Dissociation between small and large numerosities in newborn infants

Coubart, Aurélie; Izard, Véronique; Spelke, Elizabeth S.; Marie, J; Stréri, Arlette

doi:10.1111/desc.12108

Cited by 65 publications

(67 citation statements)

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“…In contrast, infants who experienced opposite changes in numerosity and length from familiarization to test showed no differential looking at the two test displays (M = 32.5 s vs. 35.3 s; F < 1, P > 0.6) even though, in this group, the duration of individual syllables and the line length changed concordantly. This finding suggests that newborns were attending to the overall numerosity of the sequences, as in previous research (8,10 numerical cues, newborn infants spontaneously linked auditory events of longer duration to visual lines of greater length.…”

Section: Resultssupporting

confidence: 79%

“…We now know that human newborns, and even inexperienced animals such as newly hatched chicks, are able to discriminate objects on the basis of numerosity a few hours after the start of postnatal experience (8,9). When human newborns are presented with auditory sequences of syllables and visual arrays of objects, they look longer at the arrays that correspond to the auditory sequences in number than at arrays differing in number by a 1:3 ratio (8,10). At birth, humans thus possess representations of approximate numerosity that are abstract enough to enable a generalization across stimuli as varied as sequences of syllables and sets of visual objects.…”

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confidence: 99%

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Representations of space, time, and number in neonates

Hevia

Izard

Coubart

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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A rich concept of magnitude-in its numerical, spatial, and temporal forms-is a central foundation of mathematics, science, and technology, but the origins and developmental relations among the abstract concepts of number, space, and time are debated. Are the representations of these dimensions and their links tuned by extensive experience, or are they readily available from birth? Here, we show that, at the beginning of postnatal life, 0-to 3-dold neonates reacted to a simultaneous increase (or decrease) in spatial extent and in duration or numerical quantity, but they did not react when the magnitudes varied in opposite directions. The findings provide evidence that representations of space, time, and number are systematically interrelated at the start of postnatal life, before acquisition of language and cultural metaphors, and before extensive experience with the natural correlations between these dimensions.T he origins of the abstract concepts of space, time, and number are longstanding topics of study, from the dawn of philosophy (1) and experimental psychology (2) to classical developmental psychology (3) and modern cognitive science (4-6). Kant (7) argued that representations of number, space, and time provide "a priori" intuitions and concepts that precede and structure all experience. Modern cognitive science provides methods to test these ideas experimentally. We now know that human newborns, and even inexperienced animals such as newly hatched chicks, are able to discriminate objects on the basis of numerosity a few hours after the start of postnatal experience (8, 9). When human newborns are presented with auditory sequences of syllables and visual arrays of objects, they look longer at the arrays that correspond to the auditory sequences in number than at arrays differing in number by a 1:3 ratio (8, 10). At birth, humans thus possess representations of approximate numerosity that are abstract enough to enable a generalization across stimuli as varied as sequences of syllables and sets of visual objects. Are newborn human infants able to perform further, yet more abstract, generalizations across different types of magnitudes?Humans draw links between the dimensions of space, time and number, as shown by the presence of "number lines" (11, 12) and the use of spatial language to refer to time (13). Human adults link these dimensions automatically. When processing spatial and temporal, or spatial and numerical information simultaneously, representations of time and number are both affected by the spatial dimension (14, 15). The propensity to represent numerical magnitudes by the lengths of line segments (number lines) is a widespread phenomenon not only across cultures and species but also over human development. Human infants (16, 17), children (18, 19), educated human adults (18,20), and uneducated adults living in remote cultures (11) map numbers onto corresponding line lengths. Similarly, spatial-temporal mappings show the universal effects of one of these dimensions on the other, both in human a...

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Section: Resultssupporting

confidence: 79%

mentioning

confidence: 99%

Representations of space, time, and number in neonates

Hevia

Izard

Coubart

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

Self Cite

267

196

View full text Add to dashboard Cite

show abstract

“…The capacity of this system might not be strictly determined by the number of objects but by the number of "slots" available, which can contain chunks of objects defined by information about color, motion, spatial arrangement, or conceptual category (Feigenson andHalberda, 2004, 2008;Rosenberg and Feigenson, 2013;Wynn et al, 2002;Zosh et al, 2011). There is preliminary evidence that this system might be functional from birth, albeit with a set-size limit of two objects (Coubart et al, 2014).…”

Section: Two Cognitive Systems For Nonverbal Numerical Representationmentioning

confidence: 99%

Core mathematical abilities in infants

Hevia

2016

Progress in Brain Research

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“…Numerical acuity dramatically increases in children between 3 and 5 years-the same period during which children acquire verbal counting Shusterman, Cheung, Taggart et al 3 (Halberda & Feigenson, 2008)-and eventually reaches a discriminability ratio of about 7:8 in Western adults (Barth, Kanwisher, & Spelke, 2003). Developmental change is also evident in the PI system: Newborns can track only two objects (Coubart, Izard, Spelke, Marie, & Streri, 2014); 12-month-olds fail tasks requiring them to track more than three objects simultaneously (Feigenson & Carey, 2003; between the ages of 3 and 6, this limit increases to sets of four or even five (O'Hearn, Hoffman, & Landau, 2011;Ross-Sheehy, Oakes, & Luck, 2003;Starkey & Cooper, 1995).…”

mentioning

confidence: 97%

Conceptual correlates of counting: Children’s spontaneous matching and tracking of large sets reflects their knowledge of the cardinal principle

et al. 2017

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The acquisition of counting is a major milestone for children. A central question is how children’s non-verbal number concepts change as they learn to count. We assessed children’s verbal counting knowledge using the Give-N task and identified children who had acquired the cardinal principle (Cardinal Principle Knowers, or CP-knowers) and those who had not (Subset-Knowers, or SS-knowers). We compared their performance on two tests of nonverbal numerical cognition. We report comparable performance between SS- and CP-knowers for matching and tracking small sets of objects up to four, but disparate performance for sets between five and nine, with CP-knowers outperforming SS-knowers. These results indicate that the difference between CP- and SS-knowers extends beyond their knowledge of the verbal number system to their non-verbal quantitative reasoning. The findings provide support for the claim that children’s induction of cardinality represents a conceptual transition with concurrent, qualitative changes in numerical representation.

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Dissociation between small and large numerosities in newborn infants

Cited by 65 publications

References 64 publications

Representations of space, time, and number in neonates

Representations of space, time, and number in neonates

Core mathematical abilities in infants

Conceptual correlates of counting: Children’s spontaneous matching and tracking of large sets reflects their knowledge of the cardinal principle

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