Hacia un concepto de ciencia intercultural

  1. Cabo Hernández, José Manuel
  2. Mirón, Enrique
Revista:
Enseñanza de las ciencias: revista de investigación y experiencias didácticas

ISSN: 0212-4521 2174-6486

Año de publicación: 2004

Volumen: 22

Número: 1

Páginas: 137-146

Tipo: Artículo

DOI: 10.5565/REV/ENSCIENCIAS.3908 DIALNET GOOGLE SCHOLAR lock_openDDD editor

Otras publicaciones en: Enseñanza de las ciencias: revista de investigación y experiencias didácticas

Referencias bibliográficas

  • AGUADO, T. y MALIK, B. (2001). Cultural diversity and school equality: Intercultural education in Spain from a european perperctive. Intercultural Education, 12(2), pp. 149-161.
  • AHLGREN, A. (1996). Comments on «multiculturalism, universalism and Science Education». Science Education, 80(3), pp. 361-363.
  • AIKENHEAD, G.S. (1993). Foreword: Multicultural issues and perpectives on Science Education. Science Education, 77(6), pp. 659-660.
  • AIKENHEAD, G.S. (1997). Toward a first nations crosscultural science and technology curriculum. Science Education, 81 pp. 217 238.
  • AIKENHEAD, G.S. (2001). Students’ ease in crossing borders into school science. Science Education, 85(2), pp. 180-188.
  • AIKENHEAD, G.S. y JEGEDE, O.J. (1999). Cross-cultural Science Education: A cognitive explanation of a cultural phenomenon. Journal of Research in Science Teaching, 36(3), pp. 269-287.
  • AKATUGHA, A.H. y WALLACE, J. (1999). Sociocultural influences on physics students’ use of proportional reasoning in a non-western country. Journal of Research in Science Teaching, 36 (3), pp. 305-320.
  • ALLEN, N.J. y CRAWLEY, F.E. (1998). Voices from the bridge: worldview conflicts of Kickapoo students of Science. Journal of Research in Science Teaching, 35(2), pp. 111-132.
  • ATWATER, M.M. (2000). Equity for Black Americans in precollege science. Science Education, 84, pp. 154-179.
  • ATWATER, M.M. y RILEY, J. (1993). Multicultural Science Education: Perspectives, definitions and research agenda. Science Education, 77, pp. 661-668.
  • ATWATER, M.M., WIGGINS, J. y GARDNER, C. (1995). A study of urban middle school students with high and low attitudes toward science. Journal of Research in Science Teaching, 32(6), pp. 665-675.
  • BAKER, D. y TAYLOR, P.C.S. (1995). The effect of culture on the learning of science in non-western countries: The results of an integrated research review. International Journal of Science Education, 17(6), pp. 695-704.
  • BARTOLOMÉ, M. (1997). Panorámica general de la investigación sobre educación multicultural en Europa. Revista de Investigación Educativa, 15(1), pp. 7-28.
  • BARTON, A.C. y YANG, K. (2000). The culture of power and Science Education: Learning from Miguel. Journal of Research in Science Teaching, 37(8), pp. 871-889.
  • BENARROCH, A. (2001). Interculturalidad y enseñanza de las ciencias. Alambique, 29, pp. 9-23.
  • BIANCHINI, J.A., HILTON-BROWN, B.A. y BRETON, T.D. (2002). Professional development for university scientists around issues of equity and diversity: Investigating dissent within community. Journal of Research in Science Teaching, 39(8), pp. 738-771.
  • BIANCHINI, J.A. y SOLOMON, E.M. (2003). Constructing views of science tied to issues of equity and diversity: A study of beginning science teachers. Journal of Research in Science Teaching, 40(1), pp. 53-76.
  • BROWN-ACQUAYE, H.A. (2001). Each is necessary and none is redundant: The need for science in developing countries. Science Education, 85, pp. 68-70.
  • CABO, J.M. et al., (1996). Intercultura e igualdad de oportunidades. Aldaba, 27, pp. 93-103.
  • CABO, J.M. y ENRIQUE, C. (2001). Ciencia intercultural. Epistemología e historia de la ciencia, en Actas del Congreso Nacional de Didácticas Específi cas. Las Didácticas de las Áreas Curriculares en el siglo XXI Vol. I, pp. 335-344.
  • CABO, J.M. y ENRIQUE, C. (2003). Las relaciones ciencia, tecnología y sociedad en contexto multicultural, en Actas de las II Jornadas de Intercambio de Experiencias Educativas, Melilla, 28-30 de noviembre de 2001, pp. 35-44.
  • CALLON, M. (2001). Cuatro modelos de dinámica de la ciencia, en Ibarra, A. y López, J.A. (eds.). Desafíos y tensiones actuales en ciencia, tecnología y sociedad, pp. 27-69. Madrid: Biblioteca Nueva.
  • CHINN, P.W.U. (2002). Asian and Pacific islander women scientifics and engineers: A narrative exploration of model minority, gender and racial estereotipes. Journal of Research in Science Teaching, 39(4), pp. 302-323.
  • CLERK, D. y RUTHERFORD, M. (2000). Language as confounding variable in the diagnosis of misconceptions. International Journal of Science Education, 22(7), pp. 703-717.
  • COBERN, W.W. (1996). Constructivism and non-western science education research. International Journal of Science Education, 18(3), pp. 295-310.
  • COBERN, W.W. y LOVING, C.C. (2001). Defining «Science» in a multicultural world: Implications for science education. Science Education, 85, pp. 50-67.
  • DAVIS, K.S. (2001). «Peripheral and subversive»: Women making connections and challenging the boundaries of the science community. Science Education, 85, pp. 368-409.
  • DAVIS, K.S. (2002). Advocating for equitable science-learning opportunities for girls in an urban city youth club and the Roadblocks faced by women science educators. Journal of Research in Science Teaching, 39(2), pp. 151-163.
  • DURAN, B.J., DUGAN, T. y WEFFER, R. (1998). Language minority students in high school: The role of language in learning Biology concepts. Science Education, 82, pp. 311-341.
  • EIDE, K.Y. y HEIKKINEN, M.W. (1998). The inclusion of multicultural material in middle school science Teachers’ resource manuals. Science Education, 82, pp. 181-195.
  • ENRIQUE, C. y CABO, J.M. (en prensa). Ciencia en contexto multicultural. Relaciones Ciencia / Religión y sus implicaciones en la enseñanza de las ciencias, en Actas del Congreso Internacional La Ciencia ante el público. Cultura humanista y desarrollo científi co-tecnológico. Salamanca, 28-31 de octubre de 2002.
  • FARENGA, S.J. y JOYCE, B.A. (1999). Intentions of young students to enroll in science courses in the future: An examination of gender differences. Science Edcuation, 83(1), pp. 55-75.
  • FELTHAM, N.F. y DOWNS, C.T. (2002). Three forms of assessment of prior knowledge, and improved perfomance followind an enrichment programme of English second language biology students within the context of a marine theme. Internacional Journal of Science Education, 24(2), pp. 157-184.
  • GONZÁLEZ, M. (2001). ¿Hacia donde dirigir la mirada? La reflexividad desde la perspectiva del género, en Ibarra, A. y López, J.A. (eds.). Desafíos y tensiones actuales en ciencia, tecnología y sociedad, pp. 119-134. Madrid: Biblioteca Nueva.
  • GONZÁLEZ, M., LÓPEZ, J.A. y LUJÁN, J.L. (1996). Ciencia, tecnología y sociedad: una introducción al estudio social de la ciencia y la tecnología. Madrid: Tecnos.
  • GOOD, R. (1995). Comments on multicultural Science Education. Science Education, 79(3), pp. 335-336.
  • HODSON, D. (1993). In search of a rationale for multicultural Science Education. Science Education, 77(6), pp. 685-711.
  • HODSON, D. (1999). Going beyond cultural pluralism: Science Education for sociopolitical action. Science Education, 83, pp. 775-796.
  • IRZIK, G. (2001). Universalism, multiculturalism and science education. Science Education, 85, pp. 71- 73.
  • JAYARATNE, T.E., THOMAS, N.G. y TRAUTMANN, M. (2003). Intervention program to keep girls in the science pipeline: Outcome differences by ethnic status. Journal of Research in Science Teaching, 40(4), pp. 393-414.
  • JEGEDE, O.J. (1997). School science and the development of scientific culture: A review of contemporany science educa-tion in Africa. International Journal of Science Education, 19(1), pp. 1-20.
  • JEGEDE, O.J. y OLAJIDE, J.O. (1995). Wait-time, classroom discourse and the influence of sociocultural factors in science teaching. Science Education, 79 (3) pp. 233-249.
  • JORDÁN, J.A. (1994). La escuela multicultural. Un reto para el profesorado. Barcelona: Paidós.
  • KAWAGLEY, A.O., NORRIL-TULL, D. y NORRIS-TULL, R.A. (1998). The indigenous worldview of Yupiang culture: Its scientific nature and relevance to the practice and teaching of science. Journal of Research in Science Teaching, 35(2), pp. 133-144.
  • KEARSEY, J. y TURNER, S. (1999). The value of bilingualism in pupils’ understanding of scientific language. International Journal of Science Education, 21 (10), pp. 1037-1050.
  • KRUGLY-SMOLSKA, E. (1995). Cultural influences in science education. International Journal of Science Education, 17, pp. 45 58.
  • KRUGLY-SMOLSKA, E. (1996). Scientific culture, multiculturalism and the science classroom. Science & Education, 5, pp. 21-29.
  • KRUGLY-SMOLSKA, E. (1997). Science education in an evolving multicultural education, en McLeod, K. (ed.). Multicultural education. The challenges and the future. Winnipeg Canadian Association of Second Language Teachers.
  • LEMKE, J.L. (1997). Aprender a hablar ciencia. Lenguaje, aprendizaje y valores. Barcelona: Paidós.
  • LEMKE, J.L. (2001). Articulating communities: Sociocultural perpectives on Science Education. Journal of Research in Science Teaching, 38(3), pp. 296-316.
  • LEE, O. (1997). Diversity and equity for Asian–american students in Science Education. Science Education, 81, pp. 107-122.
  • LEE, O. (2001). Culture and language in Science Education: What do we know and what do we need to know? Journal of Research in Science Teaching, 38(5), pp. 499-501.
  • LEWIS, B.F. y AIKENHEAD, G.S. (2001). Introduction: Shifting perspectives from universalism to cross-culturalism. Science Education, 85, pp. 3-5.
  • LOVING, C.C. (1995). Comment on «multiculturalism, universalism and Science Education». Science Education, 79(3), pp. 341-348.
  • LUBBEN, F., CAMPBELL, B. y DLAMINI, B. (1996). Contextualizing science teaching in Swaziland: Some student reactions. International Journal of Science Education, 18(3) pp. 311-320.
  • LUBBEN, F., NETSHISAULU, T. y CAMPBELL, B. (1999). Students’ use of cultural metaphors and their scientific understandings related to heating. Science Education, 83, pp. 761-774.
  • LUFT, J., BRAGG, J. y PETERS, C. (1999). Learning to teach in a diverse setting: A case study of a multicultural Science Education enthusiast. Science Education, 83, pp. 527-543.
  • LYNCH, P.P. (1996). Students’ alternative frameworks of matter: A cross-cultural study of linguistic and cultural interpretations. International Journal of Science Education, 18 (6), pp. 743-752.
  • LYNCH, S. (2001). «Science for all» is not equal to «One Size fits all»: Linguistic and cultural diversity and Science Education Reform. Journal of Research in Science Teaching, 38(5), pp. 622-627.
  • MANASSERO, M.A. y VÁZQUEZ, A. (2003). Los estudios de género en la enseñanza de las ciencias. Revista de Educación, 330, pp. 251-280.
  • MATTERN, N. y SCHAU, C. (2002). Gender differences in science attitude-achievement relationships over time among while middle-school students. Journal of Research in Science Teaching, 39(4), pp. 324-340.
  • McCARTHY, C. (1994). Racismo y currículum. Madrid: Morata.
  • McKINLEY, E. (2001). Cultural diversity: Masking power with innocence. Science Education, 85, pp. 74-76.
  • MEMBIELA, P. (1999). La enseñanza multicultural de las ciencias experimentales. Alambique, 22, pp. 117-122.
  • MUÑOZ, A. (1997). Educación intercultural. Teoría y prácti- ca. Madrid: Escuela Española.
  • NINNES, P. (2000). Representations of indigenous knowledges in secondary school science textbooks in Australia and Canada. International Journal of Science Education, 22(6), pp. 603-617.
  • OGUNNIYI, M.B. (1995). The development of Science Education in Botswana. Science Education, 79(1), pp. 95-109.
  • ORTIZ DE MONTELLANO, B.R. (2001). Multicultural science: Who benefits? Science Education, 85, pp. 77-79.
  • OGAWA, M. (1995). Science Education in a multiscience perpective. Science Education, 79(5), pp. 583-585.
  • PORLÁN, R., RIVERO, A. y MARTÍN, R. (2000). Conocimiento del profesorado sobre la ciencia, su enseñanza y aprendizaje, en Perales, J. y Cañal, P. (dirs.). Didáctica de las Ciencias Experimentales, pp. 507-533. Alcoy: Marfil.
  • RAKOW, S.J. y BERMÚDEZ, A.B. (1993). Science is «Ciencia»: Meeting the needs of Hispanic–American students. Science Education, 77 (6), pp. 669-683.
  • RENNIE, L.J. y DUNNE, M. (1994). Gender, ethnicity and students’ perceptions about science and sce-related careers in Fiji. Science Education, 78(3), pp. 285-300.
  • RODRÍGUEZ, A. J. (1997). The dangerous discourse of invisibility: a critique of the National Research Council’s National Science Education Standars. Journal. of Research in Science Teaching, 34(1), pp. 19-37.
  • RODRÍGUEZ, A.J. (1998). Strategies for counterresistance: Toward socialtransformative constructivism and learning to teach Science for diversity and for understanding. Journal of Research in Science Teaching, 35(6), pp. 589-622.
  • ROTH, W.M. y LAWLESS, D. (2002). Science, culture and the emergence of language. Science Education. 86(3), pp. 368-385.
  • ROTH, W.M. y WELZEL, M. (2000). From activity to gestures and scientific language. Journal of Research in Science Teaching, 38(1), pp. 103-136.
  • SALES, I. y GARCÍA, R. (1997). Programas de educación intercultural. Bilbao: Deslclée de Brouwer.
  • SEILER, G., TOBIN, K. y SOKOLIC, J. (2001). Design, technology and science: Sites for learning, resistanse and social reproduction in urban schools. Journal of Research in Science Teaching, 38(7), pp. 746-767.
  • SMITH, F.M. y HAUSAFUS, C.O. (1998). Relations of family support and ethnic minority students’ achievement in science and mathematics. Science Education, 82, pp. 111-125.
  • SNIVELY, G. y CORSIGLIA, J. (2001). Discovering indigenous science: Implications for science education. Science Education, 85, pp. 6-34.
  • SORIANO, E. (1997). Análisis de la educación multicultural en los centros educativos de la comarca del poniente almeriense. Revista de Investigación Educativa, 15(1), pp. 43-67.
  • STANLEY, W.B. y BRICKHOUSE, N. W. (1994). Multiculturalism, universalism and Science Education. Science Education, 78(4), pp. 387-398.
  • STANLEY, W.B. y BRICKHOUSE, N.W. (2001). Teaching sciences: The multicultural question revisited. Science Education, 85, pp. 35-49.
  • SUTHERLAND, D. y DENNICK, R. (2002). Exploring culture, language and the perception of the nature of science. International Journal of Science Education, 24 (1), pp. 1-25.
  • SVENNBECK, M. (2001). Rethinking the discusión about science education in a multicultural world: Some alternative questions as a new point of departure. Science Education, 85, pp. 80-81.
  • TSAI, C. (1998). An analysis of scientific epistemological beliefs and learning orientations of Taiwanese eighth graders. Science Education, 82, pp. 473-489.
  • UNSWORTH, L. (2001). Evaluating the language of different types of explanations in junior high school science texts. International Journal of Science Education, 23(6), pp. 585-609.
  • WALDRIP, B.G. y TAYLOR, P.C. ( 1999a). Standars for cultural contextualization of interpretative research: A Melanesian case. International Journal of Science Education, 21(3), pp. 249-260.
  • WALDRIP, B.G. y TAYLOR, P.C. (1999b). Permeability of students’ worldviews to their school views in a non-western developing country. Journal of Research in Science Teaching, 36(3), pp. 289-303.
  • WILLIAMS, H. (1994). A critique of Hodson’s «in Search of a rationale for multicultural science education». Science Education, 78(5), pp. 515-519.
  • ZEMBYLAS, M. (2002). The global, the local and the Science curriculum: A strugge for balance in Cyprus. International Journal of Science Education, 24(5), pp. 499-519.