Sprint performance is important ecologically and physiologically, and it can influence fitness by determining outcomes of predator-prey relationships, for example, and it can confer substantial human health benefits. In this article we test whether zebrafish (Danio rerio) are a suitable model to test hypotheses about the effects and consequences of sprint exercise training, and the physiological underpinnings of sprint performance. We show that stage 3 c-starts that capture the initial escape response of fish lasting <1 s were repeatable within individuals. In addition, somewhat longer constant acceleration protocols lasting 10 s (U) or 30 s (U) were highly repeatable within individuals over 3, 6, and 23 days. C-starts within individuals were not correlated with either U or U, indicating that these measures reflect different physiological aspects of sprinting. Stage 3 c-starts and U responded positively to sprint exercise training. Our exercise training protocol (5 × 10 s sprints with 5-min rest periods on 4 days per week for 3 weeks) was based on the human sporting literature, and together, our results indicate that zebrafish are a good model to assess the physiological and behavioral consequences of sprint exercise training.
Competition for resources shapes ecological and evolutionary relationships. Physiological capacities such as in locomotor performance can influence the fitness of individuals by increasing competitive success. Social hierarchy too can affect outcomes of competition by altering locomotor behaviour or because higher ranking individuals monopolize resources. Here, we tested the hypotheses that competitive success is determined by sprint performance or by social status. We show that sprint performance of individuals measured during escape responses (fast start) or in an accelerated sprint test did not correlate with realized sprint speed while competing for food within a social group of five fish; fast start and accelerated sprint speed were higher than realized speed. Social status within the group was the best predictor of competitive success, followed by realized speed. Social hierarchies in zebrafish are established within 7 days of their first encounter, and interestingly, there was a positive correlation between social status and realized speed 1 and 4 days after fish were placed in a group, but not after 7 days. These data indicate that physiological performance decreases in importance as social relationships are established. Also, maximal physiological capacities were not important for competitive success, but swimming speed changed with social context.
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