Abstract
Sexual signals used in intraspecific communication are expected to evolve to maximize efficacy under a given climatic condition. Thus, chemical secretions of lizards might evolve in the evolutionary time to ensure that signals are perfectly tuned to local humidity and temperature conditions affecting their volatility and therefore their persistence and transmission through the environment. We tested experimentally whether interpopulational altitudinal differences in chemical composition of femoral gland secretions of male Iberian wall lizards (Podarcis hispanicus) have evolved to maximize efficacy of chemical signals in different environmental conditions. Chemical analyses first showed that the characteristics of chemical signals of male lizards differed between two populations inhabiting environments with different climatic conditions in spite of the fact that these two populations are closely related genetically. We also examined experimentally whether the temporal attenuation of the chemical stimuli depended on simulated climatic conditions. Thus, we used tongue-flick essays to test whether female lizards were able to detect male scent marks maintained under different conditions of temperature and humidity by chemosensory cues alone. Chemosensory tests showed that chemical signals of males had a lower efficacy (i.e. detectability and persistence) when temperature and dryness increase, but that these effects were more detrimental for signals of the highest elevation population, which occupies naturally colder and more humid environments. We suggest that the abiotic environment may cause a selective pressure on the form and expression of sexual chemical signals. Therefore, interpopulational differences in chemical profiles of femoral secretions of male P. hispanicus lizards may reflect adaptation to maximize the efficacy of the chemical signal in different climates.
Highlights
Animals use sexual signals to inform conspecifics on different traits of the sender [1]
Our results showed that the characteristics of chemical signals of male P. hispanicus lizards differed between two populations inhabiting environments with different climatic conditions in spite of the fact that these two populations are closely related genetically [36]
Chemosensory tests with female lizards showed that chemical signals of males had a lower efficacy when temperature and dryness increase, but that these effects were more detrimental in the highest elevation population, which occupies naturally colder and more humid environments
Summary
Animals use sexual signals to inform conspecifics on different traits of the sender [1]. Chemical signals in scent-marks may provide information on sex, size, dominance, and even details of health condition of the signaller [7, 13,14,15,16]. This information is important in intrasexual relationships between males [17,18,19,20,21,22] and in female mate choice [23,24,25,26,27,28]. Chemical signals are expected to evolve to honestly signal traits involved in sexual selection [16]
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