Abstract
Food availability can strongly affect predator–prey dynamics. When change in habitat condition reduces the availability of one prey type, predators often search for other prey, perhaps in a different habitat. Interactions between behavioural and morphological traits of different prey may influence foraging success of visual predators through trait-mediated indirect interactions (TMIIs), such as prey activity and body coloration. We tested the hypothesis that foraging success of stream-dwelling cutthroat trout (Onchorhyncus clarki) on cryptically coloured, less-active benthic prey (larval mayfly; Paraleptophebia sp.) can be enhanced by the presence of distinctly coloured, active prey (larval stonefly shredder; Despaxia augusta). Cutthroat trout preyed on benthic insects when drifting invertebrates were unavailable. When stonefly larvae were present, the trout ate most of the stoneflies and also consumed a higher proportion of mayflies than under mayfly only treatment. The putative mechanism is that active stonefly larvae supplied visual cues to the predator that alerted trout to the mayfly larvae. Foraging success of visual predators on cryptic prey can be enhanced by distinctly coloured, active benthic taxa through unidirectional facilitation to the predators, which is a functional change of interspecific interaction caused by a third species. This study suggests that prey–predator facilitation through TMIIs can modify species interactions, affecting community dynamics.
Highlights
Organisms cope with harsh environmental conditions to exploit available resources for survival
This study suggests that prey– predator facilitation through Trait-mediated indirect interactions (TMIIs) can modify species interactions, affecting community dynamics
Total prey numbers consumed by fish were significantly different between the two treatments: 30 mayflies (30M) contrasted with 20 mayflies C10 stoneflies (20MC10S) (ANOVA, F1,18Z20.1, p!0.001)
Summary
Organisms cope with harsh environmental conditions to exploit available resources for survival. When environmental changes cause food limitation, predators may undergo adaptive foraging-mode switches to alternative prey and even different habitats where food is available (Stephens & Krebs 1987). Since predators’ foraging efficiency is determined in part by prey detection (Bond & Kamil 2002), cryptic coloration and low activity of prey decrease the probability of detection by predators (Endler 1978; Merilaita & Lind 2005). A dynamic interplay between predators’ efficiency and multiple prey species differing in traits of cryptic appearance and activity is not well documented. Positive species interactions (facilitation) may have striking influences on community dynamics (Bruno et al 2003; Travis et al 2005)
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