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REFERENCES

  • Abd-El-Khalick, F., Bell, R. L., & Ledenman, N. (1998). The nature of science and instructional practice: Making the unnatural natural. Science Education, 82(4), 417436.
  • Abell, S. K., & Pizzini, E. L. (1992). The effect of a problem solving in-service program on the classroom behaviors and attitudes of middle school science teachers. Journal of Research in Science Teaching, 29(7), 649667.
  • Acevedo, J. A. (2000). Algunas creencias sobre el conocimiento de los profesores de educación secundaria en formación inicial. Bordón, 52(1), 512.
  • Aguaded, S., Jiménez, R., & Wamba, A. M. (1998). Importancia de la reflexión sobre la propia acción desde la perspectiva de un profesor novel. In E.Banet & A. dePro (Eds.), Investigación e innovación en la enseñanza de las ciencias (pp. 161170). Murcia: DM.
  • Aguirre, M., Haggerty, S., & Linder, C. (1990). Student-teachers' conceptions of science teaching and learning: A case study in preservice science education. International Journal of Science Education, 12(4), 381390.
  • Appleton, K., & Asoko, H. (1996). A case study of a teacher's progress toward using a constructivist view of learning to inform teaching in elementary science. Science Education, 80(2), 165180.
  • Arora, A. G, Kean, E., & Anthony, J. L. (2000). An interpretative study of a teacher's evolving practice of elementary school science. Journal of Science Teacher Education, 11(1), 125.
  • Baird, J. R., Fensham, P. J., Gunstone, R. F., & White, R. T. (1991). The importance of reflection in improving science teaching and learning. Journal of Research in Science Teaching, 28(2), 163182.
  • Bartholomew, H., & Osborne, J. (2004). Teaching students “ideas about science”: Five dimensions of effective practice. Science Education, 88(5), 655682.
  • Bell, B., & Gilbert, J. (1994). Teacher development as professional, personal and social development. Teaching and Teacher Education, 10(5), 483497.
  • Beyerbach, B. A., & Smith, J. M. (1990). Using a computerized concept mapping program to assess preservice teachers' thinking about effective teaching. Journal of Research in Science Teaching, 27(10), 961971.
  • Boulton-Lewis, G. M., Smith, D., McCrindle, A. R., Burnett, P. C., & Campbell, K. J. (2001). Secondary teachers' conceptions of teaching and learning. Learning and Instruction, 11(1), 3551.
  • Brickhouse, N. W. (1990). Teachers' beliefs about the nature of science and their relationship to classroom practice. Journal of Teacher Education, 41(3), 5362.
  • Briscoe, C., & Wells, E. (2002). Reforming primary science assessment practices: A case study of one teacher's professional development through action research. Science Education, 86(3), 417435.
  • Cañas, A. J., Novak, J. D., & González, F. M. (2004). Concept maps: Theory, methodology, technology. Pamplona, Spain: Publicaciones de la Universidad Pública de Navarra.
  • Carvajal, E., & Gómez, M. R. (2002). Concepciones y representaciones de los maestros de secundaria y bachillerato sobre la naturaleza, el aprendizaje y la enseñanza de las ciencias. Revista Mexicana de Investigación Educativa, 7(16), 577602.
  • Casas, L. M., & Luengo, R. (2004). Representación del conocimiento y aprendizaje. Teoría de los conceptos nucleares. Revista Española de Pedagogía, 227, 5984.
  • Clermont, CH. P., Borko, H., & Krajcik, J. S. (1994). Comparative study of the pedagogical content knowledge of experienced and novice chemical demonstrators. Journal of Research in Science Teaching, 31(4), 419441.
  • Climent, N. (2002). El desarrollo profesional del maestro de primaria respecto de la enseñanza de la matemática. Un estudio de caso. Unpublished doctoral thesis, University of Huelva, Spain.
  • Copello, M. I., & Sanmartí, N. (2001). Fundamentos de un modelo de formación permanente del profesorado de ciencias centrado en la reflexión dialógica sobre las concepciones y las prácticas. Enseñanza de las Ciencias, 19(2), 269283.
  • Davis, K. S. (2003). “Change is hard”: What science teachers are telling us about reform and teacher learning and innovative practices. Science Education, 87(1), 330.
  • Davis, N. T. (1996). Looking in the mirror: Teachers' use of autobiography and action research to improve practice. Research in Science Education, 26(1), 2332.
  • Day, Ch. (1999). Developing teachers, the challenges of lifelong learning. London: Falmer Press.
  • Dillon, D. R., O'Brien, D. G., Moje, E. B., & Stewart, R. A. (1994). Literacy learning in secondary school science classrooms: A cross-case analysis of three qualitative studies. Journal of Research in Science Teaching, 31(4), 345362.
  • Freitas, M. I., Jiménez, R., & Mellado, V. (2004). Solving physics problems: The conceptions and practice of an experienced teacher and an inexperienced teacher. Research in Science Education, 34(1), 113133.
  • Fullan, M. (1991). The new meaning of educational change. Chicago: Teacher College Press.
  • Furió, C., & Carnicer, J. (2002). El desarrollo profesional del profesor de ciencias mediante tutorías de grupos cooperativos. Estudio de casos. Enseñanza de las Ciencias, 20(1), 4773.
  • García, S., & Martínez, C. (2001). Las ideas de los alumnos del CAP, punto de referencia para reflexionar sobre formación docente. Revista Interuniversitaria de Formación del Profesorado, 40, 97110.
  • Gess-Newsome, J., & Lederman, N. G. (1993). Preservice biology teachers' knowledge structures as a function of professional teacher education: A year-long assessment. Science Education, 77(1), 2545.
  • Gil-Pérez, D. (1993). Contribución de la historia y de la filosofía de las ciencias al desarrollo de un modelo de enseñanza/aprendizaje. Enseñanza de las Ciencias, 11(2), 197212.
  • Glasson, G. E., & Lalik, R. V. (1993). Reinterpreting the learning cycle from a social constructivist perspective: A qualitative study of teachers' belief and practice. Journal of Research in Science Teaching, 30(2), 187207.
  • Gunstone, R. F., & Northfield, J. R. (1994). Metacognition and learning to teach. International Journal of Science Education, 16(5), 523537.
  • Gunstone, R. F., Slattery, M., Bair, J. R., & Northfield, J. R. (1993). A case study exploration of development in preservice science teachers. Science Education, 77(1), 4773.
  • Hargreaves, A. (1996). Profesorado, cultura y modernidad. Madrid: Morata.
  • Hargreaves, A., Lieberman, A., Fullan, M., & Hopkins, D. (1999). International handbook of educational change. Dordrecht, The Netherlands: Kluwer Academic Publishers.
  • Hewson, P. W., & Hewson, M. G. (1989). Analysis and use of a task for identifying conceptions of teaching science. Journal of Education for Teaching, 15(3), 191209.
  • Hewson, P. W., Tabachnick, B. R., Zeichner, K. M., Blomker, K. B., Meyer, H., & Lemberger, J. (1999). Educating prospective teachers of biology: Introduction and research methods. Science Education, 83(3), 247273.
  • Hewson, P. W., Tabachnick, B. R., Zeichner, K. M., & Lemberger, J. (1999). Educating prospective teachers of biology: Findings, limitations, and recommendations. Science Education, 83(3), 373384.
  • Jiménez, R., & Wamba, A. M. (2003). ¿Es posible el cambio de modelos didácticos? Obstáculos en profesores de Ciencias Naturales de educación secundaria. Investigación en la Escuela, 17(1), 113131.
  • Jones, M. G., & Vesilind, E. (1995). Preservice teachers' cognitive frameworks for class management. Teaching and Teacher Education, 11(4), 313330.
  • Lakin, S., & Wellington, J. (1994). Who will teach the ‘nature of science’? Teachers' views of science and their implications for science education. International Journal of Science Education, 16(2), 175190.
  • Lederman, N. (1999). Teachers' understanding of the nature of science and classroom practice: Factors that facilitate or impede the relationship. Journal of Research in Science Teaching, 36(8), 916929.
  • Lederman, N. G. (1992). Students' and teachers' conceptions of the nature of science: A review of the research. Journal of Research in Science Teaching, 29(4), 331359.
  • Lederman, N. G., & O'Malley, M. (1990) Students' perceptions of tentativeness in science: Development, use, and sources of change. Science Education, 74(2), 225239.
  • Lee, S., & Roth, W-M. (2000). Autobiography and the paradox of change: (Dis)Locating ourselves in the process. Research in Science Education, 30(1), 5773.
  • Lemberger, J., Hewson, P. W., & Park, H. (1999). Relationship between prospective secondary teachers' classroom practice and their conceptions of biology and of teaching science. Science Education, 83(3). 347371.
  • López, J. I. (2000). Del enfoque transmisivo al planteamiento de problemas. El caso de Luis. Qurriculum, 14, 189207.
  • Lucio, R. (2001). La actividad metacognitiva como desencadenante de procesos autorreguladores en las concepciones y prácticas de enseñanza de los profesores de ciencias experimentales. Unpublished PhD thesis, Universidad Autónoma de Barcelona, Barcelona, Spain.
  • Luna, M., & García, J. E. (2003). La transición hacia el conocimiento profesional deseable. Investigación en la Escuela, 49, 2338.
  • Macedo, M. F., Fonseca, J., Conboy, J., & Martin, I. (2001). Formação continua para la mudança conceptual de professores de biología. Revista de Educação, 10(1), 6173.
  • Manassero, M. A., & Vázquez, A. (2000). Creencias del profesorado sobre la naturaleza de la ciencia. Revista Interuniversitaria de Formación del Profesorado, 37, 187208.
  • Marcelo, C. (1994). Formación del profesorado para el cambio educativo. Barcelona, Spain: PPU.
  • Markham, K. M., Mintzes, J. J., & Jones, M. G. (1994). The concept map as a research and evaluation tool: Further evidence of validity. Journal of Research in Science Teaching, 31(1), 91101.
  • Martínez, M., Martín del Pozo, R., Rodrigo, M., Varela, P., Fernández, M. P., & Guerrero, A. (2001). ¿Qué pensamiento profesional y curricular tienen los futuros profesores de ciencias de secundaria? Enseñanza de las Ciencias, 19(1, 6787.
  • Martínez-Losada, C., & García-Barros, S. (2005). Do Spanish secondary school teachers really value different sorts of procedural skills? International Journal of Science Education, 27(7), 827854.
  • Marx, R. W., Freeman, J., Krajcik, J., & Blumenfed, P. (1998). Professional development of science education. In B. J.Fraser & K.Tobin (Eds.), International handbook of science education (pp. 667680). Dordrecht, The Netherlands: Kluwer Academic Publishers.
  • Matthews, M. R. (2004). Thomas Kuhn's impact on science education: What lessons can be learned? Science Education, 88(1), 90118.
  • McGonigal, J. A. (2000). Transacting with autobiography to transform the learning and teaching of elementary science. Research in Science Education, 30(1), 7588.
  • McRobbie, C., & Tobin, K. (1995). Restraints to reform: The congruence of teacher and students actions in a chemistry classroom. Journal of Research in Science Teaching, 32(4), 373385.
  • Mellado, V. (1996). Concepciones y prácticas de aula de profesores de ciencias en formación inicial de primaria y secundaria. Enseñanza de las Ciencias, 14(3), 289302.
  • Mellado, V. (1997). Preservice teachers' classroom practice and their conceptions of the nature of science. Science & Education, 6(4), 331354.
  • Mellado, V. (1998). The classroom practice of preservice teachers and their conceptions of teaching and learning science. Science Education, 82(2), 197214.
  • Mellado, V., Peme-Aranega, C., Redondo, C., & Bermejo, M. L. (2002). Los mapas cognitivos en el análisis gráfico de las concepciones del profesorado. Campo Abierto, 22, 3758.
  • Mellado, V., Ruiz, C., Bermejo, M. L., & Jiménez, R. (2006). Contributions from the philosophy of science to the education of science teachers. Science & Education, 15(5), 419445.
  • Mergendoller, J., & Sacks, C. H. (1994). Concerning the relationship between teachers' theoretical orientation toward reading and their concept maps. Teaching and Teacher Education, 10(6), 589599.
  • Meyer, H., Tabachnick, B. R., Hewson, P. W., Lemberger, J., & Park, H. (1999). Relationship between prospective elementary teachers' classroom practice and their conceptions of biology and of teaching science. Science Education, 83(3), 323346.
  • Mulholland, J., & Wallace, J. (2005). Growing the tree of teacher knowledge: Ten years of learning to teach elementary science. Journal of Research in Science Teaching, 42(7), 767790.
  • Munby, H., Cunnigham, M., & Lock, C. (2000). School science culture: A case study of barriers to developing professional knowledge. Science Education, 84(2), 193211.
  • Novak, J. D., & Gowin, D. B. (1988). Aprender a aprender. Barcelona, Spain: Martínez Roca.
  • Porlán, R. (1989). Teoría del conocimiento, teoría de la enseñanza y desarrollo profesional. Las concepciones epistemológicas de los profesores. Unpublished PhD thesis, University of Seville, Seville, Spain.
  • Porlán, R., & Martín del Pozo, R. (2002). Spanish teacher's epistemological and scientific conceptions: Implications for teacher education. European Journal of Teacher Education, 25(23), 151–169.
  • Porlán, R., & Martín del Pozo, R. (2004). The conceptions of in-service and prospective primary school teachers about the teaching and learning of science. Journal of Science Teacher Education, 15(1), 3962.
  • Porlán, R., Rivero, A., & Martín del Pozo, R. (1997). Conocimiento profesional y epistemología de los profesores—I: teoría, métodos e instrumentos. Enseñanza de las Ciencias, 15(2), 155171.
  • Powell, R. (1994). From field science to classroom science: A case study of constrained emergence in a second-career science teacher. Journal of Research in Science Teaching, 31(3), 273291.
  • Roehrig, G. H., & Luft, J. A. (2004). Constraints experienced by beginning secondary science teachers in implementing scientific inquiry lessons. International Journal of Science Education, 26(1), 324
  • Ruiz, C., Porlán, R., da Silva, C., & Mellado, V. (2005). Construcción de mapas cognitivos a partir del cuestionario INPECIP. Aplicación al estudio de la evolución de las concepciones de una profesora de secundaria entre 1993 y 2002. Revista Electrónica de Enseñanza de las Ciencias, 4(1. Retrieved from http://www.saum.uvigo.es/reec/volumenes/volumen4/ART3_Vol4_N1.pdf
  • Sánchez, G., & Valcárcel, M. V. (1999). Science teachers' views and practices in planning for teaching. Journal of Research in Science Teaching, 36(4), 493513.
  • Sanmartí, N. (2001). Enseñar a enseñar ciencias en secundaria: un reto muy completo. Revista Interuniversitaria de Formación del Profesorado, 40, 3148.
  • Sanmartí, N., & Jorba, J. (1995). Autorregulación de los procesos de aprendizaje y construcción de conocimientos. Alambique, 4, 5977.
  • Shulman, L. S. (1986). Those who understand: Knowledge growth in teaching. Educational Researcher, 15(2), 414.
  • Shwartz, Y., Ben-Zvi, R., & Hofstein, A. (2005). The importance of involving high-school chemistry teachers in the process of defining the operational meaning of ‘chemical literacy.’ International Journal of Science Education, 27(3, 323344.
  • Simmons, P. E., Emory, A., Carter, T., Coker, T., Finnegan, B., Crockett, D., et al. (1999). Beginning teachers: Beliefs and classroom actions. Journal of Research in Science Teaching, 36(8), 930954.
  • Solís, E., & Porlán, R. (2003). Las concepciones del profesorado de ciencias de secundaria en formación inicial ¿Obstáculo o punto de partida? Investigación en la Escuela, 49, 522.
  • Stofflett, R. T. (1994). The accommodation of science pedagogical knowledge: The application of conceptual change constructs to teacher education. Journal of Research in Science Teaching, 31(8), 787810.
  • Tobin, K. (1993). Referents for making sense of science teaching. International Journal of Science Education, 15(3), 241254.
  • Tobin, K. (1998). Issues and trends in the teaching of science. In B. J.Fraser & K.Tobin (Eds.), International handbook of science education (pp. 129151). Dordrecht, The Netherlands: Kluwer Academic Publishers.
  • Tobin, K., & Espinet, M. (1989). Impediments to change: Applications of coaching in high school science teaching. Journal of Research in Science Teaching, 26(2), 105120.
  • Tobin, K., & Fraser, B. J. (1990). What does it mean to be an exemplary science teacher? Journal of Research in Science Teaching, 27(1), 325.
  • Tobin, K., Tippins, D. J., & Gallard, A. J. (1994). Research on instructional strategies for teaching science. In D. L.Gabel (Ed.), Handbook of research on science teaching and learning (pp. 4593). New York: McMillan.
  • Tsai, C-C. (2001). A science teacher's reflections and knowledge growth about STS instruction after actual implementation. Science Education, 86(1), 2341.
  • Tsai, C-C. (2006). Reinterpreting and reconstructing science: Teachers' view changes toward the nature of science by courses of science education. Teaching and Teacher Education, 22(3), 363375.
  • Vázquez, B., Jiménez, R., Mellado, V., Martos, M., & Taboada, C. (in press). Evolución de la reflexión y práctica de aula en la resolución de problemas. El caso de dos profesoras de ciencias de secundaria. Campo Abierto.
  • Verjovsky, J., & Waldegg, G. (2005). Analyzing beliefs and practices of a Mexican high school biology teacher. Journal of Research in Science Teaching, 42(4), 465491.
  • Windschitl, M. (2004). Folk theories of “inquiry”: How preservice teachers reproduce the discourse and practices of an atheoretical scientific method. Journal of Research in Science Teaching, 41(5), 481512.
  • Yerrick, R. K., & Hoving, T. J. (2003). One foot on the dock and one foot on the boat: Differences among preservice science teachers' interpretations of field-based science methods in culturally diverse contexts. Science Education, 87(3), 390418.
  • Zembylas, M. (2002). Constructing genealogies of teachers' emotions in science teaching. Journal of Research in Science Teaching, 39(1), 79103.