Abstract

Models of foraging behaviour typically assume that prey do not adapt to temporal variation in predation risk, such as by avoiding foraging at certain times of the day. When this behavioural plasticity is considered-such as in predator-prey games-the role of abiotic factors is usually ignored. An abiotic factor that exerts strong influence on the physiology and behaviour of many animals is ambient temperature, although it is often ignored from game models as it is implicitly assumed that both predators and prey are homothermic. However, poikilotherms' performance may be reduced in cold conditions due to reduced muscle function, limiting the prey-capture ability of predators and the predator-avoidance and foraging abilities of prey. Here, we use a game-theoretic predator-prey model in which diel temperature changes influence foraging gains and costs to predict the evolutionarily stable diel activity of predators. Our model predicts the range of patterns observed in nature, including nocturnal, diurnal, crepuscular and a previously unexplained post-sunset crepuscular pattern observed in some sharks. In general, smaller predators are predicted to be more diurnal than larger ones. The safety of prey when not foraging is critical, explaining why predators in coral reef systems (with safe refuges) may often have different foraging patterns to pelagic predators. We make a range of testable predictions that will enable the further evaluation of this theoretical framework for understanding diel foraging patterns in poikilotherms.

Highlights

  • Animals often show cyclical patterns of behaviour throughout the day, with peaks of activity that are diurnal, nocturnal, crepuscular or at other periods (Fox & Bellwood, 2011; Heurich et al, 2014; Papastamatiou, Watanabe, et al, 2018)

  • An abiotic factor that exerts strong influence on the physiology and behaviour of many animals is ambient temperature, it is often ignored from game models as it is implicitly assumed that both predators and prey are homothermic

  • |2 Jo urnal of Animal Ecology relatively recently it was generally assumed that these cycles were fixed for species, when animals show differences both between and within populations due to differences in environment and habitat (Fox & Bellwood, 2011)

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Summary

Introduction

Animals often show cyclical patterns of behaviour throughout the day, with peaks of activity that are diurnal, nocturnal, crepuscular or at other periods (Fox & Bellwood, 2011; Heurich et al, 2014; Papastamatiou, Watanabe, et al, 2018). A potential explanation is that the early evening represents the period when the difference in body temperature between large predators and small prey is maximal (due to thermal inertia differences), and predators may have an activity or speed advantage (Papastamatiou, Watanabe, et al, 2015).

Results
Conclusion

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