Abstract
Hormones have been suggested as a key proximate mechanism that organize and maintain consistent individual differences in behavioural traits such as aggression. The steroid hormone testosterone in particular has an important activational role in mediating short-term aggressive responses to social and environmental stimuli within many vertebrate systems. We conducted two complementary experiments designed to investigate the activational relationship between testosterone and aggression in male Egernia whitii, a social lizard species. First, we investigated whether a conspecific aggressive challenge induced a testosterone response and second, we artificially manipulated testosterone concentrations to examine whether this changed aggression levels. We found that at the mean level, plasma T concentration did not appear to be influenced by an aggression challenge. However, there was a slight indication that receiving a challenge may influence intra-individual consistency of plasma T concentrations, with individuals not receiving an aggression challenge maintaining consistency in their circulating testosterone concentrations, while those individuals that received a challenge did not. Manipulating circulating testosterone concentrations had no influence on either mean-level or individual-level aggression. Combined with our previous work, our study adds increasing evidence that the relationship between testosterone and aggression is not straightforward, and promotes the investigation of alternative hormonal pathways and differences in neuro-synthesis and neuroendocrine pathways to account for species variable testosterone - aggression links.
Highlights
In the past decade or so, researchers have demonstrated that consistent intra-individual differences in behavioural traits such as aggression are ubiquitous throughout the animal kingdom [1, 2, 3]
The aim of this study is to investigate the activational relationship between T and aggression in a social lizard species, Egernia whitii
We found that there was no difference in circulating plasma T concentrations across time for those individuals who did not receive the aggression challenge (t(14) = 1.27, p = 0.22)
Summary
In the past decade or so, researchers have demonstrated that consistent intra-individual differences in behavioural traits such as aggression are ubiquitous throughout the animal kingdom [1, 2, 3]. Despite increased attention in this topic, the proximate mechanisms underlying consistent individual differences in behavioural traits remain unclear [4, 5, 6]. Hormones have been proposed as a key proximate physiological mechanism that organize, and maintain, consistent intra-individual differences in behaviour [7, 12, 13, 14]. Hormones are systemic in nature and can simultaneously affect multiple traits [12] They have the potential to integrate behavioural traits either through organizational effects acting early during ontogeny, or through activational effects later in life [6, 7]. Both organizational and activational effects represent separate but complementary pathways to the expression of particular behavioural phenotypes and may provide a key proximate mechanism that underlies variation in behaviour
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