Abstract
Whereas prey are known to avoid habitats with their predators, it is less well established whether they are triggered to emigrate to new habitats when exposed to predators in their current habitat. We studied plant-to-plant dispersal of adult whiteflies in response to the presence of predatory mites on the plant on which the whiteflies were released. These predators attack whitefly eggs and crawlers, but not the adults, which can fly to other plants and can learn to avoid plants with predators. Being tiny and wingless, the predatory mites are slow dispersers compared to adult whiteflies. This offers the whiteflies the opportunity to escape from plants with predatory mites to plants without predators, thus avoiding predation of their offspring. To test for this escape response, a greenhouse experiment was carried out, where whiteflies were released on the first of a row of 5 cucumber plants, 0.6 m or 2 m apart, and predators either on the same plant, on the next plant, or nowhere (control). Adult whiteflies dispersed significantly faster from plants with predatory mites onto neighbouring plants when the plants were 0.6 m apart, but not when plants were 2 m apart. However, the final numbers of whiteflies that had successfully dispersed at the end of the experiments did not differ significantly for either of the two interplant distances. Overall, the proportion of whiteflies that did disperse was low, suggesting that adult whiteflies were apparently reluctant to disperse, even from plants with predators. Our results suggest that this reluctance increases with the distance between the plants, so most likely depends on the uncertainty to find a new plant. Thus, whiteflies do not always venture to fly even when they can easily bridge the distance to another plant.
Highlights
Dispersal is the process that connects subpopulations, thereby gluing them into one spatially-structured population [1,2,3,4]
Significantly more adult prey dispersed in the presence of predators on the release plant than in their absence (Fig. 2a: linear mixed effect models (LME), Likelihood ratio = 13.6, d.f. = 1, P = 0.0002)
We found significantly higher dispersal from plants with predators through time in the experiment with interplant distances of 0.6 m (Fig. 2a), this did not result in a higher number of adult whiteflies being found back on neighbouring plants at the end of the experiment
Summary
Dispersal is the process that connects subpopulations, thereby gluing them into one spatially-structured population [1,2,3,4]. It hinges on two decisions: to emigrate from one subpopulation and to immigrate into another. There is ample empirical knowledge on the latter decision, i.e. patch or habitat selection by dispersing animals [5,6,7]. Dispersing prey may avoid habitats with predators [5,11,12,13], for example, tree frogs avoid ovipositing in ponds containing predators [14]. Animals may avoid habitats with conspecific and heterospecific competitors [15,16,17,18]
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