Abstract
One of the most studied and best-known mutualistic relationships between insects is that between ants and phloem-feeding insects. Ants feed on honeydew excreted by phloem-feeding insects and, in exchange, attack the phloem feeders' natural enemies, including parasitic wasps. However, parasitic wasps are under selection to exploit information on hazards and avoid them. Here, we tested whether parasitic wasps detect the previous presence of ants attending colonies of phloem feeders. Behavioural assays demonstrate that wasps left colonies previously attended by ants more frequently than control colonies. This behaviour has a potential cost for the parasitic wasp as females inserted their ovipositor in fewer hosts per colony. In a further bioassay, wasps spent less time on papers impregnated with extracts of the ant cues than on control papers. Gas chromatography coupled with mass spectrometry analyses demonstrated that ants left a blend of cuticular hydrocarbons when they attended colonies of phloem feeders. These cuticular hydrocarbons are deposited passively when ants search for food. Overall, these results suggest, for the first time, that parasitic wasps of honeydew producers detect the previous presence of mutualistic ants through contact infochemicals. We anticipate such interactions to be widespread and to have implications in numerous ecosystems, as phloem feeders are usually tended by ants.
Highlights
One of the most studied and best-known mutualistic relationships among insects is the one formed between ants and hemipterans [1,2]
The parasitic wasp A. vladimiri modified its behaviour when it searched in colonies of the mealybug P. citri that had been tended by the ant L. grandis
Chemical analyses showed that L. grandis leaves a complex of cuticular hydrocarbons when it attends mealybug colonies
Summary
One of the most studied and best-known mutualistic relationships among insects is the one formed between ants and hemipterans [1,2]. For the last bioassay ( paper impregnated with ant cues), A. vladimiri pupae were introduced in the same boxes and climatic cabinet than in the previous assays, but without honey to obtain starved females. To obtain mealybug colonies that had been in contact with ants (ant-exposed colonies), plastic boxes with the infested potato sprouts were connected to ant nests. To obtain control Teflon-coated bridges, the same procedure was followed but the entrance holes to the plastic container were blocked with clay to exclude ants. In both experiments, ants were allowed to forage and cross the coated bridges for 24 h. All data analyses were performed with the R v.3.6.3 statistical package [41]
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