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http://dx.doi.org/10.9719/EEG.2019.52.5.427

Basin Evolution of the Taebaeksan Basin during the Early Paleozoic  

Kwon, Yi Kyun (Kongju National University)
Kwon, Yoo Jin (Kongju National University)
Yeo, Jung Min (Kongju National University)
Lee, Chang Yoon (Korea Institute of Geoscience and Mineral Resources)
Publication Information
Economic and Environmental Geology / v.52, no.5, 2019 , pp. 427-448 More about this Journal
Abstract
This study reconstructed the paleoenvironments and paleogeography of the Taebaeksan Basin, through a review of the previous researches on sedimentology, paleontology and stratigraphy. This study also carried out a sequence stratigraphic analysis on regional tectonism and sea-level fluctuations on the basin during the Early Paleozoic. The basin broadly occur in the Taebaek, Yeongweol-Jecheon, Jeongseon-Pyeongchang, and Mungyeong areas, Gangwon province, South Korea. The basin-fills are composed mainly of mixed carbonates and siliciclastics, divided into the Taebaek, Yeongweol, Yongtan, Pyeongchang and Mungyeong groups according to lithologies and stratigraphic characteristics. Recently, there are a lot of studies on the provenance and depositional ages of the siliciclastic sequences of the basin. The detrital sediments of the basin would be derived from two separated provenances of the core-Gondwana and Sino-Korean cratons. In the Early Cambrian, the Taebaek and Jeongseon-Pyeongchang platforms have most likely received detrital sediments from the provenance of the Sino-Korean craton. On the other hand, the detrital sediments of the Yeongweol-Jecheon platform was probably sourced by those of the core-Gondwana craton. This separation of provenance can be interpreted as the result of the paleogeographic and paleotopographic separation of the Yeongweol-Jecheon platform from the Taebaek and Jeongseon-Pyeongchang platforms. The analyses on detrital zircons additionally reveal that the separation of provenance was ceased by the eustatic rise of sea-level during the Middle Cambrian, and the detrital sediments of the Taebaeksan Basin were entirely supplied from those of the core-Gondwana craton. During that period, sediment supply from the Sino-Korean craton would be restricted due to inundation of the provenance area of the craton. On the other hand, the Jeongseon-Pyeongchang platform sequences show the unconformable relationship between the Early Cambrian siliciclastic and the Early Ordovician carbonate strata. It is indicative of presence of regional uplift movements around the platform which would be to the extent offset of the effects of the Middle to Late Cambrian eustatic sealevel rise. These movements expanded and were reinforced across the basin in the latest Cambrian and earliest Ordovician. After the earliest Ordovician, the basin was tectonically stabilized, and the shallow marine carbonate environments were developed on the whole-platform by the Early Ordovician global eustatic sea-level rise, forming very thick carbonate strata in the basin. In the Late Ordovician, the Early Paleozoic sedimentation on the basin was terminated by the large-scale tectonic uplift across the Sino-Korean platform including the Taebaeksan Basin.
Keywords
Taebaeksan Basin; Detrital zircon; U-Pb age; Sequence Stratigraphy; Paleogeography;
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Times Cited By KSCI : 3  (Citation Analysis)
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1 Kobayashi, T. (1961) The Cambro-Ordovician formations and faunas of South Korea, Part 8, Paleontology 7, Cambrian faunas of Mungyeong (Bunkei) district and the Samposan Formation of the Yongwol (Neietsu) district. Journal of the Faculty of Science, University of Tokyo, Section II, 16, 181-251.
2 Ku, J.H. (1964) Geology of Mungyeong Coalfield. Geological Survey of Korea (in Korean).
3 Kwon, Y.J. and Kwon, Y.K. (2019) Paleogeography and sequence stratigraphy of the Middle Ordovician Yeongheung Formation in the Yeongweol Group, Taebaeksan Basin, Sino-Korean Craton: Implications for a land-detached ramp-type platform. Journal of Asian Earth Sciences (submitted).
4 Kim, N.J., Cho, S.O. and Kang, P.K. (1967) Geological Map of the Mungyeong Sheet (1:50,000). Geological Survey of Korea (in Korean).
5 Lee, Y.I., Choi, T., Lim, H.S. and Orihashi, Y. (2012) Detrital zircon U-Pb ages of the Jangsan Formation in the northeastern Okcheon belt, Korea and its implications for material source, provenance, and tectonic setting. Sedimentary Geology, 282, 256-267.   DOI
6 Lee, Y.I., Choi, T., Lim, H.S. and Orihashi, Y. (2016) Detrital zircon geochronology and Nd isotope geochemistry of the basal succession of the Taebaeksan Basin, South Korea: Implications for the Gondwana linkage of the Sino-Korean (North China) block during the Neoproterozoic-early Cambrian. Palaeogeography, Palaeoclimatology, Palaeoecology 441, 770-786.   DOI
7 McKenzie, N.R., Hughes, N.C., Myrow, P.M., Choi, D.K. and Park, T.-Y.S. (2011) Trilobites and zircons link north China with the eastern Himalaya during the Cambrian. Geology, 39(6), 591-594.   DOI
8 Meng, X. and Ge, M. (2003) Cyclic Sequences, Events and Evolution of the Sino-Korean Plate, with a Discussion on the Evolution of Molartooth Carbonates, Phosphorites and Source Rocks. Acta Geologica Sinica, 77, 382-401.   DOI
9 Meng, X.H., Ge, M. and Tucker, M.E. (1997) Sequence stratigraphy, sea-level changes and depositional systems in the Cambro-Ordovician of the North China carbonate platform. Sedimentary Geology, 114(1), 189-222.   DOI
10 Metcalfe, I. (2006) Palaeozoic and Mesozoic tectonic evolution and palaeogeography of East Asian crustal fragments: the Korean Peninsula in context. Gondwana Research, 9, 24-46.   DOI
11 Meyerhoff, A.A., Kamen-Kaye, M., Chen, C. and Taner, I. (1991) China-Stratigraphy, Palaeogeography and Tectonics. Springer Science & Business Media, Kluwer, Dordrecht.
12 Myrow, P.M., Chen, Y.T., Snyder, Z., Fike, D.A., Fanning, C.M., Yuan, J. and Tang, P. (2015) Depositional history, tectonics, and provenance of the Cambrian-Ordovician boundary interval in the western margin of the North China block. Geological Society of America Bulletin, 127(7), 1174-1193.   DOI
13 An, T. and Zheng, Z. (1990) The Conodonts of the Marginal Areas around the Ordos Basin, North China. Science Press, Beijing, 199 p. (in Chinese with English abstract).
14 Aoti, K. (1942) Geology of Bunkei district in Tyosen with special reference to the stratigraphy of the Tyosen Group. Journal of the Geological Society of Japan, 49, 279-281.   DOI
15 Cheong, C.H. Lee, D.Y., Yu, Y.S. and Kang, K.W. (1979a) Explanatory Text of the Geological Map of Pyongchang-Yongwol Sheets (1:50,000). Korea Research Institute of Geoscience and Mineral Resources, Seoul, pp. 19. (in Korean with English summary).
16 Cheong, C.H., Lee, H.Y., Ko, I.S. and Lee, J.D. (1979b) A study on stratigraphy and sedimentological environments of the Lower Paleozoic seqeunces in South Korea (Chiefly in Jeongseon area). Journal of National Science, 18, 123-159.
17 Choi, D.K. (2018b) Evolution of the Taebaeksan Basin, Korea: II, late Paleozoic sedimentation in a retroarc foreland basin and assembly of the proto-Korean Peninsula. Island Arc, 1-13.
18 Cho, D.L., Lee, S.R., Koh, H.J., Park, J., Armstrong, R. and Choi, D.K. (2014) Late Ordovician volcanism in Korea constrains the timing for breakup of Sino-Korean Craton from Gondwana. Journal of Asian Earth Sciences, 96, 279-286.   DOI
19 Choi, D.K. (1998) The Yongwol Group (Cambrain-Ordovician) redefined: a proposal for the stratigraphic nomenclature of the Joseon Supergroup. Geoscience Journal, 2, 220-234.   DOI
20 Choi, D.K. (2018a) Evolution of the Taebaeksan Basin, Korea: I, early Paleozoic sedimentation in an epeiric sea and break-up of the Sino-Korean Craton from Gondwana. Island Arc, 1-14.
21 Choi, D.K. and Chough, S.K. (2005) The Cambrian-Ordovician stratigraphy of the Taebaeksan Basin, Korea: a review. Geosciences Journal, 9(2), 187-214.   DOI
22 Kwon, Y.K. (2012) Sequence Stratigraphy of the Yeongweol Group (Cambrian-Ordovician), Taebaeksan Basin, Korea: Paleogeographic Implications. Korea Society of Economic and Environmental Geology, 45(3), 317-333.   DOI
23 Kwon, Y.K., Chough, S.K., Choi, D.K. and Lee, D.-J. (2006) Sequence stratigraphy of the Taebaek Group (Cambrian-Ordovician), mideast Korea. Sedimentary Geology, 192(1), 19-55.   DOI
24 Lee, B.S. (2018) Recognition and significance of the Aurilobodus serratus Conodont Zone (Darriwilian) in lower Paleozoic sequence of the Jeongseon-Pyeongchang area, Korea. Geosciences Journal, 22, 683-696.   DOI
25 Lee, B.S. (2019) Upper Ordovician (Sandbian) conodonts from the Hoedongri Formation of western Jeongseon, Korea. Geosciences Journal, 23, 695-705.   DOI
26 Lee, H.Y. (1980) Discovery of Silurian conodont fauna from South Korea. Journal of the Geological Society of Korea, 16, 114-123.
27 Lee, C.Y. (2019) U-Pb ages of detrital zircons in lower Paleozoic quartzites of the Taebaeksan Basin, eastern Sino-Korean Block: sediment provenance response to relative sea-level changes. Unpublished data.
28 Lee, D.S., Na, K.C. and Kim, Y.J. (1985) Petrologic Study on the Basement and the Lower Part of Ogcheon Zone and Igneous Intrusives in the Pyeongchang-Jecheon Area. Journal of the Korean Institute of Mining Geology, 18, 381-397.
29 Lee, H. (2016) Structural geometry and kinematics of the Jucheon-Pyeongchang area of the Okcheon belt, Korea: (Master Thesis). Yonsei University, Seoul, 157 pp.
30 Lee, H.Y. (1982) Conodonts from the Hoedongri Formation (Silurian), western Jeongseon area, Kangweon-Do, South Korea. Journal of National Academy of Sciences, Republic of Korea, Natural Science Series, 21, 43-131.
31 Paik, I.S. (1987) Depositional environments of the Middle Ordovician Maggol Formation, southern part of the Baegunsan syncline area. Journal of the Geological Society of Korea, 23, 360-373.
32 Paik, I.S. (1974) Stratigraphy and Geologic Structure of the Mun-gyeong Coalfield, Gyeongsang-bug-do, Korea. Journal of the Geological Society of Korea, 10(3), 129-148.
33 Park, K., Choi, D.K. and Kim, J.H. (1994) The Mungog Formation (Lower Ordovician) in the northern part of Yeongweol area: lithostratigraphic subdivision and trilobite faunal assemblages. Journal of the Geological Society of Korea, 30(2), 168-181.
34 Park, N.Y., Oh, M.S., Seo, J.R., Kim, J.H., Park, J.N. and Lee, K.D. (1978) Geological Mine and Physical Exploration in the Western Pyeongchang area. KIGAM Bulletin, 3, p. 59.
35 Ryu, I.C. (2002) Tectonic and stratigraphic significance of the Middle Ordovician carbonate breccias in the Ogcheon Belt, South Korea. Island Arc, 11, 149-169.   DOI
36 Park, T.-Y. and Choi, D.K. (2011) Constraints on using ontogenetic data for trilobite phylogeny. Lethaia, 44, 250-254.   DOI
37 Park, Y.A. and Chang, J.H. (1985) Sedimentary petrology and paleooceanography of the Hoedongri Formation, Jeongseon-Kun, Kangweon-Do, Korea. Journal of the Korean Society of Oceanography, 20, 40-48.
38 Reedman, A.J. and Um, S.H. (1975) The geology of Korea. Korean Institute Mining Geology, Seoul, 139 pp.
39 Ryu, I.C., Doh, S.J. and Choi, S.G. (1997) Carbonate Breccias of the Lower Ordovician Maggol Limestone: Its Genetic Origin and Stratigraphic Significance. Journal of the Geological Society of Korea, 33(4), 234-243.
40 Ryu, I.C., Oh, C.H. and Kim, S.W. (2005) A Middle Ordovician Drowning Unconformity on the Northeastern Flank of the Okcheon (Ogcheon) Belt, South Korea. Gondwana Research, 8(4), 511-528.   DOI
41 Choi, D.K., Chough, S.K., Kwon, Y.K., Lee, S.-B., Woo, J., Kang, I., Lee, H.S., Lee, S.M., Sohn, J.W., Shinn, Y.J. and Lee, D.-J. (2004) Taebaek Group (Cambrian-Ordovician) in the Seokgaejae section, Taebaeksan Basin: a refined lower Paleozoic stratigraphy in Korea. Geosciences Journal, 8(2), 125-151.   DOI
42 Choi, D.K., Lee, J.G., Lee, S.-B., Park, T.-Y.S. and Hong, P. (2016) Trilobite Biostratigraphy of the lower Paleozoic (Cambrian-Ordovician) Joseon Supergroup, Taebaeksan Basin, Korea. Acta Geologica Sinica, 90(6), 1976-1999.   DOI
43 Choi, D.K. and Park, T.-Y.S. (2017) Recent advances of trilobite research in Korea: Taxonomy, biostratigraphy, paleogeography, and ontogeny and phylogeny. Geosciences Journal, 21(6), 891-911.   DOI
44 Cocks, L.R.M. and Torsvik, T.H. (2013) The dynamic evolution of the Palaeozoic geography of eastern Asia. Earth-Science Reviews, 117, 40-79.   DOI
45 Chough, S.K., Kwon, S.T., Ree, J.-H. and Choi, D.K. (2000) Tectonic and sedimentary evolution of the Korean peninsula: a review and new view. Earth-Science Reviews, 52, 175-235.   DOI
46 Chung, G.S., Kang, S.J. and Lee, E.K. (1995) Sedimentary Environments of Carbonate Rocks in Jeongseon Area. The Korean Earth Science Society, p. 34.
47 Chung, G.S. and Lee, S.K. (1995) Depositional environment of the Ordovician Mungyong-Type Carbonate Sequence in the Hogyemyon Area: A Distally-Steepened Ramp System. Journal of Korean Earth Science Society, 16, 511-521.
48 Geological Investigation Corps of Taebaeksan Region (1962) Report on the geology and mineral resources of the Taebaeksan Region. Geological Society of Korea, Seoul, 89 p.
49 Gwak, M.-S., Song, Y.-S. and Park, K.-H. (2017) Deposional Age of the Bangnim Group, Pyeongchang, Korea Constrained by SHRIMP U-Pb Age of the Detrital Zircons. Journal of Petroleum Society of Korea, 26(1), 73-82. (in Korean with English abstract)   DOI
50 Hong, S.H., Hwang, S.G. and Cho, D.L. (1995) Geological Report of the Changdong Sheet (1:50,000). Korea Institute of Energy and Resources, 23 p.
51 Hukasawa, T. (1943) Geology of Heisho District, Kogendo, Tyoseon. Journal of the Geological Society of Japan, 50, 41-57.   DOI
52 Jang, Y. (2012) Structural geometry of the Yeongwol thrust system, Taebaeksan zone, Korea: (Master Thesis). Yonsei Unversity, Seoul, 122 pp.
53 Jang, Y., Kwon, S., Song, Y., Kim, S.W., Kwon, Y.K. and Yi, K. (2018) Phanerozoic polyphase orogenies recorded in the northeastern Okcheon Belt, Korea from SHRIMP U-Pb detrital zircon and K-Ar illite geochronologies. Journal of Asian Earth Sciences, 157, 198-217.   DOI
54 Jang, Y., Kwon, S. and Yi, K. (2015) Structural style of the Okcheon fold-thrust belt in the Taebaeksan Zone, Korea. Journal of Asian Earth Sciences, 105, 140-154.   DOI
55 Jeong, E.J. (1995) Geological Structures and Deformational Sequences of Jeongseon area, Kangweondo, Korea: (Master Thesis). Seoul National University, Seoul, Korea.
56 KIGAM (2019) 1:50,000 tectonic Map of Korea. https://mgeo.kigam.re.kr/map/main.do?process=geology_50k
57 Kihm, Y.H., Kee, W.S. and Jin, G.M. (2010) Geological Structures of Jucheon Area, Contact Area between Ogcheon Belt and Gyeonggi Massif. Economy Environment Geology, 43, 637-648.
58 Lee, H.Y., Lee, K.J. and Yi, M.S. (1993a) Conodonts from the Lower Paleozoic Strata in Mungyeong Area, Gyeongsangbuk-do, Korea, and their Biostratigraphic and Bioprovincial Implications. Journal of the Geological Society of Korea, 29, 507-523.
59 Kihm, Y.H., Kim, J.H. and Koh, H.J. (1996) Geology of the Deogsan-myeon area, Jecheon-gun, Chungcheongbuk-do, Korea: contact between the Choseon and Ogcheon Supergroups. Journal of the Geological Society of Korea 32, 483-499. (In Korean with English abstract)
60 Kihm, Y.H., Kim, J.H. and Lee, J.U. (1999) Geological structures of the Choseon and Ogcheon Supergroups in the Deoksan-Cheongpung area, Jecheongun, Chungcheongbuk-do, Korea. Journal of the Geological Society of Korea, 35, 233-252.
61 Lee, H.Y., Lee, K.J. and Yi, M.S. (1993b) Revision and addition on the Cambrian microfauna from the Kurangni area, Mungyeonggun Gyeongsangbuk-do, South Korea. Journal of the Paleontological Society of Korea 9, 62-76.
62 Lee, H.-Y., Yu, K.M. and Lee, J.D. (1986) Sedimentological, Stratigraphical and Paleontological Study on the Sambangsan Formation and Its Adjacent Formations in the Yeongweol-Pyeongchang Area, Kangweondo. Journal of the Geological Society of Korea, 22(1), 69-86.
63 Lee, J.G. (1995) Late Cambrian Trilobites from the Machari Formation, Yeongweol, Korea: (Ph.D. Thesis). Seoul National University, Seoul, Korea.
64 Lee, M.S. and Kim, S.W. (1968) Geological Map of the Hamchang Sheet (1:50,000). Geological Survey of Korea (in Korean).
65 Lee, M.S. and Park, B.S. (1965) Explanatory text of the geological map of Hwanggangri sheet (1:50,000). Geological Survey of Korea (in Korean).
66 Lee, S.M., Kim, H.S., Hong, S.T. and Park, C.S. (1990) Petrologic studies on the metamorphic rocks in Wonju-Pyongchang area. Journal of the Geological Society of Korea, 26, 32-52.
67 Sloss, L.L. (1963) Sequences in the cratonic interior of North America. Geological Society of America Bulletin, 74, 93-114.   DOI
68 Lee, W.K. (1983) Sedimentary Petrological Study on the Heungwolri Formation. Journal of the Geological Society of Korea, 19, 190-202.
69 Lee, H.Y. (1987) Paleozoic Erathem, Choson Supergroup. In: Lee, D.S. (ed.), Geology of Korea. The Geological Society of Korea, Seoul, pp. 49-82.
70 Shin, B.W. and Choi, S.I. (1968) Geological Map of the Sangkumgok Sheet (1:50,000). Geological Survey of Korea (in Korean).
71 Sohn, J.W. and Choi, D.K. (2007) Furongian trilobites from the Asioptychaspis and Quadraticephalus zones of the Hwajeol Formation, Taebaeksan Basin, Korea. Geosciences Journal, 11, 297-314.   DOI
72 Son, C.M. (1973) A Study on the Stratification of the so called Great Limestone Series. Journal of Korean Institute Mining Geology, 6, 219-230.
73 Son, C.M. and Cheong, J.K. (1976) On the Geological structure of Pyeongchang area. Journal of National Academy of Sciences, 16, 221-245.
74 Son, C.M. and Jeong, J.G. (1971) Geology of the northwestern part of Pyeongchang District, Gangweon-do, Korea. Journal of the Geological Society of Korea, 7, 143-152 (in Korean with English abstract).
75 Son, J.W., Kim, D.H. and Choi, D.K. (2001) Stratigraphy of the Cambro-Ordovician Strata in the Mt. Samtae area, Danyang, Korea. Journal of the Paleontological Society of Korea, 17, 23-34.
76 Um, S.H., Seo, H.K., Kim, D.S., Choi, H.I., Park, S.H., Bae, D.J., Lee, H.Y., Chun, H.Y. and Kwon, M.S. (1977) Report on detailed geological investigation on the Munkyong Coalfiled. Korea Institute of Geoscience and Mineral Resources, 61 p.
77 Kim, H.S., Hwang, M.-K., Ree, J.-H. and Yi, K. (2013) Tectonic linkage between the Korean Peninsula and mainland Asia in the Cambrian: insights from U-Pb dating of detrital zircon. Earth and Planetary Science Letters, 368, 204-218.   DOI
78 Vail, P.R., Mitchum Jr., R.M. and Thompson, S. (1977) Seismic stratigraphy and global changes of sea level. In: Payton, C.E. (Ed.), Seismic Stratigraphy-Applications to Hydrocarbon Exploration. AAPG Memoir 26, American Association of Petroleum Geologists (AAPG), pp. 83-97.
79 Kim, B. (2016) Facies analysis and sequence stratigraphic interpretation on the western part of the Early Paleozoic Sino-Korean block: (Master Thesis). Kongju National University, Gongju, Korea.
80 Kim, D.H. and Choi, D.K. (2000) Lithostratigraphy and biostratigraphy of the Mungok Formation (Lower Ordovician), Youngwol, Korea. Geosciences Journal, 4(4), 301-311.   DOI
81 Kim, H.S., Ree, J.-H. and Y, K. (2017a) The tectonic boundary between the Okcheon and Taebaeksan basins, South Korea: A restraining bend of a continental transform fault between the South and North China Cratons. Island Arc, 1-10.
82 Kim, I. (2016) Refined and newly defined lithostratigraphy of the Mungyeong Group (Cambrian-Ordovician), Taebaeksan Basin, Korea: (Master Thesis). Kongju National University, Gongju, Korea.
83 Kim, J.H., Jeong, C.-S., Son, Y.C. and Koh, H.J. (1997) Geology and Sr, Nd, and Pb isotopic compositions of Precambrian granitoids in the Pyeongchang area, Korea. Journal of the Geological Society of Korea, 33(1), 27-35.
84 Kim, J.H., Son, Y.C. and Koh, H.J. (1999) Characteristic of the so called Banglim Fault and structures of its adjacent area, Pyeongchang, Korea. Journal of the Geological Society of Korea, 35, 99-116. (in Korean with English abstract)
85 Won, J.-H., Lee, H.-Y. and Woo, K.-S. (2015) Sedimentological study on the Jeongseon Limestone Pyeongchang Group and Yongtan Group, Kangweon-Do, Korea. 2015 Annual Fall Joint Geology Meeting, The Geological Society of Korea, 2015, pp. 272.
86 Kim, J.Y. (1991) Stratigraphy of the Myeonsan Formation in Samcheoggun, Kangwondo and Ponghwagun, Kyongsangbukdo. Journal of the Geological Society Korea, 27, 225-245.
87 Kim, J.Y. and Cheong, C.H. (1987) The Precambrian-Cambrian boundary in the east of the Dongjeon Fault, Gangweon-do, Korea. Journal of the Geological Society of Korea, 23, 145-158.
88 Veevers, J.J. (2004) Gondwanaland from 650-500 Ma assembly through 320 Ma merger in Pangea to 185-100 Ma breakup: supercontinental tectonics via stratigraphy and radiometric dating. Earth-Science Review, 68, 1-132.   DOI
89 Won, J.K., Yoo, H.S., Lee, Y.J. and Kim, C.C. (1974) Geological Report of the Shinlim Sheet (1:50,000). Korea Institute of Energy and Resources, 28 p.
90 Yeo, J.M. (2019) Recognition of the disconformity within the Early Paleozoic Geumdang Group: its implication for tectonic environment of the North China platform during the middle to late Cambrian. Unpublished data.
91 Yoon, W.S. (1994) Geological structures and deformational sequence of the Jucheon-Yeongweol area, Mt. Taebaeg region, Korea: (Master Thesis). Seoul National University, Seoul, Korea.
92 Yosimura, I. (1940) Geology of the Neietsu District, Kogendo, Tyosen. Journal of the Geological Society of Japan 40, 112-122.   DOI
93 Zhang, R.Y., Liou, J.G. and Ernst, W.G. (2009a) The Dabie-Sulu continental collision zone: a comprehensive review. Gondwana Research, 16, 1-26.   DOI
94 Kobayashi, T. (1966) The Cambrian-Ordovician formations and faunas of South Korea. Part X, Stratigraphy of the Chosen Group in Korea and South Manchuria and its relation to the Cambro-Ordovician formations of other areas. Section A, the Chosen Group of South Korea, in: The Chosen Group of South Korea. Journal of the Faculty of Science, University of Tokyo, Section II, 16, 1-84.
95 Zhang, S.-H., Zhao, Y., Song, B., Hu, J.-M., Liu, S.-W., Yang, Y.-H., Chen, F.-K., Liu, X.-M., Liu, J. (2009b) Contrasting Late Carboniferous and Late Permian-Middle Triassic intrusive suites from the northern margin of the North China craton: Geochronology, petrogenesis, and tectonic implications. Geological Society of America Bulletin, 121, 181-200.
96 Zhen, Y.I., Zhang, Y., Wang, Z. and Percival, I.-G. (2016) Huaiyuan Epeirogeny-Shaping Ordovician stratigraphy and sedimentation on the North China Platform. Palaeogeography, Palaeoclimatology, Palaeoecology, 448, 363-370.   DOI
97 Kim, O.J., Lee, H.Y., Lee, D.S. and Yun, S. (1973) The Stratigraphy and Geologic Structure of the Great Limestone Series in South Korea. Journal of the Korean Institute of Mining Geology, 6(2), 81-114.
98 Kim, S.W., Park, S.-I., Jang, Y., Kwon, S., Kim, S.J., and Santosh, M. (2017b) Tracking Paleozoic evolution of the South Korean Peninsula from detrital zircon records: Implications for the tectonic history of East Asia. Gondwana Research, 50, 195-215.   DOI
99 Kobayashi, T. (1953) Geology of South Korea with special reference to the limestone plateau of Kogendo. Journal of the Faculty of Science, University of Tokyo, Section II, 8, 145-293.