Abedi, J. (2004). The No Child Left Behind Act and English language learners: Assessment and accountability issues. Educational Researcher, 33(1), 4–14.
Abedi, J., Hofstetter, C. H., & Lord, C. (2004). Assessment accommodations for English language learners: Implications for policy-based empirical research. Review of Educational Research, 74(1), 1–28.
Agar, M. (1996). Language shock: Understanding the culture of conversation. New York: William Morrow.
Aikenhead, G. S. (1997). Toward a First Nations cross-cultural science and technology curriculum. Science Education, 81(2), 217–238.
Aikenhead, G. S. (2001a). Students' ease in crossing cultural borders into school science. Science Education, 85(2), 180–188.
Aikenhead, G. S. (2001b). Integrating Western and aboriginal sciences: Cross-cultural science teaching. Research in Science Education, 31(3), 337–355.
Aikenhead, G. S., & Jegede, O. J. (1999). Cross-cultural science education: A cognitive explanation of a cultural phenomenon. Journal of Research in Science Teaching, 36(3), 269–287.
Akatugba, A. H., & 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), 305–320.
Allen, N. J., & Crawley, F. E. (1998). Voices from the bridge: Worldview conflicts of Kickapoo students of science. Journal of Research in Science Teaching, 35(2), 111–132.
Amaral, O. M., Garrison, L., & Klentschy, M. (2002). Helping English learners increase achievement through inquiry-based science instruction. Bilingual Research Journal, 26(2), 213–239.
American Anthropological Association. (1998). Statement on “race.” www.aaanet.org/stmts/racepp.htm. Accessed February 24, 2004.
American Association for the Advancement of Science (AAAS). (1989). Science for all Americans. New York: Oxford University Press.
American Association for the Advancement of Science (AAAS). (1993). Benchmarks for science literacy. New York: Oxford University Press.
Arellano, E. L., Barcenal, T., Bilbao, P. P., Castellano, M. A., Nichols, S., & Tippins, D. J. (2001). Case-based pedagogy as a context for collaborative inquiry in the Philippines. Journal of Research in Science Teaching, 38(5), 502–528.
Atwater, M. M. (1993). Multicultural science education: Perspectives, definitions, and research agenda. Science Education, 77(6), 661–668.
Atwater, M. M. (1994). Research on cultural diversity in the classroom. In Gabel, D. L. (ed.), Handbook of research on science teaching and learning (pp. 558–576). New York: Macmillan.
Atwater, M. M. (1996). Social constructivism: Infusion into the multicultural science education research agenda. Journal of Research in Science Teaching, 33(8), 821–837.
Atwater, M. M. (2000). Equity for Black Americans in precollege science. Science Education, 84(2), 154–179.
Atwater, M. M., & Riley, J. P. (1993). Multicultural science education: Perspectives, definitions, and research agenda. Science Education, 77(6), 661–668.
Atwater, M. M., Wiggins, J., & Gardner, C. M. (1995). A study of urban middle school students with high and low attitudes toward science. Journal of Research in Science Teaching, 32(6), 665–677.
Au, K. H. (1980). Participation structures in a reading lesson with Hawaiian children: Analysis of a culturally appropriate instructional event. Anthropology and Education Quarterly, 11(2), 91–115.
Au, K. H. (1998). Social constructivism and the school literacy learning of students of diverse backgrounds. Journal of Literacy Research, 30(2), 297–319.
August, D., & Hakuta, K. (eds.). (1997). Improving schooling for language-minority children: A research agenda. Washington, DC: National Academy Press.
Baker, D., & Leary, R. (1995). Letting girls speak out about science. Journal of Research in Science Teaching, 32(1), 3–27.
Ball, D. L., & Cohen, D. K. (1996). Reform by the book: What is – or might be – the role of curriculum materials in teacher learning and instructional reform?Educational Researcher, 25(9), 6–8.
Ballenger, C. (1997). Social identities, moral narratives, scientific argumentation: Science talk in a bilingual classroom. Language and Education, 11(1), 1–14.
Ballenger, C., & Rosebery, A. S. (2003). What counts as teacher research? Investigating the scientific and mathematical ideas of children from culturally diverse backgrounds. Teachers College Record, 105(2), 297–314.
Banks, J. (1993a). Canon debate, knowledge construction, and multicultural education. Educational Researcher, 22(5), 4–14.
Banks, J. (1993b). Multicultural education: Historical development, dimensions and practice. In Darling-Hammond, L. (ed.), Review of Research in Education. Vol. 19 (pp. 3–49). Washington, DC: American Educational Research Association.
Barba, R. H. (1993). A study of culturally syntonic variables in the bilingual/bicultural science classroom. Journal of Research in Science Teaching, 30(9), 1053–1071.
Bianchini, J. A., Johnston, C. C., Oram, S. Y., & Cavazos, L. M.(2003). Learning to teach science in contemporary and equitable ways: The successes and struggles of first-year science teachers. Science Education, 87(3), 419–443.
Bianchini, J. A., & Kelly, G. J. (2003). Challenges of standards-based reform: The example of California's science content standards and textbook adoption process. Science Education, 87(3), 378–389.
Bianchini, J. A., & 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), 53–76.
Blake, M. E., & Sickle, M. V. (2001). Helping linguistically diverse students share what they know. Journal of Adolescent and Adult Literacy, 44(5), 468–475.
Bland, B. R., & Glasson, G. E. (2004). Crossing cultural borders into science teaching: Early life experiences, racial and ethnic identities, and beliefs about diversity. Journal of Research in Science Teaching, 41(2), 119–141.
Blumenfeld, P., Fishman, B. J., Krajcik, J., & Marx, R. W. (2000). Creating usable innovations in systemic reform: Scaling-up technology-embedded project-based science in urban schools. Educational Psychologist, 26(3–4), 369–398.
Boone, W. J., & Kahle, J. B. (1998). Student perceptions of instruction, peer interest, and adult support for middle school science: Differences by race and gender. Journal of Women and Minorities in Science and Engineering, 4(4), 333–340.
Bouillion, L. M., & Gomez, L. M. (2001). Connecting school and community with science learning: Real world problems and school-community partnerships as contextual scaffolds. Journal of Research in Science Teaching, 38(8), 878–898.
Bourdieu, P. (1984). Distinction: A social critique of the judgment of taste. London: Routledge.
Brand, B. R., & Glasson, G. E. (2004). Crossing cultural borders into science teaching: Early life experiences, racial and ethnic identities, and beliefs about diversity. Journal of Research in Science Teaching, 41(2), 119–142.
Bredderman, T. (1983). Effects of activity-based elementary science on student outcomes: A quantitative synthesis. Review of Educational Research, 53(4), 499–518.
Brenner, M. E. (1998). Adding cognition to the formula for culturally relevant instruction in mathematics. Anthropology and Education Quarterly, 29(2), 213–244.
Brickhouse, N. (1994). Bringing in the outsiders: Reshaping the sciences of the future. Curriculum Studies, 26(4), 401–416.
Brickhouse, N. W., Lowery, P., & Schultz, K. (2000). What kind of girl does science? The construction of school science identities. Journal of Research in Science Teaching, 37(5), 441–458.
Brickhouse, N. W., & Potter, J. T. (2002). Young women's scientific identity formation in an urban context. Journal of Research in Science Teaching, 38(8), 965–980.
Brown, A. L. (1992). Design experiments: Theoretical and methodological challenges in creating complex interventions in classroom settings. Journal of the Learning Sciences, 2(2), 141–178.
Brown, A. L. (1994). The advancement of learning. Educational Researcher, 23(8), 4–12.
Bryan, L. A., & Atwater, M. M. (2002). Teacher beliefs and cultural models: A challenge for science teacher preparation programs. Science Education, 86(6), 821–839.
Bullock, L. D. (1997). Efficacy of gender and ethnic equity in science education curriculum for preservice teachers. Journal of Research in Science Teaching, 34(10), 1019–1038.
Buxton, C. (1998). Improving science education of English language learners: Capitalizing on educational reform. Journal of Women and Minorities in Science and Engineering, 4(4), 341–369.
Buxton, C. (1999). Designing a model-based methodology for science instruction: Lessons from a bilingual classroom. Bilingual Research Journal, 23(2–3), 147–177.
Buxton, C. (2005). Creating a culture of academic success in an urban science and math magnet high school. Science Education, 89(3), 392–417.
Buxton, C. (in press). Creating contextually authentic science education in a “low performing” urban elementary school context. Journal of Research in Science Teaching.
Barton, Calabrese A. (1998a). Reframing “science for all” through the politics of poverty. Educational Policy, 12(5), 525–541.
Barton, Calabrese A. (1998b). Teaching science with homeless children: Pedagogy, representation, and identity. Journal of Research in Science Teaching, 35(4), 379–394.
Barton, Calabrese A. (1998c). Examining the social and scientific roles of invention in science education. Research in Science Education, 28(1), 133–151.
Barton, Calabrese A. (2001). Science education in urban settings: Seeking new ways of praxis through critical ethnography. Journal of Research in Science Teaching, 38(8), 899–917.
Callanan, M. (1997, 1998, 1999, 2000). Performance reports on “At-risk preschoolers' questions and explanations: Science in action at home and in the classroom.”Santa Cruz, CA: Center for Research on Education, Diversity & Excellence.
Campbell, J. R., Hombo, C. M., & Mazzeo, J. (2000). NAEP 1999 trends in academic progress: Three decades of student performance (NCES 2000–469). Washington, DC: U.S. Department of Education, National Center for Education Statistics.
Carter, L. (2004). Thinking differently about cultural diversity: Using postcolonial theory to (re)read science education. Science Education, 88(6), 819–836.
Catsambis, S. (1995). Gender, race, ethnicity, and science education in the middle grades. Journal of Research in Science Teaching, 32(3), 243–257.
Chin-Chung, T. (2001). Ideas about earthquakes after experiencing a natural disaster in Taiwan: An analysis of students' worldviews. International Journal of Science Education, 23(10), 1007–1017.
Chipman, S. F., & Thomas, V. G. (1987). The participation of women and minorities in mathematical, scientific, and technical fields. In Rothkopf, E. Z. (ed.), Review of Research in Education, Vol. 14 (pp. 387–430). Washington, DC: American Educational Research Association.
Cleghorn, A. (1992). Primary level science in Kenya: Constructing meaning through English and indigenous languages. Qualitative Studies in Education, 5(4), 311–323.
Cobern, W. W. (1989). A comparative analysis of NOSS profiles on Nigerian and American preservice, secondary science teachers. Journal of Research in Science Teaching, 26(6), 533–541.
Cobern, W. W. (1991). Worldview theory and science education research (NARST Monograph, Number 3). Kansas State University, KS: The National Association for Research in Science Teaching.
Cobern, W. W. (1996). Worldview theory and conceptual change in science education. Science Education, 80(5), 579–610.
Cobern, W. W., & Loving, C. C. (2001). Defining “science” in a multicultural world: Implications for science education. Science Education, 85(1), 50–67.
Coburn, C. E. (2003). Rethinking scale: Moving beyond numbers to deep and lasting change. Educational Researcher, 32(6), 3–12.
Cochran-Smith, M. (1995a). Color blindness and basket making are not the answers: Confronting the dilemmas of race, culture, and language diversity in teacher education. American Educational Research Journal, 32(3), 493–522.
Cochran-Smith, M. (1995b). Uncertain allies: Understanding the boundaries of race and teaching. Harvard Educational Review, 65(4), 541–570.
Cohen, D. K., & Hill, H. C. (2000). Instructional policy and classroom performance: The mathematics reform in California. Teachers College Record, 102(2), 294–343.
Contreras, A., & Lee, O. (1990). Differential treatment of students by middle school science teachers: Unintended cultural bias. Science Education, 74(4), 433–444.
Costa, V. B. (1995). When science is “another world”: Relationships between worlds of family, friends, school, and science. Science Education, 79(3), 313–333.
Council of State Science Supervisors. (n.d.). Science education assessment: CSSS state assessment information. http://csss.enc.org/assess.htm. Accessed March 7, 2004.
Cuevas, P., Lee, O., Hart, J., & Deaktor, R. (2005). Improving science inquiry with elementary students of diverse backgrounds. Journal of Research in Science Teaching, 42(3), 337–357.
Cunningham, C. M., & Helms, J. V. (1998). Sociology of science as a means to a more authentic, inclusive science education. Journal of Research in Science Teaching, 35(5), 483–499.
Curtis, S., & Millar, R. (1988). Language and conceptual understanding in science: A comparison of English and Asian language speaking children. Research in Science and Technological Education, 6(1), 61–77.
Damnjanovic, A. (1998). Ohio Statewide Systemic Initiative (SSI) factors associated with urban middle school science achievement: Differences by student sex and race. Journal of Women and Minorities in Science and Engineering, 4(2–3), 217–233.
Darling-Hammond, L. (1996). The right to learn and the advancement of teaching: Research, policy, and practice for democratic education. Educational Researcher, 25(6), 5–17.
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), 151–163.
DeAvila, E. A., Duncan, S. E., & Navarrete, C. J. (1987a). Cooperative learning: Integrating language and content-area instruction based on Finding Out/ Descubrimiento (FO/D). National Clearinghouse for Bilingual Education. http://www.ncela.gwu.edu/ncbepubs/classics/trg/02cooperative.htm#deavila1987. Accessed in September 2005.
DeAvila, E. A., Duncan, S. E., & Navarrete, C. J. (1987b). Finding out/Descubrimiento. Teacher's resource guide. Northvale, NJ: Santillana Publishing.
Deboer, G. E. (2002). Student-centered teaching in a standards-based world: Finding a sensible balance. Science & Education, 11(4), 405–417.
Delpit, L. (1988). The silenced dialogue: Power and pedagogy in educating other people's children. Harvard Educational Review, 58(3), 280–298.
Delpit, L. (1995). Other people's children: Cultural conflict in the classroom. New York: W. W. Norton.
Delpit, L. (2003). Educators as “seed people” growing a new future. Educational Researcher, 32(7), 14–21.
Desimone, L. M., Porter, A. C., Garet, M. S., Yoon, K. S., & Birman, B. F. (2002). Effects of professional development on teachers' instruction: Results from a three-year longitudinal study. Educational Evaluation and Policy Analysis, 24(2), 81–112.
Deyhle, D., & Swisher, K. (1997). Research in American Indian and Alaska Native education: From assimilation to self-determination. In Apple, M. W. (ed.), Review of Research in Education, Vol. 22 (pp. 113–194). Washington, DC: American Educational Research Association.
Sessa, A., Hammer, D., Sherin, B., & Kolpakowski, T. (1991). Inventing graphing: Meta-representational expertise in children. Journal of Mathematical Behavior, 10(2), 117–160.
Dixon, J. K. (1995). Limited English proficiency and spatial visualization in middle school students' construction of the concepts of reflection and rotation. Bilingual Research Journal, 19(2), 221–247.
Driver, R., Asoko, H., Leach, J., Mortimer, E., & Scott, P. (1994). Constructing scientific knowledge in the classroom. Educational Researcher, 23(7), 5–12.
Duran, B. J., Dugan, T., & Weffer, R. (1998). Language minority students in high school: The role of language in learning biology concepts. Science Education, 82(3), 311–341.
Dzama, E. N. N., & Osborne, J. F. (1999). Poor performance in science among African students: An alternative explanation to the African worldview thesis. Journal of Research in Science Teaching, 36(3), 387–405.
Eide, K. Y., & Heikkinen, M. W. (1998). The inclusion of multicultural material in middle school science teachers' resource manuals. Science Education, 82(2), 181–195.
Eisenhart, M., Finkel, E., & Marion, S. F. (1996). Creating the conditions for scientific literacy: A re-examination. American Educational Research Journal, 33(2), 261–295.
Elmore, R. (1996). Getting to scale with good educational practice. Harvard Educational Review, 66(1), 1–26.
Epstein, J. (1987). Parent involvement: What research says to administrators. Education and Urban Society, 19(2), 119–136.
Fishman, B., Marx, R. W., Blumenfeld, P., Krajcik, J., & Soloway, E. (2004). Creating a framework for research on systemic technology innovations. Journal of the Learning Sciences, 13(1), 43–76.
Fradd, S. H., & Lee, O. (1995). Science for all: A promise or a pipe dream for bilingual students?Bilingual Research Journal, 19(2), 261–278.
Fradd, S. H., & Lee, O. (1999). Teachers' roles in promoting science inquiry with students from diverse language backgrounds. Educational Researcher, 28(6), 4–20, 42.
Fradd, S. H., & Lee, O. (2000). Needed: A framework for integrating standardized and informal assessment for students developing academic language proficiency in English. In Tenajero, J. V. & Hurley, S. (eds.), Literacy assessment of bilingual learners (pp. 130–148). Boston: Allyn and Bacon.
Fradd, S. H., Lee, O., Sutman, F. X., & Saxton, M. K. (2002). Materials development promoting science inquiry with English language learners: A case study. Bilingual Research Journal, 25(4), 479–501.
Fusco, D. (2001). Creating relevant science through urban planning and gardening. Journal of Research in Science Teaching, 38(8), 860–877.
Fusco, D., & Barton, Calabrese A. (2001). Representing student achievement in science. Journal of Research in Science Teaching, 38(3), 337–354.
Gamoran, A., Anderson, C. W., Quiroz, P. A., Secada, W. G., Williams, T., & Ashmann, S. (2003). Transforming teaching in math and science: How schools and districts can support change. New York: Teachers College Press.
Gao, L. (1998). Cultural context of school science teaching and learning in the People's Republic of China. Science Education, 82(1), 1–13.
Gao, L., & Watkins, D. A. (2002). Conceptions of teaching held by school science teachers in P. R. China: Identification and cross-cultural comparisons. International Journal of Science Education, 24(1), 61–79.
Garaway, G. B. (1994). Language, culture, and attitude in mathematics and science learning: A review of the literature. Journal of Research and Development in Education, 27(2), 102–111.
García, E. E. (1999). Student cultural diversity: Understanding and meeting the challenge. 2nd ed. Boston: Houghton Mifflin.
García, E. E., & Rodríguez, Curry J. (2000). The education of limited English proficient students in California schools. Bilingual Research Journal, 24(1–3), 15–35.
Garet, M. S., Porter, A. C., Desimone, L., Birman, B. F., & Yoon, K. S. (2001). What makes professional development effective? Results from a national sample of teachers. American Educational Research Journal, 38(4), 915–945.
Gay, G. (2002). Preparing for culturally responsive teaching. Journal of Teacher Education, 53(2), 106–116.
George, J. (1992). Science teachers as innovators using indigenous resources. International Journal of Science Education, 14(1), 95–109.
George, J. (1999). Worldview analysis of knowledge in a rural village: Implications for science education. Science Education, 83(1), 77–95.
George, Y. S., Neale, D. S., Horne, V., & Malcom, S. M. (2001). In pursuit of a diverse science, technology, engineering, and mathematics workforce: Recommended research priorities to enhance participation by underrepresented minorities. Washington, DC: American Association for the Advancement of Science.
Gilbert, A., & Yerrick, R. (2001). Same school, separate worlds: A sociocultural study of identity, resistance, and negotiation in a rural, lower track science classroom. Journal of Research in Science Teaching, 38(5), 574–598.
Giroux, H. (1992). Border crossings: Cultural workers and the politics of education. New York: Routledge.
Grandy, J. (1998). Persistence in science of high-ability minority students: Results of a longitudinal study. Journal of Higher Education, 69(6), 589–620.
Gutiérrez, K. D., Asato, J., Pacheco, M., Moll, L. C., Olson, K., Horng, E. L., Ruiz, R., García, E., & McCarty, T. (2002). “Sounding American”: The consequences of new reforms on English language learners. Reading Research Quarterly, 37(3), 328–343.
Gutiérrez, K. D., & Rogoff, B. (2003). Cultural ways of learning: Individual traits of repertoires of practice. Educational Researcher, 32(5), 19–25.
Haberman, M. (1988). Proposals for recruiting minority teachers: Promising practices and attractive detours. Journal of Teacher Education, 33(4), 38–44.
Hamilton, L. S., Nussbaum, E. M., Kupermintz, H., Kerkhoven, J. I. M., & Snow, R. E. (1995). Enhancing the validity and usefulness of large-scale educational assessments: II. NELS: 88 science achievement. American Educational Research Journal, 32(3), 555–581.
Hammond, L. (2001). An anthropological approach to urban science education for language minority families. Journal of Research in Science Teaching, 38(9), 983–999.
Hampton, E., & Rodriguez, R. (2001). Inquiry science in bilingual classrooms. Bilingual Research Journal, 25(4), 461–478.
Haraway, D. J. (1990). Primate visions: Gender, race and nature in the world of modern science. New York: Routledge.
Haraway, D. J. (1991). Simians, cyborgs, and women: The reinvention of nature. New York: Routledge.
Hart, J., & Lee, O. (2003). Teacher professional development to improve science and literacy achievement of English language learners. Bilingual Research Journal, 27(3), 475–501.
Haycock, K. (1999). Dispelling the myth: High poverty schools exceeding expectations. Washington, DC: Education Trust.
Hayes, M. T., & Deyhle, D. (2001). Constructing difference: A comparative study of elementary science curriculum differentiation. Science Education, 85(3), 239–262.
Heath, S. B. (1983). Ways with words: Language, life, and work in communities and classroom. New York: Cambridge University Press.
Hewson, M. G. (1988). The ecological context of knowledge: Implications for learning science in developing countries. Journal of Curriculum Studies, 20(4), 317–326.
Hewson, P. W., Kahle, J. B., Scantlebury, K., & Davies, D. (2001). Equitable science education in urban middle schools: Do reform efforts make a difference?Journal of Research in Science Teaching, 38(10), 1130–1144.
Hill, O. W., Pettus, C., & Hedin, B. A. (1990). Three studies of factors affecting the attitudes of blacks and females toward the pursuit. Journal of Research in Science Teaching, 27(4), 289–314.
Hilliard, A. G. (2003). No mystery: Closing the achievement gap between Africans and excellence. In Perry, T. C. Steele, & Hilliard, A. G. (eds.), Young, gifted, and Black: Promoting high achievement among African American students (pp. 131–165). Boston: Beacon Press.
Hodson, D. (1993). In search of a rationale for multicultural science education. Science Education, 77(6), 685–711.
Hodson, D. (1999). Going beyond cultural pluralism: Science education for sociopolitical action. Science Education, 83(6), 775–796.
Hodson, D., & Dennick, R. (1994). Antiracist education: A special role for the history of science and technology. School Science and Mathematics, 94(5), 255–262.
Howes, E. V. (2002). Learning to teach science for all in the elementary grades: What do prospective teachers bring?Journal of Research in Science Teaching, 39(9), 845–869.
Irzik, G., & Irzik, S. (2002). Which multiculturalism?Science & Education, 11(4), 393–403.
Jegede, O. J., & Aikenhead, G. S. (1999). Transcending cultural borders: Implications for science teaching. Research in Science and Technology Education, 17(1), 45–66.
Jegede, O. J., & Okebukola, P. A. (1991a). The effect of instruction on socio-cultural beliefs hindering the learning of science. Journal of Research in Science Teaching, 28(3), 275–285.
Jegede, O. J., & Okebukola, P. A. (1991b). The relationship between African traditional cosmology and students' acquisition of a science process skill. International Journal of Science Education, 13(1), 37–47.
Jegede, O. J., & Okebukola, P. A. (1992). Differences in sociocultural environment perceptions associated with gender in science classrooms. Journal of Research in Science Teaching, 29(7), 637–647.
Jiménez, R. T., & Gersten, R. (1999). Lessons and dilemmas derived from the literacy instruction of two Latina/o teachers. American Educational Research Journal, 36(2), 265–301.
Johnson, J., & Kean, E. (1992). Improving science teaching in multicultural settings: A qualitative study. Journal of Science Education and Technology, 1(4), 275–287.
Jorgenson, O. (2000). The need for more ethnic teachers: Addressing the critical shortage in American public schools. Teachers College Record. Online format only. http://www.tcrecord.org. ID Number: 10551. Published: 9/13/2000.
Kahle, J. B. (1982). Can positive minority attitudes lead to achievement gains in science? Analysis of the 1977 National Assessment of Educational Progress, attitudes toward science. Science Education, 66(4), 539–546.
Kahle, J. B. (1998). Equitable systemic reform in science and mathematics: Assessing progress. Journal of Women and Minorities in Science and Engineering, 4(2–3), 91–112.
Kahle, J. B., & Kelly, M. K. (2001). Equity in reform: Case studies of five middle schools involved in systemic reform. Journal of Women and Minorities in Science and Engineering, 7(2), 79–96.
Kahle, J. B., Meece, J., & Scantlebury, K. (2000). Urban African-American middle school science students: Does standards-based teaching make a difference?Journal of Research in Science Teaching, 37(9), 1019–1041.
Kawagley, A. O., Norris-Tull, D., & Norris-Tull, R. A. (1998). The indigenous worldview of Yupiaq culture: Its scientific nature and relevance to the practice and teaching of science. Journal of Research in Science Teaching, 35(2), 133–144.
Kawasaki, K. (1996). The concepts of science in Japanese and Western education. Science & Education, 5(1), 1–20.
Kearsey, J., & Turner, S. (1999). The value of bilingualism in pupils' understanding of scientific language. International Journal of Science Education, 21(10), 1037–1050.
Keller, E. F., & Longino, H. E. (eds.). (1996). Feminism and science. New York: Oxford University Press.
Kelly, G. J., & Breton, T. (2001). Framing science as disciplinary inquiry in bilingual classrooms. Electronic Journal of Literacy Through Science, 1(1). http://www2.sjsu.edu/elementaryed/ejlts/. Accessed October 31, 2002.
Kelly, G. J., Carlsen, W. S., & Cunningham, C. M. (1993). Science education in sociocultural context: Perspectives from the sociology of science. Science Education, 77(2), 207–220.
Kennedy, M. (1998). Form and substance in inservice teacher education (Research Monograph No. 13). Madison: University of Wisconsin, National Institute for Science Education.
Kesamang, M. E. E., & Taiwo, A. A. (2002). The correlates of the socio-cultural background of Botswana junior secondary school students with their attitudes towards and achievements in science. International Journal of Science Education, 24(9), 919–931.
Kim, J. J., Crasco, L., Smith, R. B., Johnson, G., Karantonis, A., & Leavitt, D. J. (2001a). Academic excellence for all students: Their accomplishment in science and mathematics. Norwood, MA, Systemic Research, Inc.
Kim, J. J., Crasco, L. M., Smithson, J., & Blank, R. K. (2001b). Survey results of urban school classroom practices in mathematics and science: 2000 report. Norwood, MA: Systemic Research, Inc.
King, K., Shumow, L., & Lietz, S. (2001). Science education in an urban elementary school: Case studies of teacher beliefs and classroom practices. Science Education, 85(2), 89–110.
Klein, C. A. (1982). Children's concepts of the earth and the sun: A cross cultural study. Science Education, 66(1), 95–107.
Klein, S. P., Jovanovic, J., Stecher, B. M., McCaffrey, D., Shavelson, R. J., Haertel, E., Solano-Flores, G., & Comfort, K. (1997). Gender and racial/ethnic differences on performance assessment in science. Educational Evaluation and Policy Analysis, 19(2), 83–97.
Knapp, M. S. (1997). Between systemic reforms and the mathematics and science classroom: The dynamics of innovation, implementation, and professional learning. Review of Educational Research, 67(2), 227–266.
Knapp, M. S., & Plecki, M. L. (2001). Investing in the renewal of urban science teaching. Journal of Research in Science Teaching, 38(10), 1089–1100.
Krugly-Smolska, E. (1996). Scientific culture, multiculturalism and the science classroom. Science & Education, 5(1), 21–29.
Kuhn, T. S. ([1970] 1996). The structure of scientific revolutions. Chicago: University of Chicago Press.
Kurth, L. A., Anderson, C. W., & Palincsar, A. S. (2002). The case of Carla: Dilemmas of helping all students to understand science. Science Education, 86(3), 287–313.
Labov, W. (1966). The social stratification of English in New York City. Washington, DC: Center for Applied Linguistics.
Lacelle-Peterson, M. W., & Rivera, C. (1994). Is it real for all kids? A framework for equitable assessment policies for English language learners. Harvard Educational Review, 64(1), 55–75.
Ladson-Billings, G. (1994). The dreamkeepers: Successful teachers of African American children. San Francisco: Jossey-Bass.
Ladson-Billings, G. (1995). Toward a theory of culturally relevant pedagogy. American Educational Research Journal, 32(3), 465–491.
Ladson-Billings, G. (1999). Preparing teachers for diverse student populations: A critical race theory perspective. In A. Iran-Nejad & P. D. Pearson (eds.), Review of Research in Education. Vol. 24 (pp. 211–248). Washington, DC: American Educational Research Association.
Lambert, J., Lester, B., Lee, O., & Luykx, A. (in press). Changing teachers' beliefs about science and student diversity through an inquiry-based earth systems curricular and professional development intervention. Journal of Science Teacher Education.
Latour, B., & Woolgar, S. (1986). Laboratory life: The social construction of scientific facts. Princeton, NJ: Princeton University Press.
Lawrenz, F., & Gray, B. (1995). Investigation of worldview theory in a South African context. Journal of Research in Science Teaching, 32(6), 555–568.
Lawrenz, F., Huffman, D., & Welch, W. (2001). The science achievement of various subgroups of alternative assessment formats. Science Education, 85(3), 279–290.
Lee, C. D. (2001). Is October Brown Chinese? A cultural modeling activity system for underachieving students. American Educational Research Journal, 38(1), 97–141.
Lee, H.-S., & Songer, N. B. (2003). Making authentic science accessible to students. International Journal of Science Education, 25(1), 1–26.
Lee, O. (1996). Diversity and equity for Asian American students in science education. Science Education, 81(1), 107–122.
Lee, O. (1999a). Equity implications based on the conceptions of science achievement in major reform documents. Review of Educational Research, 69(1), 83–115.
Lee, O. (1999b). Science knowledge, worldviews, and information sources in social and cultural contexts: Making sense after a natural disaster. American Educational Research Journal, 36(2), 187–219.
Lee, O. (2002). Science inquiry for elementary students from diverse backgrounds. In Secada, W. G. (ed.), Review of Research in Education. Vol. 26 (pp. 23–69). Washington, DC: American Educational Research Association.
Lee, O. (2003). Equity for culturally and linguistically diverse students in science education: A research agenda. Teachers College Record, 105(3), 465–489.
Lee, O. (2004). Teacher change in beliefs and practices in science and literacy instruction with English language learners. Journal of Research in Science Teaching, 41(1), 65–93.
Lee, O., & Avalos, M. (2002). Promoting science instruction and assessment for English language learners. Electronic Journal of Science Education, 7(2). http://unr.edu/homepage/crowther/ejse/. Accessed April 5, 2003.
Lee, O., Deaktor, R. A., Hart, J. E., Cuevas, P., & Enders, C. (2005). An instructional intervention's impact on the science and literacy achievement of culturally and linguistically diverse elementary students. Journal of Research in Science Teaching, 42(8), 857–887.
Lee, O., & Fradd, S. H. (1996a). Literacy skills in science performance among culturally and linguistically diverse students. Science Education, 80(6), 651–671.
Lee, O., & Fradd, S. H. (1996b). Interactional patterns of linguistically diverse students and teachers: Insights for promoting science learning. Linguistics and Education: An International Research Journal, 8(2), 269–297.
Lee, O., & Fradd, S. H. (1998). Science for all, including students from non-English language backgrounds. Educational Researcher, 27(3), 12–21.
Lee, O., Fradd, S. H., & Sutman, F. X. (1995). Science knowledge and cognitive strategy use among culturally and linguistically diverse students. Journal of Research in Science Teaching, 32(8), 797–816.
Lee, O., Hart, J., Cuevas, P., & Enders, C. (2004). Professional development in inquiry-based science for elementary teachers of diverse students. Journal of Research in Science Teaching, 41(10), 1021–1043.
Lee, O., & Luykx, A. (2005). Dilemmas in scaling up educational innovations with nonmainstream students in elementary school science. American Educational Research Journal, 42(3), 411–438.
Lee, O., & Paik, S. (2000). Conceptions of science achievement in major reform documents. School Science and Mathematics, 100(1), 16–26.
Lee, V., & Smith, J. B. (1993). Effects of school restructuring on the achievement and engagement of middle grade students. Sociology of Education, 66(3), 164–187.
Lee, V., & Smith, J. B. (1995). Effects of high school restructuring and size on gains in achievement and engagement for early secondary school students. Sociology of Education, 68(4), 241–247.
Lee, V., Smith, J., Croninger, J. B., & Robert, G. (1997). How high school organization influences the equitable distribution of learning in mathematics and science. Sociology of Education, 70(2), 128–150.
Lehrer, R., & Schauble, L. (2000). Modeling in mathematics and science. In Glaser, R. (ed.), Advances in instructional psychology. Vol. 5. Mahwah, NJ: Lawrence Erlbaum.
Lemke, J. L. (1990). Talking science: Language, learning and values. Norwood, NJ: Ablex.
Lemke, J. L. (2001). Articulating communities: Sociocultural perspectives on science education. Journal of Research in Science Teaching, 38(3), 296–316.
Lemmer, M., Lemmer, T. N., & Smit, J. J. A. (2003). South African students' views of the universe. International Journal of Science Education, 25(5), 563–582.
Levinson, B. A., Foley, D. E., & Holland, D. C. (eds.). (1996). The cultural production of the educated person: Critical ethnographies of schooling and local practice. Albany: State University of New York Press.
Lipka, J. (1998). Transforming the culture of schools: Yup'ik Eskimo examples. Mahwah, NJ: Erlbaum.
Lipka, J., & Adams, B. (2004). Culturally based math education as a way to improve Alaska Native students' math performance. Athens: Ohio University, Appalachian Collaborative Center for Learning, Assessment, and Instruction in Mathematics.
Loucks-Horsley, S., Hewson, P. W., Love, N., & Stiles, K. E. (1998). Designing professional development for teachers of science and mathematics. Thousand Oaks, CA: Corwin.
Loving, C. C. (1997). From the summit of truth to its slippery slopes: Science education's journey through positivist-postmodern territory. American Educational Research Journal, 34(3), 421–452.
Loving, C. C. (1998). Cortes' multicultural empowerment model and generative teaching and learning in science. Science & Education, 7(6), 533–552.
Loving, C. C., & Marshall, J. E. (1997). Increasing the pool of ethnically diverse science teachers: A mid-project evaluation. Journal of Science Teacher Education, 8(3), 205–217.
Lubienski, S. (2003). Celebrating diversity and denying disparities: A critical assessment. Educational Researcher, 32(8), 30–38.
Luft, J. A. (1999). The border crossings of a multicultural science education enthusiast. School Science and Mathematics, 99(7), 380–388.
Luft, J. A., Bragg, J., & Peters, C. (1999). Learning to teach in a diverse setting: A case study of a multicultural science education enthusiast. Science Education, 83(5), 527–543.
Luykx, A., Cuevas, P., Lambert, J., & Lee, O. (2005). Unpacking teachers' “resistance” to integrating students' language and culture into elementary science instruction. In Rodriguez, A. & Kitchen, R. S. (eds.), Preparing mathematics and science teachers for diverse classrooms: Promising strategies for transformative pedagogy (pp. 119–141). Mahwah, NJ: Lawrence Erlbaum.
Luykx, A., & Lee, O. (in press). Measuring instructional congruence in elementary science classrooms: Pedagogical and methodological components of a theoretical framework. Journal of Research in Science Teaching.
Luykx, A., Lee, O., & Edwards, U. (in press). Lost in translation: Negotiating meanings in a beginning ESOL science classroom. Educational Policy.
Luykx, A., Lee, O., Mahotiere, M., Lester, B., Hart, J., & Deaktor, R. (in press). Cultural and home language influence in elementary students' constructed responses on science assessments. Teachers College Record.
Lynch, M. (1985). Art and artifact in laboratory science: A study of shop work and shop talk in a research laboratory. Boston: Routledge and Kegan Paul.
Lynch, P. P. (1996a). Students' alternative frameworks: Linguistic and cultural interpretations based on a study of a western-tribal continuum. International Journal of Science Education, 18(3), 321–332.
Lynch, P. P. (1996b). Students' alternative frameworks for the nature of matter: A cross-cultural study of linguistic and cultural interpretations. International Journal of Science Education, 18(6), 743–752.
Lynch, P. P., Chipman, H. H., & Pachaury, A. C. (1985a). The language of science and the high school student: The recognition of concept definitions: A comparison between Hindi speaking students in India and English speaking students in Australia. Journal of Research in Science Teaching, 22(7), 675–686.
Lynch, P. P., Chipman, H. H., & Pachaury, A. C. (1985b). The language of science and preferential thinking styles: A comparison between Hindi speaking students (in India) and English speaking students (in Australia). Journal of Research in Science Teaching, 22(8), 699–712.
Lynch, S. (2000). Equity and science education reform. Mahwah, NJ: Erlbaum.
Lynch, S., Kuipers, J., Pyke, C., & Szesze, M. (2005 ). Examining the effects of a highly rated science curriculum unit on diverse populations: Results from a planning grant. Journal of Research in Science Teaching, 42(8), 912–946.
Madaus, G. F. (1994 ). A technological and historical consideration of equity issues associated with proposals to change the nation's testing policy. Harvard Educational Review, 64(1), 76–95.
Maple, S., & Stage, F. (1991 ). Influences on the choice of math/science major by gender and ethnicity. American Educational Research Journal, 28(1), 37–60.
Mark, R. W., Blumenfeld, P. C., Krajcik, J. S., Fishman, B., Soloway, E., Geier, R., & Tal, R. T. (2004 ). Inquiry-based science in the middle grades: Assessment of learning in urban systemic reform. Journal of Research in Science Teaching, 41(10), 1063–1080.
Martin, M. O., Mullis, I. V. S., Gonzalez, E. J., Connor, O' K. M., Chrostowski, S. J., Gregory, K. D., Smith, T. A., & Garden, R. A. (2001). Science benchmarking report TIMSS 1999-eighth grade: Achievement for U.S. states and districts in an international context. Chestnut Hill, MA: Boston College, The International Study Center.
Matthews, C. E., & Smith, W. S. (1994 ). Native American related materials in elementary science instruction. Journal of Research in Science Teaching, 31(4), 363–380.
McCarty, T. L., Lynch, R. H., Wallace, S., & Benally, A. (1991 ). Classroom inquiry and Navajo learning styles: A call for reassessment. Anthropology and Education Quarterly, 22(1), 42–59.
McKinley, E. (2004 ). Locating the global: Culture, language and science education for indigenous students. International Journal of Science Education, 27(2), 227–241.
McKinley, E., Waiti, P. M., & Bell, B. (1992). Language, culture and science education. International Journal of Science Education, 14(5), 579–595.
McLaughlin, M. W., Shepard, L. A., & Day, O' J. A. (1995). Improving education through standards-based reform: A report by the National Academy of Education Panel on Standards-based Education Reform. Stanford, CA: Stanford University, National Academy of Education.
McNeil, L. M. (2000 ). Creating new inequalities: Contradictions of reform. Phi Delta Kappan, 81(10), 729–734.
Merino, B., & Hammond, L. (2001). How do teachers facilitate writing for bilingual learners in “sheltered constructivist” science?Electronic Journal of Literacy through Science, 1(1). http://www2.sjsu.edu/elementaryed/ejlts/. Accessed October 31, 2002.
Metz, K. E. (1998). Scientific inquiry within reach of young children. In Fraser, B. J., & Tobin, K. (eds.), International handbook of science education. Part I (pp. 81–96). Dordrecht, the Netherlands: Kluwer Academic Publishers.
Moje, E., Collazo, T., Carillo, R., & Marx, R. W. (2001 ). “Maestro, what is quality?”: Examining competing discourses in project-based science. Journal of Research in Science Teaching, 38(4), 469–495.
Moll, L. C. (1992 ). Bilingual classroom studies and community analysis: Some recent trends. Educational Researcher, 21(2), 20–24.
Muller, P. A., Stage, F. K., & Kinzie, J. (2001 ). Science achievement growth trajectories: Understanding factors related to gender and racial-ethnic differences in precollege science achievement. American Educational Research Journal, 38(4), 981–1012.
Murfin, B. (1994 ). African science, African and African-American scientists and the school science curriculum. School Science and Mathematics, 94(2), 96–103.
National Center for Children in Poverty. (1995). Five million children: A statistical profile of our poorest young citizens. New York: Columbia University Press.
National Center for Education Statistics. (1996). Pursuing excellence: A study of U.S. eighth-grade mathematics and science teaching, learning, curriculum, and achievement in international context. Washington, DC: U.S. Department of Education, Office of Educational Research and Improvement.
National Center for Education Statistics. (1997). The condition of education, 1997. Washington, DC: U.S. Department of Education.
National Center for Education Statistics. (1999). Teacher quality: A report on the preparation and qualifications of public school teachers. Washington, DC: U. S. Department of Education, Office of Educational Research and Improvement.
National Research Council (NRC). (1996). National science education standards. Washington, DC: National Academy Press.
National Research Council (NRC). (2000). Inquiry and the national science education standards: A guide for teaching and learning. Washington, DC: National Academy Press.
National Science Foundation (NSF). (1996). Review of instructional materials for middle school science. Washington, DC: National Science Foundation.
National Science Foundation (NSF). (1998). Infusing equity in systemic reform: An implementation scheme. Washington, DC: National Science Foundation.
National Science Foundation (NSF). (2002). Women, minorities, and persons with disabilities in science and engineering. Arlington, VA: National Science Foundation.
Nelson-Barber, S., & Estrin, E. T. (1995 ). Bringing Native American perspectives to mathematics and science teaching. Theory into Practice, 34(3), 174–185.
Nelson-Barber, S., & Estrin, E. T. (1996). Culturally responsive mathematics and science education for Native students. San Francisco: Far West Laboratory for Educational Research and Development.
Ninnes, P. (1994 ). Toward a functional learning system for Solomon Island secondary science classrooms. International Journal of Science Education, 16(6), 677–688.
Ninnes, P. (1995 ). Informal learning contexts in Solomon Islands and their implications for the cross-cultural classroom. International Journal of Educational Development, 15(1), 15–26.
Ninnes, P. (2000 ). Representations of indigenous knowledges in secondary school science textbooks in Australia and Canada. International Journal of Science Education, 22(6), 603–617.
No Child Left Behind Act of 2001. Public Law No. 107–110, 115 Stat. 1425. (2002).
Norman, O. (1998). Marginalized discourses and scientific literacy. Journal of Research in Science Teaching, 35(4), 365–374.
Norman, O., Ault, C. R., Bentz, B., & Meskimen, L. (2001 ). The Black-White “achievement gap” as a perennial challenge of urban science education: A sociocultural and historical overview with implications for research and practice. Journal of Research in Science Teaching, 38(10), 1101–1114.
Nussbaum, E. M., Hamilton, L. S., & Snow, R. E. (1997). Enhancing the validity and usefulness of large-scale educational assessments: IV. NELS: 88 science achievement to 12th grade. American Educational Research Journal, 34(1), 151–173.
Oakes, J. (1990). Opportunities, achievement, and choice: Women and minority students in science and mathematics. In Cazden, C. B. (ed.), Review of Research in Education. Vol. 16 (pp. 153–221). Washington, DC: American Educational Research Association.
Ochs, E., Jacoby, S., & Gonzales, P. (1996). “When I come down I'm in the domain state”: Grammar and graphic representation in the interpretive activity of physicists. In Ochs, E., Schegloff, E. A., & Thompson, S. A. (eds.), Interaction and grammar (pp. 328–369). New York: Cambridge University Press.
Ogawa, M. (1995 ). Science education in a multiscience perspective. Science Education, 79(5), 583–593.
Ogbu, J. (1999 ). Beyond language: Ebonics, proper English, and identity in a Black-American speech community. American Educational Research Journal, 36(2), 147–184.
Ogbu, J., & Simons, H. D. (1998 ). Voluntary and involuntary minorities: A cultural-ecological theory of school performance with some implications for education. Anthropology and Education Quarterly, 29(2), 155–188.
Ogunniyi, M. B. (1987 ). Conceptions of traditional cosmological ideas among literate and nonliterate Nigerians. Journal of Research in Science Teaching, 24(2), 107–117.
Ogunniyi, M. B. (1988 ). Adapting Western science to traditional African culture. International Journal of Science Education, 10(1), 1–9.
Ogunniyi, M. B., Jegede, O. J., Ogawa, M., Yandila, C. D., & Oladele, F. K. (1995 ). Nature of worldview presuppositions among science teachers in Botswana, Indonesia, Japan, Nigeria, and the Philippines. Journal of Research in Science Teaching, 32(8), 817–832.
Okebukola, P. A., & Jegede, O. J. (1990 ). Eco-cultural influences upon students' concept attainment in science. Journal of Research in Science Teaching, 27(7), 651–660.
Loughlin, O' M. (1992 ). Rethinking science education: Beyond Piagetian constructivism toward a sociocultural model of teaching and learning. Journal of Research in Science Teaching, 29(8), 791–820.
Osborne, A. B. (1996 ). Practice into theory into practice: Culturally relevant pedagogy for students we have marginalized and normalized. Anthropology and Education Quarterly, 27(3), 285–314.
Sullivan, O' C. Y., Lauko, M. A., Grigg, W. S., Qian, J., & Zhang, J. (2003). The nation's report card: Science 2000. Washington, DC: U.S. Department of Education, Institute of Education Sciences.
Peng, S., & Hill, S. (1994 ). Characteristics and educational experiences of high-achieving minority secondary students in science and mathematics. Journal of Women and Minorities in Science and Engineering, 1, 137–152.
Pew Charitable Trust. (1998). Quality counts '98: The urban challenge: Public education in the 50 states. Education Week on the Web, January 8, http://counts.edweek.org/sreports/qc98/qc98to.htm.
Porter, A. C. (1995). The uses and misuses of opportunity-to-learn standards. Educational Researcher, 24(1), 21–27.
Powell, R. R., & Garcia, J. (1985). The portrayal of minorities and women in selected elementary science series. Journal of Research in Science Teaching, 22(6), 519–533.
Prophet, R. B. (1990). Rhetoric and reality in science curriculum development in Botswana. International Journal of Science Education, 12(1), 13–23.
Prophet, R. B., & Powell, P. M. (1993). Coping and control: Science teaching strategies in Botswana. Qualitative Studies in Education, 6, 197–209.
Rahm, J. (2002). Emergent learning opportunities in an inner-city youth gardening program. Journal of Research in Science Teaching, 39(2), 164–184.
Raizen, S. (1998). Standards for science education. Teachers College Record, 100(1), 66–121.
Rakow, S. J. (1985a). Minority students in science: Perspectives from the 1981–1982 National Assessment in Science. Urban Education, 20(1), 103–113.
Rakow, S. J. (1985b). Prediction of the science inquiry skill of seventeen-year-olds: A test of the model of educational productivity. Journal of Research in Science Teaching, 22(4), 289–302.
Rakow, S. J., & Bermudez, A. B. (1993). Science is “Cicencia”: Meeting the needs of Hispanic American students. Science Education, 77(6), 547–560.
Raudenbush, S. W. (2003). Designing field trials of educational innovations. Paper presented at the conference, “Conceptualizing Scale-Up: Multidisciplinary Perspectives,” Washington, DC, November.
Rennie, L. J. (1998). Gender equity: Toward clarification and a research direction for science teacher education. Journal of Research in Science Teaching, 35(8), 951–961.
Reyes, M. (1992). Challenging venerable assumptions: Literacy instruction for linguistically diverse students. Harvard Educational Review, 62(4), 427–446.
Richardson, V., & Placier, P. (2001). Teacher change. In Richardson, D. V. (ed.), Handbook of research on teaching. 4th ed. (pp. 905–950). Washington, DC: American Educational Research Association.
Riggs, E. M. (2005). Field-based education and indigenous knowledge: Essential components of geoscience education for Native American communities. Science Education, 89(2), 296–313.
Rivet, A. E., & Krajcik, J. S. (2004). Achieving standards in urban systemic reform: An example of a sixth grade project-based science curriculum. Journal of Research in Science Teaching, 41(7), 669–693.
Rodriguez, A. (1997). The dangerous discourse of invisibility: A critique of the NRC's National Science Education Standards. Journal of Research in Science Teaching, 34(1), 19–37.
Rodriguez, A. (1998a). Busting open the meritocracy myth: Rethinking equity and student achievement in science education. Journal of Women and Minorities in Science and Engineering, 4(2–3), 195–216.
Rodriguez, A. (1998b). Strategies for counter-resistance: Toward sociotransformative constructivism and learning to teach science for diversity and for understanding. Journal of Research in Science Teaching, 35(6), 589–622.
Rodriguez, A. J. (2001). From gap gazing to promising cases: Moving toward equity in urban education reform. Journal of Research in Science Teaching, 38(10), 1115–1129.
Rodriguez, A. J., & Berryman, C. (2002). Using sociotransformative constructivism to teach for understanding in diverse classrooms: A beginning teacher's journey. American Educational Research Journal, 39(4), 1017–1045.
Rodriguez, I., & Bethel, L. J. (1983). An inquiry approach to science and language teaching. Journal of Research in Science Teaching, 20(4), 291–296.
Rollnick, M., & Rutherford, M. (1996). The use of mother tongue and English in the learning and expression of science concepts: A classroom-based study. International Journal of Science Education, 18(1), 91–103.
Rosebery, A. S., Warren, B., & Conant, F. R. (1992). Appropriating scientific discourse: Findings from language minority classrooms. Journal of the Learning Sciences, 21(1), 61–94.
Roth, W.-M., Tobin, K., Carambo, C., & Dalland, C. (2004). Coteaching: Creating resources for learning and learning to teach chemistry in urban high schools. Journal of Research in Science Teaching, 41(9), 882–904.
Ruiz-Primo, M. A., & Shavelson, R. J. (1996). Rhetoric and reality in science performance assessments: An update. Journal of Research in Science Teaching, 33(10), 1045–1063.
Schibeci, R. A., & Riley, J. P. (1986). Influence of students' background and perceptions of science attitudes and achievement. Journal of Research in Science Teaching, 23(3), 177–187.
Schmidt, W. H., McKnight, C. C., & Raizen, S. A. (1997). A splintered vision: An investigation of U.S. science and mathematics education. Dordrecht, the Netherlands: Kluwer Academic Publishers.
Sconiers, Z. D., & Rosiek, J. L. (2000). Historical perspective as an important element of teachers' knowledge: A sonata-form case study of equity issues in a chemistry classroom: Voices inside schools. Harvard Educational Review, 70(3), 370–404.
Secada, W. G., & Lee, O. (2003). A study of highly effective USI schools in the teaching of mathematics and science: Classroom level results. Washington, DC: The Urban Institute.
Seiler, G. (2001). Reversing the “standard” direction: Science emerging from the lives of African American students. Journal of Research in Science Teaching, 38(9), 1000–1014.
Setati, M., Adler, J., Reed, Y., & Bapoo, A. (2002). Incomplete journeys: Code-switching and other language practices in mathematics, science and English language classrooms in South Africa. Language and Education, 16(2), 128–150.
Settlage, J., & Meadows, L. (2002). Standards-based reform and its unintended consequences: Implications for science education within America's urban schools. Journal of Research in Science Teaching, 39(2), 114–127.
Shavelson, R. J., & Towne, L. (eds.). (2002). Scientific research in education. Washington, DC: National Academy Press.
Shaw, J. M. (1997). Threats to the validity of science performance assessments for English language learners. Journal of Research in Science Teaching, 34(7), 721–743.
Shumba, O. (1999). Relationship between secondary science teachers' orientation to traditional culture and beliefs concerning science instructional ideology. Journal of Research in Science Teaching, 36(3), 333–355.
Siegel, H. (1995). What price inclusion?Teachers College Record, 97(1), 6–31.
Siegel, H. (1997). Science education: Multicultural and universal. Interchange, 28(2), 97–108.
Siegel, H. (2002). Multiculturalism, universalism, and science education: In search of common ground. Science Education, 86(6), 803–820.
Sizemore, B., Brosard, C., & Harrigan, B. (1994). An abashing anomaly: The high achieving predominantly Black elementary schools. Pittsburgh, PA: University of Pittsburgh Press.
Smith, F. M., & Hausafus, C. O. (1998). Relationship of family support and ethnic minority students' achievement in science and mathematics. Science Education, 82(1), 111–125.
Smith, M. S., & O'Day, J. (1991). Systemic school reform. In Fuhrman, S. H. & Malen, B. (eds.), The politics of curriculum and testing: The 1990 yearbook of the Politics of Education Association (pp. 233–268). Briston, PA: Falmer Press.
Snively, G. (1990). Traditional Native Indian beliefs, cultural values, and science instruction. Canadian Journal of Native Education, 17(1), 44–59.
Snively, G., & Corsiglia, J. (2001). Discovering indigenous science: Implications for science education. Science Education, 85(1), 6–34.
Solano-Flores, G., Lara, J., Sexton, U., & Navarrete, C. (2001). Testing English language learners: A sampler of student responses to science and mathematics test items. Washington, DC: Council of Chief State School Officers.
Solano-Flores, G., & Nelson-Barber, S. (2001). On the cultural validity of science assessments. Journal of Research in Science Teaching, 38(5), 553–573.
Solano-Flores, G., & Trumbull, E. (2003). Examining language in context: The need for new research and practice paradigms in the testing of English-language learners. Educational Researcher, 32(2), 3–13.
Songer, N. B., Lee, H.-S., & Kam, R. (2002). Technology-rich inquiry science in urban classrooms: What are the barriers to inquiry pedagogy?Journal of Research in Science Teaching, 39(2), 128–150.
Songer, N. B., Lee, H.-S., & McDonald, S. (2003). Research towards an expanded understanding of inquiry science beyond one idealized standard. Science Education, 87(4), 490–516.
Southerland, S. A. (2000). Epistemic universalism and the shortcomings of curricular multicultural science education. Science & Education, 9(3), 289–307.
Southerland, S. A., & Gess-Newsome, J. (1999). Preservice teachers' views of inclusive science teaching as shaped by images of teaching, learning, and knowing. Science Education, 83(2), 131–150.
Spillane, J. P., Diamond, J. B., Walker, L. J., Halverson, R., & Jita, L. (2001). Urban school leadership for elementary science instruction: Identifying and activating resources in an undervalued school subject. Journal of Research in Science Teaching, 38(8), 918–940.
Stanley, W. B., & Brickhouse, N. (1994). Multiculturalism, universalism, and science education. Science Education, 78(4), 387–398.
Stanley, W., & Brickhouse, N. (2001). Teaching sciences: The multicultural question revised. Science Education, 85(1), 35–49.
Stoddart, T., Pinal, A., Latzke, M., & Canaday, D. (2002). Integrating inquiry science and language development for English language learners. Journal of Research in Science Teaching, 39(8), 664–687.
Sutherland, D., & Dennick, R. (2002). Exploring culture, language and the perception of the nature of science. International Journal of Science Education, 24(1), 1–25.
Tate, W. F. (1997). Critical race theory and education: History, theory, and implications. In Apple, M. W. (ed.), Review of Research in Education. Vol. 22 (pp. 195–247). Washington, DC: American Educational Research Association.
Tate, W. F. (2001). Science education as civil right: Urban schools and opportunity-to-learn considerations. Journal of Research in Science Teaching, 38(9), 1015–1028.
Teachers of English to Speakers of Other Languages. (1997). ESL standards for pre-K–12 students. Alexandria, VA: TESOL.
Tharp, R., & Gallimore, R. (1988). Rousing minds to life: Teaching, learning, and schooling in social context. Cambridge: Cambridge University Press.
Thomas, W. P., & Collier, V. P. (1995). A longitudinal analysis of programs serving language minority students. Washington, DC: National Clearinghouse on Bilingual Education.
Thomas, W. P., & Collier, V. P. (2002). A national study of school effectiveness for language minority students' long-term academic achievement. Washington, DC: Center for Applied Linguistics/Center for Research on Education, Diversity, and Excellence.
Tobin, K. (2000). Becoming an urban science educator. Research in Science Education, 30(1), 89–106.
Tobin, K., & McRobbie, C. J. (1996). Significance of limited English proficiency and cultural capital to the performance in science of Chinese-Australians. Journal of Research in Science Teaching, 33(3), 265–282.
Tobin, K., Roth, W., & Zimmerman, A. (2001). Learning to teach science in urban schools. Journal of Research in Science Teaching, 38(8), 941–964.
Tobin, K., Seiler, G., & Smith, M. W. (1999). Educating science teachers for the sociocultural diversity of urban schools. Research in Science Education, 29(1), 69–88.
Torres, H. N., & Zeidler, D. L. (2002). The effects of English language proficiency and scientific reasoning skills on the acquisition of science content knowledge by Hispanic English language learners and native English language speaking students. Electronic Journal of Science Education, 6(3) http://unr.edu/homepage/crowther/ejset/. Accessed April 5, 2003.
Valli, L. (1995). The dilemma of race: Learning to be color blind and color conscious. Journal of Teacher Education, 46(2), 120–129.
Vélez-Ibáñez, C. G., & Greenberg, J. B. (1992). Formation and transformation of funds of knowledge among U.S.-Mexican households. Anthropology and Education Quarterly, 23(4), 313–335.
Villegas, A. M., & Lucas, T. (2002). Preparing culturally responsive teachers: Rethinking the curriculum. Journal of Teacher Education, 53(1), 20–32.
Waldrip, B. G., & Taylor, P. C. (1999a). Standards for cultural contextualization of interpretive research: A Melanesian case. International Journal of Science Education, 21(3), 249–260.
Waldrip, B. G., & 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), 289–303.
Warren, B., Ballenger, C., Ogonowski, M., Rosebery, A., & Hudicourt-Barnes, J. (2001). Rethinking diversity in learning science: The logic of everyday language. Journal of Research in Science Teaching, 38(5), 529–552.
Warren, B., & Rosebery, A. S. (1995). Equity in the future tense: Redefining relationships among teachers, students, and science in linguistic minority classroom. In Secada, W. G., Fennema, E., & Adajian, L. B. (eds.), New directions for equity in mathematics education (pp. 298–328). New York: Cambridge University Press.
Warren, B., & Rosebery, A. S. (1996). “This question is just too, too easy!” Students' perspectives on accountability in science. In Schauble, L. & Glaser, R. (eds.), Innovations in learning new environments for education (pp. 97–125). Mahwah, NJ: Lawrence Erlbaum.
Warren, B., Rosebery, A. S., & Conant, F. (1994). Discourse and social practice: Learning science in language minority classrooms. In Spencer, D. (ed.), Adult biliteracy in the United States (pp. 191–210). Washington, DC: Center for Applied Linguistics and Delta Systems Co.
Westby, C., Dezale, J., Fradd, S. H., & Lee, O. (1999). Learning to do science: Influences of language and culture. Communication Disorders Quarterly, 21(1), 50–64.
Wideen, M. F., Shea, O' T., Pye, I., & Ivany, G. (1997). High-stakes testing and the teaching of science. Canadian Journal of Education, 22(4), 428–444.
Wiley, T. G., & Wright, W. E. (2004). Against the undertow: Language-minority education policy and politics in the “age of accountability.”Educational Policy, 18(1), 142–168.
Wilson, S. M., & Berne, J. (1999). Teacher learning and the acquisition of professional knowledge: An examination of research on contemporary professional development. In Iran-Nejad, A. & Pearson, P. D. (eds.), Review of Research in Education (pp. 173–209). Washington, DC: American Educational Research Association.
Wong-Fillmore, L., & Snow, C. (2002). What teachers need to know about language. Washington DC: Center for Applied Linguistics.
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), 390–418.
