Amy E. Learmonth scite author profile

Previous studies have shown that disoriented children use the geometric features of the environment to reorient, but the results have not consistently demonstrated whether children can combine such information with landmark information. Results indicating that they cannot suggest the existence of a geometric module for reorientation. However results indicating that children can use geometric information in combination with landmark information challenge the modularity interpretation. An uncontrolled variable in the studies yielding conflicting results has been the size of the experimental space. In the present studies, which tested young children in spaces of two different sizes, the size of the space affected their ability to use available landmark information. In the small space, the children did not use the landmark to reorient, but in the large space they did. The ability of children to use landmarks in combination with geometric information raises important questions about the existence of an encapsulated geometric module.

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Why size counts: children's spatial reorientation in large and small enclosures

Learmonth

Newcombe

Sheridan

et al. 2008

Developmental Science

145

109

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When mobile organisms are spatially disoriented, for instance by rapid repetitive movement, they must re-establish orientation. Past research has shown that the geometry of enclosing spaces is consistently used for reorientation by a wide variety of species, but that non-geometric features are not always used. Based on these findings, some investigators have postulated a species-universal 'geometric module' that is transcended by the acquisition of spatial language at 6 years. This conclusion has been challenged, however, by findings that children as young as 18 months actually do use features to reorient in larger enclosures than those used in the original experiments. The reason for the room size effect is explored here in five experiments. Collectively, the data on age at which features are first used point to the importance of both restriction of movement in the small space and the fact that features are closer in the small space. In addition, success is seen at younger ages when the target object is adjacent to the feature. These results favor an adaptive combination model of spatial reorientation over a 'module-plus-language' view.

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Generalization of deferred imitation during the first year of life

Learmonth

Lamberth

Rovee‐Collier

2004

Journal of Experimental Child Psychology

101

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Infants’ coding of location in continuous space

Newcombe

Huttenlocher

Learmonth

1999

Infant Behavior and Development

123

101

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Amy E. Learmonth

Toddlers' Use of Metric Information and Landmarks to Reorient

Children's Use of Landmarks: Implications for Modularity Theory

Why size counts: children's spatial reorientation in large and small enclosures

Generalization of deferred imitation during the first year of life

Infants’ coding of location in continuous space

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