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• Akgündüz, D. , Aydeniz, M. , Çakmakçı, G. , Çavaş, B. , Çorlu, M. S. , Öner, T., & Özdemir, S. (2015). STEM eğitimi Türkiye raporu: Günün modası mı yoksa gereksinim mi? Retrieved from: http://www.aydin.edu.tr/belgeler/IAU‐ STEM‐Egitimi‐Turkiye‐Raporu‐2015.pdf
• Austin, Patricia (1998). Math books as literature: Which ones measure up? The New Advocate,11(2),119-133.
• Bae, J. H. (2004). Learning to teach visual arts in an early childhood classroom: The teacher's role as a guide. Early Childhood Education Journal, 31(4), 247-254.
• Boston Childrens Museum (2013). STEM sprouts. Science, technology, engineering, and math teaching guide. Boston MA. Retrieved from: www.BostonChildrensMuseum.org
• Büyüköztürk, Ş., Çakmak, E., Akgün, Ö. E., Karadeniz, Ş., & Demirel F. (2014). Bilimsel araştırma yöntemleri. Ankara: Pegem Akademi.
• Camilli, G., Vargas, S., Ryan S., & Barnet W. S. (2010). Meta-Analysis of the effects on early education intervention on cognitive and social develepment. Teacher Collage Record,112(3), 579-620.
• Ciecierski, L., Nageldinger, J., Bintz, W. P., & Moore, S. D. (2016). New perspectives on picture books. Retrieved from:http://www.athensjournals.gr/education/2016-1-X-Y-Ciecierski.pdf
• Cleveland, E. (2015). Using children’s picturebooks to develop critical thinking skills and science practices in grades3rd-5th. Doctoral Projects, Masters Plan B, and Related Works. Paper 11. http://repository.uwyo.edu/plan_b/11
• Collection of STEM Desing Challenges (2013). Integrated STEM ed. A collection of elementary STEM desing challenges based children’s literature. Retrieved from: www.stem.uark.edu
• Denise, D., & Graff, J. M (2016). Engineering success: Picturebook portraits for STEAM. Journal of Children's Literature,42(2), 75-83.
• Daugherty, M. K. (2013). The prospect of an" A" in STEM education. Journal of STEM Education: Innovations and Research, 14(2), 10.
• Flevares L. M., & Schiff J. R.(2014). Learning mathematics in two dimensions: A review and look ahead at teaching and learning early childhood mathematics with children’s literature. Fronties in Psychology, Developmental Psychology, 5(459),1-12.
• French, L. (2004).Science as the center of a coherent integrated early childhood curriculum. Early Childhood Research Qarterly, 19, 138-149.
• Gaston, J. L. (2008). A review and update on using children’s literature to teach matematics. ERIC.ED503766 http://eric.ed.gov 26-11-2014.
• Hannibal, M., Vasliev, R., & Lin Q. (2002). Teaching young children basic concepts of georgraphy: A literature-based aproach. Early Childhood Education Journal. 30(2),81-86.
• Hofreiter, T. D., Monroe, M. C. & Stein, T. V. (2007). Teaching and evaluating critical thinking in an environmental context. Applied Environmental Education & Communication, 6(2), 149-157, DOI: 10.1080/15330150701598197
• Hong, H. (1996). Effects of mathematics learning through children’s literature on math achievement and dispositional outcomes. Early Childhood Research Quarterly. 11, 477-494.
• Hopwood, J. (2012). Initiating STEM learning in libraries. Children & Libraries: The Journal of the Association for Library Service to Children, 10(2), 53-55.
• Katz, L. G. (2010). STEM in the early years. Early childhood research and practice. Collected Papers from the SEED (STEM in Early Education and Development) Conference. Retrieved from: http://ecrp.uiuc.edu/beyond/seed/index.html
• Koester, A. (2013). Full STEAM ahead: injecting art and creativity into STEM. School Library Journal, Available at: http://www.slj.com/2013/10/programs/full-steam-ahead-injecting-art-and-creativity-into-stem/#_
• Lindeman, K. W., Jabot, M., & Berkley, M. T. (2014). The role of STEM (or STEAM) in the early childhood setting. In Learning Across the Early Childhood Curriculum (pp. 95-114). Emerald Group Publishing Limited.
• Laverick, D. (2014). Technology and interactive media as a means for promoting creativity and arts-based learning in the early childhood curriculum. In M. Searson & M. Ochoa (Eds.), Proceedings of Society for Information Technology & Teacher Education International Conference 2014 (pp. 1865-1870). Chesapeake, VA: Association for the Advancement of Computing in Education (AACE).
• Liao, C. (2016). From interdisciplinary to transdisciplinary: An arts integrated approach to STEAM education. Art Education, 69(6), 44-49.
• Miles, M. B. ve Huberman, A. M. (1994). Qualitative Data Analysis: An Expanded Sourcebook. (2nd Edition). California: SAGE Puplications.
• Oner, A. T., Nite, S. B., Capraro, R. M., & Capraro, M. M. (2016). From STEM to STEAM: Students’ beliefs about the use of their creativity. The STEAM Journal, 2(2), DOI: 10.5642/steam.20160202.06 Available at: http://scholarship.claremont.edu/steam/vol2/iss2/6
• Portz, S (2015). The challenges of STEM education. The Space Congress Proceeding, Available at: http://commons.erau.edu/space-congress-proceedings/proceedings-2015-43rd/3
• Root-Bernstein, R. (2015). Arts and crafts as adjuncts to STEM education to foster creativity in gifted and talented students. Asia Pacific Education Review, 16(2), 203-212.Sandelowski, M. (2000). Focus on research methods-whatever happened to qualitative description?. Research in Nursing and Health, 23(4), 334-340.
• Sharapan, H. (2012). From STEM to STEAM: How early childhood educators can apply Fred Rogers' Approach. YC Young Children, 67(1), 36-38.
• Starko, A. J. (2001). Creativity in the classroom. Eastern Michigan University. Lawrence. Erlbaum Associates, Publishers: New Jersey, London.
• Stavridi, S. (2015). The Role of interactive visual art learning in development of young children's creativity. Creative Education, 6(21), 2274.
• Soylu, Ş. (2016). STEM education in early childhood in Turkey. Journal of Educational and Instructional Studies in The World, 6(1), 38-47. ISSN: 2146-7463. Subramaniam, M., Ahn, J., Waugh, A., Taylor, N. G., Druin, A., Fleischmann, K. R., & Walsh, G. (2015). The role of school librarians in enhancing science learning. Journal of Librarianship and Information Science, 47(1), 3-16.
• Sundar, K. S. I. (2007). Environmental education: Curriculam and teaching methods. Sarup & Sons.
• Tank, K., Pettis, C., Moore, T., & Fehr, A. (2013). Hamsters, picture books, and engineering design. Science and Children, 50(9) 59-63.
• Tank, K., Moore, T., & Pettis, C. (June 2013). The pictureSTEM project: A curricular approach using picture books to transform STEM learning in elementary classrooms (Curriculum Exchange) paper present at 2013 ASEE Annual Conference and Exposition, Atlanta, Georgia, https://peer.asee.org/22611.
• Torres-Crespo, M. N., Kraatz, E., & Pallansch, L. (2014). From fearing STEM to playing with it: The natural integration of STEM into the preschool classroom. SRATE Journal, 23(2), 8-16.
• Vega, V. (2012). A research-based approach to arts integration. Former Edutopia Senior Manager of Research, Available at: https://edutopia.org/stw-arts-integration-research.
• Yakman, G. (2012 August). Recognizing the A in STEM education. Middle Ground Magazine,16(1),15-16.
• Yıldırım, A., & Şimşek, H. (2013). Sosyal bilimlerde nitel araştırma yöntemleri. Ankara: Seçkin Yayınevi.
• Zollman, A. (2012). Learning for STEM literacy: STEM literacy for learning. School Science and Mathematics, 112(1), 12-19.