Antipredator behaviour affected by prey condition, food availability and pH-mediated info-disruption

Prey around the world experience the risk of predation, and most have evolved constitutive and phenotypically plastic defences in response. Phenotypically plastic defences often come with trade-offs related to foraging, such that the magnitude of defence is mediated by body condition and food availability. Such adaptive responses are beneficial to prey, and there is an increasing appreciation that they can be disrupted by chemical compounds resulting from human activities. We examined predatorinduced behaviours in freshwater snails (Physa acuta) using 32 combinations of different concentrations of olfactory predator cues, body condition and food availability to understand how they respond to the trade-off between avoiding predators and obtaining food. Using a subset of these conditions (16 environments), we then examined how snail responses were altered by increases or decreases in pH. We found that snails responded to increased predator cue concentrations with a shape consistent with a saturating response curve and that low body condition and low food availability weakened these responses. When we increased pH (from 7.8 to 9.5), snails exhibited weaker predator avoidance responses, but only in the absence of food. When we decreased pH (from 7.8 to 6.0), snails exhibited stronger predator avoidance responses and stronger declines in foraging, but only in the presence of food. Collectively, these results suggest that changes in pH due to acid mine drainage, eutrophication and ocean acidification may substantially alter the adaptive responses of aquatic animals. Future work should determine whether such info-disruption is common in other taxa, determine the underlying mechanisms and quantify the consequences of info-disruption to predatoreprey and preyeresource interactions. (C) 2020 The Association for the Study of Animal Behaviour. Published by Elsevier Ltd. All rights reserved.

Automated summary

Prey around the world have evolved constitutive and phenotypically plastic defences in response to predation risk, with trade-offs related to body condition, food availability, and chemical compounds disrupting these adaptive responses. Freshwater snails exhibit predator-induced behaviours shaped by the balance between predator avoidance and foraging, with pH changes potentially altering their adaptive responses. The results suggest that info-disruption from pH changes due to human activities may substantially impact aquatic animals' responses and predator-prey interactions.