The interplay between claw morphology and microhabitat use in neotropical iguanian lizards

MJ Tulli, FB Cruz, A Herrel, B Vanhooydonck, V Abdala - Zoology, 2009 - Elsevier
MJ Tulli, FB Cruz, A Herrel, B Vanhooydonck, V Abdala
Zoology, 2009Elsevier
Traditionally, it has been suggested that variation in locomotor mode should be correlated
with variation in the anatomy of the structures responsible for locomotion. Indeed, organisms
can expand their ecological niche by using specialized traits of the locomotor system
including hooks, claws, adhesive pads, etc. Despite the fact that claws are the most common
biological mechanism of clinging in vertebrates, little is known about their function or
evolutionary relationship to habitat use. The present study focuses on claw morphology in …
Traditionally, it has been suggested that variation in locomotor mode should be correlated with variation in the anatomy of the structures responsible for locomotion. Indeed, organisms can expand their ecological niche by using specialized traits of the locomotor system including hooks, claws, adhesive pads, etc. Despite the fact that claws are the most common biological mechanism of clinging in vertebrates, little is known about their function or evolutionary relationship to habitat use. The present study focuses on claw morphology in 57 species of iguanian lizards occupying different microhabitats. Qualitative differences in claw shape were explored by means of digital photographs, and quantitative measurements of the length, height and curvature of the claws of both fingers and toes were taken and correlated to information on microhabitat use obtained from the literature. Our analyses showed a strong phylogenetic component that obscured relationships between morphology and ecology. Our results also show differences in claw morphology between species that appear to be related to microhabitat use (climbing versus terrestrial species), with the best ecological descriptors being claw length and height. Performance measures and biomechanical analyses of claw function may consequently be better suited to explain the evolution of claw shape in relation to habitat use in this group.
Elsevier
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