Diet choice of a predator in the wild: overabundance of prey and missed opportunities along the prey capture sequence
Résumé
Optimal diet theory (ODT) postulates that predators adjust their foraging decisions by
calculating a prey value from the potential biomass gain, handling time, prey vulnerability and encounter
rate. Tests of ODT have however so far mainly been restricted to laboratory settings. By video surveillance,
we gathered a large data set of more than 2000 field observations of crab spider (Misumena vatia)
encounters with potential prey. We then tested whether the complex ODT or two simpler models (prey
identity and prey traits) best explain foraging decisions. Insect prey were killed with an average chance of
3.5% when alighting on an inflorescence harboring a spider. Spiders refused to attack suitable prey in 46–
79% of encounters when prey was in attack range, indicating an over-abundance of prey relative to the
needs of the spiders. Reduction of opportunities to capture prey along the prey capture sequence differed
among pollinator groups, with syrphids and solitary bees showing strong avoidance of spiders early in the
sequence and bumblebees resisting the final strike. Simple prey traits explained foraging decisions better
than ODT, which was not supported. In the absence of food limitation, optimality decisions may be less
stringent. The over-abundance of prey indicates that, in contrast to current theory, prey encounter rates are
not the most important factor driving predator foraging decisions. Our results are highly coherent with
those obtained in earlier field studies on patch leaving strategies and predator-prey encounters. Prey overabundance
and non-optimal predator behavior are apparently not uncommon in nature, and we highlight
some of the implications for predator-prey theory.