Abstract
The chapter presents a historical narrative of a case study of the history of biology. The narrative tells the story of the studies on freshwater “polyps” (Hydra) conducted by the Genevan naturalist Abraham Trembley, in the first half of the eighteenth century. The historical narrative is part of the instructional resources of a teaching learning sequence (TLS) using an inquiry approach produced for biology teacher training courses and secondary school students. The objectives of the TLS are to facilitate the learning of conceptual, procedural and attitudinal contents related to the current knowledge on the reproductive biology and to foster the development of informed conceptions about the nature of science using an explicit and reflective approach. The authors used design-based research and the achievement of design principles to develop the narrative and the TLS. Considering the state of the art in the area, the narrative proposed here is an educational innovation that can be extended to similar contexts, promoting more engagement and motivation to learn science through an authentic and historical context and inquiry learning.
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References
Abd-El-Khalick, F., & Lederman, N. G. (2000). The influence of history of science courses on students’ views of nature of science. Journal of Research in Science Teaching, 37(10), 1057–1095.
Adúriz-Bravo, A., & Izquierdo-Aymerich, M. (2009). A research-informed instructional unit to teach the nature of science to pre-service science teachers. Science & Education, 18, 1177–1192.
Allchin, D. (2011). Evaluating knowledge of the nature of (whole) science. Science Education, 95(3), 518–542.
Allchin, D. (2013). Teaching the nature of science: Perspectives and resources. St. Paul: SHiPS Education Press.
Allchin, D. (2014a). From science studies to scientific literacy: A view from the classroom. Science & Education, 23(9), 1911–1932.
Allchin, D. (2014b). The episodic historical narrative as a structure to guide inquiry in science and nature of science education. In 10th International Conference on History of Science & Science Education. Annals... Minneapolis: University of Minnesota.
Allchin, D., Andersen, H. M., & Nielsen, K. (2014). Complementary approaches to teaching nature of science: Integrating student inquiry, historical cases, and contemporary cases in classroom practice. Science Education, 98(3), 461–486.
Anderson, T., Shattuck, J., & Brown, A. (2014). Design-based research: A decade of progress in education research? Educational Research, 41(1), 16–25.
Bardin, L. (1977). Análise de conteúdo. Lisboa: Edições 70.
Clough, M. (2006). Learners’ responses to the demands of conceptual change: Considerations for effective nature of science instruction. Science & Education, 15(5), 463–494.
Colby, S. R. (2008). Energizing the history classroom: Historical narrative inquiry and historical empathy. Social Studies Research and Practice, 3(3), 60–79.
Dagher, Z. R., & Erduran, S. (2014). Reconceptualizing the nature of science for science education: Scientific knowledge, practices and other family categories. Dordrecht: Springer.
Duschl, R., & Grandy, R. (2012). Two views about explicitly teaching nature of science. Science & Education, 22(9), 2109–2139.
Fouad, K., Masters, H., & Akerson, V. (2015). Using history of science to teach nature of science to elementary students. Science & Education, 18(5), 561–580.
Juuti, K., & Lavonen, J. (2006). Design-based research in science education: One step towards methodology. Nordina, 4, 54–68.
Khishfe, R., & Abd-El-Khalick, F. (2002). Influence of explicit and reflective versus implicit-oriented instruction on sixth graders’ views of nature of science. Journal of Research in Science Teaching, 39(7), 551–578.
Khishfe, R., & Lederman, N. G. (2007). Relation between instructional context and views of nature of science. International Journal of Science Education, 29(8), 939–961.
Klassen, S. (2007). The application of historical narrative in science learning: The Atlantic cable story. Science & Education, 16(3–5), 335–352.
Méheut, M., & Psillos, D. (2004). Teaching-Learning sequences: Aims and tools for science education research. International Journal of Science Education, 26(5), 515–535.
Metz, D., Klassen, S., McMillan, B., Clough, M., & Olson, J. (2007). Building a foundation for the use of historical narratives. Science & Education, 16(3), 313–334.
Monk, M., & Osborne, J. (1997). Placing the history and philosophy of science on the curriculum: A model for the development of pedagogy. Science Education, 81(4), 405–424.
Norris, S., Guilbert, S., Smith, M., Hakimelahi, S., & Philips, L. (2005). A theoretical framework for narrative explanation in science. Science & Education, 89(4), 535–563.
NRC, National Research Council. (2000). Inquiry and the National Science Education Standards: A guide for teaching and learning. Washington, DC: National Academy Press.
Roach, L. E., & Wandersee, J. H. (1993). Short story science. The Science Teacher, 60(6), 18–21.
Rudge, D. W., & Howe, E. M. (2009). An explicit and reflective approach to the use of history to promote understanding of the nature of science. Science & Education, 18(5), 561–580.
Rudge, D. W., Cassidy, D. P., Fulford, J. M., & Howe, E. M. (2013). Changes observed in views of the nature of science during a historically based unit. Science & Education, 23(9), 1879–1909.
The Design-Based Research Collective. (2003). Design-based research: An emerging paradigm for educational inquiry. Educational Researcher, 32(1), 5–8.
Van den Akker, J. (1999). Principles and methods of development research. In J. Van den Akker, R. M. Branch, K. Gustafson, N. Nieveen, & T. Plomp (Eds.), Design approaches and tools in education and training (pp. 1–14). Boston: Kluwer Academic.
Vesterinen, V. M., & Aksela, M. (2013). Design of chemistry teacher education course on nature of science. Science & Education, 22(9), 2193–2225.
Wang, F., & Hannafin, M. (2005). Design-based research and technology-enhanced learning environments. Educational Technology Research and Development, 53(4), 5–23.
References of the Historical Narrative
Dawson, V. P. (1987). Nature’s enigma: The problem of the polyp in the letters of Bonnet, Trembley and Réaumur, Memoire 174 of the American Philosophical Society. Philadelphia: American Philosophical Society.
Lenhoff, S. G., & Lenhoff, H. M. (1986). Hydra and the birth of experimental biology, 1744: Abraham Trembley’s Mémoires concerning the polyps. Pacific Grove: Boxwood press.
Ratcliff, M. J. (2009). The quest for the invisible: Microscopy in the enlightenment. Farnham: Ashgate Publishing.
Trembley, A. (1744). Mémoires pour servir à l’histoire d’un genre de polypes d’eau douce, à bras en forme de cornes. Leide: Chez Jean & Herman Verbeek.
Acknowledgement
The first author thanks The Brazilian National Council for Scientific and Technological Development (CNPq, in the acronym in Portuguese), for research support.
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Berçot, F.F., Cortez, E., de Brzezinski Prestes, M.E. (2018). Abraham Trembley (1710–1784) and the Creature That Defies Classification: Nature of Science and Inquiry Through a Historical Narrative. In: Prestes, M., Silva, C. (eds) Teaching Science with Context. Science: Philosophy, History and Education. Springer, Cham. https://doi.org/10.1007/978-3-319-74036-2_11
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