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Investigating Preservice Science Teachers’ Cognitive Structures on Environmental Issues

Zeynep KIRYAK, Bahar CANDAŞ, Haluk ÖZMEN

Abstract


Environmental knowledge and awareness of individuals affect their attitudes and behavior toward the environment. In this regard, it is essential to specify how environmental issues are interpreted in individuals’ cognitive structures. This study aims to investigate preservice science teachers’ cognitive structures on environmental issues. The study was conducted with 78 third-year preservice science teachers. The data were collected through a word association test that contains eight stimulus words about environmental problems and protecting the environment. Global warming, greenhouse effect, radiation, and acid rain were chosen for environmental problems; recycling, waste disposal, sustainability, and solar energy were selected for protecting the environment. Besides, preservice science teachers were asked to write a sentence for each stimulus word. Two concept networks were created based on the cut-off point method for the word association test, and content analysis was used for sentences. Besides, by comparing the data obtained from the concept networks and sentence analysis, an attempt was made to obtain more in-depth information. It is concluded that preservice science teachers focused on daily life rather than scientific facts about environmental issues. In this respect, new courses such as Green Chemistry may effectively eliminate alternative conceptions and raise awareness on environmental issues.

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Abdullah, S. I. S. S., Halim, L., & Shahali, E. H. M. (2011). Integration of environmental knowledge across biology, physics and chemistry subject at secondary school level in Malaysia. Procedia Social and Behavioral Sciences, 15, 1024-1028.

Arık, S., & Yılmaz, M. (2017). Prospective science teachers’ attitude toward the environmental problems and their metaphorical perceptions about environmental pollution. Kastamonu Education Journal, 25(3), 1147-1164.

Arsal, Z. (2010). The greenhouse effect misconceptions of the elementary school teacher candidates. Elementary Education Online, 9(1), 229-240.

Atabek-Yiğit, E. (2016). Investigating cognitive structures in some basic chemistry concepts via word association test. Elementary Education Online, 15(4), 1385-1398.

Ayas, A. (2005). Kavram öğrenimi [Concept learning]. S. Çepni, (Ed). In Fen ve teknoloji öğretimi [Science and technology teaching] (pp. 65-90). Ankara: PegemA Press.

Bahar, M., & Aydın, F. (2002, September). Understanding and misconceptions of greenhouse gases and global warming of primary school students. Paper presented at the fifth National Science and Mathematics Education Conference, METU, Ankara.

Bahar, M., Johnstone, A. H., & Sutcliffe, R. G. (1999). Investigation of students’ cognitive structure in elementary genetics through word association tests. Journal of Biological Education, 33, 134-141.

Bahar, M., & Özatlı, N. S. (2003). Investigation of the cognitive structures of high school 1st grade students about the basic components of livings via word association test. Journal of Balıkesir University Institute of Science and Technology, 5(2), 75-85.

Bahar, M., Nartgün, Z., Durmuş, S., & Bıçak, B. (Eds.) (2006). Geleneksel-tamamlayıcı ölçme ve değerlendirme teknikleri öğretmen el kitabı [Traditional-complementary measurement and evaluation techniques: Teacher's handbook]. Ankara: PegemA Press.

Bakaç, M., & Kartal-Taşoğlu, A. (2016). The effect of modeling in removing the misconceptions on radioactivity of prospective physics teachers. Gazi Journal of Education Sciences, 2(3), 181-192.

Boyes, E., Chuckran, D., & Stanisstreet, M. (1993). How do high school students perceive global climatic change: What are its manifestations? What are its origins? What corrective action can be taken? Journal of Science Education and Technology, 2(4), 541–557.

Boyes, E., & Stanisstreet, M. (1992). Students’ perceptions of global warming. International Journal of Environmental Studies, 42(4), 287-300.

Bozkurt, O., & Cansüngü-Koray, Ö. (2002). Primary school students' misconceptions about greenhouse effect in environment education. Hacettepe University Journal of Education, 23, 67- 73.

Brody, M., Chipman, E., & Marion, S. (1988). An assessment of student knowledge in fourth, eight and eleventh grades of science and natural resource concepts related to acidic deposition. Journal of Environmental Education, 20(2), 32-42.

Canbazoğlu-Bilici, S. (2016). An examination of science teachers' knowledge structures towards technology. International Journal of Environmental and Science Education, 11(5), 571-586.

Çalık, M. (2009). An integrated model for environmental education in Turkey. In N. Taylor, R.K. Coll, M. Littledyke & C. Eames (Eds.), Environmental education in context: An international perspective of the development and implementation of environmental education and its impact on student knowledge, attitudes and behaviour (pp. 109-122). Rotterdam, The Netherlands: Sense Publishers

Çalık, M., & Eames, C. (2012). The significance of national context: A comparison of environmental education in Turkey and New Zealand. Asia Pacific Education Researcher, 21(3), 423-433.

Daskolia, M., Flogaitis, E., & Papageorgiou, E. (2006). Kindergarten teachers’ conceptual framework on the ozone layer depletion. Exploring the associative meanings of a global environmental issue. Journal of Science Education and Technology, 15(2), 168-178.

Demirbaş, M., & Pektaş, H. M. (2009). Elementary students’ levels of realization of basic concepts related with environment problem. Necatibey Faculty of Education Electronic Journal of Science and Mathematics Education, 3(2), 195-211.

Derman, A., & Ebenezer, J. (2018). The effect of multiple representations of physical and chemical changes on the development of primary preservice teachers’ cognitive structures [First Online]. Research in Science Education, 1-27. https://doi.org/10.1007/s11165-018-9744-5.

Doğan, Y. (2017). Middle school students’ intuitive perceptions related to concept of the environment: A metaphor analysis. Ahi Evran University Journal of Kirşehir Education, 18(1), 721-740.

Ekiz, D. (2013). Bilimsel araştırma yöntemleri [Scientific research methods] (3rd ed.). Ankara: Anı Press.

Elliott, J. (1999). Sustainable society and environmental education: Future perspectives and demands for the educational system. Cambridge Journal of Education, 29(3), 325–340.

Ercan, F., Taşdere, A., & Ercan, N. (2010). Observation of cognitive structure and conceptual change through word association test. Turkish Science Education, 7(2), 136-154.

Erdoğan, A., & Cerrah-Özsevgeç, L. (2012). The effects of concept cartoons on eliminating students’ misconceptions: Greenhouse effect and global warming. Turkish Journal of Education, 1(2), 1-13.

Fu, H., & Liu, X. (2017). A study on the impact of environmental education on individuals’ behaviors concerning recycled water reuse. Eurasia Journal of Mathematics Science and Technology Education, 13(10), 6715-6724.

Goldman, D., Yavetz, B., & Pe'er, S. (2014). Student teachers' attainment of environmental literacy in relation to their disciplinary major during undergraduate studies. International Journal of Environmental and Science Education, 9(4), 369-383.

Gunstone, R. F. (1980). Word association and the description of cognitive structure. Research in Science Education, 10(1), 45-53.

Güven, O. (2017). Fen bilgisi öğretmen adaylarının çevre sorunlarına yönelik bilimsel düşünme alışkanlıklarının incelenmesi [Investigation of scientific habits of mind of pre-service science teachers related to environmental problems] (Unpublished masters’ thesis). Karadeniz Technical University Institute of Educational Sciences, Trabzon, Turkey.

Halloun, I. B., & Hestenes, D. (1985). The initial knowledge state of college physics students. American Journal of Physics, 53(11), 1043-1055.

Huang, H. P., & Yore, L. D. (2003). A comparative study of Canadian and Taiwanese grade 5 children’s environmental behaviors, attitudes, concerns, emotional dispositions, and knowledge. International Journal of Science and Mathematics Education, 1(4), 419-448.

Hynd, C. R., & Guzzetti, B. J. (1993). Exploring issues in conceptual change. National Reading Conference Yearbook, 42, 375-381.

İncekara, S., & Tuna, F. (2010). Measuring the knowledge level of high school students on environmental issues: The case of Çankırı province. lnternational Journal of Geography and Geography Education, (22), 168-182.

Kazak, N. (2014). Assessing knowledge of secondary school students about environmental issues. Ondokuz Mayis University Journal of Faculty of Education, 33(2), 571-576.

Kıryak, Z., Candaş, B., Özmen, H., Çalık, M. & Zeybek, Ö. (2018, October). Determination of eighth grade students' perceptions of greenhouse effect and acid rain through word association test and drawings. Paper presented at the 13th National Science and Mathematics Education Conference, Pamukkale University, Denizli, Turkey.

Kıryak, Z., & Özdilek, Z. (2019). Effects of prediction–explanation–observation–explanation method on conceptual understanding level of eight grade students' on acid rain issue. Mehmet Akif Ersoy Universtiy Journal of Faculty of Education, 51, 216-240.

Kiryak, Z., & Çalik, M. (2018). Improving grade 7 students’ conceptual understanding of water pollution via common knowledge construction model. International Journal of Science and Mathematics Education, 16(6), 1025-1046.

Kızılay, E. (2018). Investigation of preservice science teachers’ cognitive structures towards the concept of engineering. Journal of Social and Humanities Sciences Research, 5(27), 2932-2938.

Koulaidis, V., & Christidou, V. (1999). Models of students' thinking concerning the greenhouse effect and teaching implications. Science Education, 83(5), 559-576.

Köseoğlu, F., & Bayır, E. (2011). Examining cognitive structures of chemistry teacher candidates about gravimetric analysis through word association test method. Trakya Journal of Education, 1(1), 107-125.

Kurt, H., & Ekici, G. (2013). Determining biology student teachers’ cognitive structure and alternative concepts on the concept of “bacteria”. Turkish Studies-International Periodical for The Languages, Literature and History of Turkish or Turkic, 8(8), 885-910.

Loughland, T., Reid, A., & Petocz, P. (2002). Young people's conceptions of environment: A phenomenographic analysis. Environmental Education Research, 8(2), 187-197.

Mavi, M. (2008). Lise öğrencilerinin radyasyon konusundaki kavram yanılgılarının tespiti [Misconception determination of high school student on the radiation]. (Unpublished master’s thesis). Süleyman Demirel University, Institute of Science, Isparta, Turkey.

Meadows, G., & Wiesenmayer, R. (1999). Identifying and addressing students’ alternative conceptions of the causes of global warming: The need for cognitive conflict. Journal of Science Education and Technology, 8, 235–239.

Moseley, C., Desjean‐Perrotta, B., & Utley, J. (2010). The draw‐an‐environment test rubric (DAET‐R): Exploring preservice teachers’ mental models of the environment. Environmental Education Research, 16(2), 189-208.

Nakiboğlu, C. (2017). Examination 8th grade students’ cognitive structures about physical and chemical changes through word association test. The Eurasia Proceedings of Educational & Social Sciences, 7, 49-51.

Oztas, F., Kalipci, E., & Bozkurt, E. (2011). How do biology teacher candidates perceive global climatic change. Energy Education Science and Technology Part B: Social and Educational Studies, 3(2), 99-107.

Önel, A., & Yüce, Z. (2016). Determining the cognitive structures of science teacher candidates on “evolution” through word association test. Journal of Educational Sciences Research, 6(1), 23-39.

Özatlı, N. S., & Bahar, M. (2010). Revealing students’ cognitive structures regarding excretory system by new techniques. Abant Izzet Baysal University Journal of Faculty of Education, 10(2), 9-26.

Özsoy, S. (2012). Investigating elementary school students’ perceptions about environment through their drawings. Educational Science: Theory & Practice, 12(2), 1132-1139.

Pekel, F. O., Kaya, E., & Demir, Y. (2007). A comparative study of different high school students’ perceptions about ozone layer depletion. Kastamonu Education Journal, 15(1), 169-174.

Polat, G. (2012). Ortaöğretim 9. sınıf öğrencilerinin öğretim öncesi ve sonrası çevre sorunu ve ekolojik ayakizi anahtar kavramları ile ilgili bilişsel yapılarının ortaya konması [Presenting the cognitive structures of secondary 9th class students about environmental problem and ecological footprint key concepts before and after school]. (Unpublished doctoral dissertation). Balıkesir University, Institute of Science, Balıkesir, Turkey.

Polat, G. (2013). Determination of the cognitive structures of year secondary school students through word association test techniques. Necatibey Faculty of Education Electronic Journal of Science and Mathematics Education, 7(1), 97-120.

Seçgin, F., Yalvaç, G., & Çetin, T. (2010, November). Perceptions of 8th grade students about environmental problems through cartoons. Paper presented at the International Conference on New Trends in Education and Their Implications, Antalya, Turkey.

Selvi, M., & Yıldız, K. (2009). Preservice biology teachers’ perceptions of the greenhouse effect. The Journal of Turkish Educational Sciences, 7(4), 813-852.

Shavelson, R. J. (1974). Some methods for examining content structure and cognitive structure in instruction. Educational Psychologist, 11(2), 110-122.

Stevenson, K. T., Carrier, S. J., & Peterson, M. N. (2014). Evaluating strategies for inclusion of environmental literacy in the elementary school classroom. Electronic Journal of Science Education, 18(8), 1-17.

Summers, M., Kruger, C., Childs, A., & Mant, J. (2001). Understanding the science of environmental issues: Development of a subject knowledge guide for primary teacher education. International Journal of Science Education, 23(1), 33-53.

Şimşek, M. (2013, November). Definition of cognitive structure for the geographical information systems (gis) and alternative issues of candidates of social studies teachers via a word association test. Paper presented at the Fourth National Primary Education Student Congress, Nevsehir University, Nevsehir, Turkey.

Tokcan, H. (2016, September). Determining the Turkish world perceptions of candite social studies teachers through word association test. Paper presented at the Third International Dynamic, Explorative and Active Learning (IDEAL) Conference, Ondokuz Mayıs University, Samsun, Turkey.

Yavetz, B., Goldman, D., & Pe’er, S. (2014). How do preservice teachers perceive ‘environment’ and its relevance to their area of teaching?. Environmental Education Research, 20(3), 354-371.

Yılmaz, A., Morgil, İ., Aktuğ, P., & Göbekli, İ. (2002). Knowledge of the secondary school and university students on the environment, environmental concepts and problems and suggestions. Hacettepe University Journal of Education, 22(22), 156-162.

Yildirir, H. E., & Demirkol, H. (2018). Revealing students’ cognitive structure about physical and chemical change: Use of a word association test. European Journal of Education Studies, 4(1), 134-154




DOI: https://doi.org/10.17509/jsl.v4i3.30366

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Published by Universitas Pendidikan Indonesia
in collaboration with the Indonesian Society of Science Educators
2021