Abstract
Social parasites exploit the colony resources of social insects. Some of them exploit the host colony as a food resource or as a shelter whereas other species also exploit the brood care behavior of their social host. Some of these species have even lost the worker caste and rely completely on the host's worker force to rear their offspring. To avoid host defenses and bypass their recognition code, these social parasites have developed several sophisticated chemical infiltration strategies. These infiltration strategies have been highly studied in several hymenopterans. Once a social parasite has successfully entered a host nest and integrated its social system, its emerging offspring still face the same challenge of avoiding host recognition. However, the strategy used by the offspring to survive within the host nest without being killed is still poorly documented. In cuckoo bumblebees, the parasite males completely lack the morphological and chemical adaptations to social parasitism that the females possess. Moreover, young parasite males exhibit an early production of species-specific cephalic secretions, used as sexual pheromones. Host workers might thus be able to recognize them. Here we used a bumblebee host-social parasite system to test the hypothesis that social parasite male offspring exhibit a chemical defense strategy to escape from host aggression during their intranidal life. Using behavioral assays, we showed that extracts from the heads of young cuckoo bumblebee males contain a repellent odor that prevents parasite males from being attacked by host workers. We also show that social parasitism reduces host worker aggressiveness and helps parasite offspring acceptance.
Highlights
Parental investment strategies lie at the heart of fundamental life-history trade-offs [1,2]
These results clearly show that most the compounds found in the cephalic glands in seven days old males are already produced in the early days of their life
The qualitative and quantitative composition of the cephalic secretions of B. vestalis, B. terrestris and B. pascuorum clearly demonstrate the species-specificity of these secretions (Table S2 in supporting information)
Summary
Parental investment strategies lie at the heart of fundamental life-history trade-offs [1,2]. Parents invest most of their energy in rearing their brood by producing a nest and providing it with protection and food. The high energetic costs of parental care have promoted the evolution of cheaters that exploit brood care behavior of conspecifics or heterospecifics. These brood parasites avoid the costs of parental care by laying their eggs in host nests. Their victims care for the parasite offspring by incubating the eggs and feeding the progeny. Brood parasitism occurs in fishes, birds, amphibians [3,4,5], but is well documented in social insects [6,7]
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