近似数量系统、符号数量知识和数量排序能力对早期算术发展的可分离影响。

Separable effects of the approximate number system, symbolic number knowledge, and number ordering ability on early arithmetic development.

机构信息

Australian Catholic University, Brisbane, QLD 4014, Australia; Autism Centre of Excellence, Griffith University, Brisbane, QLD 4122, Australia.

Australian Catholic University, Brisbane, QLD 4014, Australia; School of Psychology and Counseling, Faculty of Health, Queensland University of Technology, Brisbane, QLD 4000, Australia.

出版信息

J Exp Child Psychol. 2021 Aug;208:105120. doi: 10.1016/j.jecp.2021.105120. Epub 2021 Mar 29.

DOI:10.1016/j.jecp.2021.105120

PMID:33794420

Abstract

There is evidence that early variations in the development of an approximate number system (ANS) and symbolic number understanding are both influences on the later development of formal arithmetic skills. We report a large-scale (N = 552) longitudinal study of the predictors of arithmetic spanning a critical developmental period (the first 3 years of formal education). Variations in early knowledge of symbolic representations of number and the ordinal associations between them are direct predictors of later arithmetic skills. The development of number ordering ability is in turn predicted by earlier variations in arithmetic, the ANS (numerosity judgments), and rapid automatized naming (RAN). These findings have important implications for theories of numerical and arithmetical development and potentially for the teaching of these skills.

摘要

有证据表明，近似数量系统（ANS）和符号数量理解的早期发展差异都会影响后期正式算术技能的发展。我们报告了一项大规模（N=552）的纵向研究，该研究预测了在关键发展时期（正式教育的头 3 年）的算术发展的预测因素。早期对数字符号表示及其之间的顺序关系的知识变化是后期算术技能的直接预测因素。数字排序能力的发展反过来又受到早期算术、ANS（数量判断）和快速自动命名（RAN）的变化的预测。这些发现对数字和算术发展理论具有重要意义，并且可能对这些技能的教学具有重要意义。

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Separable effects of the approximate number system, symbolic number knowledge, and number ordering ability on early arithmetic development.近似数量系统、符号数量知识和数量排序能力对早期算术发展的可分离影响。

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近似数量系统、符号数量知识和数量排序能力对早期算术发展的可分离影响。

Separable effects of the approximate number system, symbolic number knowledge, and number ordering ability on early arithmetic development.

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