1Center for Cognitive Neuroscience.
Psychol Sci. 2013 Oct;24(10):2013-9. doi: 10.1177/0956797613482944. Epub 2013 Aug 6.
Humans and nonhuman animals share an approximate number system (ANS) that permits estimation and rough calculation of quantities without symbols. Recent studies show a correlation between the acuity of the ANS and performance in symbolic math throughout development and into adulthood, which suggests that the ANS may serve as a cognitive foundation for the uniquely human capacity for symbolic math. Such a proposition leads to the untested prediction that training aimed at improving ANS performance will transfer to improvement in symbolic-math ability. In the two experiments reported here, we showed that ANS training on approximate addition and subtraction of arrays of dots selectively improved symbolic addition and subtraction. This finding strongly supports the hypothesis that complex math skills are fundamentally linked to rudimentary preverbal quantitative abilities and provides the first direct evidence that the ANS and symbolic math may be causally related. It also raises the possibility that interventions aimed at the ANS could benefit children and adults who struggle with math.
人类和非人类动物共享一个近似数量系统(ANS),该系统允许在没有符号的情况下估计和粗略计算数量。最近的研究表明,ANS 的敏锐度与整个发展过程中和成年后的符号数学表现之间存在相关性,这表明 ANS 可能是人类独特的符号数学能力的认知基础。这样的命题导致了未经检验的预测,即旨在提高 ANS 性能的训练将转移到提高符号数学能力上。在本文报道的两项实验中,我们表明,对近似的点数组进行加法和减法的 ANS 训练可以选择性地提高符号加法和减法的能力。这一发现有力地支持了这样一种假设,即复杂的数学技能与基本的前语言定量能力有着根本的联系,并首次提供了直接证据表明 ANS 和符号数学可能存在因果关系。它还提出了一种可能性,即针对 ANS 的干预措施可能会使那些在数学方面有困难的儿童和成人受益。