Fighting cichlids: An integrated multimodal analysis to understand female and male aggression in Cichlasoma dimerus

Aggression has been historically linked to males and androgen levels and, even if females from different species also display aggressive behavior, female aggression is still widely understudied. The aim of the present work is to disentangle how sex differences in social plasticity can be explained b...

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Bibliographic Details
Published in:Hormones and behavior 2023-02, Vol.148, p.105301-105301, Article 105301
Main Authors: Scaia, María Florencia, Trudeau, Vance L., Somoza, Gustavo Manuel, Pandolfi, Matías
Format: Article
Language:English
Subjects:
Aggressive behavior
Agonistic Behavior
Androgens
Animals
Cichlasoma dimerus
Cichlids - physiology
Contest
Estradiol
Estrogens
Female
Gonadal Steroid Hormones
Male
Multivariate analysis
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Summary:Aggression has been historically linked to males and androgen levels and, even if females from different species also display aggressive behavior, female aggression is still widely understudied. The aim of the present work is to disentangle how sex differences in social plasticity can be explained by sex steroid hormone levels, gonadal state and/or morphometric characteristics. In this context, we performed intrasexual dyadic encounters to identify social plasticity after acquiring a winner or loser status in males and females of Cichlasoma dimerus. This integral analysis suggests that the reproductive and hormonal variables analyzed explain the behavioral variation among winner and loser males and females, and that there are significant differences between sexes and contest outcome when individual morphometric variables are excluded from the analysis. Interestingly, there are no sex differences in aggressive and submissive behaviors, and clustering into winners and losers is mainly explained by specific behavioral displays, such as bites, chases, approaches, passive copings, and escapes. Correlation heatmaps show a positive correlation between estradiol with aggression and a negative correlation with submission, suggesting estrogens may have a dual role regulating agonistic behavior. Finally, these results suggest that size difference can help to understand aggression in females but not in males, and that assessment of the opponent's body size is important to understand aggression also before the initiation of the contest in both sexes. Overall, this study constitutes an integral approach adding insights into the importance of reproductive and hormonal variables to understand social plasticity in males and females. •Size difference negatively correlates with aggression in females but not in males.•Reproductive and hormonal variables analyzed explain the behavioral variability.•There is a positive correlation between estradiol levels and aggression.•There is a negative correlation between estradiol levels and submission.•There are no sex differences in aggression and submission in dyadic agonistic encounters.
ISSN:0018-506X
1095-6867
DOI:10.1016/j.yhbeh.2022.105301