Abstract
As societal needs change and STEM solutions are offered, an increasing concern for the participation of girls in STEM has emerged. Research has consistently shown the unintended preferential treatment of boys by teachers during STEM teaching and, although well recognised, has seen limited change over the past decades. Gendered interactions, including microaggressions, influence girls’ identity formation from a young age, leading to a decrease in girls’ STEM participation. This results in the ongoing trend of underrepresentation of women in STEM fields due to underlying gender equity issues. To improve this gender gap, it is important to consider the beginning of the STEM pipeline, the early stages of education. Drawing upon the system of concepts from the cultural-historical theory, this study explores the motivating conditions created by the Conceptual PlayWorld model for girls’ engagement in STEM in the early years. Using a holistic study design, video observations of interactions and experiences within and outside the Conceptual PlayWorld were gathered from two preschool teachers and 13 children aged 2.3–3.2 years. Findings support previous research regarding the accumulation of microaggressions in free-play settings that position girls away from STEM activity. These are minimised inside the Conceptual PlayWorld due to the changed role of the teacher. It is argued that the possibilities afforded by this model positively shift interactional patterns to create motivating conditions for girls in STEM, allowing both girls and boys the opportunity to have a strong engagement and interest in STEM from the very beginning.
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Bagiati, A., & Evangelou, D. (2016). Practicing engineering while building with blocks: Identifying engineering thinking. European Early Childhood Education Research Journal, 24, 67–85.
Bøe, M. V., Henriksen, E. K., Lyons, T., & Schreiner, C. (2011). Participation in science and technology: Young people’s achievement-related choices in late-modern societies. Studies in Science Education, 47(1), 37–72.
Campbell, C., Hobbs, L., Millar, V., Ragab Masri, A., Speldewinde, C., Tytler, R., & van Driel, J. (2020). Girls’ future – Our future. The Invergowrie Foundation STEM report 2020 update. Invergowrie Foundation.
Capodilupo, C. M., Nadal, K. L., Hamit, S., Corman, L., Lyons, O., & Weinberg, A. (2010). The manifestation of gender microaggressions. In D. W. Sue (Ed.), Microaggressions and marginalized groups in society: Race, gender, sexual orientation, class and religious manifestations (pp. 193–216). Wiley.
Corrigan, D., & Aikens, K. (2020). Barriers to participation in engineering and the value of interventions to improve diversity. Monash University.
Department of Education and Training. (2009). Belonging, being & becoming: The early years learning framework for Australia. https://www.acecqa.gov.au/sites/default/files/2018-02/belonging_being_and_becoming_the_early_years_learning_framework_for_australia.pdf.
Department of Industry, Innovation and Science. (2019). Advancing women in STEM. Commonwealth of Australia.
Donaldson, J. (2003). Room on the broom. Macmillan.
Education Services Australia. (2018). Optimising STEM industry-school partnerships: Inspiring Australia’s next generation final report. Education Council.
Ferrari, M., & Mahalingam, R. (1998). Personal cognitive development and its implications for teaching and learning. Educational Psychologist, 33(1), 35–44.
Fleer, M., & Hedegaard, M. (2010). Children's development as participation in everyday practices across different institutions. Mind, Culture, and Activity, 17(2), 149–168.
Fleer, M. (2017). Scientific Playworlds: A model of teaching science in play-based settings. Research in Science Education, 49, 1257–1278.
Fleer, M. (2019a). When preschool girls engineer: Future imaginings of being and becoming an engineer. Learning, Culture and Social Interaction. https://doi.org/10.1016/j.lcsi.2019.100372.
Fleer, M. (2019b). Conceptual PlayWorlds as a pedagogical intervention: supporting the learning and development of the preschool child in play-based setting. Obutchénie: Revista De Didática E Psicologia Pedagógica, 3(3), 1–22.
Fleer, M. (2020). Studying the relations between motives and motivation – How young children develop a motive orientation for collective engineering play. Learning, Culture and Social Interaction. https://doi.org/10.1016/j.lcsi.2019.100355.
Gold, Z. S., Elicker, J., Choi, J. Y., Anderson, T., & Brophy, S. P. (2015). Preschoolers’ engineering play behaviors: Differences in gender and play context. Children, Youth and Environments, 25, 1–21.
Grossman, J. M., & Porche, M. V. (2014). Perceived gender and racial/ethnic barriers to STEM success. Urban Education, 49(6), 698–727.
Gullberg, A., Andersson, K., Danielsson, A., Scantlebury, K., & Hussénius, A. (2017). Pre-service teachers’ views of the child—Reproducing or challenging gender stereotypes in science in preschool. Research in Science Education, 48(4), 691–715.
Hakkarainen, P., Bredikyte, M., Jakkula, K., & Munter, H. (2013). Adult play guidance and children’s play development in a narrative play-world. European Early Childhood Education Research Journal, 21(2), 213–225.
Hallström, J., Elvstrand, H., & Hellberg, K. (2015). Gender and technology in free play in Swedish early childhood education. International Journal of Technology and Design Education, 25, 137–149.
Hedegaard, M. (2008). Studying children: A cultural-historical approach. Open University Press.
Hedegaard, M. (2014). The significance of demands and motives across practices in children’s learning and development: An analysis of learning in home and school. Learning, Culture and Social Interaction, 3(3), 188–194.
Hobbs L., Jakab C., Millar V., Prain V., Redman C., Speldewinde C., Tytler R., & van Driel J. (2017). Girls’ future - Our future - the Invergowrie Foundation STEM report. Invergowrie Foundation.
Lindqvist, G. (1995). The aesthetics of play: A didactic study of play and culture in preschools. (Doctoral dissertation). Uppsala Studies in Education, 62, 1–234. Uppsala, Sweden: Acta Universitatis Upsaliensis.
Morgan, P. L., Farkas, G., Hillemeier, M. M., & Maczuga, S. (2016). Science achievement gaps begin very early, persist, and are largely explained by modifiable factors. Educational Researcher, 45(1), 18–35.
Moroz, S. (2015). Microaggressions. Gender and microaggressions. In R. Parker, J. Pelletier, & E. Croft (Eds.), WWEST’s gender diversity in STEM. A briefing on women in science and engineering (pp. 2–5). UBC Press.
National Research Council. (2011). Successful K-12 STEM education: Identifying effective approaches in science, technology, engineering, and mathematics. National Academies Press.
Prinsley, R., & Johnston, E. (2015). Transforming STEM teaching in Australian primary schools: Everybody’s business. Position Statement. Australian Government.
Ridgeway, C. L. (2011). Framed by gender: How gender inequality persists in the modern world. Oxford University Press.
Vadeboncoeur, J. A. (2019). Moral imagining through transitions within, between and from imaginative play: Changing demands as developmental opportunities. In M. Hedegaard, & M. Fleer (Eds.), Children's Transitions in everyday life and institutions (pp. 227–246). Bloomsbury Publishing Plc.
van Oers, B. (2010). Emergent mathematical thinking in the context of play. Educational Studies in Mathematics, 74, 23–37.
Vygotsky, L. S. (1966). Play and its role in the mental development of the child. Voprosy Psikhologii, 12(6), 62–76.
Vygotsky, L. S. (1984). Pedologija podrostka [Pedology of the child]. Pedagogika.
Vygotsky, L. S. (1994). The problem of environment. In R. van der Veer & J. Valsiner (Eds.), The Vygotsky reader (pp. 338–354). Blackwell Publishers.
Vygotsky, L. S. (1997). Preface to Thorndike. In R. Rieber & J. Wolloc (Eds.), The collected works of L. S. Vygotsky (Vol. 3, pp. 147–161). Plenum Press.
Vygotsky, L. S. (1998). Child psychology. The collected works of LS Vygotsky (Vol. 5). Plenum Press.
Vygotsky, L. S. (2004). Imagination and creativity in childhood. Journal of Russian and East European Psychology, 42(1), 7–97.
Acknowledgements
Research assistance for data collection in this paper was provided by Sue March (field leader) and Rebecca Lewis. Special acknowledgment is made of the teachers who participated in the study.
Funding
This work was supported by the Australian Research Council [DP180101030 for data collection and FL180100161 for subsequent analysis].
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Stephenson, T., Fleer, M. & Fragkiadaki, G. Increasing Girls’ STEM Engagement in Early Childhood: Conditions Created by the Conceptual PlayWorld Model. Res Sci Educ 52, 1243–1260 (2022). https://doi.org/10.1007/s11165-021-10003-z
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DOI: https://doi.org/10.1007/s11165-021-10003-z