Spatial Thinking in Primary Geography Education: A Design-Based Intervention in Georgia
DOI:
https://doi.org/10.52340/ggj.2025.05.02.10Keywords:
Spatial thinking, primary level, problem-based learning, standard, design research, geography educationAbstract
Students' spatial thinking and problem-solving skills are crucial components of modern primary education. While the Georgian National Curriculum emphasises spatial representations and environmental perception skills, significant challenges exist in their practical implementation. Textbooks often lack tasks that engage students with real spatial problems and develop argumentative thinking. This article presents design research conducted in a fifth-grade class at a Tbilisi public school. The study aimed to improve students' spatial thinking and decision-making skills using the Problem-Based Learning (PBL) model. Five interventions addressed real geographical situations, including settlement planning, protected area selection, and infrastructure placement. Results showed that targeted and consistent work on spatial tasks significantly improved students' abilities to read maps, recognise spatial relationships, and make rational choices. Despite progress, certain difficulties persisted, particularly in aligning self-assessment with actual performance and developing analytical thinking components. The article examines contradictions between standards and textbooks, identifying characteristics of pedagogical practice that either facilitate or hinder spatial skills development.
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Anderson, T., & Shattuck, J. (2012). Design-based research: A decade of progress in education research? Educational Researcher, 41(1), 16–25. https://doi.org/10.3102/0013189X11428813
Avtandilashvili, G., Medzmariashvili, E., Elizbarashvili, N., & Topchishvili, R. (2018). Our Georgia. Clio
Bakker, A. (2018). Design research in education: A practical guide for early career researchers. Routledge.
Barrows, H. S. (1986). A taxonomy of problem-based learning methods. Medical Education, 20(6), 481–486. https://doi.org/10.1111/j.1365-2923.1986.tb01386.x
Buckley, J., Seery, N., & Canty, D. (2018). A heuristic framework of spatial ability: A review and synthesis of spatial factor literature to support its translation into STEM education. Educational Psychology Review, 30(4), 947–972. https://doi.org/10.1007/s10648-018-9432-z
Fiveable. (2024, August 20). Spatial thinking and geographic reasoning. https://fiveable.me/social-studies-education/unit-8/spatial-thinking-geographic-reasoning/study-guide/wT03EuVeoe4nEI34
Gersmehl, P. J., & Gersmehl, C. A. (2011). Spatial thinking by young children: Neurologic evidence for early development and "educability." Journal of Geography, 109(4), 181–191. https://doi.org/10.1080/00221340903409510
Ministry of Education (MoE). (2018). National Curriculum of Georgia. Tbilisi.
National Geographic Society. (n.d.). Geography Standard 1. Retrieved from https://education.nationalgeographic.org/resource/geography-standard-1/
National Research Council. (2006). Learning to Think Spatially. The National Academies Press.
Drafting and editing supported by OpenAI ChatGPT-4, June 2025. https://chat.openai.com
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Copyright (c) 2025 Georgian Geographical Journal
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