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From micro to macroevolution: drivers of shape variation in an island radiation of<i>Podarcis</i>lizards*

M.A.M. Taverne, Hugo Dutel, Michael J. Fagan, Anamaria Štambuk, Duje Lisičić, Zoran Tadić, Anne‐Claire Fabre, Anthony Herrel

2021Evolution17 citationsDOIOpen Access PDF

Abstract

Phenotypictraits have been shown to evolve in response to variation in the environment. However, the evolutionary processes underlying the emergence of phenotypic diversity can typically only be understood at the population level. Consequently, how subtle phenotypic differences at the intraspecific level can give rise to larger-scale changes in performance and ecology remains poorly understood. We here tested for the covariation between ecology, bite force, jaw muscle architecture, and the three-dimensional shape of the cranium and mandible in 16 insular populations of the lizards Podarcis melisellensis and P. sicula. We then compared the patterns observed at the among-population level with those observed at the interspecific level. We found that three-dimensional head shape as well as jaw musculature evolve similarly under similar ecological circumstances. Depending on the type of food consumed or on the level of sexual competition, different muscle groups were more developed and appeared to underlie changes in cranium and mandible shape. Our findings show that the local selective regimes are primary drivers of phenotypic variation resulting in predictable patterns of form and function. Moreover, intraspecific patterns of variation were generally consistent with those at the interspecific level, suggesting that microevolutionary variation may translate into macroevolutionary patterns of ecomorphological diversity.

Topics & Concepts

BiologyIntraspecific competitionInterspecific competitionEcologyPopulationEvolutionary biologyMacroevolutionCompetition (biology)Adaptive radiationBite force quotientLizardZoologyPhylogeneticsGeneDemographyBiochemistrySociologyMorphological variations and asymmetryEvolution and Paleontology StudiesAmphibian and Reptile Biology
From micro to macroevolution: drivers of shape variation in an island radiation of<i>Podarcis</i>lizards* | Litcius