Abstract
Simple SummaryBlack rockfish (Sebastes schlegelii) are naturally solitary animals. Under a high stocking density in aquaculture, juvenile black rockfish frequently show aggressive interactions, resulting in welfare issues (e.g., body injury). Aggressive interactions can lead to a social hierarchy and influence the responses of animal behavior and physiology. However, the responses of fish behavior and physiology to social hierarchy is limited. This study examined the differences in the growth performance, aggression, cortisol level, brain serotonergic activity, and brain dopamine activity between the dominant individuals and the subordinate individuals in the short-term contest and in the long-term contest. Ultimately, our results suggest that subordinate hierarchy inhibits aggression but does not impact growth in black rockfish. The cortisol-related change in brain monoaminergic activity could be a potential indicator to predict aggressive behavior in black rockfish in captivity with an obvious social hierarchy. This study has provided new insight into the understanding of the regulatory mechanisms between social hierarchy and aggressive behavior in black rockfish, and contributed to building the theoretical basis for behavioral management to solve the welfare issues in captive fish.Aggressive interactions can lead to a social hierarchy and influence the responses of animal behavior and physiology. However, our understanding on the changes of fish behavior and physiology during the process of social hierarchical formation is limited. To explore the responses of fish behavior and physiology to social hierarchy, we examined the differences in the growth performance, aggression, cortisol level, brain serotonergic activity, and brain dopamine activity between the dominant individuals and the subordinate individuals of black rockfish (Sebastes schlegelii) in two time scenarios. In the short-term contest, the cortisol level and the ratio of telencephalic 5-hydroxyindoleacetic acid (5-HIAA)/5-hydroxytryptamine (5-HT) was significantly higher in subordinate individuals than in dominant individuals. In the long-term contest, the ratios of 5-HIAA/5-HT in all brain regions were significantly higher, and the frequency of aggressive acts were significantly lower in subordinate individuals than in dominant individuals. In contrast, no difference was detected in growth performance. Significant positive correlations between the cortisol level and serotonergic activity were observed in the short-term contest, but the serotonergic activity was negatively correlated with the aggressive behavior in the long-term contest. These results suggest that subordinate hierarchy inhibits aggression but does not impact growth in black rockfish. The cortisol-related change in brain monoaminergic activity could be a potential indicator to predict aggressive behavior in black rockfish in captivity with an obvious social hierarchy.
Highlights
Aggressive interactions can lead to a social hierarchy and influence behavior and physiology in vertebrates from teleost to mammals [1,2,3,4,5]
We investigated the changes in cortisol concentration, aggression, growth performance, and brain monoaminergic activity during the process of establishing a stable social hierarchy in black rockfish
The cortisol level was significantly higher in subordinate individuals than in dominant individuals in the short-term contest (p < 0.001), whereas no difference was found between subordinate individuals and dominant individuals in the long-term contest (p = 0.928) (one-way analysis of variance (ANOVA), F (3, 44) = 313.68, p < 0.001, Table 1)
Summary
Aggressive interactions can lead to a social hierarchy and influence behavior and physiology in vertebrates from teleost to mammals [1,2,3,4,5]. In a stable subordinate–dominant relationship, subordinates are socially defeated individuals and generally have a higher level of brain serotonin (5-HT) than the dominant individuals in cichlid fish, Astatotilapia burtoni, and pigs Sus scrofa [4,13]. Patterns may differ on the role of brain catecholamine (e.g., DA) from brain serotonin (5-HT) in behavioral response to social stress [4,14]. The brain serotonergic activity is high in socially subordinate Anolis carolinensis, whereas the brain dopaminergic activity is low in subordinate fish after an aggressive interaction in lizards, Sceloporus jarrovi [15,16,17]. While the elevated motivation for aggression appears to be the province of dopaminergic action [18]
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