TY - JOUR
T1 - Predicting large-scale spatial ability from small-scale spatial abilities in children
T2 - An application of the double-dimension framework
AU - Lasc, Daria
AU - Grinshpun, Stephanie
AU - Bixter, Michael T.
AU - Yang, Jennifer
N1 - Publisher Copyright:
© 2024 The Authors
PY - 2025/1
Y1 - 2025/1
N2 - Wayfinding, a large-scale spatial ability, involves the navigation of one's environment and can be classified into three types of knowledge: route, landmark, and survey. Newcombe and Shipley (2015) proposed a double-dimension spatial framework that classifies spatial abilities into four categories: intrinsic-static, intrinsic-dynamic, extrinsic-static, and extrinsic-dynamic. These abilities are usually assessed in small-scale environments, such as in desktop settings. Examining the relationship between wayfinding knowledge and small-scale spatial abilities has important theoretical implications for understanding spatial cognition at different environmental scales. It also has practical implications for designing more effective training programs to improve wayfinding skills. However, the existing literature linking the two is limited and mixed, especially in children. The current study utilized the double-dimension framework to examine the relationship between small-scale and large-scale spatial abilities in children. We hypothesized that intrinsic abilities should be associated with landmark knowledge while dynamic abilities should be related to route knowledge. Eight small-scale spatial tasks measuring four spatial categories and one wayfinding task measuring route and landmark knowledge were administered to 171 typically developing children between the ages of four and nine. Dynamic spatial abilities significantly predicted route knowledge and mediated the effects of age and sex on route knowledge. In addition, dynamic and intrinsic-static abilities predicted landmark knowledge and also mediated the effects of age on landmark knowledge. These results showed the associations between small-scale spatial abilities and large-scale spatial abilities were selective and specific yet strong, providing insights into further theoretical advancements in spatial cognition. Practical implications were also discussed.
AB - Wayfinding, a large-scale spatial ability, involves the navigation of one's environment and can be classified into three types of knowledge: route, landmark, and survey. Newcombe and Shipley (2015) proposed a double-dimension spatial framework that classifies spatial abilities into four categories: intrinsic-static, intrinsic-dynamic, extrinsic-static, and extrinsic-dynamic. These abilities are usually assessed in small-scale environments, such as in desktop settings. Examining the relationship between wayfinding knowledge and small-scale spatial abilities has important theoretical implications for understanding spatial cognition at different environmental scales. It also has practical implications for designing more effective training programs to improve wayfinding skills. However, the existing literature linking the two is limited and mixed, especially in children. The current study utilized the double-dimension framework to examine the relationship between small-scale and large-scale spatial abilities in children. We hypothesized that intrinsic abilities should be associated with landmark knowledge while dynamic abilities should be related to route knowledge. Eight small-scale spatial tasks measuring four spatial categories and one wayfinding task measuring route and landmark knowledge were administered to 171 typically developing children between the ages of four and nine. Dynamic spatial abilities significantly predicted route knowledge and mediated the effects of age and sex on route knowledge. In addition, dynamic and intrinsic-static abilities predicted landmark knowledge and also mediated the effects of age on landmark knowledge. These results showed the associations between small-scale spatial abilities and large-scale spatial abilities were selective and specific yet strong, providing insights into further theoretical advancements in spatial cognition. Practical implications were also discussed.
KW - Cognition
KW - Double-dimension framework
KW - Spatial abilities
KW - Spatial development
KW - Spatial navigation
KW - Wayfinding
UR - http://www.scopus.com/inward/record.url?scp=85208132077&partnerID=8YFLogxK
U2 - 10.1016/j.cognition.2024.105982
DO - 10.1016/j.cognition.2024.105982
M3 - Article
C2 - 39504680
AN - SCOPUS:85208132077
SN - 0010-0277
VL - 254
JO - Cognition
JF - Cognition
M1 - 105982
ER -