Abstract
Dominant individuals differ from subordinates in their performances on cognitive tasks across a suite of taxa. Previous studies often only consider dyadic relationships, rather than the more ecologically relevant social hierarchies or networks, hence failing to account for how dyadic relationships may be adjusted within larger social groups. We used a novel statistical method: randomized Elo-ratings, to infer the social hierarchy of 18 male pheasants, Phasianus colchicus, while in a captive, mixed-sex group with a linear hierarchy. We assayed individual learning performance of these males on a binary spatial discrimination task to investigate whether inter-individual variation in performance is associated with group social rank. Task performance improved with increasing trial number and was positively related to social rank, with higher ranking males showing greater levels of success. Motivation to participate in the task was not related to social rank or task performance, thus indicating that these rank-related differences are not a consequence of differences in motivation to complete the task. Our results provide important information about how variation in cognitive performance relates to an individual's social rank within a group. Whether the social environment causes differences in learning performance or instead, inherent differences in learning ability predetermine rank remains to be tested.
Highlights
Characterizing variation in cognitive performances is pertinent to our understanding of the evolution of cognition [1,2]
Dominant individuals typically perform more efficiently on operant learning, spatial learning and spatial memory tasks. Such studies have relied on dyadic relationships between pairs of individuals, or concentrated on small groups, which may be simplistic and not reflect the network of relationships naturally observed in larger social groups [13]
Previous studies compared the task performances of dyads and show that the dominant individuals outperform the subordinate individuals. If we extend these findings, we expect that spatial learning performance will be positively related to social rank in a complex, established and more realistic social environment
Summary
Characterizing variation in cognitive performances is pertinent to our understanding of the evolution of cognition [1,2]. Our understanding of the relationship between social rank and cognitive performance can be confused by the use of inappropriate methods to construct hierarchies, those that don’t consider whole groups of individuals or which rely on the outcomes of small numbers of interactions. Previous studies compared the task performances of dyads (mice [9,10]; mountain chickadees [12]; meadow voles [11]) and show that the dominant individuals outperform the subordinate individuals If we extend these findings, we expect that spatial learning performance will be positively related to social rank in a complex, established and more realistic social environment
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