References
- Ahn, C. (2015). EcoScience + art initiative: Designing a new paradigm for college education, scholarship, and service. STEAM Journal, 2(1). doi:10.5642/steam.20150201.11
- Bequette, J. W., & Bequette, M. B. (2012). A place for art and design education in the STEM conversation. Art Education, 65(2), 40–47.
- Capraro, R. M., Capraro, M. M., & Morgan, J. R. (Eds.). (2013). STEM project-based learning: An integrated science, technology, engineering, and mathematics (STEM) approach (2nd ed.). Rotterdam, The Netherlands: Sense.
- Chappell, J. A. (2005). The efficacy of an arts integrated approach to teaching and learning. In M. Stokrocki (Ed.), Interdisciplinary art education: Building bridges to connect disciplines and cultures (pp. 31–43). Reston, VA: National Art Education Association.
- Eger, J. (2015, November 24). The Congressional STEAM Caucus may turn STEM to STEAM in the reauthorization of ESEA. Retrieved from www.huffingtonpost.com/john-m-eger/stem-may-become-steamoffi_b_8634126.html
- Framework for 21st Century Learning. (2007). Retrieved from www.p21.org/our-work/p21-framework
- Godin, B. (2008). Innovation: The history of a category (Project on the Intellectual History of Innovation). Montreal, Canada: The Institut National de la Recherche Scientifique. Retrieved from www.csiic.ca/PDF/IntellectualNo1.pdf
- Goldberg, M. (2011). Arts integration: Teaching subject matter through the arts in multicultural settings (4th ed.). Boston, MA: Pearson.
- Guyotte, K. W., Sochacka, N. W., Costantino, T. E., Walther, J., & Kellam, N. N. (2014). STEAM as social practice: Cultivating creativity in transdisciplinary spaces. Art Education, 67(6), 12–19.
- Honey, M., Pearson, G., & Schweingruber, H. (Eds.). (2014). STEM integration in K-12 education: Status, prospects, and an agenda for research. Washington, DC: National Academy Press.
- LaJevic, L. (2013). Arts integration: What is really happening in the elementary classroom? Journal for Learning Through the Arts, 9(1), 1–28.
- Lou, S.-J., Shih, R.-C., Diez, C. R., & Tseng, K.-H. (2011). The impact of problem-based learning strategies on STEM knowledge integration and attitudes: An exploratory study among female Taiwanese senior high school students. International Journal of Technology and Design Education, 21(2), 195–215. doi:10.1007/s10798-010-9114-8
- Maeda, J. (2012, October 2). STEM to STEAM: Art in K-12 is key to building a strong economy. Retrieved from www.edutopia.org/blog/stem-to-steam-strengthens-economy-john-maeda
- Maeda, J. (2013). STEM + art = STEAM. The STEAM Journal, 1(1). doi:10.5642/steam.201301.34
- Marshall, J. (2010). Five ways to integrate: Using strategies from contemporary art. Art Education, 63(3), 13–19.
- Marshall, J. (2014). Transdisciplinarity and art integration: Toward a new understanding of art-based learning across the curriculum. Studies in Art Education, 55(2), 104–127.
- National Art Education Association. (2014, April). Position statement on STEAM education. Author. Retrieved from www.arteducators.org/advocacy/articles/143-position-statement-on-steam-education
- Nicolescu, B. (1997, November). The transdisciplinary evolution of the university: Condition for sustainable development. Retrieved from http://ciret-transdisciplinarity.org/bulletin/b12c8.php
- Nicolescu, B. (2002). Manifesto of transdisciplinarity (K.-C. Voss, Trans.). Albany: State University of New York Press.
- Riley, S. (2012). STEAM point: A guide to integrating science, technology, engineering, the arts, and mathematics through the common core. Westminster, MD: EducationCloset.
- Roucher, N., & LovanoKerr, J. (1995). Can the arts maintain integrity in interdisciplinary learning? Arts Education Policy Review, 96(4), 20–25.
- Sanders, M. E. (2008). STEM, STEM education, STEMmania. The Technology Teacher, 68(4), 20–26.
- Silverstein, L. B., & Layne, S. (2010). What is arts integration? Retrieved from http://artsedge.kennedy-center.org/educators/how-to/arts-integration/what-is-arts-integration
- Sousa, D. A., & Pilecki, T. (2013). From STEM to STEAM: Using brain-compatible strategies to integrate the arts. Thousand Oaks, CA: Corwin.
- Stokrocki, M. (Ed.). (2005). Interdisciplinary art education: building bridges to connect disciplines and cultures. Reston, VA: National Art Education Association.
- Trilling, B., & Fadel, C. (2009). 21st century skills: Learning for life in our times. San Francisco, CA: Jossey-Bass.
- Turner, C. (2015, November). Keynote. Presented at the CONNECT Conference, Wilmington, NC.
- Ulbricht, J. (1998). Interdisciplinary art education reconsidered. Art Education, 51(4), 13–17.
- U.S. Department of Education. (n.d.). Science, technology, engineering and math: Education for global leadership. Retrieved from www.ed.gov/stem
- Watson, A. D. (2015). Design thinking for life. Art Education, 68(3), 12–18.
- Wynn, T., & Harris, J. (2012). Toward a STEM + arts curriculum: Creating the teacher team. Art Education, 65(5), 42–47.
- Yakman, G., & Lee, H. (2012). Exploring the exemplary STEAM education in the U.S. as a practical educational framework for Korea. Journal of the Korean Association for Science Education, 32(6), 1072–1086.