Measures of inhibitory control correlate between different tasks but do not predict problem-solving success in a fish, Poecilia reticulata

Once considered a human characteristic, the presence of correlations between individuals' performance in cognitive tasks has now been reported in a range of vertebrates. In humans, an important source of cognitive variability is inhibitory control: some individuals are consistently more efficient in inhibitory tasks and this affects individual differences in other cognitive tasks, including measures of general intelligence. We looked for these two types of individual differences in a teleost fish, the guppy Poecilia reticulata. First, we observed guppies in two inhibitory control tasks. In the tube task, guppies had to inhibit the tendency to attack live prey sealed into a transparent tube. In the cylinder task, guppies had to inhibit the tendency to swim directly toward a food item placed inside a transparent cylinder and rather detour and enter the cylinder from the open sides. Individual rank performance was maintained between the two inhibitory tasks, suggesting individual differences in inhibitory control across tasks in this species. Then, we tested the same set of guppies in a problem-solving task, whereby they had to learn to dislodge an object that prevented the access to a food reward. Neither the tube task nor the cylinder task score predicted guppies' problem-solving performance. Our study demonstrates that fish exhibit consistent individual differences in inhibitory control, as expected if this trait has a common evolutionary origin in vertebrates. Yet, in fish, these individual differences appear not to be related to other cognitive processes such as those required for problem solving.