Abstract
In efforts to better prepare students for a technology-driven workforce, many states and districts have pushed for clustered teaching of science, technology, engineering, and mathematics (STEM) in K-12 schools, yet science and mathematics remain the cornerstones upon which broader opportunities in STEM education are built. Teachers serve as boundary spanners—connecting knowledge, experiences, and opportunities for access—and for that reason, we focus on teachers as the most promising change agents in science and mathematics education in urban schools. This qualitative study explores the potential for both initial preparation and continued development of practicing teachers to occur simultaneously through a co-learning university-school-community partnership model, summer residency, and coursework, using critical and culturally relevant outdoor experiential learning. Findings suggest that there was a clear shift with practicing teachers to be more open-minded about both the effectiveness and applicability of experiential outdoor learning in urban spaces, and the richness of urban schools and spaces themselves. Future Teachers were able to incorporate critical and culturally relevant experiential learning into their coursework and master’s project, and engage with their students and mentors in meaningful ways. The article suggests pathways for partnership development and implications for urban education classrooms.
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Anderson, B. N., & Coleman-King, C. (2020). Exploring critical and culturally relevant experiential learning for underserved students in gifted education. In Robins, J., J. Jolly, F. Karnes, S. Bean (Eds.), Methods and materials for teaching the gifted (5th ed., pp. 37–60). Prufrock Press.
Ashley, F. B. (1990). Ethnic minorities’ involvement in outdoor experiential education. In J. C. Miles & S. Priest (Eds.), Adventure education (pp. 369–373). Venture Publishing.
Association of Experiential Education. (2019). Retrieved from https://www.aee.org/what-is-ee.
Barton, A. C., Tan, E., & Greenberg, D. (2017). The maker movement: Sites of possibilities for equitable opportunities to engage underrepresented youth in STEM. Teachers College Record, 119(6), 275–318.
Beaty, A. (2016). Ada Twist, Scientist. Abrams Books for Young Readers.
Begun, A. L., Berger, L. K., Otto-Salaj, L. L., & Rose, S. J. (2010). Developing effective social work university—community research collaborations. Social Work, 55(1), 54–62.
Bottoms, S. I., Ciechanowski, K., Jones, K., de la Hoz, J., & Fonseca, A. L. (2017). Le7veraging the community context of Family Math and Science Nights to develop culturally responsive teaching practices. Teaching and Teacher Education, 61, 1–15.
Boyatzis, R. E. (1998). Transforming qualitative information: Thematic analysis and code development. Sage Publications.
Bowman, D. J. (2016). Step Right Up: How Doc and Jim Key Taught the World About Kindness. Lee and Low Books.
Breunig, M. (2005). Turning experiential education and critical pedagogy theory into praxis. Journal of Experiential Education, 28(2), 106–122. https://doi.org/10.1177/105382590502800205
Breunig, M. (2013). Environmental sustainability and environmental justice: From buzzwords to emancipatory pro-environmental behaviour change. Journal of Sustainability Education, 5(23), 248.
Brown-Jeffy, S., & Cooper, J. E. (2011). Toward a conceptual framework of culturally relevant pedagogy: An overview of the conceptual and theoretical literature. Teacher Education Quarterly, 38(1), 65–84.
Carroll, F. (2014). The Racial Politics of Place: Jim Crow, the New Deal, and Suburban Housing on the Virginia Peninsula. Journal of Urban History, 40(3), 514–535.
Chief Education Office (2016). STEM education plan: Driving individual, community, and state prosperity. Salem, OR: Chief Education Office. Retrieved from http://education.oregon.gov/wp-content/uploads/2016/11/STEM-Education-Plan-Final_CEdO_Nov_2016.pdf
Dani, D. E., Hartman, S. L., & Helfrich, S. R. (2018). Learning to teach science: Elementary teacher candidates facilitate informal STEM events. The New Educator, 14(4), 363–380.
Darden, E. C., & Cavendish, E. (2012). Achieving resource equity within a single school district: Erasing the opportunity gap by examining school board decisions. Education and Urban Society, 44(1), 61–82.
Denzin, N. K., & Lincoln, Y. S. (Eds.). (2011). The sage handbook of qualitative research. Sage Publishing.
Djonko-Moore, C. M., Leonard, J., Holifield, Q., Bailey, E. B., & Almughyirah, S. M. (2018). Using culturally relevant experiential education to enhance urban children’s knowledge and engagement in science. Journal of Experiential Education, 41(2), 137–153. https://doi.org/10.1177/1053825917742164
Emdin, C. (2010). Urban Science Education for the Hip-Hop Generation. Brill Sense Publishers.
Friere, P. (1970). Pedagogy of the oppressed. NY: Herder and Herder.
Glaser, B. G., & Strauss, A. L. (1967). The discovery of grounded theory: Strategies for qualitative research. Aldine Publishing.
Gaitan, C. D. (2006). Building culturally responsive classrooms: A guide for K-6 teachers. Corwin, CA: Thousand Oaks.
Giroux, H. (1994). Doing cultural studies: Youth and the challenge of pedagogy. Harvard Educational Review, 64(3), 278–309.
Girvan, C., Conneely, C., & Tangney, B. (2016). Extending experiential learning in teacher professional development. Teaching and Teacher Education, 58, 129–139.
Guba, E.G. (1978). Toward a Methodology of Naturalistic Inquiry in Educational Evaluation. CSE Monograph Series in Evaluation No. 8. Los Angeles: Center for Study of Evaluation, UCLA.
Haddix, M. (2015). Preparing Community-Engaged Teachers. Theory into Practice, 54(1), 63–70. https://doi.org/10.1080/00405841.2015.977664
Hahn, K. (1944). Ten years to Gordonstoun. County Times Publication.
Howden, E. (2012). Outdoor Experiential Education: Learning through the Body. New Directions for Adult and Continuing Education, 134, 43–51.
Hubbell, P. (2003). Black All Around. Lee & Low Books.
Johnson, C. Y. (1998). A consideration of collective memory in African American attachment to wildland recreation places. Human Ecology Review, 5(1), 5–15.
Kang, H., & Zinger, D. (2019). What do core practices offer in preparing novice science teachers for equitable instruction? Science Education, 103(4), 823–853.
Katsarou, E., Picower, B., & Stovall, D. (2010). Acts of solidarity: Developing urban social justice educators in the struggle for quality public education. Teacher Education Quarterly, 37(3), 137–153.
Keesing-Styles. (2003). The relationship between critical pedagogy and assessment in teacher education. Radical Pedagogy, 5(1). http://radicalpedagogy.icaap.org/content/issue5_1/03_keesing-styles.html
Kolb, A. Y., & Kolb, D. A. (2009). Experiential learning theory: A dynamic holistic approach to management learning, education and development. In S. J. Armstrong & C. V. Fukami (Eds.), The SAGE handbook of management, learning, education and development (pp. 42–68). SAGE.
Ladson-Billings, G. (1995a). But That’s Just Good Teaching! The Case for Culturally Relevant Pedagogy. Theory into Practice, 34(3), 159. https://doi.org/10.1080/00405849509543675
Ladson-Billings, G. (1995b). Toward a theory of culturally relevant pedagogy. American Educational Research Journal, 32(3), 465–491. https://doi.org/10.3102/00028312032003465
Lederman, N. G., Schwartz, R. S., Abd-El-Khalick, F., & Bell, R. L. (2001). Pre-service teachers’ understanding and teaching of nature of science: An intervention study. Canadian Journal of Math, Science & Technology Education, 1(2), 135–160.
Leonard, J., Barnes-Johnson, J., Mitchell, M., Unertl, A., Stubbe, C. R., & Ingraham, L. (2017). Developing Teachers' Computational Thinking Beliefs and Engineering Practices through Game Design and Robotics. In Proceedings of the North American Chapter of the International Group for the Psychology of Mathematics Education. Hoosier Association of Mathematics Teacher Educators.
McVee, M., Silvestri, K., Shanahan, L., & English, K. (2017). Productive Communication in an Afterschool Engineering Club with Girls Who are English Language Learners. Theory into Practice, 56(4), 246–254. https://doi.org/10.1080/00405841.2017.1350490
Merriam, S. B. (2009). Qualitative research: A guide to design and implementation (Vol. 3). Jossey-Bass.
Martin, D. C. (2004). Apartheid in the great outdoors: American advertising and the reproduction of a racialized outdoor leisure identity. Journal of Leisure Research, 36, 513–535.
Milner, H. R. (2012). But What is Urban Education? Urban Education, 47(3), 556–561. https://doi.org/10.1177/0042085912447516
Mohan, S. (2016). Traditional vs. experiential: A comparative study of instructional methodologies on student achievement in New York City public schools. Available from ProQuest Dissertations and Theses database.
Museus, S. D., Palmer, R. T., Davis, R. J., & Maramba, D. C. (2011). Racial and ethnic minority students' success in STEM education. Jossey-Bass Incorporated.
Newman, J. L., Dantzler, J., & Coleman, A. N. (2015). Science in Action: How Middle School Students Are Changing Their World Through STEM Service-Learning Projects. Theory into Practice, 54(1), 47–54. https://doi.org/10.1080/00405841.2015.977661
NGSS Lead States. (2013). Next generation science standards: For states, by states. The National Academies Press.
National Council of Teachers of Mathematics (NCTM). (2000). Principles and standards for school mathematics. Retrieved from https://www.nctm.org/Standards-and-Positions/Principles-and-Standards/
Onore, C., & Gildin, B. (2010). Preparing urban teachers as public professionals through a university-community partnership. Teacher Education Quarterly, 37(3), 27–44.
Priest, S., & Gass, M. (1997). An examination of “problem-solving” versus “solution-focused” facilitation styles in a corporate setting. Journal of Experiential Education, 20(1), 34–39.
Razfar, A., & Nasir, A. (2019). Repositioning English Learners’ Funds of Knowledge for Scientific Practices. Theory into Practice, 58(3), 226–235. https://doi.org/10.1080/00405841.2019.1599231
Riedinger, K., Marbach-Ad, G., McGinnis, J. R., Hestness, E., & Pease, R. (2011). Transforming elementary science teacher education by bridging formal and informal science education in an innovative science methods course. Journal of Science Education and Technology, 20(1), 51–64.
Saldaña, J. (2015). The coding manual for qualitative researchers. Sage Publishing.
Schafer, N. J., Williams, B. A., Truscott, D. M., & Stenhouse, V. L. (2015). Increasing STEM learning for teacher trainers, in-service teachers, preservice teachers, and PK-5 students using a 4-tier learning model. Teacher Education and Practice, 28(2–3), 372–393.
Seriki, V. D. (2018). Advancing alternate tools: Why science education needs CRP and CRT. Cultural Studies of Science Education, 13(1), 93–100.
Soller, A., & Lesgold, A. (2000). Knowledge acquisition for adaptive collaborative learning environments. In AAAI fall symposium: Learning how to do things (pp. 251–262).
STEM Leadership Council. (2018). STEM strategic Plan: An integrated K-12 STEM proposal for Tennessee. Nashville, TN: Division of College, Career, and Technical Education, TN Department of Education. Retrieved from: https://www.tn.gov/content/dam/tn/education/ccte/ccte_stem_strategic_plan.pdf.
Sullivan, J., & Hatton, M. (2011). Methods and Strategies: Math and Science Night. Science and Children, 48(5), 58–63.
Taylor, D. E. (1989). Blacks and the environment: Toward an explanation of the concern and action gap between Blacks and Whites. Environment and Behavior, 21, 175–205.
Turner, E. E., Gutiérrez, M. V., Simic-Muller, K., & Díez-Palomar, J. (2009). “Everything is math in the whole world”: Integrating critical and community knowledge in authentic mathematical investigations with elementary Latina/o students. Mathematical Thinking and Learning, 11(3), 136–157.
Warren, K. (1998). A call for race, gender, and class sensitive facilitation in outdoor experiential education. Journal of Experiential Education, 25, 231–238.
Warren. (1999). Unpacking the knapsack of outdoor experiential education: Race, gender, and class sensitive outdoor leadership. Unpublished doctoral dissertation, The Union Institute: Cincinnati, OH.
Warren, K., Roberts, N. S., Breunig, M., & Alvarez, M. A. T. G. (2014). Social justice in outdoor experiential education: A state of knowledge review. Journal of Experiential Education, 37(1), 89–103.
Weatherford, C. B. (2008). I, Matthew Henson: Polar Explorer. Scholastic.
Yin, R. K. (2018). Case study research and applications: Design and methods. Sage publications.
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Anderson, B.N., Coleman-King, C., Wallace, K. et al. Advancing Critical and Culturally Relevant Experiential Learning: Preparing Future Educators in Collaboration with Cooperating Teachers to Support STEM Engagement in Urban Schools. Urban Rev 54, 649–673 (2022). https://doi.org/10.1007/s11256-021-00633-y
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DOI: https://doi.org/10.1007/s11256-021-00633-y