2010
DOI: 10.1111/j.1365-2656.2010.01700.x
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‘Take‐away’ foraging spatially uncouples predator and prey‐attack distributions

Abstract: Summary1. Ideal-free distribution theory assumes that in a patchy environment foragers maximize fitness and hence their feeding rate by balancing gains from more food against losses from more competition. Ultimately, individuals cannot increase their feeding rate by moving to another patch and they distribute themselves over patches in proportion to prey density per patch. 2. In our experiments with shore crabs Carcinus maenas foraging on two adjacent patches with mussels Mytilus edulis, the implicit assumptio… Show more

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Cited by 4 publications
(5 citation statements)
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“…This further supports that interference competition cannot be generalised as prey dependent (only prey availability is important), or ratio dependent (ratio of predator to prey) as discussed by DeLong and Vasseur (2011). Predators will often show complex behaviours in response to, or even to mitigate against as suggested in this study and by Smallegange et al (2010), interference competition. Interference competition occurs on small spatial scales (Thrush, 1999), and so the findings of this study are valuable in understanding how patchiness in prey distributions can affect prey survival.…”
Section: Discussionsupporting
confidence: 71%
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“…This further supports that interference competition cannot be generalised as prey dependent (only prey availability is important), or ratio dependent (ratio of predator to prey) as discussed by DeLong and Vasseur (2011). Predators will often show complex behaviours in response to, or even to mitigate against as suggested in this study and by Smallegange et al (2010), interference competition. Interference competition occurs on small spatial scales (Thrush, 1999), and so the findings of this study are valuable in understanding how patchiness in prey distributions can affect prey survival.…”
Section: Discussionsupporting
confidence: 71%
“…This behaviour may reduce the effect of the prey resource being aggregated. This behaviour will decouple the crab distribution from its prey-attack distribution, and therefore does not fit the assumption of the 'ideal free distribution' where predator distributions reflect prey profitability (Fretwell and Lucas, 1969;Smallegange et al, 2010). In this way predatory crabs may reduce the risk of kleptoparasitism, injury through fights and cannibalism during a particularly vulnerable period while handling food (McDonald et al, 2001;Moksnes, 2004a).…”
Section: Discussionmentioning
confidence: 94%
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“…This survey (and most previous studies reporting crabgastropod K-S interactions; Table 1) considered the case in which a crab kleptoparasitizes or scavenges prey from a gastropod, which is usually more likely than the reverse order of events (i.e., a gastropod steals or scavenges prey initially attacked by a crab) because crabs tend to be larger, more aggressive, and more rapidly feeding than snails, can prey on gastropods, and also leave little prey tissue behind after feeding to be scavenged (Smallegange et al 2010, Quinn et al 2012, Wong et al 2012, Boudreau et al 2013. However, in cases involving relatively large and fast-moving and -feeding gastropods and/or smaller/slower crabs, then the reverse order of events may be probable (Morissette & Himmelman 2000, Morton & Yuen 2000, Fodrie et al 2012, Walsh 2016.…”
Section: Discussionmentioning
confidence: 99%