Thomas O. Richardson scite author profile

Tandem running in ants is a form of recruitment in which a single well-informed worker guides a naive nestmate to a goal [1-8]. The ant Temnothorax albipennis recently satisfied a strict set of predefined criteria for teaching in nonhuman animals [9, 10]. These criteria do not include evaluation as a prerequisite for teaching [10]. However, some authors claim that true teaching is always evaluative, i.e., sensitive to the competence or quality of the pupil [11-13]. They then assume, on the premise that only humans are capable of making such necessarily complex cognitive evaluations, that teaching must be unique to humans. We conducted experiments to test whether evaluation occurs during tandem running, in which a knowledgeable ant physically guides a naive follower to a goal. In each experiment, we interrupted the tandem run by removing the tandem follower. The response of the leader was to stand still at the point where the tandem run was interrupted. We then measured how long the leader waited for the missing follower before giving up. Our results demonstrate T. albipennis performs three different kinds of evaluation. First, the longer the tandem has proceeded the longer the leader will wait for the follower to re-establish contact. Second, ant teachers modulate their giving-up time depending on the value of the goal. Finally, leaders have shorter giving-up times after unusually slow tandem runs.

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Record Dynamics in Ants

Richardson

Robinson

Christensen

et al. 2010

PLoS ONE

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The success of social animals (including ourselves) can be attributed to efficiencies that arise from a division of labour. Many animal societies have a communal nest which certain individuals must leave to perform external tasks, for example foraging or patrolling. Staying at home to care for young or leaving to find food is one of the most fundamental divisions of labour. It is also often a choice between safety and danger. Here we explore the regulation of departures from ant nests. We consider the extreme situation in which no one returns and show experimentally that exiting decisions seem to be governed by fluctuating record signals and ant-ant interactions. A record signal is a new ‘high water mark’ in the history of a system. An ant exiting the nest only when the record signal reaches a level it has never perceived before could be a very effective mechanism to postpone, until the last possible moment, a potentially fatal decision. We also show that record dynamics may be involved in first exits by individually tagged ants even when their nest mates are allowed to re-enter the nest. So record dynamics may play a role in allocating individuals to tasks, both in emergencies and in everyday life. The dynamics of several complex but purely physical systems are also based on record signals but this is the first time they have been experimentally shown in a biological system.

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Thomas O. Richardson

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Record Dynamics in Ants

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