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Literature DB >> 15672824

The geometric module in the rat: independence of shape and feature learning in a food finding task.

Patricia L Wall¹, Leigh C P Botly, Christina K Black, Sara J Shettleworth.

Abstract

Rats found food in a rectangular enclosure in three experiments testing how learning about a distinctive feature near a goal interacts with learning based on the geometry of an enclosure. Rats trained to follow a feature in square and triangular enclosures and to use geometry in the rectangle followed the feature when it was in the rectangle (Experiment 1). Rats trained with the feature in a geometrically consistent corner of the rectangle learned about both geometry and the feature (Experiment 2). Training with the feature in the square did not block learning of geometry when both predicted the location of food in the rectangle (Experiment 3). The "geometric module" (Cheng, 1986) may have a special status in spatial learning.

Entities: Species

Mesh：

Year: 2004 PMID： 15672824 DOI： 10.3758/bf03196028

Source DB: PubMed Journal: Learn Behav ISSN： 1543-4494 Impact factor: 1.986

22 in total

1. Influence of a beacon on spatial learning based on the shape of the test environment.

Authors: J M Pearce; J Ward-Robinson; M Good; C Fussell; A Aydin
Journal: J Exp Psychol Anim Behav Process Date: 2001-10

2. Finding a goal on dry land and in the water: differential effects of disorientation on spatial learning.

Authors: B M Gibson; S J Shettleworth; R J McDonald
Journal: Behav Brain Res Date: 2001-08-27 Impact factor: 3.332

3. Modularity and cognition.

Authors:
Journal: Trends Cogn Sci Date: 1999-03 Impact factor: 20.229

4. Absence of overshadowing and blocking between landmarks and the geometric cues provided by the shape of a test arena.

Authors: Andrew Hayward; Anthony McGregor; Mark A Good; John M Pearce
Journal: Q J Exp Psychol B Date: 2003-02

5. Acquisition of knowledge about spatial location: assessing the generality of the mechanism of learning.

Authors: V D Chamizo
Journal: Q J Exp Psychol B Date: 2003-02

6. Effects of repeated disorientation on the acquisition of spatial tasks in rats: dissociation between the appetitive radial arm maze and aversive water maze.

Authors: P A Dudchenko; J P Goodridge; D A Seiterle; J S Taube
Journal: J Exp Psychol Anim Behav Process Date: 1997-04

7. Mechanisms of reorientation and object localization by children: a comparison with rats.

Authors: R F Wang; L Hermer; E S Spelke
Journal: Behav Neurosci Date: 1999-06 Impact factor: 1.912

8. Sources of flexibility in human cognition: dual-task studies of space and language.

Authors: L Hermer-Vazquez; E S Spelke; A S Katsnelson
Journal: Cogn Psychol Date: 1999-08 Impact factor: 3.468

9. Rhesus monkeys use geometric and nongeometric information during a reorientation task.

Authors: S Gouteux; C Thinus-Blanc; J Vauclair
Journal: J Exp Psychol Gen Date: 2001-09

10. Modularity and development: the case of spatial reorientation.

Authors: L Hermer; E Spelke
Journal: Cognition Date: 1996-12

18 in total

Review 1. Is there a geometric module for spatial orientation? Squaring theory and evidence.

Authors: Ken Cheng; Nora S Newcombe
Journal: Psychon Bull Rev Date: 2005-02

2. Spatial encoding in mountain chickadees: features overshadow geometry.

Authors: Emily R Gray; Laurie L Bloomfield; Anne Ferrey; Marcia L Spetch; Christopher B Sturdy
Journal: Biol Lett Date: 2005-09-22 Impact factor: 3.703

3. A landmark blocks searching for a hidden platform in an environment with a distinctive shape after extended pretraining.

Authors: Murray R Horne; John M Pearce
Journal: Learn Behav Date: 2009-05 Impact factor: 1.986

The geometric module in the rat: independence of shape and feature learning in a food finding task.

1. Influence of a beacon on spatial learning based on the shape of the test environment.

2. Finding a goal on dry land and in the water: differential effects of disorientation on spatial learning.

3. Modularity and cognition.

4. Absence of overshadowing and blocking between landmarks and the geometric cues provided by the shape of a test arena.

5. Acquisition of knowledge about spatial location: assessing the generality of the mechanism of learning.

6. Effects of repeated disorientation on the acquisition of spatial tasks in rats: dissociation between the appetitive radial arm maze and aversive water maze.

7. Mechanisms of reorientation and object localization by children: a comparison with rats.

8. Sources of flexibility in human cognition: dual-task studies of space and language.

9. Rhesus monkeys use geometric and nongeometric information during a reorientation task.

10. Modularity and development: the case of spatial reorientation.

Review 1. Is there a geometric module for spatial orientation? Squaring theory and evidence.

2. Spatial encoding in mountain chickadees: features overshadow geometry.

3. A landmark blocks searching for a hidden platform in an environment with a distinctive shape after extended pretraining.

4. Factors moderating blocking in human place learning: the role of task instructions.

Review 5. 25 years of research on the use of geometry in spatial reorientation: a current theoretical perspective.

Review 6. Framing the grid: effect of boundaries on grid cells and navigation.

Review 7. Theoretical accounts of spatial learning: a neurobiological view (commentary on Pearce, 2009).

8. Geometric cues influence head direction cells only weakly in nondisoriented rats.

9. Potentiation and overshadowing between landmarks and environmental geometric cues.

10. Get out of the corner: Inhibition and the effect of location type and number on perceptron and human reorientation.