Predation is a strong selective force acting on prey animals. Predation is by nature highly variable in time; however, this aspect of predation risk has traditionally been overlooked by behavioural ecologists. Lima and Bednekoff proposed the predation risk allocation hypothesis (RAH), pre- dicting how temporal variation in predation risk drives prey antipredator behaviours. This model is based on the concept that prey adaptively allocate their foraging and antipredator efforts across high- and low-risk situations, depending on the duration of high- vs. low-risk situations and the relative risk associated with each of them. An unstudied exten- sion of the RAH is the effect of predictability of predation risk. A predict- able risk should lead to prey displaying minimal vigilance behaviours during predictable low-risk periods and the strongest antipredator behaviours during risky periods. Conversely, an unpredictable predation risk should result in prey displaying constant vigilance behaviour, with suboptimal foraging rates during periods of safety but antipredator behaviours of lower intensity during periods of risk. We tested this extension of the RAH using convict cichlids exposed to high-risk alarm cues at two frequencies of risk (1· vs. 3·) per day, on either a fixed or random schedule for 5 d. We then tested the fish for a response to high- risk cues (alarm cues) and to low-risk cues (disturbance resulting from the introduction of distilled water). Our study supports previous results on the effects of risk frequency and cue intensity on cichlid behaviour. We failed to show an effect of risk predictability on the behavioural responses of cichlids to high-risk alarm cues, but predictability did influ- ence responses to low-risk cues. We encourage further studies to test the effect of predictability in other systems.
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