PISA and TIMSS results have been used as a basis for educational reform, but unfortunately, teachers’ understanding of PISA and TIMSS tests is rarely investigated. We evaluated 149 sophomore preservice chemistry teachers’ achievement in TIMSS and PISA-like test. As a way to reflect on TIMSS and PISA results, we compared preservice chemistry teachers’ achievement to PISA and TIMSS results for Indonesia and the international students. Results suggested that, to a certain degree, preservice chemistry teachers have a better chemical literacy than Indonesian students and a somewhat similar chemical literacy with international students.

preservice chemistry teachers; chemical literacy; PISA; TIMSS

Akiba, M., LeTendre, G.K., & Scribner, J.P. (2007). Teacher Quality, Opportunity Gap, and National Achievement in 46 Countries. Educational Researcher, 36(7), 369-387.

Andersen, F.O. (2010). Danish and Finnish PISA Results in A Comparative, Qualitative Perspective: How Can the Stable and Distinct Differences between the Danish and Finnish PISA Results be explained? Educ. Asse. Eval. Acc., 22, 159–175.

Azizoglu, N., Alkan, M., & Geban, O. (2013). Undergraduate Pre–Service Teachers’ Understandings and Misconceptions of Phase Equilibrium. J. Chem. Educ., 83(6), 947-953.

Barnhart, T., & van Es, E. (2015). Studying Teacher Noticing: Examining the Relationship Among Pre-Service Science Teachers' Ability to Attend, Analyze and Respond to Student Thinking. Teaching and Teacher Education, 45, 83-93.

Beese, J., & Liang, X. (2010). Do Resources matter? PISA Science Achievement Comparisons between students in the United State, Canada, and Finland. Improving School, 13(3), 266-279.

Bracey, G. W. (2000). The TIMSS “Final Year” Study and Report: A Critique. Educational Researcher, 29(4), 4–10.

Carnoy, M., Khavenson, T., & Ivanova, A. (2015). Using TIMSS and PISA results to inform educational policy: a study of Russia and its neighbours. Compare: A Journal of Comparative and International Education, 45(2), 248-271.

Cengiz, F., & Karatas, F.O. (2015). Examining the Effects of Reflective Journals on Pre-Service Science Teachers’ General Chemistry Laboratory Achievement. Australian Journal of Teacher Education, 40(10), 125-146.

Celik, S. (2014). Chemical Literacy Levels of Science and Mathematics Teacher Candidates. Australian Journal of Teacher Education, 39(1), 1-15.

Cidgemoglu, C., Arslan, H.O., & Cam, A. (2017). Argumentation to Foster Pre-Service Science Teachers’ Knowledge, Competency, and Attitude on the Domains of Chemical Literacy of Acids and Bases. Chemistry Education Research and Practice, 18, 288-303.

Cidgemoglu, C. & Geban, O. (2016). Improving Student’s Chemical Literacy Levels on Thermochemical and Thermodynamics Concepts Through A Context-Based Approach. Chemistry Education Research and Practice, 16, 302-317.

Dolin, J., & Krogh, L.B. (2010). The Relevance and Consequences of PISA Science in a Danish Context. Int. J. of Sci. and Math. Educ., 8, 565–592.

Fakhriyah, F., Masfuah, S., Roysa, M., Rusilowati, A., & Rahayu, E.S. (2017). Student’s science literacy in the aspect of content science? Jurnal Pendidikan IPA Indonesia, 6(1), 81-87.

Gilbert J.K., & Treagust D.F. (2009). Introduction: Macro, Submicro and Symbolic Representations and the Relationship between Them: Key Models in Chemical Education. In: Gilbert J.K., Treagust D. (Eds) Multiple Representations in Chemical Education: Models and Modeling in Science Education Vol 4. Dordrecht: Springer.

Gur, B.S., Celik, Z., & Ozoglu, M. (2012). Policy Options for Turkey: A Critique of the Interpretation and Utilization of PISA Results in Turkey. Journal of Education Policy, 27(1), 1–21.

Gultepe, N. (2016). What Do Data Mean for Pre-service Chemistry Teachers? Journal of Education and Training Studies, 4(7), 100-110.

Holliday, W.G. & Holliday, B.W. (2003). Why Using International Comparative Math and Science Achievement Data from TIMSS Is Not Helpful. The Educational Forum, 67(3), 250-257.

Jailani, & Wulandari, N. F. (2017). Kemampuan Matematika Siswa Kelas VIII di Daerah Istimewa Yogyakarta dalam Menyelesaikan Soal Model TIMSS. Jurnal Pengajaran MIPA, 22(1), 1-8.

Kang, H., & Anderson, C.W. (2015). Supporting Preservice Science Teachers’ Ability to Attend and Respond to Student Thinking by Design. Science Education, 99, 863–895.

Kind, V. (2014). A Degree Is Not Enough: A quantitative study of aspects of pre-service science teachers’ chemistry content knowledge. International Journal of Science Education, 36(8), 1313 –1345.

Knipprath, H. (2010) What Pisa Tells Us about The Quality and Inequality of Japanese Education in Mathematics and Science. Int J of Sci and Math Educ, 8, 389–408.

Lavonen, J., & Laaksonen, S. (2009). Context of Teaching and Learning School Science in Finland: Reflections on PISA 2006 results. Journal of Research in Science Teaching, 46(8), 922–944.

Maienschein, J. Burger, I., Enshaie, R., Glitz, M., Kevern, K., Maddin, B., Rivera, M., Rutowski, D., Shindell, M., Unger, A., Burough, D., Kesh, A., Martinez, J., Tapia, P., & Williams, S. (1998). Scientific Literacy. Science, 281(5379), 917.

Martin, M.O., Mullis, I.V.S., Foy, P., & Stanco, G.M. (2012). TIMSS 2011 International Results in Science. Chesnut Hill: TIMSS & PI-RLS International Study Center.

OECD. (2016). PISA 2015 Results (Volume I): Excellence and Equity in Education. Paris: OECD Publishing.

Perelman, S., & Santin, D. (2011). Measuring Educational Efficiency at Student Level with Parametric Stochastic Distance Functions: an Application to Spanish PISA Results. Education Economics, 19(1), 29-49.

Pinto, R., & El Boudamoussi, S. (2009) Scientific Processes in PISA Tests Observed for Science Teachers. International Journal of Science Education, 31(16), 2137-2159.

Rautalin, M., & Alasuutari, P. (2007). The Curse of Success: the impact of the OECD’s Programme for International Student Assessment on the discourses of the teaching profession in Finland. European Educational Research Journal, 6(4), 348-363.

Rautalin, M., & Alasuutari, P. (2009). The uses of the national PISA results by Finnish officials in central government. Journal of Education Policy, 24(5), 539-556.

Rutkowski, L., & Rutkowski, D. (2016). A Call for a More Measured Approach to Reporting and Interpreting PISA Results. Educational Researcher, 45(4), 252–257.

Robinson, M., & Crowther, D. (2001). Environmental Science Literacy in Science Education, Biology & Chemistry Majors. The American Biology Teacher, 63(1), 9-14.

Shwartz, Y., Ben-Zvi, R., & Hofstein, A. (2006). The use of scientific literacy taxonomy for assessing the development of chemical literacy among high-school students. Chem. Educ. Res. Pract., 7, 203-225.

Sujana, A., Permanasari, A., Sopandi, W., & Mudzakir, A. (2014). Literasi kimia mahasiswa PGSD dan guru IPA sekolah dasar. Jurnal Pendidikan IPA Indonesia, 3(1), 5-11.

Tyler, R.W. (2013). Basic Principles of Curriculum and Instruction (2013 Revised Edition). Chicago: University of Chicago Press.

Van Driel, J.H., De Jong, O., & Verloop, N. (2002). The Development of Preservice Chemistry Teachers’ Pedagogical Content Knowledge. Science Education, 86, 572–590.

Vlaardingerbroek, B., & Taylor, T.G.N. (2003). Teacher education variables as correlates of primary science ratings in thirteen TIMSS systems. International Journal of Educational Development, 23(2003) 429–438.

Wagemaker, H. (2008). Choices and trade-offs: Reply to McGaw. Assessment in Education: Principles, Policy & Practice, 15(3), 267–278

Wu, M. A. (2009). Comparison of PISA and TIM-SS 2003 achievement results in mathematics. Prospects, 39, 33-46.