Abstract
ABSTRACTAll vertebrates exhibit physiological responses to predator stress and these responses are the basis of appropriate behavioral adaptation. We aimed to identify the physiological and behavioral responses of juvenile qingbo (Spinibarbus sinensis) to its natural predator, the southern catfish (Silurus meridionalis) and to test whether these responses could be altered by prior predator experience. We measured the routine metabolic rate (RMR), cortisol levels and spontaneous behavior of both predator-naive and predator-experienced qingbo under predator-absent, predator-present and non-predator-present (Hemibarbus maculatus) conditions. Predator-naive qingbo showed a typical stress response in the form of increased RMR and cortisol when exposed to predators. Spontaneous activity showed no difference between prior-experience groups or among stimulus conditions when tested alone; however, when tested with a companion, predator-naive qingbo showed increased activity and decreased distance to the stimulus arena under the predator-present condition than they did under the predator-absent condition. Both predator-naive and predator-experienced qingbo showed different physiological and behavioral responses between predatory and non-predatory fish, which suggested that predator-naive qingbo can instinctually discriminate between natural predators and non-predators. Predator-naive qingbo increase their inspection behavior when exposed to a predator compared with the predator-absent condition only when tested with a companion, which is possibly due to decreased predation risk and increased boldness.
Highlights
Natural selection should favor individuals that alter their physiology and behavior to limit or overcome environmental stressors
Routine metabolic rate Prior experience had a significant effect on routine metabolic rate (RMR), and the effect varied significantly among stimulus conditions
The RMR of predator-naive qingbo was significantly higher under the predatorpresent condition than under the other two conditions (P
Summary
Natural selection should favor individuals that alter their physiology and behavior to limit or overcome environmental stressors. Laboratory of Evolutionary Physiology and Behavior, Chongqing Key Laboratory of Animal Biology, Chongqing Normal University, Chongqing, 401331, China. The intensity or frequency of predation exerts strong selection on the magnitude of the stress response, owing in large part to the detrimental fitness consequences, such as decreased growth, reproduction (reviewed in Wendelaar Bonga, 1997) and immunity (Espelid et al, 1996)
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