Abstract
ABSTRACTThe dissemination of information is a basic element of group cohesion. In honey bees (Apis mellifera Linnaeus 1758), like in other social insects, the principal method for colony-wide information exchange is communication via pheromones. This medium of communication allows multiple individuals to conduct tasks critical to colony survival. Social signaling also establishes conflict at the level of the individual who must trade-off between attending to the immediate environment or the social demand. In this study we examined this conflict by challenging highly social worker honey bees, and less social male drone honey bees undergoing aversive training by presenting them with a social stress signal (isopentyl acetate, IPA). We utilized IPA exposure methods that caused lower learning performance in appetitive learning in workers. Exposure to isopentyl acetate (IPA) did not affect performance of drones and had a dose-specific effect on worker response, with positive effects diminishing at higher IPA doses. The IPA effects are specific because non-social cues, such as the odor cineole, improve learning performance in drones, and social homing signals (geraniol) did not have a discernible effect on drone or worker performance. We conclude that social signals do generate conflict and that response to them is dependent on signal relevance to the individual as well as the context. We discuss the effect of social signal on learning both related to its social role and potential evolutionary history.
Highlights
Social structures rely on communication between individual members of a group (Alaux et al, 2010; Johnson and Linksvayer, 2010)
In this study we examined if the detrimental effect of exposure to isopentyl acetate (IPA) on honey bee learning influences aversive as well as appetitive associations, and if these effects are similar across worker and reproductive drones
IPA presentation influences aversive learning response in workers but not in drones Dose-dependent effects of IPA on worker aversive learning The presentation of IPA at low levels resulted in the highest aversive learning performance in workers, yet at the highest dose [100 stingequivalent dose (SED)] learning was poor
Summary
Social structures rely on communication between individual members of a group (Alaux et al, 2010; Johnson and Linksvayer, 2010). Group level responses such as defense, and resource gathering and allocation, are critically dependent on the ability of individual members to convey their perceived experiences to others (Seeley, 1995; Johnson and Linksvayer, 2010). Much like cells in an organism, individual worker honey bees (Apis mellifera) respond to nest mate signals to better coordinate responses to environmental stimuli. This system inherently induces conflict within perceiving. In this study we begin to explore this conflict, focusing on how social alarm (e.g. alarm pheromone component, IPA) modulates a specific individual response within sterile social workers and male reproductive (drone) honey bees
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