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http://dx.doi.org/10.5467/JKESS.2021.42.6.662

A Survey of Yeosu Sado Dinosaur Tracksite and Utilization of Educational Materials using 3D Photogrammetry  

Jo, Hyemin (Faculty of Earth Systems and Environmental Sciences & Korea Dinosaur Research Center, Chonnam National University)
Hong, Minsun (Faculty of Earth Systems and Environmental Sciences & Korea Dinosaur Research Center, Chonnam National University)
Son, Jongju (Faculty of Earth Systems and Environmental Sciences & Korea Dinosaur Research Center, Chonnam National University)
Lee, Hyun-Yeong (Faculty of Earth Systems and Environmental Sciences & Korea Dinosaur Research Center, Chonnam National University)
Park, Kyeong-Beom (Department of Industrial Engineering, Chonnam National University)
Jung, Jongyun (Department of Geological and Environmental Sciences, Chonnam National University)
Huh, Min (Faculty of Earth Systems and Environmental Sciences & Korea Dinosaur Research Center, Chonnam National University)
Publication Information
Journal of the Korean earth science society / v.42, no.6, 2021 , pp. 662-676 More about this Journal
Abstract
The Yeosu Sado dinosaur tracksite is well known for many dinosaur tracks and research on the gregarious behavior of dinosaurs. In addition, various geological and geographical heritage sites are distributed on Sado Island. However, educational field trips for students are very limited due to accessibility according to its geological location, time constraints due to tides, and continuous weathering and damage. Therefore, this study aims to generate 3D models and images of dinosaur tracks using the photogrammetric method, which has recently been used in various fields, and then discuss the possibility of using them as paleontological research and educational contents. As a result of checking the obtained 3D images and models, it was possible to confirm the existence of footprints that were not previously discovered or could not represent details by naked eyes or photos. Even previously discovered tracks could possibly present details using 3D images that could not be expressed by photos or interpretive drawings. In addition, the 3D model of dinosaur tracks can be preserved as semi-permanent data, enabling various forms of utilization and preservation. Here we apply 3D printing and mobile augmented reality content using photogrammetric 3D models for a virtual field trip, and these models acquired by photogrammetry can be used in various educational content fields that require 3D models.
Keywords
dinosaur track; photogrammetry; Yeosu Sado dinosaur tracksite; 3D modeling; educational material;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
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1 Thulborn, R.A., 1990, Dinosaur Tracks. Champman and Hall, London, New York, 410 p.
2 Westoby, M.J., Brasington, J., Glasser, N.F., Hambrey, M.J., and Reynolds, J.M., 2012, 'Structure-from-Motion' photogrammetry: A low-cost, effective tool for geoscience applications. Geomorphology, 179, 300-314   DOI
3 Wright, J., 2005, Sauropod tracks and their importance in the study of the functional morphology and paleoecology of sauropods. In Rogers, K.C. and Wilson, J.A., (eds.), The Sauropods: evolution and paleobiology. University of California Press, Ltd., London, UK, 252-284.
4 Yoo, J.H., Lee, C.H., and Eo, E.I., 2012, Evaluation of deterioration Diagnosis and Conservation Environments of the Large and the Giant Dinosaur Footprint Fossils in Haenam Uhangri, Korea. Journal of the Geological Society of Korea, 48(4), 325-340.
5 Ziegler, M.J., Perez, V.J., Pirlo, J., Narducci, R.E., Moran, S.M., Selba, M.C., Hastings, A.K., Vargas-Vergara, C., Antonenko, P.D., and MacFadden, B.J., 2020, Applications of 3D Paleontological Data at the Florida Museum of Natural History. Frontiers in Earth Science, 8, 600696.   DOI
6 Romilio, A., 2020, An instructional guide to visualising dinosaur tracks. Las Vegas, Nevada, 36 p.
7 Dolphin, G., Dutchak, A., Karchewski, B., and Cooper, J., 2019, Virtual field experiences in introductory geology: Addressing a capacity problem, but finding a pedagogical one. Journal of Geoscience Education, 67(2), 114-130.   DOI
8 Gilley, B., Atchison, C., Feig, A., and Stokes, A., 2015, Impact of inclusive field trips. Nature Geoscience, 8(8), 579-580.   DOI
9 Choi, B.-D., Huh, M., Hwang, K.-G., Woo, Y., and Park, J.-Y., 2012, A Preliminary Study on the Candidate Sites for Geopark Around Jeonnam Area: Focusing on Dinosaur Fossil Sites. Journal of the Paleontological Society of Korea, 28(1-2), 117-136.
10 Kang, S.H., Buckley, L.G., McCrea, R.T., Kim, K.-S., Lockley, M.G., Lim, J.D., Lim, H.S., and Kim, C.-B., 2021, First report of bird tracks (Ignotornis seoungjoseoi ichnosp. nov.) from the Jinju formation (Lower Cretaceous), Sacheon City, Korea. Cretaceous Research, 104899.
11 강민정 의원실, 2020, 전국 초중고교 교내 3D프린터 보유 및 유해 프린팅 소재(ABS) 사용 현황. [데이터파일]
12 미래창조과학부, 산업통상자원부, 2014, 3D프린팅 산업 발전전략(안). 24 p.
13 정보통신산업진흥원, 2019, 2018 3D프린팅 산업 실태조사. 140 p.
14 Ahn, J., Kong, D.-Y., and Wohn, K.-Y., 2013, Visualization of 3D Scanned Model for Interpretation of Heritage - case of Dinosaur Tracks for Documentation and Interpretation. Journal of the HCL Society of Korea, 8(1), 19-28.   DOI
15 Orion, N. and Hofstein, A., 1994, Factors that influence learning during a scientific field trip in a natural environment. Journal of Research in Science Teaching, 31(10), 1097-1119.   DOI
16 Cooke, M.L., Anderson, K.S., and Forrest, S.E., 1997, Creating accessible introductory geology field trips. Journal of Geoscience Education, 45(1), 4-9.   DOI
17 Paik, I.S., Huh, M., Park, K.H., Hwang, K.G., Kim, K.S., and Kim, H.J., 2006, Yeosu dinosaur track sites of Korea: the youngest dinosaur track records in Asia. Journal of Asian Earth Sciences, 28(4-6), 457-468.   DOI
18 Pantelidis, V.S., 1993, Virtual Reality in the Classroom. Educational Technology, 33(4), 23-27.
19 Park, K.-H., Paik, I.S., and Huh, M., 2003, Age of the volcanism and deposition determined from the Cretaceous strata of the islands of Yeosu-si. The Journal of the Petrological Society of Korea, 12(2), 70-78.
20 Elkins, J.T. and Elkins, N.M., 2007, Teaching Geology in the Field: Significant Geoscience Concept Gains in Entirely Field-based Introductory Geology Courses. Journal of Geoscience Education, 55(2), 126-132.   DOI
21 Otero, A., Moreno, A.P., Falkingham, P.L., Cassini, G.H., Ruella, A., Militello, M., and Toledo, N., 2020, Three-dimensional image surface acquisition in vertebrate paleontology: a review of principal techniques. Asociacion Paleontologica Argentina, 20(1), 1-14.
22 Berry, R.Q., Bull, G., Browning, C., Tomas, C.D., Starkweather, G., and Aylor, J., 2010, Use of digital fabrication to incorporate engineering design principles in elementary mathematics education. Contemporary Issues in Technology and Teacher Education, 10(2) 167-172.
23 Aristovnik, A., Kerzic, D., Ravselj, D., Tomazevic, N., and Umek, L., 2020, Impacts of the COVID-19 pandemic on life of higher education students: A global perspective. Sustainability 2020, 12(20), 1-34.
24 Barton, D.C., 2020, Impacts of the COVID-19 pandemic on field instruction and remote teaching alternatives: Results from a survey of instructors. Ecology and Evolution, 10(22), 12499-12507.   DOI
25 Behrendt, M. and Franklin, T., 2014, A Review of Research on School Field Trips and Their Value in Education. International Journal of Environmental and Science Education, 9(3), 235-245.
26 Clary, R.M. and Wandersee, J.H., 2014, Lessons from US Fossil Parks for Effective Informal Science Education. Geoheritage, 6(4), 241-256.   DOI
27 Horowitz, S.S. and Schultz, P.H., 2014, Printing space: using 3D printing of digital terrain models in geosciences education and research. Journal of Geoscience Education, 62(1), 138-145.   DOI
28 Falkingham, P.L., 2012, Acquisition of high resolution three-dimensional models using free, open-source, photogrammetric software. Palaeontologia Electronica, 15(1), 15.
29 Falkingham, P.L., Bates, K.T., Avanzini, M., Bennett, M., Bordy, E.M., Breithaupt, B.H., Castanera, D., Citton, P., Diaz-Martinez, I., Farlow, J.O., Fiorillo, A.R., Gatesy, S.M., Getty, P., Hatala, K.G., Hornung, J.J., Hyatt, J.A., Klein, H., Lallensack, J.N., Martin, A.J., Marty, D., Matthews, N.A., Meyer, C.A., Milan, J., Minter, N.J., Razzolini, N.L., Romilio, A., Salisbury, S.W., Sciscio, L., Tanaka, I., Wiseman, A.L.A., Xing, L.D., and Belvedere, M., 2018, A standard protocol for documenting modern and fossil ichnological data. Palaeontology, 61(4), 469-480.   DOI
30 Ford, S. and Minshall, T., 2019, Invited review article: Where and how 3D printing is used in teaching and education. Additive Manufacturing, 25, 131-150.   DOI
31 Huh, M., Lockley, M.G., Kim, K.S., Kim, J.Y., and Gwak, S.G., 2012, First report of Aquatilavipes from Korea: new finds from Cretaceous strata in the Yeosu Islands Archipelago. Ichnos, 19(1-2), 43-49.   DOI
32 Kim, K.S., 2016, New excavation method and its applications for fossil footprints. Journal of the Korean Earth Science Society, 37(3), 143-161.   DOI
33 Huh, M., Paik, I.S., Ko, Y.-K., Kim, K.S., Pack, K.H., Cheong, C.H., and Hwang, K.G., 2002, A Research Report on the Yeosu Dinosaur Sites, Korea. Korea Dinosaur Research Center, Chonnam National University and Yeosu City, Gwangju, Korea, 350 p.
34 Paik, I.S., So, Y.H., Kim, H.J., Lee, H.I., Yoon, H.I., Lim, H.S., and Huh, M., 2009, Rhythmic deposits in the Upper Cretaceous lacustrine deposits at Yeosu area, Korea: occurrences and origin. Journal of the Geological Society of Korea, 45(2), 85-105.
35 Yoon, H.-S., Lee, Y.-N., Jung, S.-H., Kong, D.-Y., Kim, S.-H., and Son, M., 2021, A juvenile ornithopod tracksite from the Lower Cretaceous Haman Formation, South Korea. Cretaceous Research, 125, 104877.   DOI
36 Henderson, D.M., 2006, Burly gaits: centers of mass, stability, and the trackways of sauropod dinosaurs. Journal of Vertebrate Paleontology, 26(4), 907-921.   DOI
37 Huh, M., Paik, I.S., Chun, C.H., Park, J.B., and Kim, B.S., 2001, Dinosaur tracks from Islands in Yeosu, Jeollanam-do, Korea. Journal of the Geological Society of Korea, 37(4), 653-658.
38 Kim, K.S., Lim, J.D., Lockley, M.G., Xing, L., Kim, D.H., Pinuela, L., Romilio, A., Yoo, J.S., Kim, J.H., and Ahn, J., 2018, Smallest known raptor tracks suggest microraptorine activity in lakeshore setting. Scientific Reports, 8(1), 1-10.
39 Huh, M., Paik, I.S., Lee, C.H., Hwang, K.G., Kim, B.S., Gwak, S.G., Moon, K.H., Jang, S.J., Yoon, J.H., Yoo, G.H., Kim, R.H., Kim, W.K., Kang, M.K., Yoo, J.H., and Eo, E.I., 2011, A final report on rescue excavation at the Jeju hominid and vertebrate fossil footprint site. Korea Dinosaur Research Center and Seogipo City, 140 p.
40 Kim, K.-S., Lockley, M.G., Lim, J.-D., Bae, S.-M., and Romilio, A., 2020, Trackway evidence for large bipedal crocodylomorphs from the Cretaceous of Korea. Scientific Reports, 10(1), 1-13.   DOI
41 Falkingham, P.L., Bates, K.T., Margetts, L., and Manning, P.L., 2010, Simulating sauropod manus-only trackway formation using finite-element analysis. Biology Letters, 7(1), 142-148.   DOI
42 Lockley, M.G., Huh, M., Gwak, S.G., Hwang, K.G., and Paik, I.S., 2012, Multiple tracksites with parallel trackways from the Cretaceous of the Yeosu City Area Korea: Implications for gregarious behavior in ornithopod and sauropod dinosaurs. Ichnos, 19(1-2), 105-114.   DOI
43 Kwon, D.H., 2014, Feasibility of Developing the Natural Heritage of Geological Features and Topography in Sado Island of Yeosu. Journal of the Geomorphological Association of Korea, 21(3), 35-48.   DOI
44 Lallensack, J.N., Buchwitz, M., and Romilio, A., 2020, Photogrammetry in ichnology: 3D model generation, visualisation, and data extraction. Journal of Paleontological Techniques, 1-49. https://doi.org/10.31223/X5J30D.   DOI
45 Lee, G., Park, J.H., and Lee, C.H., 2019, Conservation Scientific Diagnosis and Evaluation of Bird Track Sites from the Haman Formation at Yongsanri in Haman, Korea. MUNHWAJAE Korean Journal of Cultural Heritage Studies, 52(3), 74-93
46 Matthews, N.A. and Breithaupt, B.H., 2001, Close-range Photogrammetric Experiments at Dinosaur Ridge. The Mountain Geologist, 38, 147-153.
47 Mead, C., Buxner, S., Bruce, G., Taylor, W., Semken, S., and Anbar, A.D., 2019, Immersive, interactive virtual field trips promote science learning. Journal of Geoscience Education, 67(2), 131-142.   DOI
48 Kong, D.-Y., Lim, J.D., Kim, J.Y., and Kim, K.S., 2010, Application of Digital Photogrammetry to Dinosaur Tracks from the Namhae Gain-ri Tracksite. Journal of the Korean Earth Science Society, 31(2), 129-138.   DOI
49 Kim, S.J., Cho, H.G., Jeong, G.Y., Lee, S.H., Do, J.Y., and Chang, S.J., 2004, A study on the restoration and conservation of dinosaur tracks at the Goseong Interchange area. Natural Heritage Preservation Association, 156 p.
50 Kong, D.-Y., Lim, J.-D., Wohn, K.-Y., Ahn, J.-H., and Kim, K.-S., 2011, Application of 3D Digital Documentation to Natural Monument Fossil Site. Journal of the Korea Contents Association, 11(11), 492-502.   DOI
51 Sung, S. and Lee, M., 2017, A Study of Trend and Effectiveness of imprinting effect in VR, AR Educational Contents. KSDS Conference Proceeding, 208-209.
52 Lockley, M.G., Lim, J.D., Park, H.D., Romilio, A., Yoo, J.S., Choi, J.W., Kim, K.S., Choi, Y., Kang, S.-H., Kim, D.H., and Kim, T.H., 2020, First reports of Crocodylopodus from East Asia: implications for the paleoecology of the Lower Cretaceous. Cretaceous Research, 104441.
53 Rotzien, J.R., Sincavage, R., Pellowski, C., Gavillot, Y., Filkorn, H., Cooper, S., Shannon, J., Yildiz, U., Sawyer, F., and Uzunlar, N., 2021, Field-Based Geoscience Education during the COVID-19 Pandemic: Planning, Execution, Outcomes, and Forecasts. GSA Today, 31(3-4), 4-10
54 Song, K.-Y. and Kim, H.-C., 2015, Geological report of the Yeosu sheet (1:50,000). Korea Institute of Geoscience and Mineral Resources, 55 p.