Abstract
Cognitive abilities probably evolve through natural selection if they provide individuals with fitness benefits. A growing number of studies demonstrate a positive relationship between performance in psychometric tasks and (proxy) measures of fitness. We assayed the performance of 154 common pheasant (Phasianus colchicus) chicks on tests of acquisition and reversal learning, using a different set of chicks and different set of cue types (spatial location and colour) in each of two years and then followed their fates after release into the wild. Across all birds, individuals that were slow to reverse previously learned associations were more likely to survive to four months old. For heavy birds, individuals that rapidly acquired an association had improved survival to four months, whereas for light birds, slow acquirers were more likely to be alive. Slow reversers also exhibited less exploratory behaviour in assays when five weeks old. Fast acquirers visited more artificial feeders after release. In contrast to most other studies, we showed that apparently ‘poor’ cognitive performance (slow reversal speed suggesting low behavioural flexibility) correlates with fitness benefits in at least some circumstances. This correlation suggests a novel mechanism by which continued exaggeration of cognitive abilities may be constrained.This article is part of the theme issue ‘Causes and consequences of individual differences in cognitive abilities’.
Highlights
One powerful approach to understand how natural selection may act on cognition is to measure the performance of individuals in a particular cognitive domain, and explore how their performance correlates with a fitness measure [1,2]
Life performance in two cognitive tasks predicted the mortality of released pheasants
These effects were detected when we considered the combined performances from tasks based on two types of cues, conducted over 2 years in a large sample of 154 birds and controlled for other factors likely to influence survival, namely sex and body mass
Summary
One powerful approach to understand how natural selection may act on cognition is to measure the performance of individuals in a particular cognitive domain, and explore how their performance correlates with a (proxy) fitness measure [1,2]. One study has reported a negative relationship: male song sparrows that were fast at spatial learning had smaller song repertoires [14] This implies that natural selection generally leads to more exaggerated cognitive performance and associated abilities. Previous studies have not attempted to explicitly test how performance in abstract cognitive tasks relates to specific behaviours upon which selection may act. It is not clear how improved inhibitory control as revealed by performance in a detour task may relate to song-learning processes [10], or how the ability to navigate a maze manifests in improved mating success [9]. We tested how early life cognitive performance related to adult ranging behaviour after release
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