Aliens and dragons: purposefully-framed play and non-standard learning methods in teaching evolutionary processes to primary school pupils
Vol. 29 No. 1 (2023), Research papers
Vol. 29 No. 1 (2023)

Aliens and dragons: purposefully-framed play and non-standard learning methods in teaching evolutionary processes to primary school pupils

Research papers
https://doi.org/10.14746/logos.2023.29.1.04
Published 2023-05-08
Mateusz Antczak
Opole University image/svg+xml
Poland
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Keywords

non-formal education
biological education
palaeontological education
geoeducation

How to Cite

Antczak, M. (2023). Aliens and dragons: purposefully-framed play and non-standard learning methods in teaching evolutionary processes to primary school pupils. Geologos, 29(1), 51–58. https://doi.org/10.14746/logos.2023.29.1.04
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Abstract

Evolutionary processes lie at the base of the entire observable biodiversity, both at present and in the geological past (i.e., in the fossil record). For this reason, the teaching of evolution should receive more recognition than it currently has (e.g., in Poland) and become accurately applied from the early formal education stages onwards. To test the possibility of effective teaching of evolution to primary school pupils, workshops using non-standard learning methods (‘purposefully-framed play’) were organised during childrens’ university (UNIKIDS) courses of one-hour sessions for 33 groups, comprising several to 20 participants, aged 7 to 12. The final task for all participants was to predict future evolutionary processes by creating new species adapted to given environmental factors. Pupils effectively completed this task, but a few misconceptions also become clear. These workshop scenarios suggest that evolution can be taught effectively at least in extracurricular settings to primary school pupils, but for a detailed insight, a quantitative analysis and application of such scenarios in school programmes should be tested in future.

https://doi.org/10.14746/logos.2023.29.1.04
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References

Antczak, M., 2021. Teaching scientific method to primary school pupils by using the example of adaptation of secondarily aquatic animals to the marine environment. Geologos 27, 3: 181–188. DOI: https://doi.org/10.2478/logos-2021-0020

Burton, E.K., 2011. Evolution and creationism in middle eastern education: a new perspective. Evolution 65, 301–304 DOI: https://doi.org/10.1111/j.1558-5646.2010.01113.x

Campos, R. & Sá-Pinto, A., 2013. Early evolution of evolutionary thinking: teaching biological evolution in elementary schools. Education and Outreach 6, 25. DOI: https://doi.org/10.1186/1936-6434-6-25

Cascarosa, E., Mazas, B. & Mateo, E., 2020. Are early-years children able to use magnifying glasses and dichotomous keys to observe, compare, classify and identify small animals? Journal of Biological Education 56, 222–241. DOI: https://doi.org/10.1080/00219266.2020.1776753

Chi, M.T.H., Bassok, M., Lewis, M.W., Reimann, P. & Glaser, R., 1989. Self-explanations: How students study and use examples in learning to solve problems. Cognitive Science 13, 145–182. DOI: https://doi.org/10.1207/s15516709cog1302_1

Chi, M.T.H., de Leeuw, N., Chiu, M-H. & Lavancher, C., 1994. Eliciting self-explanations improves understanding. Cognitive Science 18, 439–477. DOI: https://doi.org/10.1207/s15516709cog1803_3

Cutter-Mackenzie, A. & Edwards, S., 2013. Toward a model for early childhood environmental education: Foregrounding, developing, and connecting knowledge through play-based learning. Journal of Environmental Education 44, 195–213. DOI: https://doi.org/10.1080/00958964.2012.751892

Domoń, J., 2015. Sposób na czas wolny – zajęcia pozaszkolne dla uczniów klas I–III w gminie Wieliczka [Way of free time – Extracurricular activities for students in grades I-III in the municipality of Wieliczka]. Edukacja Elementarna w Teorii i Praktyce 1, 173–191.

Dunlosky, J., Rawson, K., Marsh, J.E., Nathan, M.J. & Willingham, D.T., 2013. Improving students’ learning with effective learning techniques: Promising directions from cognitive and educational psychology. Psychological Science in the Public Interes 14, 4–58. DOI: https://doi.org/10.1177/1529100612453266

Dziennik Ustaw z 2017 r., poz. 356. Rozporządzenie Ministra Edukacji Narodowej w sprawie podstawy programowej wychowania przedszkolnego oraz podstawy programowej kształcenia ogólnego dla szkoły podstawowej, w tym dla uczniów z niepełnosprawnością intelektualną w stopniu umiarkowanym lub znacznym, kształcenia ogólnego dla branżowej szkoły I stopnia, kształcenia ogólnego dla szkoły specjalnej przysposabiającej do pracy oraz kształcenia ogólnego dla szkoły policealnej [Regulation of the Ministry of National Education on the core curriculum for primary school, including for students with moderate or severe intellectual disabilities, general education for a stage I sectoral vocational school, general education for a special school preparing for work and general education for a post-secondary school].

Emmons, N., Lees, K. & Kelemen, D., 2017. Young children’s near and far transfer of the basic theory of natural selection: An analogical storybook intervention. Journal of Research in Science Teaching 55, 321–347. DOI: https://doi.org/10.1002/tea.21421

Fleer, M., 2010. Concepts in play: A cultural historical view of early learning and development. Cambridge University Press, 266 pp. DOI: https://doi.org/10.1017/CBO9780511844836

Frejd, J., Stolpe, K., Hultén, M. & Schönborn, K.J., 2020. Making a fictitious animal: 6–7 year-old Swedish children’s meaning making about evolution during a modelling task. Journal of Biological Education 56, 323–339. DOI: https://doi.org/10.1080/00219266.2020.1799843

Frensley, B.T., Stern, M.J. & Powell, R.B., 2020. Does student enthusiasm equal learning? The mismatch between observed and self-reported student engagement and environmental literacy outcomes in a residential setting. Journal of Environmental Education 51, 449–461. DOI: https://doi.org/10.1080/00958964.2020.1727404

Gomez, V. & Gavidia, V., 2015. Describir y dibujar en ciencias. La importancia del dibujo en las represent-aciones mentales del alumnado [Describe and draw in science. The importance of drawing in the mental representations of students]. Eureka Sobre Enseńanza Y Divulgación De Las Ciencias 12, 441–455. DOI: https://doi.org/10.25267/Rev_Eureka_ensen_divulg_cienc.2015.v12.i3.04

Grzesiak, K., 2016. Rola placówek wychowania pozaszkolnego w wychowaniu do wartości [The role of the out-of-school education institutions in education to values]. Państwo i Społeczeństwo. Edukacja alternatywna a współczesna szkoła 2, 85–100.

Hedges, H. & Cullen, J., 2005. Subject knowledge in early childhood curriculum and pedagogy: Beliefs and practices. Contemporary Issues in Early Childhood 6, 66–79. DOI: https://doi.org/10.2304/ciec.2005.6.1.10

Hermann, R.S., 2013. High school biology teachers’ views on teaching evolution: Implications for science teacher educators. Journal of Science Teacher Education 24, 597–616. DOI: https://doi.org/10.1007/s10972-012-9328-6

Horwitz, P., McIntyre, C.A., Lord, T.L., O’Dwyer, L.M. & Staudt, C., 2013. Teaching ‘evolution readiness’ to fourth graders. Evolution: Education and Outreach 6, 1–12. DOI: https://doi.org/10.1186/1936-6434-6-21

Huitt, W. & Hummel, J., 2003. Piaget’s theory of cognitive development. Educational Psychology Interactive. Valdosta, Valdosta State University. Available at http://www.edpsycinteractive.org/topics/cognition/piaget.html [access on 28.02.2023]

Jordan, B., 2009. Scaffolding learning and co-constructing understandings. [In:] A. Anning, J. Cullen & M. Fleer (Eds): Early childhood education: Society and culture (2nd ed.). SAGE Publications Ltd, 248 pp.

Khazan, O., 2019. I was never taught where humans came from. The Atlantic https://www.theatlantic.com/education/archive/2019/09/schools-still-dont-teach-evolution/598312

Korfiatis, K., Photiou, M. & Petrou, S., 2020. Effects of eco-animations on nine and twelve year old children’s environmental conceptions: How WALLE changed young spectators’ views of earth and environmental protection. Journal of Environmental Education 51, 323–339. DOI: https://doi.org/10.1080/00958964.2020.1747965

Kotarski, R., 2017. Włam się do mózgu [Break into the brain]. Altenberg, Warszawa, 300 pp.

Kwiatek, K., 2016. Po co w szkole ewolucja? [Why evolution in school?]. Tygodnik Powszechny https://www.tygodnikpowszechny.pl/na-co-w-szkole-ewolucja-145990

Martin, V. & Pressley, M., 1991. Elaborative-interrogation effects depend on the nature of the question. Journal of Educational Psychology 83, 113–119. DOI: https://doi.org/10.1037/0022-0663.83.1.113

Miller, J.D., Scott, E.C. & Okamoto, S., 2006. Public acceptance of evolution. Science 313, 765–766. DOI: https://doi.org/10.1126/science.1126746

Mulligan, N.W. & Hornstein, S.L., 2003. Memory for actions: Self-performed tasks and the reenactment effect. Memory & Cognition 31, 412–421. DOI: https://doi.org/10.3758/BF03194399

Mutanen, J. & Uitto, A., 2020. Make biology relevant again! Pre-service teachers’ views on the relevance of biology education. Journal of Biological Education 54, 202–212. DOI: https://doi.org/10.1080/00219266.2020.1739423

Nadelson, L., Culp, R., Bunn, S., Burkhart, R., Shetlar, R., Nixon, K. & Waldron, J., 2009. Teaching evolution concepts to early elementary school students. Evolution and Outreach 2, 458–473. DOI: https://doi.org/10.1007/s12052-009-0148-x

Nyberg, L., Sandblom, J., Jones, S., Neely, A.S., Petersson, K.M., Ingvar, M. & Bäckman, L., 2003. Neural correlates of training-related memory improvement in adulthood and aging. Proceeding of the National Academy Science 100, 13728–13733. DOI: https://doi.org/10.1073/pnas.1735487100

Parasuram, R., Huiting, X., Wang, J, Thirumarban, A., Kum, E., Helen, J., & Lien, P.C., 2014. Effectiveness of using non–traditional teaching methods to prepare student health care professionals for the delivery of the Mental State Examination: a systematic review protocol. JBI Evidence Synthesis 12, 3–19. DOI: https://doi.org/10.11124/jbisrir-2014-1354

Plutzer, E. Branch, G. & Reid, A., 2020. Teaching evolution in U.S. public schools: a continuing challenge. Evolution: Education and Outreach 13, 14. DOI: https://doi.org/10.1186/s12052-020-00126-8

Samuelsson, I.P. & Carlsson, M.A., 2008. The playing learning child: Towards a pedagogy of early childhood. Scandinavian Journal of Educational Research 52, 623–641. DOI: https://doi.org/10.1080/00313830802497265

Sanders, M. & Ngxola, N., 2009. Addressing teachers’ concerns about teaching evolution. Journal of Biological Education 3, 121–128. DOI: https://doi.org/10.1080/00219266.2009.9656166

Siraj-Blatchford, I., 2007. Creativity, communication and collaboration: The identification of pedagogic progression in sustained shared thinking. Asia-Pacific Journal of Research in Early Childhood Education 1, 3–23.

Tolman, E.R., Ferguson, D.G., Hubble, G., Kaloi, M., Niu, M. & Jensen, J.L., 2021. Barriers to teaching evolution in higher education. Evolution: Education and Outreach 14, 12. DOI: https://doi.org/10.1186/s12052-021-00151-1

Warchoł, T., 2018. Non-formal education support for child development at a younger school age. Pedagogika Przedszkolna i Wczesnoszkolna 6, 201–208.

White, J., O’Malley, A., Toso, M., Rockel, J., Stover, S. & Ellis, F., 2007. A contemporary glimpse of play and learning in Aotearoa New Zealand. International Journal of Early Childhood 39, 93–105. DOI: https://doi.org/10.1007/BF03165950

Williams, J.D., 2008. Creationist teaching in school science: A UK perspective. Evolution: Education and Out-reach 1, 87–95. DOI: https://doi.org/10.1007/s12052-007-0006-7

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