Development of Pteridophyte Taxonomic Learning Resource to Foster Cognitive and Psychomotor Learning Outcomes
(1) Science Education Study Program, Post Graduate Program, Universitas Negeri Semarang
(2) Department of Biology, Faculty Of Mathematics and Natural Sciences, Universitas Negeri Semarang, Jalan Raya Sekaran, Gunungpati, Semarang, Indonesia 50229. (024) 8508033.
(3) Department of Biology, Faculty Of Mathematics and Natural Sciences, Universitas Negeri Semarang, Jalan Raya Sekaran, Gunungpati, Semarang, Indonesia 50229. (024) 8508033.
Abstract
Authentic learning resources are meaningful for Biology learning, particularly in conceiving Plantae topic. The availability of plants, especially Pteridophyte in school environment is very limited and require more adequate plant learning resources. This study aimed to develop a Pteridophytes Taxonomic Learning Resource (PTLR) and tested its validity, practicality, and effectiveness. Research and Development were done refers to the ADDIE model. The PTLR was validated by a taxonomist and instructional media expert. The practicality was observed from the responses of teachers and students, while the effectiveness was explored based on cognitive and psychomotor learning outcomes. The PTLR was developed by container gardening method with 29 fern species representing the classes of Pteridophyte and showed specific characteristics which organized in their taxonomic groups. The results showed that PTLR is very valid with average score of 85.5% and considered practical by teachers (81.25%) and students (90.65%). The PTLR was also effective in achieving two basic competencies by Curriculum of 2013 of Biology with cognitive outcome N-gain of 0.57 (moderate) and psychomotor 86.34% (very good). In summing up, the PTLR is recommended as a learning resource of Plantae topic at senior high school. This research result enriches the types of innovative biology learning resources.
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Ahn, R., & Class, M. (2011). Student-Centered Pedagogy: Co-Construction of Knowledge through Student-Generated Midterm Exams. International Journal of Teaching and Learning in Higher Education, 23(2), 269–281.
Aldoobie, N. (2015). ADDIE Model. American International Journal of Contemporary Research, 5(6), 68–72.
Aprilanti, H., Rahayu, E.S., & Indriyanti, D.I. (2019). Development of Scientific-based Students’ Worksheet (LKS) by Utilizing the Ferns Taxonomy Garden as a Supplementary of Plantae Teaching Material. Journal of Innovative Science Education 8 (2), doi: 10.15294/JISE.V0I0.28304
Berezowitz, C. K., Yoder, A. B., & Schoeller, D. A. (2015). School Gardens Enhance Academic Performance and Dietary Outcomes in Children. Journal of School Health, 85(8), 508–518
Bucher, K. (2017). Opening Garden Gates: Teachers Making Meaning of School Gardens In Havana and Philadelphia. Teaching And Teacher Education, 63, 12–21.
Burt, K. G., Koch, P., & Contento, I. (2017). Development of the GREEN (Garden Resources, Education, and Environment Nexus) Tool: An Evidence-Based Model for School Garden Integration. Journal of the Academy of Nutrition and Dietetics, 117(10), 1517–1527.
Davis B. & Summers M. Applying Dale’s Cone of Experience to increase learning and retention: A study of student learning in a foundational leadership course, QScience Proceedings (Engineering Leaders Conference 2014) 2015:6 http://dx.doi.org/10.5339/qproc.2015.elc2014.6
Departamen Pendidikan dan Kebudayaan. 2013. Permendikbud No. 69 Tahun 2013 Tentang Kerangka Dasar Dan Struktur Kurikulum Sekolah Menengah Atas/Madrasah Aliyah)
Gallardo-Ruiz, J., Verde, A., & Valdes, A. (2013). Garden-Based Learning : An Experience With “At Risk” Secondary Education Students. The Journal of Environmental Education, 44(4), 252–270.
Murti, S., Muhibbuddin., & Nurmaliah, C. (2014). Penerapan Pembelajaran Berbasis Praktikum untuk Peningkatan Kemampuan Kognitif dan Psikomotorik pada Perkuliahan Anatomi Tumbuhan. Jurnal Biologi Edukasi, 6(1), 1–8.
Passy, R., Morris, M., & Reed, F. (2010). Impact of School Gardening on Learning: Final Report Submitted to the Royal Horticultural Society. England and Wales: National Foundation for Educational Research.
Ridlo, S., & Alimah, S. (2013). Strategi Pembelajaran Biologi Berbasis Kompetensi dan Konservasi. Biosaintifika, 5(2), 121-129.
Sari, P. 2019. Analisis Terhadap Kerucut Pengalaman Edgar Dale dan Keragaman Gaya Belajar Untuk Memilih Media yang Tepat dalam Pembelajaran. Jurnal Manajemen Pendidikan, I (1), 58-78.
Sellmann, D., & Bogner, F. X. (2013). Climate Change Education : Quantitatively Assessing The Impact of A Botanical Garden as An Informal Learning Environment. Environmental Education Research, 19 (4), 415–429.
Simpson, M.G. (2010). Plant Systematics. Second edition. Burlington: Elsevier Science-Academic Press.
Widodo, A., Maria, R. A. & Fitriani, A. (2017). Constructivist Learning Environment During Virtual and Real Laboratory Activities. Biosaintifika: Journal of Biology & Biology Education, 9(1), 11-18.
Williams, D. R., Brule, H., Kelley, S. S., & Skinner, E. A. (2018). Science in the Learning Gardens (SciLG): A Study of Students’ Motivation, Achievement, and Science Identity In Low-Income Middle Schools. International Journal of STEM Education, 5(8), 2–14.
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