeated origins of incipient adhesive toepads”. Functional Ecology.
Riedel, J., Eisele, K., Gabelaia, M., Higham, T. E., Wu, J., Do, Q. H., Nguyen, T. Q., Meneses, C. G., Brown, R. M., Ziegler, T., et al. (2024). Ecologically-related variation of digit morphology in <i>Cyrtodactylus</i> (Gekkota, Squamata) reveals repeated origins of incipient adhesive toepads. Functional Ecology.
Riedel, J., et al., 2024. Ecologically-related variation of digit morphology in <i>Cyrtodactylus</i> (Gekkota, Squamata) reveals repeated origins of incipient adhesive toepads. Functional Ecology.
J. Riedel, et al., “Ecologically-related variation of digit morphology in <i>Cyrtodactylus</i> (Gekkota, Squamata) reveals repeated origins of incipient adhesive toepads”, Functional Ecology, 2024.
Riedel, J., Eisele, K., Gabelaia, M., Higham, T.E., Wu, J., Do, Q.H., Nguyen, T.Q., Meneses, C.G., Brown, R.M., Ziegler, T., Grismer, L.L., Russell, A.P., Rödder, D.: Ecologically-related variation of digit morphology in <i>Cyrtodactylus</i> (Gekkota, Squamata) reveals repeated origins of incipient adhesive toepads. Functional Ecology. (2024).
Riedel, Jendrian, Eisele, Katrin, Gabelaia, Mariam, Higham, Timothy E., Wu, Joseph, Do, Quyen Hanh, Nguyen, Truong Quang, Meneses, Camila G., Brown, Rafe M., Ziegler, Thomas, Grismer, L. Lee, Russell, Anthony P., and Rödder, Dennis. “Ecologically-related variation of digit morphology in <i>Cyrtodactylus</i> (Gekkota, Squamata) reveals repeated origins of incipient adhesive toepads”. Functional Ecology (2024).
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