Reward magnitude determines reinforcement learning efficiency
Summary
Standard animal learning studies minimize individual reward magnitudes to maximize the repetitions of reinforced behaviors. We investigated how reward magnitude influences initial learning across five behavioral paradigms in naïve mice. Especially large rewards could substantially improve learning efficiency through dissociable effects on within- and across-session learning and task engagement. The duration and magnitude of ventral striatal dopamine release scaled with reward sizes, and pr
Content
# Reward magnitude determines reinforcement learning efficiency
*Published: 2026 May 21*
Standard animal learning studies minimize individual reward magnitudes to
maximize the repetitions of reinforced behaviors. We investigated how reward
magnitude influences initial learning across five behavioral paradigms in naïve
mice. Especially large rewards could substantially improve learning efficiency
through dissociable effects on within- and across-session learning and task
engagement. The duration and magnitude of ventral striatal dopamine release
scaled with reward sizes, and prolonged optogenetic enhancement of dopamine
reward responses also reproduced much, but not all, of the benefits to learning
produced by outsized rewards. These findings indicate that the reinforcement
learning efficiency of animals has traditionally been underestimated and that
dopamine signaling of rewards mediates task engagement in proportion to absolute
reward magnitude.
DOI: 10.1126/science.aeb0813