KnE Social Sciences

ISSN: 2518-668X

The latest conference proceedings on humanities, arts and social sciences.

Literature Review: Development of Science Learning Based on Local Wisdom and Indigenous Knowledge for ESD

Published date: Apr 26 2024

Journal Title: KnE Social Sciences

Issue title: International Conference on Mathematics and Science Education (ICMScE 2022): Learning Models and Teaching Approaches

Pages: 704–716

DOI: 10.18502/kss.v9i13.15989

Authors:

Andika Febrian - andikafebrian.2021@student.uny.ac.id

Insih Wilujeng

Zuhdan Kun Prasetyo

Abstract:

The problem in science learning that often occurs today is that many students think that science learning is taught in an uninteresting and irrelevant manner. Science learning is irrelevant according to their perception because of the lack of connection and linkage of science learning with everyday life and the socio-cultural background they experience. One alternative solution to overcome the above problems and science learning becomes more relevant is necessary to revitalize the curriculum based on contextual concepts in accordance with the daily lives of students, like the cultural context of local wisdom or indigenous knowledge. This literature review was a scientific study of the analysis of 30 articles on science learning based on local wisdom and indigenous knowledge. This study aimed to analyze and elaborate on the integration of science learning with culture and its impact on education. This research was qualitative research using the descriptive analysis method of Miles and Huberman, which consisted of several steps: data collection, data reduction, data display, and conclusion. The articles analyzed were sourced from national articles indexed by SINTA and internationally reputable articles indexed by SCOPUS from 2017-2021. The results of this study indicated that science learning based on local wisdom and indigenous knowledge is considered very important as an innovation in ESD that affects the character and various abilities of students. These innovations can be carried out through revitalizing the science curriculum, developing learning products, and continuing scientific studies.

Keywords: Science Learning, Local Wisdom, ESD

References:

[1] Anderhag P, Wickman PO, Bergqvist K, Jakobson B, Hamza KM, Säljö R. Why do secondary school students lose their interest in science? or does it never emerge? a possible and overlooked explanation. Sci Educ. 2016;100(5):791–813.

[2] Childs PE, Hayes S, Dwyer A. Chemistry and everyday life: relating secondary school chemistry to the current and future lives of students. In: Eilks I, Hofstein A, editors. Relevant chemistry education - from theory to practice. 2015. https://doi.org/10.1007/978-94-6300-175-5_3.

[3] Khaddour R, Al-Amoush S, Eilks I. The curriculum emphasis in grade-10 Chemistry Textbooks from seven cross regional Arab countries. Chem Educ Res Pract. ;18:375– 85.

[4] Ideland M. Science, coloniality, and ‘the great rationality divide,’. Sci Educ. 2018;27(7– 8):783–803.

[5] Østergaard E. Earth at rest – aesthetic experience and students’ grounding in science education. Sci Educ. 2017;26(5):557–82.

[6] Sumida Huaman E. Tuki Ayllpanchik (our beautiful land): indigenous ecology and farming in the Peruvian highlands. Cult Stud Sci Educ. 2016;11(4):1135–53.

[7] Zidny R, Sjöström J, Eilks I. A multi-perspective reflection on how indigenous knowledge and related ideas can improve science education for sustainability. Sci Educ. 2020;29(1):145–85.

[8] Prest A, Goble JS, Vazquez-Cordoba H, Tuinstra B. Enacting curriculum ‘in a Good Way:’ indigenous knowledge, pedagogy, and worldviews in British Columbia music education classes. J Curric Stud. 2021;53(5):711–28.

[9] Handayani RD, Wilujeng I, Prasetyo ZK. Elaborating indigenous knowledge in the science curriculum for the cultural sustainability. Journal of Teacher Education for Sustainability. 2018;20(2):74–88.

[10] Atmojo SE, Rusilowati A, Dwiningrum SI, Skotnicka M. The reconstruction of disaster knowledge through thematic learning of science, environment, technology, and society integrated with local wisdom. Jurnal Pendidikan IPA Indonesia. 2018;7(2):204–13.

[11] Uge S, Neolaka A, Yasin M. Development of social studies learning model based on local wisdom in improving students’ knowledge and social attitude. Int J Instr. 2019;12(3):375–88.

[12] Khoiri A. Local wisdom PAUD to grow student’s soft skills (Study cash: development RKH on science learning). Indonesian Journal of Early Childhood Education Studies. 2016;5(1):14–7.

[13] Wilujeng I. Pengintegrasian potensi lokal dalam pembelajaran IPA alternatif peningkatan daya saing global. Prosiding Seminar Nasional IPA. 2016;VII:680–8.

[14] Dwianto A, Wilujeng I, Prasetyo ZK, Suryadarma IG. The development of science domain based learning tool which is integrated with local wisdom to improve science process skill and scientific attitude. Jurnal Pendidikan IPA Indonesia. 2017;6(1):23–31.

[15] Ardianti SD, Wanabuliandari S, Saptono S, Alimah S. A needs assessment of edutainment module with ethnoscience approach oriented to the love of the country. Jurnal Pendidikan IPA Indonesia. 2019;8(2):153–61.

[16] Sugiyono. Metode penelitian kuantitatif kualitatif dan R&D. Bandung: ALFABETA; 2019.

[17] Dewi IP, Suryadarma IG, Wilujeng I, Wahyuningsih S. The effect of science learning integrated with local potential of wood carving and pottery towards the Junior High School Students’ critical thinking skills. Jurnal Pendidikan IPA Indonesia. 2017;6(1):103–9.

[18] Baquete AM, Grayson D, Mutimucuio IV. An exploration of indigenous knowledge related to physics concepts held by senior citizens in Chókwé, Mozambique. Int J Sci Educ. 2016;38(1):1–16.

[19] Gunara S, Sutanto TS, Cipta F. Local knowledge system of Kampung Naga: A study to investigate the educational values of indigenous people in transmitting religious and cultural values. Int J Instr. 2019;12(3):219–36.

[20] Parmiti DP, Rediani NN, Antara IG, Jayadiningrat MG. The effectiveness of local culture-integrated science learning through project-based assessment on scientific attitudes and science process skills of elementary school students. Jurnal Pendidikan IPA Indonesia. 2021;10(3):439–46.

[21] Zidny R, Solfarina S, Aisyah RS, Eilks I. Exploring indigenous science to identify contents and contexts for science learning in order to promote education for sustainable development. Educ Sci (Basel). 2021;11(3):114.

[22] Lowe K, Tennent C, Moodie N, Guenther J, Burgess C. School-based indigenous cultural programs and their impact on Australian indigenous students: a systematic review. Asia Pac J Teach Educ. 2021;49(1):78–98.

[23] Sukri A, Rizka MA, Sakti HG, Maududy KU, Hadiprayitno G. Designing an integrated curriculum based on local primacy and social reconstruction perspectives of West Nusa Tenggara, Indonesia. Jurnal Pendidikan IPA Indonesia. 2018;7(4):467–75.

[24] Handayani RD, Wilujeng I, Prasetyo ZK, Triyanto. Building an indigenous learning community through lesson study: challenges of secondary school science teachers. Int J Sci Educ. 2019;41(3):281–96.

[25] Moodie N, Vass G, Lowe K. Special issue editorial: systematic reviews in indigenous education. Asia Pac J Teach Educ. 2021;49(1):1–4.

[26] Hausknecht S, Freeman S, Martin J, Nash C, Skinner K. Sharing indigenous knowledge through intergenerational digital storytelling: design of a workshop engaging elders and youth. Educ Gerontol. 2021;47(7):285–96.

[27] Dewi CA, Khery Y, Erna M. An ethnoscience study in chemistry learning to develop scientific literacy. Jurnal Pendidikan IPA Indonesia. 2019;8(2):279–87.

[28] Syahrial S, Asrial A, Kurniawan DA, Nugroho P, Septiasari R, Pratama RA, et al. Increased behavior of students’ attitudes to cultural values using the inquiry learning model assisted by ethnoconstructivism [EST]. Journal of Educational Science and Technology. 2019;5(2):166–75.

[29] Silvia Melyasari N, Sutoyo S, Widodo W. Scientific literacy skill of junior high school student using ethno science based learning. Proceedings of the Seminar Nasional Kimia - National Seminar on Chemistry. 2018;171:125–128.

[30] Toharudin U, Kurniawan IS. Sundanese cultural values of local wisdom: integrated to develop a model of learning Biology [IJSBAR]. Int J Sci Basic Appl Res. 2017;32(1):29– 49.

[31] Pamungkas A, Subali B, Linuwih S. Implementasi model pembelajaran IPA berbasis kearifan lokal untuk meningkatkan kreativitas dan hasil belajar siswa. Jurnal Inovasi Pendidikan IPA. 2017;3(2):118.

[32] Setiawan B, Innatesari DK, Sabtiawan WB, Sudarmin S. The development of local wisdom-based natural science module to improve science literation of students. Jurnal Pendidikan IPA Indonesia. 2017;6(1):49–54.

[33] Surtikanti HK, Syulasmi A, Ramdhani N. Traditional knowledge of local wisdom of Ammatoa Kajang Tribe (South Sulawesi) about environmental conservation. J Phys Conf Ser. 2017;895(1):012122.

[34] Awang IS, Serani G, Prasetyo ZK, Wangid MN. Pedagogical Content Knowledge (PCK) based on local wisdom to develop students’ nationality characteristics [EST]. Journal of Educational Science and Technology. 2021;7(1):97–104.

[35] Sarah S, Prasetyo ZK, Wilujeng I, Maftukhin A, Saputra AT, Aswita D. Implementation of contextual physics learning models based on the local potential to improve creative thinking skills and living values. Proceedings of the 4th International Conference on Learning Innovation and Quality Education. USA; 2020. ACM. 1-5.

[36] Saefullah A, Samanhudi U, Nulhakim L, Berlian L, Rakhmawan A, Rohimah B, Islami AZE. Efforts to improve scientific literacy of students through guided inquiry learning based on local wisdom of baduy’s society. Jurnal Penelitian dan Pembelajaran IPA. 2017;3(2):84. https://doi.org/10.30870/jppi.v3i2.2482.

[37] Hikmawati H, Suastra IW, Suma K, Sudiatmika AA, Rohani R. Effect of problem-based learning integrated local wisdom on student hots and scientific attitude. Jurnal Penelitian Pendidikan IPA. 2021;7(Special Issue):233–239. https://doi.org/10.29303/jppipa.v7iSpecialIssue.1118.

[38] Tugiyati T, Wiyanto W, Lisdiana L. Ethno pedagogic based teaching materials analysis for senior high school students: a literature review. Journal of Innovative Science Education. 2021;9(3):56–64.

[39] Khanolainen D, Nesterova Y, Semenova E. Indigenous education in Russia: opportunities for healing and revival of the Mari and Karelian Indigenous groups? Compare. 2020;00(00):1–18.

[40] Sarah S, Prasetyo ZK, Wilujeng I. Integration of living values into physics learning based on local potentials. J Phys Conf Ser. 2018;1022(1):012026.

[41] Kusmana C, Hikmat A. The biodiversity of flora in Indonesia. Journal of Natural Resources and Environmental Management. 2015;5(2):187–98.

[42] Sumarni W, Kadarwati S. Ethno-stem project-based learning: its impact to critical and creative thinking skills. Jurnal Pendidikan IPA Indonesia. 2020;9(1):11–21.

[43] Rumalolas N, Sandra M, Rosely Y, Nunaki JH, Damopolii I, Kandowangko NY. The inquiry-based student book integrated with local resources: The impact on student science process skill. Journal of Research in Instructional. 2021;1(2):133–146.

[44] Moodie N, Vass G, Lowe K. Special issue editorial: systematic reviews in indigenous education. Asia Pac J Teach Educ. 2021;49(1):1–4.

[45] Handayani RD, Wilujeng I, Prasetyo ZK. Elaborating indigenous knowledge in the science curriculum for the cultural sustainability. Journal of Teacher Education for Sustainability, 20(2), 74–88. http://doi.org/10.2478/jtes-2018-0016

[46] Bell DV. Twenty-first century education: transformative education for sustainability and responsible citizenship. Journal of Teacher Education for Sustainability. 2016;18(1):48–56.

[47] K.J. PUGH. C.M. BERGSTROM, and B. SPENCER, “Profiles of transformative engagement: identification, description, and relation to learning and instruction.,”. Sci Educ. 2017;101(3):369–98.

[48] Tejedor G, Segalàs J, Rosas-Casals M. Transdisciplinarity in higher education for sustainability: how discourses are approached in engineering education. J Clean Prod. 2018;175:29–37.

[49] Avery BJ, Hains BJ. L. M., and Hains, “Oral traditions: a contextual framework for complex science concepts — laying the foundation for a paradigm of promise in rural science education.,”. Cult Stud Sci Educ. 2017;12(1):129–66.

[50] Parmin P, Sajidan S, Ashadi A, Sutikno S, Fibriana F. Science integrated learning model to enhance the scientific work independence of student teacher in indigenous knowledge transformation. Jurnal Pendidikan IPA Indonesia. 2017;6(2):365.

[51] Rahmawati Y, Ridwan A, Nurbaity. Should we learn culture in chemistry classroom? integration ethno-chemistry in culturally responsive teaching. AIP Conference Proceedings; 2017. pp. 030009.

[52] Sjöström J. Science teacher identity and eco-transformation of science education: comparing Western modernism with Confucianism and reflexive Bildung. Cult Stud Sci Educ. 2018;13(1):147–61.

[53] Sjöström J, Frerichs N, Zuin VG, Eilks I. Use of the concept of bildung in the international science education literature, its potential, and implications for teaching and learning. Stud Sci Educ. 2017;53(2):165–92.

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