Dot Display Affects Approximate Number System Acuity and Relationships with Mathematical Achievement and Inhibitory Control.

Jade Eloise Norris,Julie Castronovo,Bert De Smedt

doi:10.1371/journal.pone.0155543

Jade Eloise Norris, Julie Castronovo + Show 1 more

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https://doi.org/10.1371/journal.pone.0155543

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Journal: PloS one	Publication Date: May 19, 2016
Citations: 29	License type: CC BY 4.0

Affiliation: Swansea University, University of Hull

Abstract

Much research has investigated the relationship between the Approximate Number System (ANS) and mathematical achievement, with continued debate surrounding the existence of such a link. The use of different stimulus displays may account for discrepancies in the findings. Indeed, closer scrutiny of the literature suggests that studies supporting a link between ANS acuity and mathematical achievement in adults have mostly measured the ANS using spatially intermixed displays (e.g. of blue and yellow dots), whereas those failing to replicate a link have primarily used spatially separated dot displays. The current study directly compared ANS acuity when using intermixed or separate dots, investigating how such methodological variation mediated the relationship between ANS acuity and mathematical achievement. ANS acuity was poorer and less reliable when measured with intermixed displays, with performance during both conditions related to inhibitory control. Crucially, mathematical achievement was significantly related to ANS accuracy difference (accuracy on congruent trials minus accuracy on incongruent trials) when measured with intermixed displays, but not with separate displays. The findings indicate that methodological variation affects ANS acuity outcomes, as well as the apparent relationship between the ANS and mathematical achievement. Moreover, the current study highlights the problem of low reliabilities of ANS measures. Further research is required to construct ANS measures with improved reliability, and to understand which processes may be responsible for the increased likelihood of finding a correlation between the ANS and mathematical achievement when using intermixed displays.

Highlights

The ‘number sense’, known as the Approximate Number System [1], is a foundational ability used to process non-symbolic numerical magnitudes without counting.PLOS ONE | DOI:10.1371/journal.pone.0155543 May 19, 2016ANS Acuity Is Affected by Dot DisplayThis innate system, originating from primitive, evolutionary functions is observed in infants, children, adults, and even some animals [2,3,4]
Weber fractions (w), accuracy, and reaction times (RTs) as dependent variables of ANS acuity are discussed in terms of congruent and incongruent trials [26,40]
Correlations were investigated between ANS acuity, inhibition, and mathematical achievement, with partial correlations assessing the relationship between ANS acuity and mathematical achievement when controlling inhibition

Summary

Introduction

ANS Acuity Is Affected by Dot Display. This innate system, originating from primitive, evolutionary functions is observed in infants, children, adults, and even some animals [2,3,4]. ANS acuity is frequently measured by accuracy and reaction times [6], ratio effects [7], point of subjective equality [8], or a mix of these measures [1,9,10]. When directly comparing the reliability of each measure, Inglis and Gilmore [11] found accuracy to be a superior index of ANS acuity over w, with numerical ratio effects (NREs) cited as the least reliable measure

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