Individual differences in inhibitory control, not non-verbal number acuity, correlate with mathematics achievement.

Individual differences in inhibitory control, not non-verbal number acuity, correlate with mathematics achievement.

Given the well-documented failings in mathematics education in many Western societies, there has been an increased interest in understanding the cognitive underpinnings of mathematical achievement. Recent research has proposed the existence of an Approximate Number System (ANS) which allows individu...

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Main Authors: Camilla Gilmore, Nina Attridge, Sarah Clayton, Lucy Cragg, Samantha Johnson, Neil Marlow, Victoria Simms, Matthew Inglis
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3681957?pdf=render
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spelling doaj-0f6dde518a89491cbbcd327e84c60d5f2020-11-25T01:19:17ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0186e6737410.1371/journal.pone.0067374Individual differences in inhibitory control, not non-verbal number acuity, correlate with mathematics achievement.Camilla GilmoreNina AttridgeSarah ClaytonLucy CraggSamantha JohnsonNeil MarlowVictoria SimmsMatthew InglisGiven the well-documented failings in mathematics education in many Western societies, there has been an increased interest in understanding the cognitive underpinnings of mathematical achievement. Recent research has proposed the existence of an Approximate Number System (ANS) which allows individuals to represent and manipulate non-verbal numerical information. Evidence has shown that performance on a measure of the ANS (a dot comparison task) is related to mathematics achievement, which has led researchers to suggest that the ANS plays a critical role in mathematics learning. Here we show that, rather than being driven by the nature of underlying numerical representations, this relationship may in fact be an artefact of the inhibitory control demands of some trials of the dot comparison task. This suggests that recent work basing mathematics assessments and interventions around dot comparison tasks may be inappropriate.http://europepmc.org/articles/PMC3681957?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Camilla Gilmore
Nina Attridge
Sarah Clayton
Lucy Cragg
Samantha Johnson
Neil Marlow
Victoria Simms
Matthew Inglis
spellingShingle Camilla Gilmore
Nina Attridge
Sarah Clayton
Lucy Cragg
Samantha Johnson
Neil Marlow
Victoria Simms
Matthew Inglis
Individual differences in inhibitory control, not non-verbal number acuity, correlate with mathematics achievement.
PLoS ONE
author_facet Camilla Gilmore
Nina Attridge
Sarah Clayton
Lucy Cragg
Samantha Johnson
Neil Marlow
Victoria Simms
Matthew Inglis
author_sort Camilla Gilmore
title Individual differences in inhibitory control, not non-verbal number acuity, correlate with mathematics achievement.
title_short Individual differences in inhibitory control, not non-verbal number acuity, correlate with mathematics achievement.
title_full Individual differences in inhibitory control, not non-verbal number acuity, correlate with mathematics achievement.
title_fullStr Individual differences in inhibitory control, not non-verbal number acuity, correlate with mathematics achievement.
title_full_unstemmed Individual differences in inhibitory control, not non-verbal number acuity, correlate with mathematics achievement.
title_sort individual differences in inhibitory control, not non-verbal number acuity, correlate with mathematics achievement.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description Given the well-documented failings in mathematics education in many Western societies, there has been an increased interest in understanding the cognitive underpinnings of mathematical achievement. Recent research has proposed the existence of an Approximate Number System (ANS) which allows individuals to represent and manipulate non-verbal numerical information. Evidence has shown that performance on a measure of the ANS (a dot comparison task) is related to mathematics achievement, which has led researchers to suggest that the ANS plays a critical role in mathematics learning. Here we show that, rather than being driven by the nature of underlying numerical representations, this relationship may in fact be an artefact of the inhibitory control demands of some trials of the dot comparison task. This suggests that recent work basing mathematics assessments and interventions around dot comparison tasks may be inappropriate.
url http://europepmc.org/articles/PMC3681957?pdf=render
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