The individual sum of performance rank in the reversal learning, detour, and object permanence tasks as a function of selection line and relative telencephalon size. A) Violin and boxplots of individual rank performance as a function of selection lines (24 up- vs. 21 down-selected fish). B) Regression line and 95% CI estimated from the model's adjusted predictions of the relationship between individual rank performance and relative telencephalon size (standardized and log-transformed) (N = 42). Negative binomial GLMM, *P < 0.05, **P < 0.01. Credit: PNAS Nexus (2023). DOI: 10.1093/pnasnexus/pgad129

The telencephalon is the part of the brain responsible for executive functions in fish, according to an experimental study published in PNAS Nexus.

Zegni Triki and colleagues used guppies (Poecilia reticulata) that had been selected over five to have smaller or larger telencephalons, resulting in a 10% size difference between "up selected" and "down selected" lines of . Total brain size was not significantly affected.

The authors then presented 48 male fifth-generation fish from both lines with tests of cognitive flexibility, , and working memory—the three commonly accepted components of the psychological skills known as "."

To test for cognitive flexibility, the fish were trained to associate one of two colors with food. The food reward was then swapped to the previously unrewarding color. Some 63% of up-selected fish and just 48% of down-selected fish were able to learn the new association within 84 trials.

To test self control guppies were presented with a situation in which a detour around a clear barrier was required to access food. Fish that can delay gratification long enough to detour around the obstacle are said to show some measure of self control. Both lines preformed similarly, but up-selected fish got better at the task over time.

Guppies tested on tests of cognitive flexibility, inhibitory control, and working memory. Credit: Triki et al.

Finally, the fish were challenged with a test of working when food was hidden behind an opaque barrier. Up-selected fish showed 60% success over 16 trials, whereas down-selected fish showed just 49% success over 16 trials.

More information: Zegni Triki et al, Experimental expansion of relative telencephalon size improves the main executive function abilities in guppy, PNAS Nexus (2023).

Journal information: PNAS Nexus

Provided by PNAS Nexus