Abstract
This study focuses on the sequence stratigraphy of the Pyeongan Supergroup (Carboniferous-Permian), central-eastern Korea. The supergroup consists of about 1700-m-thick siliciclastic deposits, disconformably overlying the Joseon Supergroup (Cambro-Ordovician). The entire succession is represented by thirteen sedimentary facies which can be organized into seven facies associations (FAs) and, in turn, three sequence units. Sequence 1 constitutes FAs 1, 2, 3, and 4. FA 1 consists of conglomerate, sandstone and shale facies, and is bounded by a sequence boundary (SB 1) at the base. The overlying purple siltstone with interbedded massive sandstone and carbonate grainstone (FA 2) formed on a coastal plain during sea-level rise, which is transitional upward into black shale and patchy bioturbated carbonate packstone (FA 3) of lagoonal environments. The transition from FA 1 to 3 represents relative sea-level rise with small-scale fluctuations, i.e., transgressive systems tract. FA 4 consists of cross-stratified conglomerate and massive sandstone with black shale which prograded over lagoonal area, forming highstand systems tract (HST). Sequence 2 consists of FAs 5 and 6. Sequence boundary (SB 2) occurs at the transition between FAs 4 and 5. FA 5 is characterized by cross-stratified coarse sandstone and purple fine sandstone to siltstone of fluvial plain environments. It represents rapid change in depositional environments from shoreface to fluvial system. FA 6 comprises upward-fining units (massive sandstone to dark gray siltstone), suggestive of restricted bay environments during relative sea-level rise. Due to an abrupt fall in sea level, the basin was closed with thick fluvial deposits (FA7). Sequence 3 comprises planar and trough cross-stratified coarse sandstone and partly bioturbated purple fine sandstone to mudstone (FA 7). The entire succession represents deposition of a second order cycle of sea-level rise and fall during the period between the Carboniferous and the Permian. A reconstructed relative sea-level curve is concordant with eustasy in the Carboniferous, but discordant in the Permian, implying that the influence of local tectonic movements was dominant in the Permian.
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References
Aigner, T., 1985, Storm Depositional Systems. Lecture Notes in Earth Sciences 3, Springer-Verlag, New York, 174p.
Allen, J.R.L., 1982. Sedimentary Structures; Their Character and Physical Basis. Elsevier, Amsterdam, 593p.
Allen, J.R.L., 1984, Parallel lamination developed from upper stage plane beds: a model based on the larger coherent structures of the turbulent boundary layer. Sedimentary Geology, 39, 227–242.
Bentham, P.A., Talling, P.J. and Burbank, D.W., 1993, Braided stream and floodplain deposition in a rapidly aggrading basin: the Escanilla Formation, Spanish Pyrenees. In: Best, J.L., Bristow, C.S. (Eds.), Braided Rivers. Geol. Soc. Lond. Spec. Publ., 75, 177–194.
Bridge, J.S., 1981, Bed shear stress over subaqueous dunes, and the transition to upper-stage plane beds. Sedimentology, 28, 33–36.
Bridge, J.S., 1993, Description and interpretation of fluvial deposits: a crtical perspective. Sedimentology, 40, 801–810.
Cabrera, L. and Saez, A., 1987, Coal deposition in carbonate-rich shallow lacustrine system: the Calaf and Mequinenza sequences (Oligocene, eastern Ebro Basin, NE Spain). J. Geol. Soc. London, 144, 451–461.
Chen, Z.Q., Yugan, J. and Shi, G.R., 1997, Permian transgression-regression sequences and sea-level changes of South China. In: Shi, G.R., Archbold, N.W., Grover, M. (Eds.), The Permian System: Stratigraphy, Paleogeography and Resources. Royal Society of Victoria, Victoria, pp. 345–368.
Cheong, C.H., 1969, Stratigraphy and paleontology of the Samcheog coalfield, Gangweondo, Korea (1). J. Geol. Soc. Korea, 5(1), 13–56.
Cheong, C.H., 1973. A Paleontology study of the fusulinids from the Samcheog coalfield, Korea. J. Geol. Soc. Korea, 9, 47–48 (in Korean with English abstract).
Chough, S.K., Kwon, S.-T., Ree, J.-H., Choi, S.K., 2000, Tectonic and sedimentary evolution of the Korean Peninsula: a review and new view. Earth-Science Reviews, 52, 175–235.
Chun, H.Y., 1985, Permo-Carboniferous plant fossils from the Samcheog Coalfield, Gangweon-do, Korea (1). Journal of the Paleontological Society of Korea 1, 95–122.
Chun, H.Y., 1985, Permo-Carboniferous plant fossils from the Samcheog Coalfield, Gangweon-do, Korea (1). Journal of the Paleontological Society of Korea 3, 1–27.
Cluzel, D., Cadet, J.P., Lapierre, H., 1990, Geodynamics of the Ogcheon belt (South Korea). Tectonophysics, 183, 41–56.
Cluzel, D., 1991, Late Palaeozoic to early Mesozoic geodynamic evolution of the Circum-Pacific orogenic belt in South Korea and Southwest Japan. Earth and Planetary Science Letters, 108, 289–305.
Collinson, J.D., Thompson, D.B., 1989, Sedimentary Structures (2nd Ed.), Unwin Hyman, London, 207 p.
Davies, S.J., Gibling, M.R., 2003, Architecture of coastal alluvial deposits in an extensional basin: the Carboniferous Joggins Formation of eastern Canada. Sedimentology, 50, 415–439.
Einsele, G., 2000, Sedimentary Basins: Evolution, Facies, and Sedimentary Budget. Springer, Heidelberg, 792 p.
Geological Investigation Corps of Taebaegsan Region (GICTR), 1962, Geologic Atlas of Taebaegsan Region, Geological Society of Korea.
Golonka, J., Ford, D., 2000, Pangean (Late Carboniferous-Middle Jurassic) Paleoenvironment and lithofacies. Paloegeography, Paleoclimatology, Paleoecology, 161, 1–34.
Harms, J.C., Southard, J.B., Spearing, D.R., Walker, R.G., 1982, Structures and sequences in clastic rocks, SEPM Short Course No. 9, Calgary, 161 p.
Heckel, P.H., 1972, Possible inorganic origin for stromatactis in calcilutite mounds in the Tully Limestone, Devonian of New York. Journal of Sedimentary Petrology, 42, 7–18.
Hjellbakk, A., 1997, Facies and fluvial architecture of a high-energy braided river: the Upper Proterozoic Seglodden Member, Baranger Peninsula, northern Norway. Sedimentary Geology, 114, 131–161.
Hu, J., Xu, S., Tong, X., Wu, H., 1989, The Bohay Bay Basin. In: Zhu, X., (Ed.) Chinese Sedimentary Basins. Elsevier, Amsterdam, pp. 89–106.
Izart, A., Stephenson, R., Vai G.B., Vachard, D., Nindre Y.L., Vaslet, D., Fauvel, P.J., Suss, P., Kossovaya, O., Chen, Z., Maslo, A., Stovba, S., 2003, Sequence stratigraphy and correlation of late Carboniferous and Permian in the CIS, Europe, Tethyan area, North Africa, Arabia, China, Gondwanaland and the USA. Paleogeography, Paleoclimatology, Paleoecology, 196, 59–84.
Jo, H.R., Chough, S.K., 2001, Architectural analysis of fluvial sequences in the northwestern part of Kyongsang Basin (Early Cretaceous), SE Korea. Sedimentary Geology, 144, 307–334.
Kawasaki, S., 1927, The flora of the Heian System, Pt. 1. Bulletin of the Geological Survey of Chosen 6, No. 1.
Korean Research Institute of Geoscience And Mineral Resources (KIGAM), 1979, Geological Atlas of the Samcheog Coalfield. 1∶25,000 and Geology of the Samcheog Coalfield (Explanatory text).
Kim, H.M., 1978, Neritic paleocurrent analysis of Pennsylvanian Tethyan sea at Samcheog coalfield, Korea. Journal of Korean Institute of Mining Geology, 11, 21–38.
Kim, J.H., 1994, Structure in the Taebaeksan zone. In: Ree, J.H., Cho, M., Kwon, S.T., Kim, J.H. (Eds.), Structure and Metamorphism of the Ogcheon Belt: Field Trip guidebook. IGCP Project 321 Organizing Committee, pp. 23–57.
Kim, J.H. and Kee, W.S., 1991, Tectonic significances of the Soon-chang shear zone, the Hwasum coalfield, Korea. J. Geol. Soc. Korea, 27, 642–655.
Kim, J.H. and Won, C.H., 1987, Structural analysis of Hwangji-area, Samcheog coalfield, Korea. J. Geol. Soc. Korea, 23, 136–144.
Kim, J.H., Lee, J. and Lee, H.B., 1988, Geological structures of the Baeksan-Sangcheolam area, Samcheog coalfield, Korea, J. Geol. Soc. Korea, 24, 417–430.
Kim, J.H., Lee, J.Y. and Nam, K.H., 1994, Pre-Jurassic thrust movement in Danyang area, Danyang coalfield, Korea. J. Geol. Soc. Korea, 30, 35–40 (in Korean with English abstract).
Kim, J.H., Lee, Y.I., Li, M. and Bai, Z., 2000, Comparison of the Ordovician-Carboniferous boundary between Korea and NE China: implications for correlation and tectonic evolution. Gondwana Research, 4, 39–53.
Ko, J.H., Yu, K.M., Rhee, B.K., Lee, J.Y. and Shin, J.B., 1999, Sandstone petrology of the Pyeongan Supergroup, Taebaeksan Region, Korea: implications for the Carboniferous-Triassic tectonic history of East Asial. Journal of Sedimentary Research, 69, 711–719.
Kodaira, R., 1924, Note on a new species of Schizoneura from Chosen (Korea). Japan Journal of Geology and Geography, 3, 3–4 (Japanese).
Lee, H.S., Chough, S.K., 2006, Refined lithostratigraphy and depositional environments of the Pyeongan Supergroup (Carboniferous-Permian) in the Taebaek area, mideast Korea. Journal of Asian Earth Science, 26, 339–352.
Lee, J.D., 1992, Permo-Carboniferous conodont fauna from the Samchok coal field and its biostratigraphy (I). Journal of the Paleontological Society of Korea 8, 121–131.
Lee, Y.I., 1990a, Absence of feldspar in Carboniferous Manhang (Samcheog Coalfield) and Yobong sandstones, Korea: Depositional or Diagnetic? J. Geol. Soc. Korea, 26(1), 63–69.
Lee, Y.I., 1990b, Fetrofacies of the Late Carboniferous Manhang sandstones, Samcheog Coalfield and Yobong sandstones, Yeongweol coalfield. J. Geol. Soc. Korea, 26(3), 235–239.
Lee, Y.I., 2002, Provenance derived from the geochemistry of late Paleozoic-early Mesozoic mudrocks of the Pyeongan Supergroup, Korea. Sedimentary Geology, 149, 219–235.
Lee, Y.I. and Sheen, D.H., 1998, Detrital modes of the Pyeongan Supergroup (Late Carboniferous-Early Triassic) sandstones in the Samcheog coalfield, Korea: implications for provenance and tectonic setting. Sedimentary Geology, 119, 219–238.
Lin, C., Li, S., Li, Z., 1995, Facies architecture, stratigraphic sequences and coal occurrences in the Late Carboniferous and Early Permian delta complexes of the North Hubei Basin, China. In: Oti, M.N., Postam, G. (Eds.), Geology of Deltas, A.A. Balkema, Rotterdam, pp. 125–138.
Liu, G., 1990, Permo-Carboniferous paleogeography and coal accumulation and their tectonic control in the North and South China continental plates. In: Lyons, P.C., Callcot, T.G., Alpern, B. (Eds.), Peat and Coal: Origin, Facies, and Coalification. International Journal of Coal Geology, 16, 73–117.
Liu, G., Ricken, W., Mosbrugger, V., Kullmann, J., 1997, Permo-Carboniferous carbonate-coal sequences and their stacking patterns in the North China Block. In: Shi, G.R., Archbold, N.W., Grover, M., (Eds.), The Permian System: Stratigraphy, Paleogeography and Resources. Royal Society of Victoria, Victoria, pp. 369–384.
McCabe, P.J., 1984, Depositional environments of coal and coal bearing strata. In: Rahmani, R.A., Flores, R.M. (Eds.), Sedimentology of Coal and Coal bearing Sequences, International Association of Sedimentologists Special Publication 7, Blackwell, London, pp. 13–42.
Miall, A.D., 1977, A review of the braided-river depositional environment. Earth-Science Reviews, 13, 1–62.
Miall, A.D., 1978, Lithofacies types and vertical profile models in braided river deposits: a summary. In: Miall, A.D., (Ed.), Fluvial Sedimentology. Canadian Soc. Petroleum Geologists Memoir 5, pp. 596–604.
Miall, A.D., 1985, Architectural-element analysis: a new method of facies analysis applied to fluvial deposits. Earth-Science Reviews, 22, 261–308.
Miall, A.D., 1996, The Geology of Fluvial Deposits. Springer, Berlin, 582p.
Nemec, W. and Postma, G., 1993, Quaternary alluvial fans in southwestern Crete: Sedimentation processes and geomorphic evolution. In: Marzo, M., Puigdefabregas, C. (Eds.), Alluvial Sedimentation. Int. Assoc. Sediment. Spec. Publ., 17, pp. 235–276.
Plint, A.G., Wadsworth, J.A., 2003, Sedimentology and paleomorphology of four valley systems incising delta plains, western Canada Foreland Basin: implication for mid-Cretaceous sea-level changes. Sedimentology, 50, 1147–1189.
Posamentier, H.W. and Vail, P.R., 1988, Eustatic controls on clastic deposition I—sequence and systems tract model. In: Wilgus, C.K., Hastings, B.S, Kendall, C.G.St.C., Posamentier, H.W., Ross, C.A., Van Wagoner, J.C. (Eds.), Sea-level changes: an integrated approach. Society of Economic Paleontologists and Mineralogists Special Publication No. 42, Oklahoma, pp. 109–124.
Reading H.G. and Collinson, J.D., 1996, Clastic coasts. In: Reading, H.G., (Ed.), Sedimentary Environments: Processes, Facies and Stratigraphy. Blackwell, London, pp. 154–231.
Lee, J.H., Cho, M., Kwon, S.T. and Nakamura, E., 1996, Possible eastward extension of Chinese collision belt in South Korea: the Imjingang belt. Geology, 24, 1071–1074.
Rhoads, D.C., 1967, Biogenic reworking of intertidal and subtidal sediments in Barnstable Harbor and Buzzards Bay, Massachusetts. Journal of Geology, 75, 461–476.
Ross, C.A. and Ross, J.R.P., 1985, Late Paleozoic depositional sequences are synchronous and worldwide. Geology, 13, 194–197.
Ross, C.A. and Ross, J.R.P., 1988, Late Paleozoic transgressiveregressive deposition. In: Wilgus, C.K., Hastings, B.S., Kendall, C.G.St.C., Posamentier, H.W., Ross, C.A., Van Wagoner, J.C. (Eds.), Sea-level changes: an integrated approach. Society of Economic Paleontologists and Mineralogists Special Publication No. 42, Oklahoma, pp. 227–247.
Ryu, I.C., Doh, S.J., Paik, K.H. and Choi, S.G., 1997, Stratigraphic reconsideration of the Permian Jangseong Formation, Samcheog coalfield. Journal of the Geological Society of Korean, 33, 78–86 (in Korean with English abstract).
Scotese, C.R., Boucot, A.J. and McKerrow, W.S., 1999, Gondweanan palaeogeography and palaeoclimatology. Journal of African Earth Sciences, 28, 99–114.
Shiraki, T., 1930, Geological map of the Samch'ok coalfield.
Shiraki, T., 1940, The Samcheok Coalfield in the Kangweon-do, Korea. Report on Coalfield survey, Korea, 14p.
Simpson, E.L., Dilliard, K.A., Rowell, B.F. and Higgins, D., 2002, The fluvial-to-marine transition within the post-rift Lower Cambrian Hardyston Formation, Eastern Pennsylvania, USA. Sedimentary Geology, 147, 127–141.
Tateiwa, I., 1931, Occurrence of ore deposit and stratigraphy of the Proterozoic Era to Jurassic Period in Sungcheon region, Pyangannam-do. Journal of the Mining of Chosen.
Traynor, J.J., and Sladen, C., 1995, Tectonic and stratigraphic evolution of the Mongolian People's Republic and its influence on hydrocarbon geology and potential. Marine and Petroleum Geology, 12, 35–52.
Todd, S.P., 1989, Stream-driven, high-density gravelly traction carpets: possible deposits in the Trabeg Conglomerate Formation, SW Ireland and some theoretical considerations of their origin. Sedimentology, 36, 513–530.
Todd, S.P. and Went, D.J., 1991, Lateral migration of sand-bed rivers: examples from the Devonian Glashabeg Formation, SW Ireland and the Cambrian Aldemey Sandstone Formation, Channel Islands. Sedimentology, 38(6), 997–1020.
Turner, P., 1980, Continental Red Beds. Elsevier, Amsterdam, 562p.
Vail, P.R., Mitchum, R.M. Jr. and Thompson, S.I., 1977, Global cycles of relative changes of sea level. American Association of Petroleum Geologists, Tulsa, Okla., pp. 83–97.
Van Wagoner, J.C., Posamentier, H.W., Mitchum, R.M. Jr., Vail, P.R., Sarg, J.F., Loutit, T.S. and Hardenbol, J., 1988, An overview of the fundamentals of sequence stratigraphy and key definition. In: Wilgus, C.K., Hastings, B.S. Kendall, C.G.St.C., Posamentier, H.W., Ross, C.A., Van Wagoner, J.C., (Eds.), Sea-level changes: an integrated approach. Society of Economic Paleontologists and Mineralogists Special Publication No. 42, Oklahoma, pp. 39–45.
Veevers, J.J., 2004, Gondwanaland from 605–500 Ma assembly through 320 Ma merger in Pangea to 185–100 Ma breakup: supercontinental tectonics via stratigraphy and radiometric dating. Earth-Science Reviews, 68, 1–132.
Walker, T.R., 1967, Formation of red beds in modern and ancient deserts. Geological Society of America Bulletin, 78, 353–368.
Yin, A., Nie, S., 1996, A Phanerozoic palinspastic reconstruction of China and its neighboring regions. In: Yin, A., Harrison, M. (Eds.), The tectonic evolution of asia. Cambridge University Press, New York, pp. 442–485.
Yu, K.M., Lee, G.H. and Boggs, S., 1997, Petrology of Late Paleozoic Early Mesozoic Pyeongan Group sandstones, Kohan area, South Korea and its Provenance and tectonic implications. Sedimentary Geology, 109(3–4), 321–338.
Zorin, Y.A., 1999, Geodynamics of the western part of the Mongolia-Okhotsk collisional belt, Tran-Baikal region (Russia) and Mongolia. Tectonophysics, 306, 33–56.
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Lee, H.S., Chough, S.K. Sequence stratigraphy of Pyeongan Supergroup (Carboniferous-Permian), Taebaek area, mideast Korea. Geosci J 10, 369–389 (2006). https://doi.org/10.1007/BF02910433
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DOI: https://doi.org/10.1007/BF02910433