Does numerical processing uniquely predict first graders’ future development of single-digit arithmetic?

Vanbinst, Kiran; Ghesquière, Pol; Smedt, Bert De

doi:10.1016/j.lindif.2014.12.004

Cited by 71 publications

(56 citation statements)

References 53 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…In addition, similar results have also been reported by researchers from studies that used other forms of magnitude comparison tasks (e.g., Holloway & Ansari, 2009; Kolkman et al, 2013; Lonnemann et al, 2011; Mundy & Gilmore, 2009; Sasanguie et al, 2012; Vanbinst et al, 2015). For example, in a recent study Vanbinst et al (2015) tried to explore the relationship between numerical magnitude comparison ability and simple arithmetic ability in first- and second-grade children using a computerized version of the magnitude comparison task. The researchers (Vanbinst et al, 2015) used accuracy and reaction time as indices to measure both symbolic and non-symbolic magnitude comparison.…”

Section: Discussionsupporting

confidence: 86%

“…However, these researchers reported contrasting results (see Chen & Li, 2014; De Smedt et al, 2013 for a review). While a number of researchers have found significant correlations between non-symbolic numerical comparison (dot arrays) and arithmetic skills (e.g., Bonny & Lourenco, 2013; Halberda, Mazzocco, & Feigenson, 2008; Inglis, Attridge, Batchelor, & Gilmore, 2011; Linsen, Verschaffel, Reynvoet, & De Smedt, 2014; Mazzocco, Feigenson, & Halberda, 2011; Mundy & Gilmore, 2009; Vanbinst, Ghesquière, & De Smedt, 2015), other have not (e.g., Holloway & Ansari, 2009; Kolkman, Kroesbergen, & Leseman, 2013; Lonnemann, Linkersdörfer, Hasselhorn, & Lindberg, 2011; Mundy & Gilmore, 2009; Nosworthy et al, 2013; Sasanguie, Göbel, Moll, Smets, & Reynvoet, 2013; Sasanguie, Van den Bussche, & Reynvoet, 2012; Soltész, Szűcs, & Szűcs, 2010; Vanbinst, Ghesquière, & De Smedt, 2012). Furthermore, a large number of studies have reported significant correlations between symbolic numerical comparison (Arabic digits) and arithmetic abilities (e.g., Holloway & Ansari, 2009; Kolkman et al, 2013; Lonnemann et al, 2011; Mundy & Gilmore, 2009; Nosworthy et al, 2013; Sasanguie et al, 2012; Vanbinst et al, 2015); however, a smaller number of studies did not find these significant relationships (e.g., Sasanguie et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

The relationship between accuracy of numerical magnitude comparisons and children’s arithmetic ability: A study in Iranian primary school children

Tavakoli

2016

Eur. J. Psychol.

View full text Add to dashboard Cite

The relationship between children’s accuracy during numerical magnitude comparisons and arithmetic ability has been investigated by many researchers. Contradictory results have been reported from these studies due to the use of many different tasks and indices to determine the accuracy of numerical magnitude comparisons. In the light of this inconsistency among measurement techniques, the present study aimed to investigate this relationship among Iranian second grade children (n = 113) using a pre-established test (known as the Numeracy Screener) to measure numerical magnitude comparison accuracy. The results revealed that both the symbolic and non-symbolic items of the Numeracy Screener significantly correlated with arithmetic ability. However, after controlling for the effect of working memory, processing speed, and long-term memory, only performance on symbolic items accounted for the unique variances in children’s arithmetic ability. Furthermore, while working memory uniquely contributed to arithmetic ability in one-and two-digit arithmetic problem solving, processing speed uniquely explained only the variance in single-digit arithmetic skills and long-term memory did not contribute to any significant additional variance for one-digit or two-digit arithmetic problem solving.

show abstract

Section: Discussionsupporting

confidence: 86%

Section: Introductionmentioning

confidence: 99%

The relationship between accuracy of numerical magnitude comparisons and children’s arithmetic ability: A study in Iranian primary school children

Tavakoli

2016

Eur. J. Psychol.

View full text Add to dashboard Cite

show abstract

“…The current cross-sectional data also do not allow us to establish predictive associations between symbolic number comparison and mathematics achievement. Some studies have indeed shown that symbolic number comparison predicts future mathematics achievement (De Smedt et al, 2009) and math development (Vanbinst et al, 2015), yet these predictive associations need to be studied across larger ageranges in longitudinal studies, in which also bidirectional associations should be considered. The current paper-andpencil measure allows one to study these associations on a large-scale level.…”

Section: Discussionmentioning

confidence: 99%

“…The question arises which competencies should be assessed when designing screening measures to identify these at-risk children. Research has pointed to the importance of numerical magnitude processing, or people's elementary intuitions about numerical magnitudes, for the development of mathematics achievement as children's understanding of numerical magnitudes correlates with (e.g., Holloway &Ansari, 2009) andpredicts (e.g., De Smedt, Verschaffel, &Ghesquière, 2009;Halberda, Mazzocco, & Feigenson, 2008;Mazzocco, Feigenson, & Halberda, 2011;Vanbinst, Ghesquière & De Smedt, 2015) individual differences in mathematics achievement (De Smedt, Noël, Gilmore, & Ansari, 2013, for a narrative review; Schneider et al, 2016, for a meta-analysis).…”

Section: Introductionmentioning

confidence: 99%

Symbolic magnitude processing in elementary school children: A group administered paper-and-pencil measure (SYMP Test)

2016

Self Cite

View full text Add to dashboard Cite

The ability to compare symbolic numerical magnitudes correlates with children's concurrent and future mathematics achievement. We developed and evaluated a quick timed paper-and-pencil measure that can easily be used, for example in large-scale research, in which children have to cross out the numerically larger of two Arabic one-and two-digit numbers (SYMP Test). We investigated performance on this test in 1,588 primary school children (Grades 1-6) and examined in each grade its associations with mathematics achievement. The SYMP Test had satisfactory test-retest reliability. The SYMP Test showed significant and stable correlations with mathematics achievement for both one-digit and two-digit comparison, across all grades. This replicates the previously observed association between symbolic numerical magnitude processing and mathematics achievement, but extends it by showing that the association is observed in all grades in primary education and occurs for single-as well as multi-digit processing. Children with mathematical learning difficulties performed significantly lower on one-digit comparison and two-digit comparison in all grades. This all suggests satisfactory construct and criterionrelated validity of the SYMP Test, which can be used in research, when performing large-scale (intervention) studies, and by practitioners, as screening measure to identify children at risk for mathematical difficulties or dyscalculia.

show abstract

“…In general, authors agree that numeracy performance in the early childhood years adequately predicts later mathematics performance (Jordan, Glutting & Ramineni 2010). Especially magnitude comparison, number reading, counting skills, basic arithmetical skills, number line acuity, spontaneous focusing on numerosity and numeracy-related logical knowledge have been found to be relevant for later mathematics performance (Aunio & Niemivirta 2010;Friso-van den Bos et al 2015;HannulaSormunen, Lehtinen & Räsänen 2015;Jordan et al 2010;Krajewski & Schneider 2009;LeFevre et al 2010;Nguyen et al 2016;Passolunghi, Vercelloni & Schadee 2007;Toll et al 2015;Vanbinst, Ghesquière & De Smedt 2015). Related to the development of mathematical skills in early childhood years, there is an agreement among the researchers that children have biologically primary non-verbal number sense which is the base that children start to learn to use their number word sequence skills first in rhymes and then in enumeration tasks and from that follows the basic strategies for addition and subtraction problem solving (Jordan et al 2010;Mazzocco, Feigenson & Halberda 2011).…”

Section: Early Numeracy Skills Relevant For Later Mathematics Learningmentioning

confidence: 96%

Early numeracy performance of South African school beginners

Aunio

Mononen²,

Ragpot

et al. 2016

SAJCE

View full text Add to dashboard Cite

Early numeracy skills are highly relevant for children’s mathematics learning at school, especially in the initial years when much mathematics learning relies on early numeracy competence. The aim of this study was to investigate the level of early numeracy skills in a sample of South African children in the first months of formal schooling. In this cross- sectional study, there were 443 first graders (206 girls and 237 boys) from Gauteng Province schools. The mean age of the children was 81.61 months (6 years 10 months) (SD 5.40 months). Their early numeracy skills were measured with the ThinkMath Scale. The main finding of this study was that there were statistically significant differences in early numeracy skills between the children when they started first grade. The differences were related to the home language of the first graders in the English medium schools, as well as the type of school (public vs. private). This article concludes that the numeracy competence of the children from the sample was notably varied in the beginning of their formal schooling, which has implications for teaching in the vastly different classroom populations that are all served by one national curriculum.

show abstract

Does numerical processing uniquely predict first graders’ future development of single-digit arithmetic?

Cited by 71 publications

References 53 publications

The relationship between accuracy of numerical magnitude comparisons and children’s arithmetic ability: A study in Iranian primary school children

The relationship between accuracy of numerical magnitude comparisons and children’s arithmetic ability: A study in Iranian primary school children

Symbolic magnitude processing in elementary school children: A group administered paper-and-pencil measure (SYMP Test)

Early numeracy performance of South African school beginners

Contact Info

Product

Resources

About