Abstract
Adults learning to navigate to a hidden goal within an enclosed space have been found to prefer information provided by the distal cues of an environment, as opposed to proximal landmarks within the environment. Studies with children, however, have shown that 5- or 7-year-olds do not display any preference toward distal or proximal cues during navigation. This suggests that a bias toward learning about distal cues occurs somewhere between the age of 7 years and adulthood. We recruited 5- to 11-year-old children and an adult sample to explore the developmental profile of this putative change. Across a series of 3 experiments, participants were required to navigate to a hidden goal in a virtual environment, the location of which was signaled by both extramaze and intramaze landmark cues. During testing, these cues were placed into conflict to assess the search preferences of participants. Consistent with previously reported findings, adults were biased toward using extramaze information. However, analysis of the data from children, which incorporated age as a continuous variable, suggested that older children in our sample were, in fact, biased toward using the intramaze landmark in our task. These findings suggest the bias toward using distal cues in spatial navigation, frequently displayed by adults, may be a comparatively late developing trait, and one that could supersede an initial developmental preference for proximal landmarks.
Highlights
Learning the location of important places in the world is a fundamental ability for humans and nonhuman animals alike
In contrast to studies of reorientation, a different pattern of biases has been observed in place learning experiments, where circular boundary walls are orientated by distal landmark cues
Laurance, Learmonth, Nadel, and Jacobs (2003) tested children in a virtual environment, requiring them to navigate to a goal location within a circular arena that was housed in a large square room
Summary
Learning the location of important places in the world is a fundamental ability for humans and nonhuman animals alike. The goal was visible to participants, its location did not remain in a constant position within the environment During this stage of the experiment, groups of 5- to 10-year-old children navigated to the goal as efficiently as adult participants, demonstrating effective learning about a beacon in the virtual arena. In real-world assessments of children’s navigation (i.e., those that require egocentric movement through a laboratory space rather than a virtual task), similar differences have been observed in the trajectories of learning about proximal and distal landmark cues: Children’s ability to navigate with intramaze landmarks appears to develop before they are able to navigate with extramaze landmark information (see Lehnung et al, 1998; Lehnung et al, 2003; Leplow et al, 2003; Overman, Pate, Moore, & Peuster, 1996). Performance in the 7-year-old group was split: Half of the sample navigated accurately on the basis of the remaining extramaze cues and half, like the 5-year-old group, visited unbaited locations
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