STEAM Approach to Improve Environmental Education Innovation and Literacy in Waste Management: Bibliometric Research

Syahmani Syahmani(1*), Ellyna Hafizah(2), Sauqina Sauqina(3), Mazlini Bin Adnan(4), Mohd Hairy Ibrahim(5)

(1) Faculty of Teacher Training Education, Universitas Lambung Mangkurat
(2) Faculty of Teacher Training Education, Universitas Lambung Mangkurat
(3) Faculty of Teacher Training Education, Universitas Lambung Mangkurat
(4) Faculty of Science and Mathematic, Universiti Pendidikan Sultan Idris
(5) Faculty of Human Science, Universiti Pendidikan Sultan Idris
(*) Corresponding Author

Abstract

The need for environmental literacy in development agenda has been pressing since the UN proposed the agenda of achieving Sustainable Development Goals (SDGs). One of the vital aspect of in sustainable development is about waste management to reduce earth’s pollution. Environmental Literacy were considered as one of the few perspectives necessary for SDGs to be achieved. Education for Sustainable Development (ESD), formerly known as Environmental Education, through science education is one way to develop the environmental literacy of the society through classroom activities. One approach that fits closely to this need is STEAM approach. STEAM is a combination of five different disciplines namely Science, Technology, Engineering, Art and Mathematics. This approach has a room for developing students’ environmental literacy within its Arts aspect. Teaching Environmental literacy through STEAM would help students not only learning how to be a scientist or engineer, but also building their scientific awareness to environmental issue, which will be the underlying value of their STEM insight. This study seeks to find the current state of the arts of this concept through a bibliometric research. This research was conducted using the Publish or Perish application to create a database of journal articles, which further managed using Zotero application. After managing the database, this study classified and visualized the database using VOSviewer software. The terms “Environmental Literacy”, “STEAM”, and “waste management” were used to search the relevant published journal article related to all three concepts, as indexed in Google Scholar since 1969 to 2020. This study found only a total of 163 result from Google Scholar Index. Further refinement of the results shows that published research are still scarce in the last 51 years and in need of further study to strengthen the concept. Authors also discuss about several suggestions on how STEAM could be considered as a way to develop students Environmental Literacy on waste management.

Keywords

environmental literacy; environmental education innovation; STEAM; literacy in waste management

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References

Allen, M., Webb, A.W. and Matthews, C.E., 2016. Adaptive Teaching in STEM: Characteristics for Effectiveness. Theory Into Practice, 55(3), pp.217–224.

Allina, B., 2017. The development of STEAM Educational Policy to Promote Student Creativity and Social Empowerment. Arts Education Policy Review, 119(2), pp.1–11.

Azizah, A.N., Agustina, P., Suparti, S., Saputra, A. and Sidiq, Y., 2020. The Use of Natural Dyes from Beetroot Skin Extract (Beta Vulgaris) as Teaching Material on Cell Division for Senior High School Students. Indonesian Journal on Learning and Advanced Education (IJOLAE), 2(1), pp.20–26.

Baneyx, A., 2008. ‘Publish or Perish’ as Citation Metrics Used to Analyze Scientific Output in The Humanities: International Case Studies in Economics, Geography, Social Sciences, Philosophy, and History. Archivum Immunologiae et Therapiae Experimentalis, 56, pp.1–9.

Bequette, J.W. and Bequette, M.B., 2012. A Place for Art and Design Education in the STEM Conversation. Art Education, 65(2), pp.40–47.

Brown, J.C. and Crippen, K.J., 2016. Designing for Culturally Responsive Science Education through Professional Development. 2016, 38(3), pp.470–492.

Christidamayani, A.P. and Kristanto, Y.D., 2020. The Effects of Problem Posing Learning Model on Students’ Learning Achievement and Motivation. Indonesian Journal on Learning and Advanced Education (IJOLAE), 2(2), pp.100–108.

Colucci-Gray, L., Trowsdale, J., Cooke, C.F., Davies, R., Burnard, P. and Gray, D.S., 2017. Reviewing The Potential and Challenges of Developing STEAM Education through Creative Pedagogies for 21st Learning: How Can School Curricula Be Broadened Towards A More Responsive, Dynamic, and Inclusive form of Education? British Educational Research Association.

Costantino, T., 2018. STEAM by Another Name: Transdisciplinary Practice in Art and Design Education. Arts Education Policy Review,. Arts Education Policy review, 119(2), pp.100–106.

DSDG UNDESA, 2020. UNDESA. [online] Available at: [Accessed 30 Aug. 2020].

van Eck, N.J. and Waltman, L., 2010. Software Survey: VOS Viewer, A Computer Program for Bibliometric Mapping. Scientometrics, 84, pp.523–538.

Environmental Literacy Task Force (ELTF), 2015. A Blueprint for Environmental Literacy: Educating Every Student In, About, and For the Environment. California: Californians Dedicated to Education Foundation.

Ever, T., 2012. Wisconsin’s Plan to Advance Education for Environmental Literacy and Sustainability in PK-12 Schools. [online] Wisconsin Department of Public Instruction. Available at: .

Frick, J., Kaiser, F.G. and Wilson, M., 2004. Environmental Knowledge and Conservation Behavior: Exploring Prevalence and Structure in A Representative Sample. Personality and Individual Differences, 37, pp.1597–1613.

Garza-Reyes, J.A., 2015. Lean and Green-A Systematic Review of The State of The Art Literature. Journal of Cleaner Production, 102, pp.18–29.

George, J., 2013. Do you have to pack?” Preparing for Culturally Relevant Science Teaching in the Caribbean. International Journal of Science Education, 35(12), pp.2114–2131.

Getting, M., 2016. Putting it all together: STEAM, PBL, Scientific Method, and The Studio Habits of Mind. Art Education, 69(4), pp.10–11.

Glass, D. and Wilson, C., 2016. The Art and Science of Looking: Collaboratively Learning Our Way to Improved STEAM Integration. Art Education, 69(6), pp.8–14.

Goldman, D., Yavetz, B. and Pe’er, S., 2014. Student Teachers’ Attainment of Environmental Literacy in Relation to Their Disciplinary Major During Undergraduate Studies. International Journal of Environmental and Science Education, 9, pp.369– 383.

Guyotte, K.W., Sochacka, N.W., Costantino, T., Kellam, N. and Walther, J., 2015. Collaborative creativity in STEAM: Narratives of art education students’ experiences in transdisciplinary spaces. International Journal of Education & the Arts, 16(15), pp.1–38.

Handayani, F., 2014. Pengembangan Lembar Kerja Peserta Didik (LKPD) Berbasis Science, Technology, Engineering, and Mathematics (STEM) pada Materi Hidrolisis Garam. Universitas Syiah Kuala.

Herro, D. and Quigley, C., 2016. Innovating with STEAM in Middle School Classrooms: Remixing Education. On the Horizon, 24(3), pp.190–204.

Hodgkinson, S.P. and Innes, J.M., 2001. The Attitudinal Influence of Career Orientation in 1st Year University Students: Environmental Attitudes as A Function of Degree Choice. The Journal of Environmental Education, 32(3), pp.37–40.

How, M.-L. and Hung, W.L.D., 2019. Educing AI-Thinking in Science, Technology, Engineering, Arts, and Mathematics (STEAM) Education. Educ. Sci., 9(3), p.184.

Hudha, M.., Hamidah, I., Permanasari, A., Abdullah, A.., Rachman, I. and Matsumoto, T., 2020. Low Carbon Education: A Review and Bibliometric Analysis. European Journal of Educational Research, 9(1), pp.319–329.

Ismail, A.S. and Buang, N.A., 2019. Development of Entrepreneurship Intentions among School Students in Malaysia. Indonesian Journal on Learning and Advanced Education (IJOLAE), 1(1), pp.48–53.

Johri, A. and Olds, B.M., 2011. Situated Engineering Learning: Bridging Engineering Education Research and The Learning Sciences. Journal of Engineering Education, 100(1), pp.151–185.

Kant, J.M., Burckhard, S.R. and Meyers, R.T., 2018. Engaging High School Girls in Native American Culturally Responsive STEAM Activities. Journal of STEM Education2, 18(5), pp.15–25.

Kaplowitz, M.D. and Levine, R., 2005. How environmental knowledge measures up at a Big Ten university. Environmental Education Research, 11(2), pp.143–160.

Kaya, V.H. and Elster, D., 2019. Expertsâ€TM Opinions: What should teachers do for Their Professional Development as Environmental STEM Literate Individuals? Science Education International, [online] (Query date: 2020-07-28 14:22:16). Available at: .

Kaza, S., Yao, L., Bhada-Tata, P. and Van Woerden, F., 2018. What a Waste 2.0: A Global Snapshot of Solid Waste Management to 2050. What a Waste 2.0: A Global Snapshot of Solid Waste Management to 2050. Washington DC: World Bank.

Keane, L. and Keane, M.A., 2016. Steam by design. Engineering Design and Technology Education : An International Journal, 21, pp.61–82.

Land, M., 2013. Full STEAM Ahead: The Benefits of Integrating the Arts into STEM. Procedia Computer Science, 20, pp.547–552.

Leng, Y.K. and Buang, N.A., 2019. The Involvement In Tunas Niaga Activities and The Entrepreneurial Attitude Among Secondary Schools. Indonesian Journal on Learning and Advanced Education (IJOLAE), 1(1), pp.15–25.

Liao, C., Motter, J.L., M, R. and Patton, 2016. Tech-Savvy Girls: Learning 21st Century Skills Through STEAM Digital Artmaking. Art Education, 69(4), pp.29–35.

Liu, S.Y., Yeh, S.C., Liang, S.W., Fang, W.T. and Tsai, H.M., 2015. A National Investigation of Teachers’ Environmental Literacy As A Reference for Promoting Environmental Education in Taiwan. The Journal of Environmental Education2, 46, pp.114– 132.

Lloyd-strovas, J., Moseley, C. and Arsuffi, T., 2018. Environmental Literacy of Undergraduate College Students: Development of the Environmental Literacy Instrument (ELI). School Science and Mathematics, 118, pp.84–92.

Maurer, M. and Bogner, F.X., 2020. Modelling Environmental Literacy with Environmental Knowledge, Values and (Reported) Behaviour. Studies in Educational Evaluation, 65, pp.1–9.

McBeth, W., Hungerford, H.R., Marcinkowski, T., Volk, T.L. and Meyers, R., 2008. National Environmental Literacy Assessment Project: Year 1, National Baseline Study of Middle Grades Students Final Research Report.

Miles, R., Harrison, L. and Cutter-Mackenzie, A., 2006. Teacher education: A Diluted Environmental Education Experience. Australian Journal of Environmental Education, 22(1), pp.49–59.

Miller, J. and Knezek, G., 2013. STEAM for Student Engagement. Society for Information Technology & Teacher Education International Conference, 1, pp.3288–3298.

Mungmachon, R., 2013. Knowledge and Local Wisdom: Community Treasure. International Journal of Humanities and Social Science, 2(13), pp.174–181.

Ozsoy, S., Ertepinar, H. and Saglam, N., 2012. Can Eco-Schools Improve Elementary School Students’ Environmental Literacy Levels? Asia-Pacific Forum on Science Learning and Teaching, 13(2), pp.1–26.

Parmar, A., Ganesh, R. and Mishra, A.K., 2019. The top 100 Cited Articles on Obsessive Compulsive Disorder (OCD): A Citation Analysis. Asian Journal of Psychiatry, 42, pp.34–41.

Payton, F.C., White, A. and Mullins, T., 2017. STEM Majors, Art Thinkers–Issues of Duality, Rigor and Inclusion. Journal of STEM Education: Innovations and Research, 18(3), pp.39–47.

Perignat, E. and Katz-Buonincontro, J., 2019. STEAM in Practice and Research: An Integrative Literature Review. Thinking Skills and Creativity, 31, pp.31–43.

Quigley, C.F., Herro, D. and Jamil, F.M., 2017. Developing A Conceptual Model of STEAM Teaching Practices. School Science & Mathematics. School Science and Mathematics, 117(1–2), pp.1–12.

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), pp.203–212.

Sabic-El-Rayes, A., 2019. Role of Education in Financial Inclusion of Poor and Unbanked Women in India. Indonesian Journal on Learning and Advanced Education (IJOLAE), 1(2), pp.72–90.

Sadoglu, G.P., 2018. Engineering Students’ Opinions on Science Literacy. Universal Journal of Educational Research, 6(8), pp.1819–1830.

Saltan, F., & Divarci, O.F., 2017. Using Blogs to Improve Elementary School Students’ Environmental Literacy in Science Class. European Journal of Educational Research, 6(3), pp.347–355.

Segalàs, J., Mulder, K.F. and Ferrer-Balas, D., 2012. What do EESD ‘Experts’ Think Sustainability is? Which Pedagogy is Suitable to Learn It?: Results From Interviews and Cmaps Analysis Gathered at EESD 2008. International Journal of Sustainability in Higher Education.

Sharapan, H., 2012. From STEM to STEAM How Early Childhood Educators Can Apply Fred Rogers’ Approach. YC Young Children, 67(1), pp.36–40.

Shukla, N., Merigó, J.M., Lammers, T. and Miranda, L., 2020. Half A Century of Computer Methods and Programs in Biomedicine: A Bibliometric Analysis from 1970 to 2017. Comput Methods Programs Biomed.

Simamora, R.E., Saragih, S. and Hasratuddin, 2019. Improving Students’ Mathematical Problem Solving Ability and Self-Efficacy through Guided Discovery Learning in Local Culture Context. International Electronic Journal of Mathematics Education, 14(1), pp.61–72.

Suryani, A., Soedarso, S., Saifulloh, M., Muhibbin, Z., Wahyuddin, W., Hanoraga, T., Nurif, M., Trisyanti, U., Rahadiantino, L. and Rahmawati, D., 2019. Education for Environmental Sustainability: A Green School Development. IPTEK Journal of Proceeding Series, pp.65–72.

Taylor, C.P., 2016. Why is a STEAM Curriculum Perspective Crucial to the 21st Century ? In: 14th Annual Conference of the Australian Council for Educational Research. Brisbane.pp.89–93.

Tikka, P.M., Kuitunen, M.T. and Tynys, S.M., 2000. Effects of Educational Background on Students’ Attitudes, Activity Levels, and Knowledge Concerning the Environment. The Journal of Environmental Education, 31, pp.12–19.

Tranfield, D., Denyer, D. and Smart, P., 2003. Towards a Methodology for Developing Evidence-Informed Management Knowledge by Means of Systematic Review. British Journal of Management, 14(3), pp.207–222.

Watson, A.D. and Watson, G.H., 2013. Transitioning STEM to STEAM: Reformation of Engineering Education. Journal for Quality and Participation, 36(3), pp.1–5.

Yakman, G. and Lee, H., 2012. Exploring the Exemplary STEAM Education in the U.S. as a Practical Educational Framework for Korea. Journal Korea Association Science Education, 32(6), pp.1072–1086.

Zsóka, Á., Szerényi, Z.M., Széchy, A. and Kocsis, T., 2013. Greening Due To Environmental Education? Environmental Knowledge, Attitudes, Consumer Behavior and Everyday Pro-Environmental Activities of Hungarian High School and University Students. Journal of Cleaner Production, 48, pp.126–138.

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