Abstract
Geospatial technologies (GST) has long been used in education in many countries. Teachers and students from around the world are using desktop and Web GIS, Global Positioning Systems (GPS), Google Earth, and many other location based services available from the Internet in teaching and learning various school subjects such as geography, environmental sciences, social sciences, history, biology, and mathematics. Potentials of GST for teaching and learning have been identified in many studies. GST provides teachers with a dynamic platform where they can incorporate inquiry-based, student-centered and many other constructivist teaching methods in their lessons. Geospatial practices has a great potential for students to equip them with versatile knowledge and skills as well as to improve their achievements in lessons. Although a great majority of the literature expresses many different benefits of GST for education, some studies raise concern about its effectiveness by addressing the need to find the proper methods for its implementation. This chapter first evaluates the potentials of GST for teaching and learning and then discusses whether geospatial practices are actually effective mainly for secondary education by looking at different concerns and questions raised in the related literature.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Akerson, V. L., & Dickinson, L. E. (2003). Using GIS technology to support K-8 scientific inquiry teaching and learning. Science Educator, 12(1), 41–47.
Alibrandi, M. (2003). GIS in the classroom: Using Geographic Information Systems in social studies and environmental science. Portsmouth: Heinemann.
Audet, R. (1993). Developing a theoretical basis for introducing Geographic Information Systems into high schools: Cognitive implications. PhD dissertation. School of Education, Boston University, Boston.
Audet, R. H., & Abegg, G. L. (1996). Geographic Information Systems: Implications for problem solving. Journal of Research in Science Teaching, 33(1), 21–45.
Audet, R. H., & Paris, J. (1997). GIS implementation model for schools: Assessing the critical concerns. Journal of Geography, 96(6), 293–300.
Baker, T. R. (2005). Internet-based GIS mapping in support of K–12 education. The Professional Geographer, 57(1), 44–50.
Baker, T. R., & Bednarz, S. W. (2003). Lessons learned from reviewing research in GIS education. Journal of Geography, 102(6), 231–233.
Baker, T. R., & White, S. H. (2003). The effects of GIS on students’ attitudes, self-efficacy, and achievement in middle school science classrooms. Journal of Geography, 102(6), 243–254.
Baker, T. R., Palmer, A. M., & Kerski, J. J. (2009). A national survey to examine teacher professional development and implementation of desktop GIS. Journal of Geography, 108(4–5), 174–185.
Bednarz, S. W. (2004). Geographic Information Systems: A tool to support geography and environmental education? GeoJournal, 60, 191–199.
Bednarz, S., & Audet, R. (1999). The status of GIS technology in teacher preparation programs. Journal of Geography, 98, 60–67.
Bednarz, S. W., & Ludwig, G. (1997). Ten things higher education needs to know about GIS in primary and secondary education. Transactions in GIS, 2(2), 123–133.
Bednarz, S. W., & van der Schee, J. (2006). Europe and the United States: The implementation of Geographic Information Systems in secondary education in two contexts. Technology, Pedagogy and Education, 15(2), 191–205.
Benimmas, A., Kerski, J., & SolÃs, P. (2011). The impact of a geographic technologies professional development institute on Middle Eastern and North African teachers. International Research in Geographical and Environmental Education, 20(1), 21–45.
Bevainis, L. (2008). Applying the GIS in school education: The experience of Japanese geography teachers. Geografija, 44(2), 36–40.
Biilmann, O. (2001). GIS and remote sensing in primary and secondary education: Rationale, strategies and didactics. In D. R. Green (Ed.), GIS: A sourcebook for schools (pp. 137–144). London: Taylor & Francis.
Breetzke, G., Eksteen, S., & Pretorius, E. (2011). Paper-based GIS: A practical answer to the implementation of GIS education into resource-poor schools in South Africa. Journal of Geography, 110(4), 148–157.
Chun, B. A., & Hong, I. (2007). Integrating GIS with geographic and environmental education into K-12: An interdisciplinary curriculum development entitled studying the environment of Eighteenmile Creek. Journal of the Korean Geographical Society, 42(2), 295–313.
DeMers, M. N., & Vincent, J. S. (2008). ArcAtlas in the classroom: Pattern identification, description, and explanation. Journal of Geography, 106(6), 277–284.
Demirci, A. (2008). Evaluating the implementation and effectiveness of GIS-based applications in secondary school geography lessons. American Journal of Applied Sciences, 5(3), 169–178.
Demirci, A. (2011). Using Geographic Information Systems (GIS) at schools without a computer laboratory. Journal of Geography, 110(2), 49–59.
Demirci, A., Karaburun, A., & Kılar, H. (2013a). Using Google Earth as an educational tool in secondary school geography lessons. International Research in Geographical and Environmental Education, 22(4), 277–290.
Demirci, A., Karaburun, A., & Ünlü, M. (2013b). Implementation and effectiveness of GIS-based projects in secondary schools. Journal of Geography, 112(5), 214–228.
Doering, A., & Veletsianos, G. (2008). An investigation of the use of real-time, authentic geospatial data in the K–12 classroom. Journal of Geography, 106(6), 217–225.
Favier, T. T., & Van der Schee, J. (2012). Exploring the characteristics of an optimal design for inquiry-based geography education with Geographic Information Systems. Computers & Education, 58, 666–677.
Goldstein, D., & Alibrandi, M. (2013). Integrating GIS in the middle school curriculum: Impacts on diverse students’ standardized test scores. Journal of Geography, 112(2), 68–74.
Goodchild, M. F., & Kemp, K. K. (1990). The NCGIA core curriculum in GIS. Santa Barbara: National Center for Geographic Information and Analysis.
Henry, P., & Semple, H. (2012). Integrating online GIS into the K–12 curricula: Lessons from the development of a collaborative GIS in Michigan. Journal of Geography, 111(1), 3–14.
Huang, K. H. (2011). A GIS-interface web site: Exploratory learning for geography curriculum. Journal of Geography, 110(4), 158–165.
Huynh, N. T. (2009). The role of geospatial thinking and geographic skills in effective problem solving with GIS: K-16 education. Unpublished PhD thesis, Wilfrid Laurier University, Waterloo.
Johnson, N. D., Lang, N. P., & Zophy, K. T. (2011). Overcoming assessment problems in Google Earth-based assignments. Journal of Geoscience Education, 59, 99–105.
Keiper, T. A. (1999). GIS for elementary students: An inquiry into a new approach to learning geography. Journal of Geography, 98(2), 47–59.
Kerski, J. J. (2003). The implementation and effectiveness of geographic information systems technology and methods in secondary education. Journal of Geography, 102(3), 128–137.
Kerski, J. J. (2008). The role of GIS in digital earth education. International Journal of Digital Earth, 1(4), 326–346.
Kerski, J. J., Demirci, A., & Milson, A. J. (2013). The global landscape of GIS in secondary education. Journal of Geography, 112(6), 232–247.
Kidman, G. C., & Palmer, G. (2006). GIS: The technology is there but the teaching is yet to catch up. International Research in Geographical and Environmental Education, 15(3), 289–296.
Kim, M., Bednarz, R., & Lee, S. (2011). GIS education for teachers in South Korea: Who participates and why? Journal of the Korean Geographical Society, 46(3), 382–395.
Lay, J., Chen, Y., & Chi, Y. (2013). GIS adoption among senior high school geography teachers in Taiwan. Journal of Geography, 112(3), 120–130.
Lee, J., & Bednarz, R. (2009). Effect of GIS learning on spatial thinking. Journal of Geography in Higher Education, 33(2), 183–198.
Lee, J., & Bednarz, R. (2012). Components of spatial thinking: Evidence from a spatial thinking ability test. Journal of Geography, 111(1), 15–26.
Lemberg, D., & Stoltman, J. P. (2001). Geography teaching and the new technologies: Opportunities and challenges. Journal of Education, 181(3), 63–76.
Lidstone, J., & Stoltman, J. (2006). Editorial: Searching for, or creating, knowledge: The roles of Google and GIS in geographical education. International Research in Geographical and Environmental Education, 15(3), 205–209.
Linn, S., Kerski, J., & Wither, S. (2005). Development of evaluation tools for GIS: How does GIS affect student learning? International Research in Geographical and Environmental Education, 14(3), 217–224.
Liu, S., & Zhu, X. (2008). Designing a structured and interactive learning environment based on GIS for secondary geography education. Journal of Geography, 107(1), 12–19.
Liu, Y., Bui, E. N., Chang, C., & Lossman, H. G. (2010). PBL-GIS in secondary geography education: Does it result in higher-order learning outcomes? Journal of Geography, 109(4), 150–158.
Meyer, J. W., Butterick, J., Olkin, M., & Zack, G. (1999). GIS in the K-12 curriculum: A cautionary note. Professional Geographers, 51(4), 571–578.
Milson, A. J., & Earle, B. D. (2008). Internet-based GIS in an inductive learning environment: A case study of ninth-grade geography students. Journal of Geography, 106(6), 227–237.
Milson, A. J., & Kerski, J. J. (2012). Around the world with geospatial technologies. Social Education, 76(2), 105–108.
Milson, A. J., Demirci, A., & Kerski, J. J. (Eds.). (2012a). International perspectives on teaching and learning with GIS in secondary schools. New York: Springer.
Milson, A. J., Kerski, J. J., & Demirci, A. (2012b). The world at their fingertips: A new age for spatial thinking. In A. J. Milson, J. J. Kerski, & A. Demirci (Eds.), International perspectives on teaching and learning with GIS in secondary schools (pp. 115–137). New York: Springer.
Nellis, M. D. (1994). Technology in geographic education: Reflections and future directions. Journal of Geography, 93(1), 36–39.
Nielsen, C. P., Oberle, A., & Sugumaran, R. (2011). Implementing a high school level geospatial technologies and spatial thinking course. Journal of Geography, 110(2), 60–69.
Patterson, M. W., Reeve, K., & Page, D. (2003). Integrating Geographic Information Systems into the secondary curricula. Journal of Geography, 102(6), 275–281.
Perkins, N., Hazelton, E., Erickson, J., & Allan, W. (2010). Place-based education and Geographic Information Systems: Enhancing the spatial awareness of middle school students in Maine. Journal of Geography, 109(5), 213–218.
Roulston, S. (2013). GIS in Northern Ireland secondary schools: Mapping where we are now. International Research in Geographical and Environmental Education, 22(1), 41–56.
Schultz, R. B., Kerski, J. J., & Patterson, T. C. (2008). The use of virtual globes as a spatial teaching tool with suggestions for metadata standards. Journal of Geography, 107(1), 27–34.
Shin, E. (2006). Using Geographic Information System (GIS) to improve fourth graders’ geographic content knowledge and map skills. Journal of Geography, 105(3), 109–120.
Shin, E. (2007). Using Geographic Information System (GIS) technology to enhance elementary students’ geographic understanding. Theory & Research in Social Education, 35(2), 231–255.
Stoltman, J., & De Chano, L. (2003). Continuity and change in geography education: Learning and teaching. In R. Gerber (Ed.), International handbook on geographical education (pp. 115–137). Dordrecht: Kluwer.
Svatonova, H., & Mrazkova, K. (2010). Geoinformation technologies: New opportunities in geography education? In M. V. Zuljan & J. Vogrinc (Eds.), Facilitating effective student learning through teacher research and innovation (pp. 331–348). Ljubljana: University of Ljubljani.
Wang, Y. H., & Chen, C. M. (2013). GIS education in Taiwanese senior high schools: A national survey among geography teachers. Journal of Geography, 112(2), 75–84.
Wechsler, S. P., & Pitts, L. A. (2004). GIS in high school integrates geography with technology: A case study. The California Geographer, 44, 38–54.
West, B. A. (2003). Student attitudes and the impact of GIS on thinking skills and motivation. Journal of Geography, 102(6), 267–274.
West, B. A. (2008). Conceptions of Geographic Information Systems (GIS) held by senior geography students in Queensland. Unpublished PhD thesis, Queensland University of Technology, Brisbane.
Wiegand, P. (2001). Geographical Information Systems (GIS) in education. International Research in Geographical and Environmental Education, 10(1), 68–71.
Wiegand, P. (2003). School students’ understanding of choropleth maps: Evidence from collaborative mapmaking using GIS. Journal of Geography, 102(6), 234–242.
Wilder, A., Brinkerhoff, J. D., & Higgins, T. M. (2003). Geographic information technologies and project-based science: A contextualized professional development approach. Journal of Geography, 102(6), 255–266.
Acknowledgement
I would like to thank Joseph J. Kerski for his valuable contribution to this chapter with his ideas, especially about what effectiveness means in teaching and learning with GST.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer Japan
About this chapter
Cite this chapter
Demirci, A. (2015). The Effectiveness of Geospatial Practices in Education. In: Muñiz Solari, O., Demirci, A., Schee, J. (eds) Geospatial Technologies and Geography Education in a Changing World. Advances in Geographical and Environmental Sciences. Springer, Tokyo. https://doi.org/10.1007/978-4-431-55519-3_12
Download citation
DOI: https://doi.org/10.1007/978-4-431-55519-3_12
Publisher Name: Springer, Tokyo
Print ISBN: 978-4-431-55518-6
Online ISBN: 978-4-431-55519-3
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)