Abstract
Predators can reduce bee pollination and plant fitness through successful predation and non-consumptive effects. In honey bees, evidence of predation or a direct attack can decrease recruitment dancing and thereby magnify the effects of individual predation attempts at a colony level. However, actual predation attempts and successes are relatively rare. It was not known if a far more common event, just detection of a predator, could inhibit recruitment. We began by testing honey bees' avoidance of the praying mantis (Tenodera sinensis). Larger predators (later mantis instars, ≥4.5 cm in body length) elicited significantly more avoidance (1.3 fold) than smaller mantis instars. Larger instars also attempted to capture honey bees significantly more often than did smaller instars. Foragers could detect and avoid mantises based upon mantis odor (74% of bees avoided an odor extract) or visual appearance (67% avoided a mantis model). Finally, foragers decreased recruitment dancing by 1.8 fold for a food source with a live adult mantis, even when they were not attacked. This reduction in recruitment dancing, elicited by predator presence alone, expands our understanding of predator non-consumptive effects and of cascading ecosystem effects for plants served by an important generalist pollinator.
Highlights
Predators do not need to kill to exert significant effects on prey because non-consumptive effects of predation amplify predator effects beyond actual kill rates [1,2]
There is a significant effect of mantis size on the proportion of bees choosing the control vs. the experimental feeder (GLM, binomial distribution, logit link, maximum likelihood, x27 = 63.7, p,0.0001SB*)
Our results demonstrate that predator detection alone is sufficient to inhibit honey bee recruitment dancing
Summary
Predators do not need to kill to exert significant effects on prey because non-consumptive effects of predation amplify predator effects beyond actual kill rates [1,2]. Non-consumptive effects can have broad, cascading ecosystem consequences [3] that shape food webs and affect primary production [1,4]. Bees avoid other indicators of predation risk: dead bees [7,9], bee hemolymph [10], dead crab spiders [7,11], and living crab spiders [12,13]. Predator presence led to decreased pollinator visitation and diminished seed output in Leucanthemum vulgare [14] and reduced seed set and fruit mass in Rubus rosifolius [15]
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