Abstract
Although the literature contains many examples of extensive professional development (PD) programs, most science teachers experience only a few hours of PD each year. To address this reality, alternative PD delivery tools need to be examined. Since the mid-1990s, video cases have emerged as a flexible form of PD where in-service teachers can repeatedly and vicariously view reform teaching practices enacted within the classroom context. Recently, PD developers have taken video cases to another level by embedding them into print and electronic books. In these video case-based books (VCBBs), the reader is iteratively prompted to watch a video case and read commentaries by the teacher featured in the video. In this study, we used collaborative action research (CAR) to explore what happened when a fourth-year biology teacher attempted to use a VCBB as a PD tool to enact the whole-class inquiry model (presented within the VCBB) into her curriculum. Specifically, we critically examined the extent to which the teacher was able to enact the model, the challenges she experienced, and the manner in which she utilized the VCBB. Our findings indicate that the teacher was able to use the VCBB, in conjunction with CAR, to make significant changes to her teaching practice. The results also point to the possibility of a new PD model where the VCBB provides a “vision” of reform teaching and the collaborative exploration of the VCBB as a PD tool affords the “space” needed to reach that vision.
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References
Bencze L, Hewitt J, Pedretti E (2001) Multi-media case methods in pre-service science education: enabling an apprenticeship for praxis. Res Sci Educ 31(2):191–209
Boaler J, Humphreys C (2005) Connecting mathematical ideas: middle school video cases to support teaching and learning. Heinemann, Portsmouth
Boling EC (2007) Linking technology, learning, and stories: implications from research on hypermedia video-cases. Teach Teach Educ 23(2):189–200
Borko H, Jacobs J, Eiteljorg E, Pittman ME (2008) Video as a tool for fostering productive discussions in mathematics professional development. Teach Teach Educ 24(2):417–436
Breslyn W, McGinnis JR (2012) A comparison of exemplary biology, chemistry, earth science, and physics teachers’ conceptions and enactment of inquiry. Sci Educ 96(1):48–77
Brophy JE (ed) (2004) Using video in teacher education: advances in research on teaching. (Vol. 10). Elsevier, Amsterdam
Capobianco BM (2007) Science teachers’ attempts at integrating feminist pedagogy through collaborative action research. J Res Sci Teach 44(1):1–32
Capobianco BM, Feldman A (2006) Promoting quality for teacher action research: lessons learned from science teachers’ action research. Educ Action Res 14(4):497–512
Capps D, Crawford B, Constas M (2012) A review of empirical literature on inquiry professional development: alignment with best practices and a critique of the findings. J Sci Teach Educ 23(3):291–318
Carr W, Kemmis S (1986) Becoming critical: education, knowledge, and action research. Falmer Press, London
Cochran-Smith M, Lytle S (1992) Inside/outside: teacher research and knowledge. Teachers College Press, New York
Crawford BA (2007) Learning to teach science as inquiry in the rough and tumble of practice. J Res Sci Teach 44(4):613–642
Darling-Hammond L, Wei R, Andree A, Richardson N, Orphanos S (2009) Professional learning in the learning profession: a status report on teacher development in the United States and abroad. National Staff Development Council, Dallas
Davis EA, Petish D, Smithey J (2006) Challenges new science teachers face. Rev Educ Res 76(4):607–651
Dreon O, McDonald S (2011) Being in the hot spot: a phenomenological study of two beginning teachers’ experiences enacting inquiry science pedagogy. Teach Teach 18(3):297–313
Erickson F (1986) Qualitative methods in research on teaching. In: Wittrock MC (ed) Handbook of research on teaching. Macmillan, New York, pp 119–161
Feldman A, Weiss T (2010) Understanding change in teachers’ ways of being through collaborative action research: a cultural-historical activity theory analysis. Educ Action Res 18(1):29–55
Fogleman J, McNeill KL, Krajcik J (2011) Examining the effect of teachers’ adaptations of a middle school science inquiry-oriented curriculum unit on student learning. J Res Sci Teach 48(2):149–169
Ford MJ (2008) Disciplinary authority and accountability in scientific practice and learning. Sci Educ 92(3):404–423
Koc Y, Peker D, Osmanoglu A (2009) Supporting teacher professional development through online video case study discussions: an assemblage of preservice and inservice teachers and the case teacher. Teach Teach Educ 25(8):1158–1168
Lincoln YS, Guba EG (1985) Naturalistic inquiry. Sage Publications, Inc., London
Loucks-Horsley S, Stiles KE, Mundry S, Love N, Hewson PW (2010) Designing professional development for teachers of science and mathematics, 3rd edn. Corwin Press, Thousand Oaks
Loughran J, Berry A, Mulhall P (2006) Understanding and developing science teachers’ pedagogical content knowledge. Sense Publishers, Rotterdam
Luft JA, Firestone JB, Wong SS, Ortega I, Adams K, Bang E (2011) Beginning secondary science teacher induction: a two-year mixed methods study. J Res Sci Teach 48(10):1199–1224
Lumpe A (2007) Research-based professional development: teachers engaged in professional learning communities. J Sci Teach Educ 18(1):125–128
Masingila JO, Doerr HM (2002) Understanding pre-service teachers’ emerging practices through their analyses of a multimedia case study of practice. J Math Teach Educ 5(3):235–263
McDonald S, Songer NB (2008) Enacting classroom inquiry: theorizing teachers’ conceptions of science teaching. Sci Educ 92(6):973–993
McGraw R, Lynch K, Koc Y, Budak A, Brown C (2007) The multimedia case as a tool for professional development: an analysis of online and face-to-face interaction among mathematics pre-service teachers, in-service teachers, mathematicians, and mathematics teacher educators. J Math Teach Educ 10(2):95–121
McNeill KL, Pimentel DS, Strauss EG (2011) The impact of high school science teachers’ beliefs, curricular enactments and experience on student learning during an inquiry-based urban ecology curriculum. Int J Sci Educ: 1–37. doi:10.1080/09500693.2011.618193
McNiff J (2002) Action research: principles and practice, 2nd edn. Routledge, London
McNiff J, Lomax P, Whitehead J (1996) You and your action research project. Routledge, London
Mundry S, Stiles KE (eds) (2009) Professional learning communities for science teaching: lessons from research and practice. NSTA Press, Arlington
National Research Council (1996) National science education standards. National Academy Press, Washington
National Research Council (2000) Inquiry and the national science education standards: a guide for teaching and learning. National Academy Press, Washington
Park Rogers M, Abell S, Marra R, Arbaugh F, Hutchins K, Cole J (2010) Orientations to science teacher professional development: an exploratory study. J Sci Teach Educ 21(3):309–328
Roehrig GH, Luft JA (2004) Constraints experienced by beginning secondary science teachers in implementing scientific inquiry lessons. Int J Sci Educ 26(1):3–24
Schroeder CM, Scott TP, Tolson H, Huang T-Y, Lee Y-H (2007) A meta-analysis of national research: effects of teaching strategies on student achievement in science in the United States. J Res Sci Teach 44(10):1436–1460
Schwartz MS, Sadler PM, Sonnert G, Tai RH (2009) Depth versus breadth: how content coverage in high school science courses relates to later success in college science coursework. Science Education 93(5):798–826
Seago N, Mumme J, Branca N (2004) Learning and teaching linear functions: Videocases for mathematics professional development. Heinemann, Portsmouth
Settlage J (2007) Demythologizing science teacher education: conquering the false ideal of open inquiry. J Sci Teach Educ 18(4):461–467
Sherin MG, Linsenmeier KA, van Es EA (2009) Selecting video clips to promote mathematics teachers’ discussion of student thinking. J Teach Educ 60(3):213–230
Smith PS (2002) 2000 National survey of science and mathematics education: Status of high school chemistry teaching. Horizon Research, Inc., Chapel Hill
Smithenry DW (2009a) Enacting whole-class inquiries: an analysis of an expert chemistry teacher’s interaction patterns. Paper presented at the annual meeting of the American Educational Research Association, San Diego
Smithenry DW (2009b) Integrating guided inquiry into a traditional chemistry curricular framework. Int J Sci Educ 32(13):1689–1714
Smithenry DW, Gallagher-Bolos JA (2009) Whole-class inquiry: creating student-centered science communities. NSTA Press, Arlington
Smithenry DW, Patchen T (2011) Diversifying science teaching practices without diminishing achievement. Paper presented at the annual meeting of the American Educational Research Association, New Orleans
Stoll L, Bolam R, McMahon A, Wallace M, Thomas S (2006) Professional learning communities: a review of the literature. J Educ Change 7(4):221–258
Tippins D, Nichols S, Dana T (1999) Exploring novice and experienced elementary teachers’ science teaching and learning referents through videocases. Res Sci Educ 29(3):331–352
van Es E, Sherin M (2010) The influence of video clubs on teachers’ thinking and practice. J Math Teach Educ 13(2):155–176
van Swet J, Smit BH, Covers L, van Dijk I (2009) Critical friendship as a contribution to master’s-level work in an international programme of study. Educ Action Res 17(3):339–357
Wee B, Shepardson D, Fast J, Harbor J (2007) Teaching and learning about inquiry: insights and challenges in professional development. J Sci Teach Educ 18(1):63–89
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Smithenry, D.W., Prouty, J. & Capobianco, B.M. Collaboratively Exploring the Use of a Video Case-Based Book as a Professional Development Tool. J Sci Educ Technol 22, 735–750 (2013). https://doi.org/10.1007/s10956-012-9427-3
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DOI: https://doi.org/10.1007/s10956-012-9427-3