Litcius/Paper detail

Number selective sensorimotor neurons in the crow translate perceived numerosity into number of actions

Maximilian E. Kirschhock, Andreas Nieder

2022Nature Communications39 citationsDOIOpen Access PDF

Abstract

Translating a perceived number into a matching number of self-generated actions is a hallmark of numerical reasoning in humans and animals alike. To explore this sensorimotor transformation, we trained crows to judge numerical values in displays and to flexibly plan and perform a matching number of pecks. We report number selective sensorimotor neurons in the crow telencephalon that signaled the impending number of self-generated actions. Neuronal population activity during the sensorimotor transformation period predicted whether the crows mistakenly planned fewer or more pecks than instructed. During sensorimotor transformation, both a static neuronal code characterized by persistently number-selective neurons and a dynamic code originating from neurons carrying rapidly changing numerical information emerged. The findings indicate there are distinct functions of abstract neuronal codes supporting the sensorimotor number system.

Topics & Concepts

Numerosity adaptation effectNumerical cognitionCode (set theory)NeurosciencePopulationComputer scienceMatching (statistics)PsychologyCognitionMathematicsStatisticsMedicineSet (abstract data type)Programming languageEnvironmental healthCognitive and developmental aspects of mathematical skillsMathematics Education and Teaching Techniques
Number selective sensorimotor neurons in the crow translate perceived numerosity into number of actions | Litcius