Flanking Magnitudes: Dissociation Between Numerosity and Numerical Value in a Selective Attention Task

The current research examined whether peripherally presented numerical information can affect the speed of number processing. In 2 experiments, participants were presented with a target matrix flanked by a distractor matrix and were asked to perform a comparative judgment (i.e., decide whether the t...

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Bibliographic Details
Published in:Journal of experimental psychology. Learning, memory, and cognition memory, and cognition, 2015-07, Vol.41 (4), p.1262-1268
Main Authors: Naparstek, Sharon, Safadi, Ziad, Lichtenstein-Vidne, Limor, Henik, Avishai
Format: Article
Language:English
Subjects:
Association (Psychology)
Attention
Cognition
Cognition & reasoning
Cognitive Processes
Experimental psychology
Female
Foreign Countries
Human
Humans
Israel
Judgment
Male
Mathematical Concepts
Matrix
Numbers
Numbers (Numerals)
Numerosity Perception
Pattern Recognition, Visual
Photic Stimulation
Psychological Tests
Reaction Time
Selective Attention
Statistical Analysis
Undergraduate Students
Young Adult
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Summary:The current research examined whether peripherally presented numerical information can affect the speed of number processing. In 2 experiments, participants were presented with a target matrix flanked by a distractor matrix and were asked to perform a comparative judgment (i.e., decide whether the target was larger or smaller than the reference 5). In Experiment 1, the target was symbolic (i.e., a single digit), and in Experiment 2, it was nonsymbolic (i.e., a random presentation of dots). In both experiments, flanker matrices had 2 dimensions-numerosity and numerical value-that were manipulated orthogonally to create stimulus congruent and stimulus incongruent conditions. Incongruent trials differed in the laterality between target and flanker (i.e., their location in relation to the reference 5). When responding to symbolic targets (Experiment 1), only the flanker's numerical value affected reaction times (RTs), whereas when responding to nonsymbolic targets (Experiment 2), only the flanker's numerosity affected RTs. In addition, the pattern of flanker interference differed between targets: For symbolic targets, laterality did not affect responses, whereas for nonsymbolic targets, laterality did affect responses. These results imply both symbolic and nonsymbolic magnitudes can be automatically activated; however, this activation is contingent upon their relevance to the task at hand. Implications of these results on the efficiency of the visual processing system and on numerical cognition are further discussed.
ISSN:0278-7393
1939-1285
DOI:10.1037/xlm0000067