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http://dx.doi.org/10.15523/JKSESE.2017.10.1.76

Development of a Program for Topophilia Geological Fieldwork Based on Science Field Study Area in Youngdong, Chungcheongbuk-do  

Yoon, Ma-Byong (Jeonju University)
Nam, Kye-Soo (Daejeon Science High School for the Gifted)
Baek, Je-Eun (Wonkwang University)
Bong, Phil-Hun (Daegu National University of Education)
Kim, Yu-Young (Jeonju University)
Publication Information
Journal of the Korean Society of Earth Science Education / v.10, no.1, 2017 , pp. 76-89 More about this Journal
Abstract
The purpose of this study is to develop a science field study area using Geumgang(Geum River), fossil origins and various geological resources in Youngdong area of Chungcheongbuk-do as educational resources; and utilize them to develop an education program to cultivate earth science and topophilia. The Youngdong sedimentary basin (Cretaceous period) has a well-developed outcrop along the Geumgang and it is therefore easy to find various geological structures, plant fossils, and dinosaur fossils. Also, it has a distinct sedimentary structure, such as mud cracks, ripple marks and cross-bedding. Science field study area(6 observation sites) were developed based on school curriculum, textbook analysis, and professional earth science education panel discussion to create a convergence education program. The result of validating the developed program showed that all the items were satisfactory ($CVR{\geq}0.88$) in the test categories. The science field study teaching-learning model was applied to actual classes. The evaluation result for class satisfaction was positive, scoring Rickert scale 4.18. The result of observation about the outdoor classroom process in the science field study area revealed that students were able to form a new image of the beautiful scenery of the Geumgang. Also, the students could gain a new understanding, concept and value of various geological objects (sandy beach, stepping-stones, dinosaur footprint fossils, sedimentary formation), which naturally allowed them to form topophilia.
Keywords
Youngdong area of Chungbuk; science field study area; earth science; topophilia; dinosaur footprint fossil;
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Times Cited By KSCI : 6  (Citation Analysis)
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1 김화성, 함호식, 이문원(2013). 화성암 지역의 야외 지질학습장 개발 및 적용, 한국지구과학회지, 34(3), 274-285.   DOI
2 국립국어원(2017). 사랑의 어원, Retrived February 5, 2017, from http://www.korean.go.kr.
3 교육과학기술부(2011). 2011개정 과학과 교육과정, 교육과학기술부 고시 제2011-361호.
4 교육부(2015). 2015개정 과학과 교육과정, 교육부 고시 제2015-74호.
5 맹승호(2004). 야외 지질 학습 수업모형에 관한 고찰, 함께하는 지구과학 교육, 3, 55-64.
6 박재문, 양우헌, 조규성(2007). 전북 부안군 채석강 일대의 야외지질 학습자료 개발 및 적용, 한국지구과학회지, 28(7), 747-761.   DOI
7 백윤수, 박현주, 김영민, 노석구, 박종윤, 이주연, 정진수, 최유현, 한혜숙(2011). 우리나라 STEAM 교육의 방향, 학습자중심교과교육연구, 11(4), 149-171.
8 손치무, 정창희, 이상만, 엄상호(1969). 우리나라의 퇴적환경과 지질구조에 관한 연구, 과학기술처 연구보고서 69(2), 50.
9 Huntoon, J.E., Bluth, G.J., & Kennedy, W.A. (2001). Measuring the effects of a research-based field experience on undergraduates and K-12 teachers, Journal of Geoscience Education, 49, 235-248.   DOI
10 Isen, A.M. & Reeve, J. (2005). The influence of positive affect on intrinsic and extrinsic motivation: Facilitating enjoyment of paly, responsible work behavior, and self-control. Motivation and Emotion, 29(4), 295-323.   DOI
11 Johan H. (2016). Homo ludens: A Study of the play-element in culture, Washington: Angelico Press.
12 OECD (2007). Understanding the brain: The birth of a learning science, NY: Center for educational research and innovation.
13 Orion, N. (1993). A model for the development and implementation of field trips as an integral part of the science curriculum, School Science and Mathematics, 93, 325-331.   DOI
14 윤마병, 김학성, 이종학(2014). 전북지역 교육자원을 활용한 토포필리아 STEAM 교육 프로그램 개발, 과학교육연구지, 38(1), 41-56.
15 김규봉, 황재하(1986). 영동도폭지질보고서 및 지질도(1/50000), 한국동력자원연구소.
16 김해경(2016). 고흥군 북서 해안의 지질학습장으로서의 활용가능성, 대한지구과학교육학회지, 9(2), 163-172.   DOI
17 김해경(2015). 지역 지질을 활용한 초등학교 야외지질학습장의 개발, 대한지구과학교육학회지, 8(2), 128-138.   DOI
18 이어령(2015). 언어로 세운 집, 서울: 아르테.
19 윤마병(2014). 토포필리아의 학습동기 역할과 전북지역의 교육자원 개발, 한국콘텐츠학회논문지, 14(4), 231-246.
20 윤마병, 홍재영(2012). 고등학교 융합과학(STEAM) 실험-실습 프로그램 개발과 과학 캠프 적용, 과학교육연구지, 36(2), 263-278.
21 장일구(2011). 경계와 이행의 서사 공간, 서울: 서강대학교 출판부.
22 조규성, 양우헌, 신순선, 오재명, 정덕호(2012). 변산반도 격포 적벽강 일대 야외지질 학습자료 개발 및 적용, 한국지구과학회지, 33(7), 658-671.   DOI
23 하병건, 김용권(2015). 환경 관련 체험학습이 초등학생의 환경소양과 과학적 태도에 미치는 효과, 대한지구과학교육학회지, 8(2), 206-217.   DOI
24 홍정수, 장남기(1997). 중등학교 과학과 야외활동의 실태 및 개선 방안, 한국과학교육학회지, 17(1), 85-92.
25 Carnevale, P. J. & Isen, A. M. (1986). The influence of positive affect and visual access on the discovery of integrative solutions in bilateral negotiation, Organizational Behavior and Human Decision Processes, 37, 1-13.   DOI
26 Tuan, Y.F. (1961). Topophilia, or sudden encounter with the landscape, Landscape, 11, 29-32.
27 Orion, N. & Hofstein, A. (1994). Factors that influence learning during a scientific field trip in a natural environment, Journal of Research in Science Teaching, 40, 1097-1119.
28 Piaget, J. (1983). Piaget's theory. In W. Kessen(Ed.), Handbook of child psychology(Vol. 1, pp. 103-128), NY: Wiley.
29 Rousseau, J.J. (2003). Emile or treatise on education, trans. by William H. Payne. Amherst, NY: Prometheus Books.
30 Tuan, Y.F. (1977). Space and place: The perspective of experience. Minnesota: University of Minnesota Press.
31 Urry J. (2007). Mobilities, 신유목민시대의 패러다 임과 사회 이후 사회, 강현수, 이희상 역, 서울: 아카넷.
32 Yoon, M.B. (2016). Development of the STEAM education program on climate change for science club activities, International Journal of Knowledge and Learning, 11, 123-131.
33 Doran, R.L. (1980). Basic measurement and evaluation of science instruction. Washington: National Science Teachers Association.
34 Csikszentmihalyi, M. (1998). Finding flow: The psychology of engagement with everyday life. NY: Basic Books.
35 Dewey, J. (2002). Experienceand education, 박철홍 역(2002), 경험과 교육, 서울: 문음사.
36 Diener, E. (2000). Subjective well-being: The science of happiness and a proposal for a national index, American Psychologist, 55, 34-43.   DOI