Bildung-Oriented Science Education: A Critical Review of Different Visions of Scientific Literacy
Keywords:
scientific literacy, Bildung-oriented science education, diverse perspectives, cultural context, ethical dimensionsAbstract
This critical review and meta-analysis delve into the multifaceted landscape of scientific literacy within the framework of Bildung-oriented science education. Through a systematic examination of literature, this study uncovers four key themes: First, it reveals diverse perspectives on scientific literacy, ranging from traditional views centered on factual knowledge acquisition to contemporary perspectives emphasizing critical thinking, ethics, and cultural relevance. These varied viewpoints underline the dynamic nature of scientific literacy. Second, the study highlights the profound influence of cultural and societal context on the definition of scientific literacy. It underscores that cultural values and historical experiences shape how different communities interpret scientific literacy, necessitating culturally responsive science education. Third, the analysis underscores the vital role of ethical and moral dimensions in scientific literacy within the Bildung-oriented framework. Ethical awareness and moral reasoning are essential for navigating complex ethical dilemmas in scientific advancements. Lastly, the study emphasizes the critical importance of teacher preparation and professional development. Educators must possess not only content knowledge but also pedagogical skills that foster critical thinking, ethical reflection, and cultural inclusivity. This study contributes to a deeper understanding of scientific literacy's dynamic nature, cultural sensitivity, ethical dimensions, and the indispensable role of educators. It advocates for a holistic approach to scientific literacy that equips individuals to engage responsibly and ethically with the complexities of our modern world.
References
Binkley, M., Erstad, O., Herman, J., Raizen, S., Ripley, M., & Rumble, M. (2010). Draft white paper 1: Defining 21st century skills. Available online also at: http://cms. education. gov. il/NR/rdonlyres/19B97225-84B1-4259-B423-4698E1E8171A/115804/defining21stcenturyskills. pdf [accessed in Kota Kinabalu, Malaysia: April 15, 2015].
Birdsall, S. (2022). Socioscientific issues, scientific literacy, and citizenship: Assembling the puzzle pieces. In Innovative Approaches to Socioscientific Issues and Sustainability Education: Linking Research to Practice (pp. 235-250). Singapore: Springer Nature Singapore.
Eilks, I., Rauch, F., Ralle, B., & Hofstein, A. (2013). How to allocate the chemistry curriculum between science and society. In Teaching chemistry–A studybook (pp. 1-36). Brill.
Kilag, O. K. T., Lechadores, V. M. B., Tolin, J. E., Pahayahay, D. Q., Torrefiel, A. P., & Calzada, J. R. D. (2023). Moving beyond the new normal: Understanding Flexible Learning Options (FLOs) on the parameters of Basic Education Learning Continuity Plan (BE-LCP). Science and Education, 4(2), 866-873.
Kilag, O. K. T. (2023). The role of principal leadership in enhancing personal development: an analysis of bottlenecks, lags, issues and concerns (BLICS). Science and Education, 4(8), 145-159.
Kilag, O. K. T., Uy, F. T., Abendan, C. F. K., & Malbas, M. H. (2023). Teaching leadership: an examination of best practices for leadership educators. Science and Education, 4(7), 430-445.
Kilag, O. K. T., & Sasan, J. M. (2023). Unpacking the Role of Instructional Leadership in Teacher Professional Development. Advanced Qualitative Research, 1(1), 63-73.
Kilag, O. K. T., Malbas, M. H., Miñoza, J. R., Ledesma, M. M. R., Vestal, A. B. E., & Sasan, J. M. V. (2023). The Views of the Faculty on the Effectiveness of Teacher Education Programs in Developing Lifelong Learning Competence. European Journal of Higher Education and Academic Advancement, 1(2), 92-102.
Kilag, O. K. T., Largo, J. M., Rabillas, A. R., Kilag, F. E., Angtud, M. K. A., Book, J. F. P., & Sasan, J. M. (2023). Administrators’ Conflict Management and Strategies. European Journal of Higher Education and Academic Advancement, 1(2), 22-31.
Kilag, O. K. T., Tamayo, J. M. G., Eleno, J. I., & Jalin, A. R. (2023). Enhancing Science Education in the Twenty-First Century: Advancements and Applications of Laboratory Learning. Web of Synergy: International Interdisciplinary Research Journal, 2(6), 61-71.
Kilag, O. K. T., del Socorro, A. S., Largo, J. L., Peras, C. C., Book, J. F. P., & Abendan, C. F. K. (2023). Perspectives and experiences in online teaching and learning. Science and Education, 4(6), 561-571.
Kilag, O. K. T., Ignacio, R., Lumando, E. B., Alvez, G. U., Abendan, C. F. K., Quiñanola, N. M. P., & Sasan, J. M. (2022). ICT Integration in Primary Classrooms in the Light of Jean Piaget's Cognitive Development Theory.
Kilag, O. K. T., Pasigui, R. E., Malbas, M. H., Manire, E. A., Piala, M. C., Araña, A. M. M., & Sasan, J. M. (2023). Preferred Educational Leaders: Character and Skills. European Journal of Higher Education and Academic Advancement, 1(2), 50-56.
Kilag, O. K. T., Guerrero, L. P., Abella, J. L., Samutya, M. M., Arcillo, M. T., & Asentado, D. E. (2023). Enhancing Educational Leadership: Exploring the Enneagram's Impact on Interpersonal Relationships. AMERICAN JOURNAL OF SCIENCE AND LEARNING FOR DEVELOPMENT, 2(6), 172-181.
Marks, R., Stuckey, M., Belova, N., & Eilks, I. (2014). The societal dimension in German science education–From tradition towards selected cases and recent developments. Eurasia Journal of Mathematics, Science and Technology Education, 10(4), 285-296.
Navas Iannini, A. M., & Pedretti, E. (2022). Museum staff perspectives about a sustainability exhibition: what do they tell us about scientific literacy?. International Journal of Science Education, Part B, 12(1), 1-21.
Reindal, S. M. (2013). Bildung, the Bologna process and Kierkegaard’s concept of subjective thinking. Studies in Philosophy and Education, 32, 533-549.
Sjöström, J., & Eilks, I. (2018). Reconsidering different visions of scientific literacy and science education based on the concept of Bildung. Cognition, metacognition, and culture in STEM education: Learning, teaching and assessment, 65-88.
Sjöström, J. (2018). Science teacher identity and eco-transformation of science education: comparing Western modernism with Confucianism and reflexive Bildung. Cultural Studies of Science Education, 13(1), 147-161.
Sjöström, J., Frerichs, N., Zuin, V. G., & Eilks, I. (2017). Use of the concept of Bildung in the international science education literature, its potential, and implications for teaching and learning. Studies in Science Education, 53(2), 165-192.
Sjöström, J., & Eilks, I. (2020). The Bildung theory—from von Humboldt to Klafki and beyond. Science education in theory and practice: An introductory guide to learning theory, 55- 67.
Valladares, L. (2021). Scientific literacy and social transformation: Critical perspectives about science participation and emancipation. Science & Education, 30(3), 557-587.
Van Der Leij, T., Avraamidou, L., Wals, A., & Goedhart, M. (2022). Supporting secondary students’ morality development in science education. Studies in Science Education, 58(2), 141- 181.
Vesterinen, V. M., Manassero-Mas, M. A., & Vázquez-Alonso, Á. (2013). History, philosophy, and sociology of science and science-technology-society traditions in science education: Continuities and discontinuities. In International handbook of research in history, philosophy and science teaching (pp. 1895-1925). Dordrecht: Springer Netherlands.
Zidny, R., Sjöström, J., & Eilks, I. (2020). A multi-perspective reflection on how indigenous knowledge and related ideas can improve science education for sustainability. Science & Education, 29(1), 145-185.