Dialogues in colour and behaviour - Integration of complex signalling traits and physiology

Animal communication can be complex, often involving multiple static and dynamic traits. The extent to which these traits are correlated can elucidate their function as either redundant or multiple messages. Using the agamid lizard, Psammophilus dorsalis , as a model system we examined patterns of trait expression and the role of steroid hormones in mediating these traits during social interactions. We staged male-male interactions in the lab and measured the repertoire of display behaviour and colours, which change dynamically in the visible and ultraviolet ranges in different body regions. Additionally, we measured testosterone and corticosterone levels before and after the social trials.

Our results show that within behaviour and colour trait categories, components were strongly correlated within individuals, suggesting either a shared physiological pathway or redundant information content. However, across trait categories, correlation patterns varied. The chromatic contrast of the (yellow) dorsal region of lizards was correlated with both body size and level of aggression, whereas the size of UV patches was correlated with body size only. We also found a negative association between baseline corticosterone levels, body size and dorsal yellow chromatic contrast, suggesting a mechanistic link between these traits. However, social interaction induced testosterone and corticosterone levels were uncorrelated with the expression of the dynamic behavioural and colour displays during the social interactions itself. Notably, the intensity of colour and behavioural displays of males were matched by their opponents. Overall, our results suggest that multiple signalling traits can ensure both redundancy as well as provide multiple messages to receivers, thus improving the robustness of information transfer, particularly during competitions which have high fitness consequences.