References
- American Statistical Association & National Council of Teachers of Mathematics. (2013). Preparing pre-K-12 teachers of statistics. Reston, VA: National Council of Teachers of Mathematics.
- Bakker, A., & Gravemeijer, K. (2004). Learning to reason about distribution. In D. Ben-Zvi & J. Garfield (Eds.), The challenge of developing statistical literacy, reasoning, and thinking (pp. 147–168). Dordrecht, The Netherlands: Kluwer Academic.
- Ball, D. L., Thames, M. H., & Phelps, G. (2008). Content knowledge for teaching: What makes it special? Journal of Teacher Education, 59(5), 389–407. doi:10.1177/0022487108324554
- Bargagliotti, A., & Groth, R. (2016). When mathematics and statistics collide in assessment tasks. Teaching Statistics, 38(2), 50–55.
- Chance, B., Ben-Zvi, D., Garfield, J., & Medina, E. (2007). The role of technology in improving student learning of statistics. Technology Innovations in Statistics Education, 1(1).
- Clements, D. H., & Sarama, J. (2004). Learning trajectories in mathematics education. Mathematical Thinking and Learning, 6, 81–89. doi:10.1207/s15327833mtl0602_1
- Cobb, P. (1999). Individual and collective mathematical development: The case of statistical data analysis. Mathematical thinking and learning, 1(1), 5–43.
- Cobb, P., McClain, K., & Gravemeijer, K. (2003). Learning about statistical covariation. Cognition and Instruction, 21, 1–78. doi:10.1207/S1532690XCI2101_1
- Confrey, J., & Maloney, A. (2010). The construction, refinement, and early validation of the equipartitioning learning trajectory. In K. Gomez, L. Lyons, & J. Radinsky (Eds.), Learning in the Disciplines: Proceedings of the 9th International Conference of the Learning Sciences (ICLS 2010) – Volume 1, Full Papers. Chicago, IL: International Society of the Learning Sciences. Retrieved from http://dl.acm.org/citation.cfm?id=1854484
- Daro, P., Mosher, F. A., & Corcoran, T. B. (2011). Learning trajectories in mathematics: A foundation for standards, curriculum, assessment, and instruction.
- Desimone, L. (2009). Improving impact studies of teachers’ professional development: Toward better coneptualizations and measures. Educational Researcher, 38(3), 181–199. doi:10.3102/0013189X08331140
- Duschl, R. A., Schweingruber, H. A., & Shouse, A. (Eds.). (2007). Taking science to school: Learning and teaching science in grades K-8. Washington, DC: National Academy Press.
- Franklin, C., Bargagliotti, A., Jacobbe, T., Kader, G., Spangler, D & Scheaffer, R. (2015). The Statistics Education of Teachers. Alexandria, VA: American Statistical Association. Available at www.amstat.org
- Franklin, C., Kader, G., Mewborn, D., Moreno, J., Peck, R., Perry, M., & Scheaffer, R. (2007). Guidelines for assessment and instruction in statistics education (GAISE) report: A pre-K–12 curriculum framework. Alexandria, VA: American Statistical Association. Retrieved from www.amstat.org
- Gould, R., Bargagliotti, A., Johnson, T. (forthcoming 2017). An analysis of secondary teachers’ reasoning with participatory sensing data. Statistics Education Research Journal.
- Gravemeijer, K. (2004). Local instruction theories as means of support for teachers in reform mathematics education. Mathematical Thinking and Learning, 6(2), 105–128.
- Groth, R. E. (2013). Characterizing key developmental understandings and pedagogically powerful ideas within a statistical knowledge for teaching framework. Mathematical Thinking and Learning, 15, 121–145. doi:10.1080/10986065.2013.770718
- Konold, C. (2002). Teaching concepts rather than conventions. New England Journal of Mathematics, 34(2), 69–81.
- Lesh, R., & Doerr, H. (2003). Foundations of a model and modeling perspective on mathematics teaching, learning, and problem solving.
- Makar, K., & Rubin, A. (2009). A framework for thinking about informal statistical inference. Statistics Education Research Journal, 8(1), 82–105.
- Mohan, L., Chen, J., & Anderson, C. W. (2009). Developing a multi-year learning progression for carbon cycling in socio-ecological systems. Journal of Research in Science Teaching, 46(6), 675–698. doi:10.1002/tea.v46:6
- Moore, D. S. (1997). New pedagogy and new content: The case of statistics. International statistical review, 65(2), 123–137.
- Moore, D. S., Cobb, G. W., Garfield, J., & Meeker, W. (1995). Statistics education fin de siecle. The American Statistician, 49(3), 250–260.
- Shavelson, R. J., Phillips, D. C., Towne, L., & Feuer, M. J. (2003). On the science of education design studies. Educational researcher, 32(1), 25–28.
- Silverman, J., & Thompson, P. W. (2008). Toward a framework for the development of mathematical knowledge for teaching. Journal of Mathematics Teacher Education, 11(6), 499–511. doi:10.1007/s10857-008-9089-5
- Simon, M. (2006). Key developmental understandings in mathematics: A direction for investigating and establishing learning goals. Mathematical Thinking and Learning, 8(4), 359–371. doi:10.1207/s15327833mtl0804_1
- Simon, M. A. (1995). Reconstructing mathematics pedagogy from a constructivist perspective. Journal for Research in Mathematics Education, 26(2), 114. doi:10.2307/749205
- Stevens, S., Delgado, C., & Krajcik, J. (2010). Developing a hypothetical multi-dimensional learning progression for the nature of matter. Journal of Research in Science Teaching, 47, 687–715. doi:10.1002/tea.20324
- Sztajn, P. (2011). Standards for reporting mathematics professional development in research studies. Journal for Research in Mathematics Education, 42, 220–236.
- Sztajn, P., Confrey, J., Wilson, P. H., & Edgington, C. (2012). Learning trajectory based instruction: Toward a theory of teaching. Educational Researcher, 41, 147–156. doi:10.3102/0013189X12442801
- Wild, C. J., & Pfannkuch, M. (1999). Statistical thinking in empirical enquiry. International Statistical Review, 67(3), 223–248.
- Zieffler, A., Garfield, J., Delmas, R., & Reading, C. (2008). A framework to support research on informal inferential reasoning. Statistics Education Research Journal, 7(2).