Abstract
Health is a “megatrend.” Nevertheless, the role of health and health education in science education has been less important than the role of environmental education. This is a reflection of a cultural-historical constellation in health and health promotion, as will be discussed in this chapter. The emergence of the concept of health literacy offers a promising approach for newly addressing this relationship. To this aim, a framework model for health literacy is presented. It shows explicitly that health literacy is inherently knowledge-based and thus points out a strong link between scientific literacy and health literacy. Indeed, a win-win situation exists between these two fields that is yet to be fully exploited. Several concrete examples demonstrate how the systematic analysis of health issues through the model may reveal the potential benefits of including health issues in science education. It will also be underlined that health literacy refers not only to the field of good health in its narrowest sense but also to the field of diseases and to medicine, which opens up a whole range of topics that are fascinating and relevant to students. A concrete example of a teaching unit will be presented along with a discussion of the need for institutional efforts to develop and spread such examples of best practice. To this end, two vignettes created by other authors have been included in this chapter.
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Notes
- 1.
kidsINNscience is a collaborative SICA project funded under the 7th Framework Programme of the European Union. Participating countries are Austria, Brazil, Germany, Italy, Mexico, the Netherlands, Slovenia, Spain, Switzerland and the United Kingdom. Duration: November 2009 to July 2013. For more information, see www.kidsinnscience.eu. Disclaimer: The views expressed are purely those of the writers and may not in any circumstances be regarded as stating an official position of the European Union.
- 2.
The selection had to be made amongst innovative practices originating from the other partner countries, i.e. Switzerland could not choose this innovative practice; one partner country made no preselection.
References
Antonovsky, A. (1997). Salutogenese. Zur Entmystifizierung der Gesundheit. Tübingen: dgvt Verlag.
Aikenhead, G. S. (2000). Renegotiating the culture of school science. The contribution of research. In R. Millar, J. Leach, & J. Osborne (Eds.), Improving science education (pp. 245–264). Philadelphia: Open University Press.
Baker, D. W. (2006). The meaning and the measure of healthy literacy. Journal of General Internal medicine, 21, 878–83.
Baram-Tsabari, A., Sethi, R. J., Bry, L., & Yarden, A. (2006). Using questions sent to an ask-a-scientist site to identify children’s interests in science. Science Education, 90(6), 1050–1072.
Berger, R. (2002). Einfluss kontextorientierten Physikunterrichts auf Interesse und Leistung in der Sekundarstufe II. Zeitschrift für Didaktik der Naturwissenschaften, 8, 119–32.
Bögeholz, S., Hößle, C., Langlet, J., Sander, E., & Schlüter, K. (2004). Bewerten – Urteilen – Entscheiden im biologischen Kontext: Modelle in der Biologiedidaktik. Zeitschrift für Didaktik der Naturwissenschaften, 10, 89–115.
Boghossian, P. (2006). Fear of knowledge: Against relativism and constructivism. Oxford: University Press.
Bolte, C. (2003a). Konturen wünschenswerter chemiebezogener Bildung im Meinungsbild einer ausgewählten Öffentlichkeit – Methode und Konzeption der curricularen Delphi-Studie Chemie sowie Ergebnisse aus dem ersten Untersuchungsabschnitt. Zeitschrift für Didaktik der Naturwissenschaften, 9, 7–26.
Bolte, C. (2003b). Chemiebezogene Bildung zwischen Wunsch und Wirklichkeit – Ausgewählte Ergebnisse aus dem zweiten Untersuchungsabschnitt der curricularen Delphi-Studie Chemie. Zeitschrift für Didaktik der Naturwissenschaften, 9, 27–42.
Christidou, V. (2006). Greek students’ science-related interests and experiences: Gender differences and correlations. International Journal of Science Education, 28(10), 1181–99.
Cobern, W. W., & Loving, C. C. (2001). Defining “science” in a multicultural world: implications for science education. Science Education, 85(1), 50–67.
Colicchia, G., Müller, R., & Wiesner, H. (2001). Physik und Medizin: Augenärztliche Verfahren im Physikunterricht. In R. Brechel (Ed.), Zur Didaktik der Physik und Chemie. Probleme und Perspektiven (pp. 288–290). Alsbach/Bergstraße: Leuchtturm.
Csermely, P., Rocard, M., Jorde, D., Lenzen, D., Walberg-Henriksson, H., & Hemmo, V. (2007). Science education NOW: A renewed pedagogy for the future of Europe. Brussels: European Commission, Directorate-General for Research, Science, Economy and Society.
Dragset, J., Nygaaed, H. A., Eide, G., Bondevik, M., Nortvedt, M. W., & Natvig, G. K. (2008). Sense of coherence as a resource in relation to health-related quality of life among mentally intact nursing home residents – a questionnaire study. Health and Quality of Life Outcomes, 6, 85.
Duit, R., & Treagust, D. F. (1998). Learning in science: From behaviourism towards social constructivism and beyond. In B. J. Fraser & K. G. Tobin (Eds.), International handbook of science education (pp. 3–25). Dordrecht: Kluwer.
Gadamer, H.-G. (1993). Über die Verborgenheit der Gesundheit. Aufsätze und Vorträge. Frankfurt am Main: Suhrkamp.
Geertz, C. (1973). The interpretation of cultures. New York: Basic Books.
Gräsel, C. (2000). Ökologische Kompetenz: Analyse und Förderung. München: Ludwig-Maximilians-Universität München.
Hafen, M. (2007). Mythologie der Gesundheit. Zur Integration von Salutogenese und Pathogenese. Heidelberg: Auer.
Harrison, J. K. (2005). Science education and health education: Locating the connections. Studies in Science Education (University of Leeds), 41(1), 51–90.
[HCC-Lab, 2005] Health Care Communication Laboratory, Università della Svizzera Italiana. (2005). Denkanstösse für ein Rahmenkonzept zu Health Literacy. Lugano: Università della Svizzera Italiana.
Jones, M. G., Howe, A., & Rua, M. J. (2000). Gender differences in students’ experiences, interests, and attitudes toward science and scientists. Science Education, 84(2), 180–92.
Keselman, A., Kaufman, D. R., Kramer, S., & Patel, V. L. (2007). Fostering conceptual change and critical reasoning about HIV and AIDS. Journal of Research in Science Teaching, 44(6), 844–63.
Kickbusch, I. (2006). Die Gesundheitsgesellschaft. Megatrends der Gesundheit und deren Konsequenzen für Politik und Gesellschaft. Werbach-Gamburg: Verlag für Gesundheitsförderung.
Kolstø, S. D., et al. (2006). Science students’ critical examination of scientific information related to socioscientific issues. Science Education, 90(4), 632–55.
Marglin, S. (2008). The dismal science. How thinking like an economist undermines community. Cambridge: Harvard University Press.
Miller, P. H., Slawinski Blessing, J., & Schwartz, S. (2006). Gender differences in high-school students’ views about science. International Journal of Science Education, 28(4), 363–81.
Müller, W. (1999). Physik und Medizin – ein themenorientiertes Unterrichtskonzept für fachübergreifende physikalische Bildung. In Beiträge zur Didaktik und Methodik des Physikunterrichts. Festschrift für Hans-Joachim Wilke (110–137). Berlin: Volk und Wissen.
Naidoo, J., & Wills, J. (2003). Lehrbuch der Gesundheitsförderung, umfassend und anschaulich mit vielen Beispielen und Projekten aus der Praxis der Gesundheitsförderung. Gamburg: Verlag für Gesundheitsförderung.
Osborne, J., & Dillon, J. (2008). Science education in Europe: Critical reflections. A report to the Nuffield foundation. London: King’s College London.
Phelan, P., Davidson, A. L., & Cao, H. T. (1991). Students multiple worlds – Negotiating the boundaries of family, peer, and school cultures. Anthropology & Education Quarterly, 22, 224–50.
Sadler, T. D. (2004). Informal reasoning regarding socioscientific issues: A critical review of research. Journal of Research in Science Teaching, 41(5), 513–36.
Schwartz-Bloom, R. D., & Halpin, M. J. (2003). Integrating pharmacology topics in high school biology and chemistry classes improves performance. Journal of Research in Science Teaching, 40(9), 922–38.
Searle, J. R. (2004). Mind – a brief introduction. Cambridge: Oxford University Press.
Todt, E., & Götz, C. (1998). Interesse von Jugendlichen an der Gentechnologie. Zeitschrift für Didaktik der Naturwissenschaften, 4(1), 3–11.
Vogt, H., Upmeier, Zu, Belzen, A., Schröer, T., & Hoek, I. (1999). Unterrichtliche Aspekte im Fach Biologie, durch die Unterricht aus Schülersicht als interessant erachtet wird. Zeitschrift für Didaktik der Naturwissenschaften, 5(3), 75–85.
Zeyer, A., & Welzel, M. (2005). Was Seife mit dem ersten Schrei des Neugeborenen zu tun hat. Praxis der Naturwissenschaften: Physik in der Schule, 7(54), 40–4.
Zeyer, A. (2006). Medizin – Fundgrube für Integrierte Themen. In A. Zeyer & M. Wyss (Eds.), Interdisziplinarität im Unterricht auf der Sekundarstufe II (pp. 65–85). Zürich/Bern: Pestalozzianum/hep.
Zeyer, A., & Welzel, M. (2006). Was Viskosität und Rheuma miteinander zu tun haben – Die Blutsenkung. Praxis der Naturwissenschaft: Physik in der Schule, 7(55), 39–44.
Zeyer, A. (2009). Public reason and teaching science in a multicultural world: A comment on cobern and loving: A comment on cobern and loving: “An essay for educators…” in the light of John Rawls’ political philosophy. Science & Education, 18(8), 1095–100.
Zeyer, A., & Roth, W.-M. (2009). A mirror of society: a discourse analytic study of 15- to 16-year-old Swiss students’ talk about environment and environmental protection. Cultural Studies of Science Education, 4(4), 961–98.
Zeyer, A., & Odermatt, F. (2009). Gesundheitskompetenz (Health Literacy) – Bindeglied zwischen Gesundheitsbildung und naturwissenschaftlichem Unterricht. Zeitschrift für Didaktik der Naturwissenschaften, 15, 265–285.
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Zeyer, A. (2012). A Win-Win Situation for Health and Science Education: Seeing Through the Lens of a New Framework Model of Health Literacy. In: Zeyer, A., Kyburz-Graber, R. (eds) Science | Environment | Health. Springer, Dordrecht. https://doi.org/10.1007/978-90-481-3949-1_9
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