ABSTRACT
An animal's morphology influences its ability to perform essential tasks, such as locomoting to obtain prey or escape predators. While morphology–performance relationships are well-studied in lizards, most conclusions have been based only on male study subjects, leaving unanswered questions about females. Sex-specific differences are important to understand because females carry the bulk of the physiological demands of reproduction. Consequently, their health and survival can determine the fate of the population as a whole. To address this knowledge gap, we sampled introduced populations of common wall lizards (Podarcis muralis) in Ohio, USA. We measured a complete suite of limb and body dimensions of both males and females, and we measured sprint speeds while following straight and curved paths on different substrates. Using a multivariate statistical approach, we identified that body dimensions relative to snout-to-vent length in males were much larger compared with females and that body dimensions of P. muralis have changed over time in both sexes. We found that sprint speed along curved paths increased with relative limb size in both males and females. When following straight paths, male speed similarly increased as body dimensions increased; conversely, female speed decreased as body dimensions increased. Female sprint speed was also found to have less variation than that of males and was less affected by changes in body size and hindfoot length compared with males. This study thus provides insights into how selective pressures might shape males and females differently and the functional implications of sexual dimorphism.
Footnotes
Author contributions
Conceptualization: A.A.H., P.L.V., E.J.G.; Methodology: A.A.H., P.L.V., M.M.M., E.J.G.; Formal analysis: A.A.H., E.J.G.; Investigation: A.A.H., P.L.V., E.H.L., C.C., M.M.M., E.J.G.; Data curation: A.A.H.; Writing - original draft: A.A.H.; Writing - review & editing: A.A.H., P.L.V., E.H.L., C.C., M.M.M., E.J.G.; Visualization: A.A.H., E.J.G.; Supervision: E.J.G.; Project administration: E.J.G.; Funding acquisition: E.J.G.
Funding
This material is based upon the work supported by the National Science Foundation under Award No. 2217826 (BRC-BIO to E.J.G.) and the Ohio Wesleyan University Summer Science Research Program.
Data availability
Data and analysis code from this paper are available from the Dryad digital repository (Head et al., 2024): https://doi.org/10.5061/dryad.xgxd254r7