Litcius/Paper detail

Hemispheric specialization in spatial versus ordinal processing in the day‐old domestic chick (<i>Gallus gallus</i>)

Rosa Rugani, Lucia Regolin

2020Annals of the New York Academy of Sciences23 citationsDOIOpen Access PDF

Abstract

Different species show an intriguing similarity in representing numerosity in space, starting from left to right. This bias has been attributed to a right hemisphere dominance in processing spatial information. Here, to disentangle the role of each hemisphere in dealing with spatial versus ordinal-numerical information, we tested domestic chicks during monocular versus binocular vision. In the avian brain, the contralateral hemisphere mainly processes the visual input from each eye. Four-day-old chicks learned to peck at the fourth element in a sagittal series of 10 identical elements. At testing, chicks faced a left-to-right-oriented series where the interelement distance was manipulated so that the third element was where the fourth had been at training; this compelled chicks to use either spatial or ordinal cues. Chicks tested binocularly selected both the fourth left and (to a lesser extent) right elements. Chicks tested monocularly chose the third and fourth elements on the seeing side equally. Interhemispheric cooperation resulted in the use of ordinal-numerical information, while each single hemisphere could rely on spatial or ordinal-numerical cue. Both hemispheres can process spatial and ordinal-numerical information, but their interaction results in the supremacy of processing the ordinal-numerical cue.

Topics & Concepts

Numerosity adaptation effectRight hemisphereLateralization of brain functionPeck (Imperial)Ocular dominance columnNumerical cognitionLeft and rightDominance (genetics)Ocular dominanceLateralityPsychologyMathematicsCognitive psychologyDevelopmental psychologyNeuroscienceCognitionBiologyVisual cortexGeometryGeneStructural engineeringBiochemistryEngineeringCognitive and developmental aspects of mathematical skillsAnimal Nutrition and PhysiologyHemispheric Asymmetry in Neuroscience