References
Anderson, D. L., Fisher, K. M., and Norman, G. L. (2002). Development and validation of the conceptual inventory of natural selection. Journal of Research in Science Teaching, 39, 952–978.
Anderson, S. W., and Libarkin, J. C. (2016). Conceptual mobility and entrenchment in introductory geoscience courses: New questions regarding physics’ and chemistry’s role in learning Earth science concepts. Journal of Geoscience Education, 64, 74–86.
Arthurs, L., Hsia, J. F., and Schweinle, W. (2015). The Oceanography Concept Inventory: A semicustomizable assessment for measuring student understanding of oceanography. Journal of Geoscience Education, 63, 310–322.
Baldwin, K. A., and Cooper, C. M. (2014). Online and on-campus historical geology students’ prior ideas about global climate change. Journal of Geoscience Education, 62, 410–416.
Bilici, S. C., Armagan, F. O., Cakir, N. K., and Yuruk, N. (2011). The development of an Astronomy Concept Inventory (ACI). Procedia Social and Behavioral Sciences, 15, 2454–2458.
Bodzin, A. M., Anastasio, D., Sahagian, D., Peffer, T., Dempsey, C., and Steelman, R. (2014). Investigating climate change understandings of urban middle-level students. Journal of Geoscience Education, 62, 417–430.
Bransford, J., Brown, A. L., and Cocking, R. R. (eds.). (2000). How People Learn: Brain, Mind, Experience, and School, Washington, DC: National Research Council.
Capps, D. K., McAllister, M., and Boone, W. J. (2013). Alternative conceptions concerning the Earth’s interior exhibited by Honduran students. Journal of Geoscience Education, 61, 231–239.
Cheek, K. A. (2010). Commentary: A summary and analysis of twenty-seven years of geoscience conceptions research. Journal of Geoscience Education, 58, 122–134.
Chi, M. T. H., Slotta, J. D., and de Leeuw, N. (1994). From things to processes: A theory of conceptual change for learning science concepts. Learning and Instruction, 4, 27–43.
Clark, S. K., Libarkin, J. C., Kortz, K. M., and Jordan, S. C. (2011). Alternative conceptions of plate tectonics held by nonscience undergraduates. Journal of Geoscience Education, 59, 251–262.
Dahl, J., Anderson, S. W., and Libarkin, J. C. (2005). Digging into Earth science: Alternative conceptions held by K-12 teachers. Journal of Science Education, 6, 65–68.
Dahl, R. M. (2018). Education research as applied to paleontology education: How people learn and how we can teach more effectively. Paleontological Society Short Course: Pedagogy and Technology in the Modern Paleontology Classroom. Elements of Paleontology.
D’Avanzo, C. (2008). Biology concept inventories: Overview, status, and next steps. BioScience, 58, 1079–1085.
Dodick, J. T., and Orion, N. (2003). Measuring student understanding of “deep time.” Science Education, 87, 708–731.
Dole, J. A., and Sinatra, G. M. (1998). Reconceptualizing change in the cognitive construction of knowledge. Educational Psychologist, 33, 109–128.
Donovan, M. S., and Bransford, J. D. (2005). How Students Learn Science in the Classroom, Washington, DC: National Academies Press.
Dove, J. E. (1998). Students’ alternative conceptions in Earth science: A review of research and implications for teaching and learning. Research Papers in Education, 13, 183–201.
Driver, R., and Easley, J. (1978). Pupils and paradigms: A review of literature related to concept development in adolescent science students. Studies in Science Education, 5, 61–84.
Driver, R., and Erickson, G. (1983). Theories-in-action: Some theoretical and empirical issues in the study of students’ conceptual frameworks in science. Studies in Science Education, 10, 37–60.
Driver, R., Guesne, E., and Tiberghien, A. (1985). Children’s Ideas in Science, Milton Keynes, UK: Open University Press.
Driver, R., Squires, A., Rushworth, P., and Wood-Robinson, V. (1994). Making Sense of Secondary Science: Research into Children’s Ideas, London: Routledge.
Duit, R., and Treagust, D. F. (2003). Conceptual change: A powerful framework for improving science teaching and learning. International Journal of Science Education, 25, 671–688.
Earth Science Literacy Initiative. (2010). Earth Science Literacy Principles: The Big Ideas and Supporting Concepts of Earth Science, www.earthscienceliteracy.org. Accessed November 28, 2017. Felzmann, D. (2017). Students’ conceptions of glaciers and ice ages: Applying the Model of Educational Reconstruction to improve learning. Journal of Geoscience Education, 65, 322–355.
Francek, M. (2013). A compilation and review of over 500 geoscience misconceptions. International Journal of Science Education, 35, 31–64.
Fulwiler, T. (1987). Teaching with Writing, Portsmouth, NH: Heineman.
Garvin-Doxas, K., and Klymkowsky, M. W. (2008). Understanding randomness and its impact on student learning: Lessons learned from building the Biology Concept Inventory (BCI). CBE – Life Sciences Education, 7, 227–233.
Hestenes, D., Wells, M., and Swackhammer, G. (1992). Force concept inventory. The Physics Teacher, 30, 141–151.
Hewson, P. W. (1981). A conceptual change approach to learning science. European Journal of Science Education, 3, 383–396.
Hewson, P. W. (1992). Conceptual change in science teaching and teacher education. Paper presented in June 1992, National Center for Educational Research, Documentation, and Assessment, Madrid, Spain, www.learner.org/workshops/lala2/support/hewson.pdf. Accessed November 27, 2017. Hewson, P. W., and Hewson, M. G. A’B. (1988). An appropriate conception of teaching science: A view from studies of science learning. Science Education, 72, 597–614.
Hidalgo, A. J., and Otero, J. (2004). An analysis of the understanding of geological time by students at secondary and post-secondary level. International Journal of Science Education, 26, 845–857.
Johnson, J. K., and Reynolds, S. J. (2005). Concept sketches: Using student- and instructor-generated, annotated sketches for learning, teaching, and assessment in geology courses. Journal of Geoscience Education, 53, 85–95.
Jolley, A., Jones, F., and Harris, S. (2013). Measuring student knowledge of landscapes and their formation timespans. Journal of Geoscience Education, 61, 240–251.
Keeley, P. (2005). Science Curriculum Topic Study: Bridging the Gap between Standards and Practice, Thousand Oaks, CA: Corwin Press.
Keeley, P. (2008). Science Formative Assessment: 75 Practical Strategies for Linking Assessment, Instruction, and Learning, Thousand Oaks, CA: Corwin Press.
Keeley, P. (2015a). Mountaintop fossil: A puzzling phenomenon. Science and Children, 53(4), 24–26.
Keeley, P. (2015b). Science Formative Assessment, Vol. 2: 50 More Strategies for Linking Assessment, Instruction, and Learning, Thousand Oaks, CA: Corwin Press.
Keeley, P., Eberle, F., and Dorsey, C. (2008). Uncovering Student Ideas in Science, Vol. 3: Another 25 Formative Assessment Probes, Arlington, VA: NSTA Press.
Keeley, P., Eberle, F., and Farrin, L. (2005). Uncovering Student Ideas in Science: 25 Formative Assessment Probes, Arlington, VA: NSTA Press.
Keeley, P., Eberle, F., and Tugel, J. (2007). Uncovering Student Ideas in Science, Vol. 2: 25 More Formative Assessment Probes, Arlington, VA: NSTA Press.
Keeley, P., and Tugel, J. (2009). Uncovering Student Ideas in Science, Vol. 4: 25 New Formative Assessment Probes, Arlington, VA: NSTA Press.
Kuh, G. D. (2008). High-Impact Educational Practices: What They Are, Who Has Access to Them, and Why They Matter, Washington, DC: Association of American Colleges and Universities.
Lambert, J. L., Lindgren, J., and Bleicher, R. (2012). Assessing elementary science methods students’ understanding about global climate change. International Journal of Science Education, 34, 1167–1187.
Lee, O. (2001). Preface: Culture and language in science education: What do we know and what do we need to know? Journal of Research in Science Teaching, 38, 499–501.
Lee, O., Maerten-Rivera, J., Buxton, C., Penfield, R., and Secada, W. G. (2009). Urban elementary teachers’ perspectives on teaching science to English language learners. Journal of Science Teacher Education, 20, 263–286.
Libarkin, J. C. (2006). College student conceptions of geological phenomena and their importance in classroom instruction. Planet, 17(1), 6–9.
Libarkin, J. C., and Anderson, S. W. (2005). Assessment of learning in entry-level geoscience courses: Results from the Geoscience Concept Inventory. Journal of Geoscience Education, 53, 394–401.
Libarkin, J. C., and Anderson, S. W. (2007a). Development of the Geoscience Concept Inventory. Proceedings of the National STEM Assessment Conference, Washington DC, October 19–21, 2006, 148–158.
Libarkin, J. C., and Anderson, S. W. (2007b). The Geoscience Concept Inventory: Application of Rasch Analysis to concept inventory development in higher education. In Liu, X. and Boone, W., eds., Applications of Rasch Measurement in Science Education, Maple Grove, MN: JAM Publishers, pp. 45–73.
Libarkin, J. C., Anderson, S. W., Science, J. D., Beilfuss, M., and Boone, W. (2005). Qualitative analysis of college students’ ideas about the Earth: Interviews and open-ended questionnaires. Journal of Geoscience Education, 53, 17–26.
Libarkin, J., Jardeleza, S. E., and McElhinny, T. L. (2014). The role of concept inventories in course assessment. In Tong, V. C. H., ed., Geoscience Research and Education: Teaching at Universities, Innovations in Science Education and Technology, vol. 20, Dordrecht: Springer, pp. 275–297.
Libarkin, J. C., and Kurdziel, J. P. (2001). Research methodologies in science education: Assessing students’ alternative conceptions. Journal of Geoscience Education, 49, 378–383.
Libarkin, J. C., and Kurdziel, J. P. (2002). Research methodologies in science education: The qualitative-quantitative debate. Journal of Geoscience Education, 50, 78–86.
Libarkin, J. C., and Kurdziel, J. P. (2006). Ontology and the teaching of Earth system science. Journal of Geoscience Education, 54, 408–413.
Libarkin, J. C., Kurdziel, J. P., and Anderson, S. W. (2007). College student conceptions of geological time and the disconnect between ordering and scale. Journal of Geoscience Education, 55, 413–422.
Libarkin, J. C., Ward, E. M. G., Anderson, S. W., Kortemeyer, G., and Raeburn, S. P. (2011). Revisiting the Geoscience Concept Inventory: A call to the community. GSA Today, 21(8), 26–28.
Lindell, R., Peak, E., and Foster, T. (2007). Are they all created equal? A comparison of different concept inventory development methodologies. Physics Education Research Conference, American Institute of Physics, 883, 14–17.
Luykx, A., Lee, O., and Edwards, U. (2008). Lost in translation: Negotiating meaning in a beginning ESOL science classroom. Educational Policy, 22, 640–674.
Martínez, P., Bannan, B., and Kitsantas, A. (2012). Bilingual students’ ideas and conceptual change about slow geomorphological changes caused by water. Journal of Geoscience Education, 60, 54–66.
Mazur, E. (1997). Peer Instruction: A User’s Manual, Series in Educational Innovation, Upper Saddle River, NJ: Prentice Hall.
McConnell, D. A., Steer, D. N., Owens, K. D., and Knight, C. C. (2005). How students think: Implications for learning in introductory geoscience courses. Journal of Geoscience Education, 53, 462–470.
McConnell, D. A., Steer, D. N., Owens, K. D., Knott, J. R., Van Horn, S., Borowski, W., Dick, J., Foos, A., Malone, M., McGrew, H., Greer, L., and Heaney, P. J. (2006). Using conceptests to assess and improve student conceptual understanding in introductory geoscience courses. Journal of Geoscience Education, 54, 61–68.
McCuin, J. L., Hayhoe, K., and Hayhoe, D. (2014). Comparing the effects of traditional vs. misconceptions-based instruction on student understanding of the greenhouse effect. Journal of Geoscience Education, 62, 445–459.
McDermott, M. (2010). More than writing-to-learn. The Science Teacher, 77(1), 32–36.
McNeal, K. S., Spry, J. M., Mitra, R., and Tipton, J. L. (2014). Measuring student engagement, knowledge, and perceptions of climate change in an introductory environmental geology course. Journal of Geoscience Education, 62, 655–667.
Mulford, D. R., and Robinson, W. R. (2002). An inventory for misconceptions in first-semester general chemistry. Journal of Chemical Education, 76, 739–744.
Nathan, M. J., and Alibali, M. W. (2010). Learning sciences. Wiley Interdisciplinary Reviews: Cognitive Science, 1, 329–345.
National Survey of Student Engagement. (2005). Exploring Different Dimensions of Student Engagement, Bloomington, IN: Indiana University Center for Postsecondary Research.
Nelson-Laird, T. F., Shoup, R., Kuh, G. D., and Schwartz, M. J. (2008). The effects of discipline on deep approaches to student learning and college outcomes. Research in Higher Education, 49, 469–494.
Pavelich, M., Jenkins, B., Birk, J., Bauer, R., and Krause, S. (2004). Development of a chemistry concept inventory for use in chemistry, materials and other engineering courses. Proceedings of the American Society for Engineering Education Annual Conference and Exposition, Paper #2004–1907.
Perez, K. E., Hiatt, A., David, G. K., Trujillo, C., French, D. P., Terry, M., and Prince, R. M. (2013). The EvoDevoCI: A concept inventory for gauging students’ understanding of evolutionary developmental biology. CBE – Life Sciences Education, 12, 665–675.
Petcovic, H. L., and Ruhf, R. J. (2008). Geoscience conceptual knowledge of preservice elementary teachers: Results from the Geoscience Concept Inventory. Journal of Geoscience Education, 56, 251–260.
Phillips, W. (1991). Earth science misconceptions. The Science Teacher, 58(2), 21–23.
Piaget, J. (1967). Logique et Connaissance Scientifique, Encyclopédie de la Pléiade, Paris: Éditions Gallimard.
Piaget, J. (1973). To Understand Is to Invent, New York, NY: Grossman.
Piaget, J., and Inhelder, B. (1969). The Psychology of the Child. Translated from the French by Weaver, H.. New York, NY: Basic Books, Inc.
Posner, G. J., Strike, K. A., Hewson, P. W., and Gertzog, W. A. (1982). Accommodation of a scientific conception: Toward a theory of conceptual change. Science Education, 66, 211–227.
Raia, F. (2005). Students’ understanding of complex dynamic systems. Journal of Geoscience Education, 53, 297–308.
Rebich, S., and Gautier, C. (2005). Concept mapping to reveal prior knowledge and conceptual change in a mock summit course on global climate change. Journal of Geoscience Education, 53, 355–365.
Reichert, C., Cervato, C., Larsen, M., and Niederhauser, D. (2014). Conceptions of atmospheric carbon budgets: Undergraduate students’ perceptions of mass balance. Journal of Geoscience Education, 62, 460–468.
Reinfried, S., and Schuler, S. (2009). Die Ludwigsburg-Luzerner Bibliographie zur Alltagsvorstellungsforschung in den Geowissenschaften – ein Projekt zur Erfassung der internationalen Forschungsliteratur [The Ludwigsburg-Lucerne bibliography on conceptual change research in the geosciences – A project to establish a comprehensive collection of international research papers in the field]. Geographie und ihre Didaktik, 37, 120–135, www.ph-ludwigsburg.de/llbg.html. Accessed November 28, 2017. [Note: In German. Updated listing of papers is available for download from this website in pdf, Word, or EndNote formats.] Schoon, K. J. (1992). Students’ alternative conceptions of earth and space. Journal of Geological Education, 40, 209–214.
Sell, K. S., Herbert, B. E., Stuessy, C. L., and Schielack, J. (2006). Supporting student conceptual model development of complex Earth systems through the use of multiple representations and inquiry. Journal of Geoscience Education, 54, 396–407.
Sexton, J. M. (2012). College students’ conceptions of the role of rivers in canyon formation. Journal of Geoscience Education, 60, 168–178.
Sibley, D. F. (2005). Visual abilities and misconceptions about plate tectonics. Journal of Geoscience Education, 53, 471–477.
Smith, G. A., and Bermea, S. B. (2012). Using students’ sketches to recognize alternative conceptions about plate tectonics persisting from prior instruction. Journal of Geoscience Education, 60, 350–359.
Smith, J. I., and Tanner, K. (2010). The problem of revealing how students think: Concept inventories and beyond. CBE – Life Sciences Education, 9, 1–5.
Smith, M. K., Wood, W. B., and Knight, J. K. (2008). The Genetics Concept Assessment: A new concept inventory for gauging student understanding of genetics. CBE – Life Sciences Education, 7, 422–430.
Solano-Flores, G., and Nelson-Barber, S. (2001). On the cultural validity of science assessments. Journal of Research in Science Teaching, 38, 553–573.
Steer, D. N., Knight, C. C., Owens, K. D., and McConnell, D. A. (2005). Challenging students [sic] ideas about Earth’s interior structure using a model-based, conceptual change approach in a large class setting. Journal of Geoscience Education, 53, 415–421.
Stepans, J. (2008). Targeting Students’ Physical Science Misconceptions Using the Conceptual Change Model, 3rd edn, Saint Cloud, MN: Saiwood Publications.
Svinicki, M. (1995). Using cognitive theories to improve teaching. The Teaching Professor, 9(4), 3–4.
Teed, R., and Slattery, W. (2011). Changes in geologic time understanding in a class for preservice teachers. Journal of Geoscience Education, 59, 151–162.
Treagust, D. (1986). Evaluating students’ misconceptions by means of diagnostic multiple choice items. Research in Science Education, 16, 199–207.
Treagust, D., and Duit, R. (2008). Conceptual change: A discussion of theoretical, methodological and practical challenges for science education. Cultural Studies of Science Education, 3, 297–328.
Trend, R. D. (1998). An investigation into understanding of geological time among 10- and 11-year-old children. International Journal of Science Education, 20, 973–988.
Trend, R. D. (2000). Conceptions of geological time among primary teacher trainees, with reference to their engagement with geoscience, history, and science. International Journal of Science Education, 22, 539–555.
Trend, R. D. (2001). Deep time frameworks: A preliminary study of U.K. primary teachers’ conceptions of geological time and perceptions of geoscience. Journal of Research in Science Teaching, 38, 191–221.
Undersander, M. A., Kettler, R. M., and Stains, M. (2017). Exploring the item order effect in a geoscience concept inventory. Journal of Geoscience Education, 65, 292–303.
Vosniadou, S., and Brewer, W. F. (1992). Mental models of the Earth: A study of conceptual change in childhood. Cognitive Psychology, 24, 535–385.
Ward, E. M. G., Libarkin, J. C., Raeburn, S., and Kortemeyer, G. (2010). The Geoscience Concept Inventory Web Center provides new means for student assessment. eLearningPapers, 20, 1–14.
Weimer, M. (2002). Learner-Centered Teaching: Five Key Changes to Practice, San Francisco, CA: Jossey-Bass.
Wiggins, G., and McTighe, J. (2005). Understanding by Design, expanded 2nd edn, Alexandria, VA: Association for Supervision and Curriculum Development.
Wild, T. A., Hilson, M. P., and Farrand, K. M. (2013). Conceptual understanding of geological concepts by students with visual impairments. Journal of Geoscience Education, 61, 222–230.
Yacobucci, M. M. (2012). Using active learning strategies to promote deep learning in the undergraduate paleontology classroom. In Yacobucci, M. M. and Lockwood, R., eds., Teaching Paleontology in the 21st Century, Paleontological Society Special Publications, 12, 135–153.
Yin, Y., Shavelson, R. J., Ayala, C. C., Ruiz-Primo, M. A., Brandon, P. R., Furtak, E. M., Tomita, M. K., and Young, D. B. (2008). On the impact of formative assessment on student motivation, achievement, and conceptual change. Applied Measurement in Education, 21, 335–359.
Zull, J. E. (2004). The art of changing the brain. Educational Leadership, 62, 68–72.
