Abstract
The ecological success of ants relies on their ability to discover and collectively exploit available resources. In this process, the nest entrances are key locations at which foragers transfer food and information about the surrounding environment. We assume that the number of nest entrances regulates social exchanges between foragers and inner-nest workers, and hence influences the foraging efficiency of the whole colony. Here, we compared the foraging responses of Myrmica rubra colonies settled in either one-entrance or two-entrance nests. The total outflows of workers exploiting a sucrose food source were similar regardless of the number of nest entrances. However, in the two-entrance nests, the launching of recruitment was delayed, a pheromone trail was less likely to emerge between the nest and the food source, and recruits were less likely to reach the food target. As a result, an additional entrance through which information could transit decreased the efficiency of social foraging and ultimately led to a lower amount of retrieved food. Our study confirms the key-role of nest entrances in the transfer of information from foragers to potential recruits. The influence of the number of entrances on the emergence of a collective trail also highlights the spatially extended impact of the nest architecture that can shape foraging patterns outside the nest.
Highlights
In animal societies, collective decision-making and coordinated behaviours often arise from multiple interactions between groupmates, even though each individual has access only to local and partial information and is not aware of the global pattern that is emerging [1,2,3,4,5]
We investigated to what extent an additional nest entrance could influence the collective food recruitment and the patterns of foraging trails displayed by M. rubra ant colonies
We studied the ability of recruiters to mobilize nest-mates out of the nest and the patterns of foraging trails connecting the nest to the food target
Summary
Collective decision-making and coordinated behaviours often arise from multiple interactions between groupmates, even though each individual has access only to local and partial information and is not aware of the global pattern that is emerging [1,2,3,4,5]. In these processes, the coupling of positive and negative feedbacks that influence local rates of interactions between nest-mates, contributes to generate an amazing diversity and complexity of adaptive structures at the colony level. The social amplification of this information eventually leads to a collective exploitation of the food target, using a well-defined network of foraging trails [12,13]
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