AI Article Synopsis
- Inhibitory control (IC) is crucial for managing impulsive behaviors and making better decisions in a complex environment, traditionally studied in a limited range of animals.
- Recent research reveals that IC is present across a broader array of species, with variations within species influenced by genetic and environmental factors.
- A study on wild-descendant female guppies showed their IC performance was notably lower than other strains, highlighting significant individual differences that may impact other cognitive abilities.
Article Abstract
Inhibitory control (IC) is the ability to overcome impulsive or prepotent but ineffective responses in favour of more appropriate behaviours. The ability to inhibit internal predispositions or external temptations is vital in coping with a complex and variable world. Traditionally viewed as cognitively demanding and a main component of executive functioning and self-control, IC was historically examined in only a few species of birds and mammals but recently a number of studies has shown that a much wider range of taxa rely on IC. Furthermore, there is growing evidence that inhibitory abilities may vary within species at the population and individual levels owing to genetic and environmental factors. Here we use a detour-reaching task, a standard paradigm to measure motor inhibition in nonhuman animals, to quantify patterns of interindividual variation in IC in wild-descendant female guppies, Poecilia reticulata. We found that female guppies displayed inhibitory performances that were, on average, half as successful as the performances reported previously for other strains of guppies tested in similar experimental conditions. Moreover, we showed consistent individual variation in the ability to inhibit inappropriate behaviours. Our results contribute to the understanding of the evolution of fish cognition and suggest that IC may show considerable variation among populations within a species. Such variation in IC abilities might contribute to individual differences in other cognitive functions such as spatial learning, quantity discrimination or reversal learning.
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| http://dx.doi.org/10.1111/jfb.14608 | DOI Listing |
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