Abstract
In aquatic systems, chemical cues are a major source of information through which animals are able to assess the current state of their environment to gain information about local predation risk. Prey use chemicals released by predators (including cues from a predator's diet) and other prey (such as alarm cues and disturbance cues) to mediate a range of behavioural, morphological and life-history antipredator defences. Despite the wealth of knowledge on the ecology of antipredator defences, we know surprisingly little about the physiological mechanisms that control the expression of these defensive traits. Here, we summarise the current literature on the mechanisms known to specifically mediate responses to predator odours, including dietary cues. Interestingly, these studies suggest that independent pathways may control predator-specific responses, highlighting the need for greater focus on predator-derived cues when looking at the mechanistic control of responses. Thus, we urge researchers to tease apart the effects of predator-specific cues (i.e. chemicals representing a predator's identity) from those of diet-mediated cues (i.e. chemicals released from a predator's diet), which are known to mediate different ecological endpoints. Finally, we suggest some key areas of research that would greatly benefit from a more mechanistic approach.
Highlights
Almost all animals are exposed to predators that come and go over time scales ranging from minutes to months, or predators that are present for only certain life-history stages
Conclusions and future directions Over the last few decades, we have developed a detailed understanding of how chemical cues relating to predation induce antipredator responses, mediate both consumptive and nonconsumptive effects of predation and shape communities
Surprisingly little is known about the physiological pathways through which prey develop antipredator responses to predator odours and their associated diet cues, with the majority of work so far focusing on anurans and crustaceans
Summary
Almost all animals are exposed to predators that come and go over time scales ranging from minutes to months, or predators that are present for only certain life-history stages. In this Review, we briefly summarise how predator odours and diet cues change prey phenotypes and highlight what is currently known about the mechanisms that control responses to the different odours released by predators.
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