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  • Adamson, B. (2012). International comparative studies in teaching and teacher education. Teaching and Teacher Education, 28(2012), 641648.
  • Aldridge, J. M., Fraser, B. J., & Huang, T. C. (1999). Investigating classroom environments in Taiwan and Australia with multiple research methods. Journal of Educational Research, 93(1), 4861.
  • Alexander, R. (2000). Culture and pedagogy: International comparisons in primary education. Oxford: Blackwell Publishers Ltd.
  • Allen, P. J., & Bennett, K. (2008). SPSS for the health and behavioural sciences. South Melbourne, Australia: Thomson.
  • An, S. H. (2004). Capturing the Chinese way of teaching: The learning-questioning and learning-reviewing instructional model. In L. H. Fan, N. Y. Wong, J. F. Cai, & S. Q. Li (Eds.), How Chinese learn mathematics: Perspectives from insiders. London: World Scientific Publishing.
  • Anderson, R. D. (2007). Inquiry as an organizing theme for science curricula. In S. K. Abell & N. G. Lederman (Eds.), Handbook of research on science education (pp. 807830). Mahwah, NJ: Lawrence Erlbaum.
  • APEC Human Resources Development Working Group. (2006). Innovation on Science Curriculum in China . Retrieved December 12, 2011, from http://hrd.apec.org/index.php/Science_Curriculum_and_Instruction
  • Appleton, K. (2007). Elementary science teaching. In S. K. Abell & N. G. Lederman (Eds.), Handbook of research on science education (pp. 493536). Mahwah, NJ: Lawrence Erlbaum.
  • Australian Bureau of Statistics. (2011). Western Australia State Statistical Indicators . Retrieved November 7, 2011, from http://www.abs.gov.au/ausstats/abs@.nsf/Lookup/by%20Subject/1367.0∼2011∼Main%20Features∼Western%20Australia∼19
  • Australian Curriculum Assessment and Reporting Authority. (2011). The Australian curriculum: Science . Retrieved May 20, 2011, from http://www.australiancurriculum.edu.au/Science
  • Berben, L., Sereika, S. M., & Engberg, S. (2012). Effect size estimation: Methods and examples. International Journal of Nursing Studies, 49, 10391047.
  • Biggs, J. B. (1966). Western misconceptions of the Confucian-heritage learning culture. In D. A. Watkins & J. B. Biggs (Eds.), The Chinese learner: Cultural, psychological and contextual influences (pp. 4568). Hong Kong: Comparative Education Research Centre.
  • Bruner, J. S. (1966). Toward a theory of instruction. Cambridge MA: Harvard University Press.
  • Chang, C. Y., & Mao, S. L. (1999). Comparison of Taiwan science students' outcomes with inquiry-group versus traditional instruction. Journal of Educational Research, 92(6), 340346.
  • Chen, Q. (2004). Reflection upon current primary science education. Beijing Education, 7, 1517 [in Chinese].
  • Chiu, M.-H., & Duit, R. (2011). Globalization: Science education from an international perspective. Journal of Research in Science Teaching, 48(6), 553566.
  • Cai, J. F., & Lester, F. (2007). Contributions from cross-national comparative studies to the internationalization of mathematics education: Studies of Chinese and U.S. classrooms. In B. Atweh, A. C. Barton, M. Borba, N. Gough, C. Keitel, C. Vistro-Yu, & R. Vithal (Eds.), Internationalisation and globalisation in mathematics and science education (pp. 269283). Dordrecht, The Netherlands: Springer.
  • Cobern, W. W., Schuster, D., Adams, B., Applegate, B., Skjold, B., Undreiu, A., … Gobert, J. D. (2010). Experimental comparison of inquiry and direct instruction in science. Research in Science and Technological Education, 28(1), 8196.
  • Cogan, L. S., Wang, H. A., & Schmidt, W. H. (2001). Culturally specific patterns in the conceptualization of the school science curriculum: Insights from TIMSS. Studies in Science Education, 36, 105133.
  • Coll, R. K., & Taylor, N. (2012). An international perspective on science curriculum development and implementation. In B. J. Fraser, K. G. Tobin, & C. J. McRobbie (Eds.), Second international handbook of science education (Vol. II, pp. 771782). Dordrecht, The Netherlands: Springer.
  • Cohen, J. (1988). Statistical power analysis for the behavioral sciences (2nd ed.). Hillsdale, NJ: Erlbaum.
  • Cortazzi, M. (1998). Learning from Asian lessons: Cultural expectations and classroom talk. Education 3–13, 26(2), 4249.
  • Curriculum Branch Education Department of Western Australia. (1986). Transition science 7–8: An integrated curriculum approach. Perth, Western Australia: Government Printer.
  • Curriculum Corporation. (1994). A statement on science for Australian schools. Melbourne: Author.
  • Curriculum Council Western Australia. (1998). Curriculum Framework Learning Statement for Science . Retrieved 20 March, 2009, from http://www.curriculum.wa.edu.au/internet/Years_K10/Curriculum_Framework
  • Dawson, V., & Venville, G. (2012). The Australian science curriculum. In G. Venville & V. Dawson (Eds.), The art of teaching science: For middle and secondary schools (pp. 122135). Sydney: Allen and Unwin.
  • Department of Education of Hunan Province. (2011). Educational Statistics in 2010 . Retrieved November 7, 2011, from http://gov.hnedu.cn/web/0/201109/08173319740.html
  • Dillon, S. (2010). Top test scores from Shanghai stun eductors . New York Times. Retrieved January 11, 2011, from http://www.nytimes.com
  • Ding, B. (2008). Learning from other countries: A critical examination of the current primary science curriculum reforms in mainland China. In R. K. Coll & N. Taylor (Eds.), Science educational in context: An international examination of the influence of context on science curricula development and implementation (pp. 343352). Rotterdam: Sense Publishers.
  • Division of Primary Education Ministry of Education [China]. (2002). Interpretation of science curriculum standard (3–6 Grade) for full-time compulsory education. Wuhan: Hubei Education Press [in Chinese].
  • Fensham, P. (2007). Contextual or culture: Can TIMSS and PISA teach us about what determines educational achievement in science? In B. Atweh, A. C. Barton, M. Borba, N. Gough, C. Keitel, C. V. Yu, & R. Vithal (Eds.), Internationalisation and globalisation in mathematics and science education (pp. 151172). Dordrecht, The Netherlands: Springer.
  • Fogleman, J., McNeill, K. L., & Krajcik, J. (2011). Examining the effect of teachers' adaptations of a middle school science inquiry-oriented curriculum unit on student learning. Journal of Research in Science Teaching, 48(2), 149169.
  • Gao, L. B. (1995). Cultural influences on physics education. Australia Journal of Physics 48, 259265.
  • Gao, L. B. (1998). Cultural context of school science teaching and learning in the People's Republic of China. Science Education, 82(1), 113.
  • Goodrum, D., Hackling, M., & Rennie, L. (2001). The status and quality of teaching and learning of science in Australian schools. Canberra: Department of Education, Training and Youth Affairs.
  • Guo, C.-J. (2007). Issues in science learning: An international perspective. In S. K. Abell & N. G. Lederman (Eds.), Handbook of research on science education (pp. 227256). Mahwah, NJ: Lawrence Erlbaum.
  • Hackling, M. W. (1998). Working scientifically: Implementing and assessing open investigation work in science. Perth, Australia: Education Department of Western Australia.
  • Hu, W. P., Han, Q., & Liu, J. W. (2007). Investigation into and thoughts of the current situation of the implementation of new curriculum of science in the primary schools. Theory and Practice of Education, 27(3), 5863 [in Chinese].
  • Hunan Provincial Government. (2011). Brief Introduction of Hunan Province . Retrieved November 7, 2011, from http://enghunan.gov.cn/AboutHNprovince/Snapshot/Introducton/
  • Kyriakides, L. (2006). Using international comparative studies to develop the theoretical framework of educational effectiveness research: A secondary analysis of TIMSS 1999 data. Educational Research and Evaluation, 12(6), 513534.
  • Leng, H. (2005). Chinese cultural schema of education: Implications for communication between Chinese students and Australian educators. Issues in Educational Research, 15(1), 1736.
  • Li, H. (2004). A brief history of primary science curriculum reform in China. Beijing: People's Education Press [in Chinese].
  • Lokan, J., Hollingsworth, H., & Hackling, M. W. (2006). Teaching science in Australia: Results from the TIMSS 1999 video study . Retrieved February 9, 2010, from http://www.acer.edu.au/documents/TIMSS_TVidSciAujzMar06FINAL2.pdf
  • Martin, M. O., Mullis, I. V. S., & Foy, P. (2008). TIMSS 2007 international science report: Classroom characteristics and instruction . Retrieved May 19, 2011, from http://timss.bc.edu/TIMSS2007/PDF/T07_S_IR_Chapter4.pdf
  • Mercer, N., & Littleton, K. (2007). Dialogue and the development of children's thinking: A sociocultural approach. Milton Park, UK: Routledge.
  • Ministerial Council on Education Employment Training and Youth Affairs. (2008). National Declaration on Educational Goals for Young Australians-Draft . Retrieved December 12, 2011, from http://www.curriculum.edu.au/verve/_resources/Draft_National_Declaration_on_Educational_Goals_for_Young_Australians.pdf
  • Ministry of Education [China]. (2001). Guidelines for Curriculum Reform of Basic Education . Retrieved November 17, 2011, from http://www.moe.edu.cn/publicfiles/business/htmlfiles/moe/moe_309/200412/4672.html
  • Ministry of Education [China]. (2010). National Outline for Medium and Long-term Education Reform and Development 2010–2020 . Retrieved November 17, 2010, from http://www.gov.cn/jrzg/2010-07/29/content_1667143.htm (in Chinese).
  • Nall-Bird, J. (2004). Is school science, science? Teaching Science, 50(3), 69.
  • OECD. (2011). Shanghai and Hong Kong: Two distinct examples of education reform in China . Lessons from PISA for the United States: Strong performers and successful reformers in education. Retrieved November 17, 2011, from http://dx.doi.org/10.1787/9789264096660-en
  • Patton, M. Q. (2002). Qualitative research and evaluation methods (3rd ed.). London: Sage Publications.
  • Perry, L., & McConney, A. (2010a). Does the SES of the school matter? An examination of socioeconomic status and student achievement using PISA 2003. Teachers College Record, 112(4), 11371162.
  • Perry, L., & McConney, A. (2010b). School socio-economic composition and student outcomes in Australia: Implications for educational policy. Australian Journal of Education, 54(1), 7285.
  • Qian, X., & Smyth, R. (2005). Measuring regional inequality of education in China: Widening coast-inland, or widening rural-urban gap? Australian Business and Economics Research Unit (ABERU) discussion paper No 12. Retrieved March 12, 2012, from http://www.buseco.monash.edu.au
  • Scott, D. (2008). Critical essays on major curriculum theorists. Milton Park, UK: Routledge.
  • Stigler, J. W., & Stevenson, H. W. (1991). How Asian teachers polish each other to perfection. American Educator, 15(1), 1221, 43–47.
  • Tao, Y. (2012). Chinese and Australian primary children's conceptual understanding of science: A multiple comparative case study . Unpublished doctoral thesis, University of Western Australia, Perth. Western Australia, Australia.
  • Tao, Y., Oliver, M., & Venville, G. (2012a). Chinese and Australian Year 3 children's conceptual understanding of science: A multiple comparative case study. International Journal of Science Education, 34(6), 879901.
  • Tao, Y., Oliver, M., & Venville, G. (2012b). Long-term outcomes of early childhood science education: Insights from a cross-national comparative case study on conceptual understanding of science. International Journal of Science and Mathematics Education, DOI: 10.1007/s10763-012-9335-2
  • Thomson, S., Ainley, J., & Nicholas, M. (2007). Australia. TIMSS 2007 Encyclopedia: A guide to mathematics and science education around the world. Volume 1 A-L . Retrieved 14 May, 2009, from http://timss.bc.edu/TIMSS2007/PDF/T07_Enc_V1.pdf
  • Thomson, S., & De Bortoli, L. (2008). Exploring scientific literacy: How Australia measures up . Retrieved September 30, 2010, from http://www.acer.edu.au/documents/PISA2006_Report.pdf
  • Thomson, S., de Bortoli, L., Nicholas, M., Hillman, K., & Buckley, S. (2011). Challenges for Australian Education: Results from PISA 2009. Canberra: Australian Council for Educational Research, ACER Press.
  • Tsang, M. C., & Ding, Y. (2005). Resource utilization and disparities in compulsory education in China. China Review, 5(1), 128.
  • Tytler, R. (2012). Constructivist and socio-cultural views of teaching and learning. In G. Venville & V. Dawson (Eds.), The art of teaching science: For middle and secondary schools (pp. 2340). Sydney: Allen and Unwin.
  • van den Akker, J. (1998). The science curriculum: Between ideals and outcomes. In B. J. Fraser & K. G. Tobin (Eds.), International handbook of science education (pp. 421447). Dordrecht: Kluwer Academic Publishers.
  • Vygotsky, L. S. (1978). Mind in society: The development of higher psychological processes. Cambridge: Harvard University Press.
  • Walker, R., & Adelman, C. (1975). Guide to classroom observation. London: Routledge.
  • Wei, Y. (2008a). Minutes of the first board meeting on proposed national primary science curriculum . Retrieved October 8, 2008, from http://nsse.handsbrain.com/article.php/296 [in Chinese].
  • Wei, Y. (2008b). Recovering science education in primary Year 1 and Year 2 . Retrieved October, 8, 2008, from http://nsse.handsbrain.com/article.php/36 [in Chinese].
  • Yin, R. K. (2003). Case study research: Design and methods (3rd ed.). California: Sage Publications.
  • Zhong, Q-q. (2006). Curriculum reform in China: Challenges and reflections. Frontiers of Education in China, 3, 37382.
  • Zhou, Z. D. (2006). Implementation of science curriculum in primary schools in Hunan Province: A survey report in 2005. Science Lesson, 10, 1013 [in Chinese].