한국지구과학회지 (Journal of the Korean earth science society)

  • 제30권5호
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  • Pages.565-580
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  • 2009
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  • 1225-6692(pISSN)
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  • 2287-4518(eISSN)
한국지구과학회 (The Korean Earth Science Society)
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Tectonics and Evolutionary History of the Cretaceous Intra-arc Yongdong Basin, Korea

  • Lee, Dong-Woo (Department of Geoenvironmental Sciences, Kongju National University)
  • 투고 : 2008.05.28
  • 심사 : 2009.04.29
  • 발행 : 2009.09.30
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초록

The Yongdong basin developed during Early Cretaceous in the central part of the Korean Peninsula and bounded on the northwest and southeast by northeast trending mega-scale strike-slip Yongdong Fault. An 8 km thick succession of exclusively terrigeneous sediments can be grouped into two mega-sequences. In concert with the migration of depocenter, the upper sequence overlaps the lower and occupies northern part of the basin during basin evolution. Alluvial and lacustrine environments were predominantly formed from early to late stage of the basin formation. Several lines of evidence support that the basin was formed within intra-arc tectonic environments and destroyed by polyphase tectonic force. Schematic evolutionary diagram of the basin is proposed.

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참고문헌

  1. 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 https://doi.org/10.1016/0037-0738(84)90052-6
  2. Allen, P.A., 1981, Sediments and processes on a small stream-flow dominated Devonian alluvial fan, Shetland Islands. Sedimentary Geology, 29, 31-37 https://doi.org/10.1016/0037-0738(81)90056-7
  3. Aspler, L.B. and Donaldson, J.A., 1985, The Nonacho Basin (Early Proterozoic), northwest territories, Canada: Sedimentation and deformation in a strike-slip setting. In Biddle, K.T. and Christie-Blick, N. (eds.), Strike-slip deformation, basin formation, and sedimentation. Society of Economic Paleontologists and Mineralogists Special Publication, 37, Tulsa, Oklahoma, USA, 193-209
  4. Ballance, P.F., 1984, Sheetflow-dominated gravel fans of the non-marine middle Cenozoic Simmler Formation, central California. Sedimentary Geology, 38, 337-359 https://doi.org/10.1016/0037-0738(84)90085-X
  5. Ballance, P.F. and Reading, H.G., 1980, Sedimentation in Oblique-slip Mobile Zones: An introduction. In Balance, P.F. and Reading, H.G. (eds.), Sedimentation in oblique-slip Mobile Zones. International Association of Sedimentologists Special Publication, 4, 1-5 https://doi.org/10.1002/9781444303735
  6. Bell, C.M. and Suarez, M., 1993, The depositional environments and tectonic development of a Mesozoic intra-arc basin, Atacama region, Chile. Geological Magazine, 130, 417-430 https://doi.org/10.1017/S0016756800020501
  7. Ben-Avraham, Z., 1989, Oceanic plateaus and the Pacific Ocean margins. In Ben-Abraham, Z. (ed.), The Evolution of the Pacific Ocean Margins. Oxford University Press, NY, USA, 7-19
  8. Bentham, P.A., Talling, P.J., and Burbank, D.W., 1993, Braided stream and flood-plain deposition in a rapidly aggrading basin: The Escanila formation, Spanish Pyrenees. In Best, J.L. and Bristow, C.S. (eds.), Braided River. Geological Society of Specical Publication, 75,177-194 https://doi.org/10.1144/GSL.SP.1993.075.01.11
  9. Bluck, B.J., 1980, Evolution of strike-slip fault-controlled basin, Upper Old Red Sandstone, Scotland. In Balance, P.F. and Reading, H.G. (eds.), Sedimentation in Obliqueslip Mobile Zone. International Association of Sedimentologists Special Publication, 4, 63-78
  10. Boothroyd, J.C., 1972, Coarse-grained sedimentation on a braided Outwash Fan, Northeastern Gulf of Alaska. Coastal Research Division, University of South Carolina Technical Report No. 6, 127 p
  11. Boothroyd, J.C. and Nummedal, D., 1978, Proglacial braided outwash: A model for humid alluvial-fan deposits. In Miall, A.D. (ed.), Fluvial sedimentology Canadian Society of Petroleum Geologist Memoir, 5, 641-668
  12. Bull, W.B., 1972, Recognition of alluvial fan deposits in the stratigraphic record. In Rigby, J.K. and Hamblin, W.K. (eds.), Recognition of Ancient Sedimentary Environments. Society of Economic Paleontology Mineral Special Publication, 16, 63-83
  13. Cant, D.J. and Walker, R.G., 1976, Development of a braided model for the Devonian Battery point sandstone, Quebec. Canadian Journal of Earth Science, 13, 102-119 https://doi.org/10.1139/e76-010
  14. Cant, D.J. and Walker, R.G., 1978, Fluvial process and facies sequences in the sandy, braided South Saskatchewan River, Canada. Sedimentology, 25, 625-648 https://doi.org/10.1111/j.1365-3091.1978.tb00323.x
  15. Chae, B.G. and Chang, T.W., 1994, Movement history of Yangsan fault and its related fractures at Chongha- Yongdok Area, Korea. Journal of Geological Society of Korea, 30, 379-394. (in Korean)
  16. Chang, K.H., 1977, Late Mesozoic stratigraphy, sedimentation and tectonics of southeastern Korea. Journal of Geological Society of Korea, 13, 76-90. (in Korean)
  17. Chen, P., 1993, Timing of Displacement along the Tancheng-Lujiang Fault Zone and the Migration of Late Mesozoic Volcanism in Eastern China. In Xu, J. (ed.), The Tancheng-Lujiang Wrench Fault System. John Wiley and Sons, UK, USA, 105-111
  18. Choi, H.I., 1986, Sedimentation and evolution of the Cretaceous Gyeongsang (Kyongsang) Basin, southeastern Korea. Journal of Geological Society of London, 143, 29-40 https://doi.org/10.1144/gsjgs.143.1.0029
  19. Choi, H.I. and Jin, M.S., 1988, Sedimentologic and Tectonic Evolution of the Gyeongsang Basin (abs.). 1st Symposium of the Korean Sedimentology Research Group, Seoul, Korea, p 1
  20. Chun, S.S. and Chough, S.K., 1992a, Depositional sequences from high-concentration turbidity currents, Cretaceous Uhangri Formation. In Chough S.K. (ed.), The Sedimentary basins in the Korean Peninsula and adjacent seas. Special Publication of Korean Sedimen-tology Research Group. Harnlimwon Publishing, Seoul, Korea, 60-76
  21. Chun, S.S. and Chough, S.K., 1992b, Tectonic history of Cretaceous sedimentary basins in the Southwestern Korean Peninsula and Yellow Sea. Proceedings of the second Korea-China international symposium on petroleum potential of the Yellow Sea and the East China Sea, 1-5
  22. Chun, S.S. and Lee, H.J., 1991, Basin analysis of the Cretaceous sedimentary basins: Depositional environments and depositional mechanism of the Kyokpo Basin. Korea Ocean Research and Development Institute, BSPE, 00233-348-5, 131 p
  23. Collinson, J.D., 1970, Bedforms of the Tana River, Norway. Geography Annal, 52A, 31-56
  24. Costa, J.E., 1974, Stratigraphic, morphologic, and pedogenic evidence of large floods in humid environments. Geology, 2, 301-303 https://doi.org/10.1130/0091-7613(1974)2<301:SMAPEO>2.0.CO;2
  25. Costa, J.E., 1988, Rheologic, geomorphic, and sendimentologic differentiation of water floods, hyperconcentrated flows, and debris flows. In Baker, V.R., Kochel, B.C., and Patton, P.C. (eds.), Flood Geomorphology. John Wiley and Sons, New York, USA, 113-122
  26. Cruzel, D., Cadet, J., and Lapierre, H., 1990, Geodynamics of the Ogcheon Belt (South Korea). Tectonophysics, 183, 41-56 https://doi.org/10.1016/0040-1951(90)90187-D
  27. Cui, S., Li, J., and Zhao, Y., 1985, On the Yanshenian movement of peri-Pacific belt in China and its adjacent areas. Scientific Papers on Geology for International Exchange-prepared for 27th International Geologic Congress, 2, 233-234
  28. DeCelles, P.G., Gray, M.B., Ridgway, K.D., Cole, R.B., Pivnik, D.A., Pequera, N., and Srivastava, P., 1991, Controls on syn-orogenic alluvial-fan architecture, Beartooth conglomerate (Paleocene), Wyoming and Montana. Sedimentology, 38, 567-590 https://doi.org/10.1111/j.1365-3091.1991.tb01009.x
  29. Emery, K.O., Hayashi, Y., Hilde, T.W.C., Kobayashi, K., Koo, J.H., Meng, C.Y., Niino, H., Osterhagen, J.H., Reynolds, L.M., Wageman, J.M., Wang, C.S., and Yang, S.J., 1969, Geological structure and some water characteristics of the East China Sea and the Yellow Sea. U.N. ECAFE CCOP, Technical Bulletin, 2, 3-43
  30. Fisher, R.V., 1971, Features of coarse-grained, high-concentration fluids and their deposits. Journal of Sedimentary Petrology, 41, 916-927 https://doi.org/10.1306/74D723B5-2B21-11D7-8648000102C1865D
  31. Gloppen, T.G. and Steel, R.J., 1981, The deposits, internal structure and geometry in six alluvial fan-fan delta bodies bodies (Devonian-Norway) - A study on the significance of bedding sequence in conglomerates, In Biddle K.T. and Christie-Blick, N. (eds.), Strike-slip deformation, basin formation, and sedimentation. Society of Economic Paleontologists and Mineralogists Special Publication, 37, 177-192
  32. Harms, J.C., Southard, J.B., Spearing, D.R., and Walker, R.G., 1982, Structure and Sequence in Clastic Rocks. Society of Economic Paleontologists and Mineralogists Short Course, 9, 249
  33. Hein, F.J. and Walker, R.G., 1977, Bar evolution and development of stratification in the gravelly, braided kicking Horse River, British Columbia. Canadian Journal of Earth Science, 14, 562-570 https://doi.org/10.1139/e77-058
  34. Heward, A.P., 1978, Alluvial fan sequence and megasequence models: With examples from Westphalian D - Stephanian B coalfield Northern Spain. In Miall, A.D. (ed.), Fluvial Sedimentology Canadian Society of Petroleum Geologist Memoir. 5, Stacs Data Service, 669-702
  35. Hilde, T.W.C., Uyeda, S., and Kroenke, L., 1977, Evolution of the Western Pacific and its margin. Tectonophysics, 38, 145-152 https://doi.org/10.1016/0040-1951(77)90205-0
  36. Hwang, J.H., 1994, Reconstruction of paleostress in the southeastern Korean Peninsula since the Early Cretaceous. Journal of Geological Society of Korea, 30, 27-34
  37. Hwang, J.H. and Angelier, J., 1992, Paleostress reconstruction and the tectonic evolution of the Kyungsang Basin: A case example near Goryeong-eub. Journal of Geology of Korea, 28, 471-482
  38. Hwang, J.H., Angelier, J., and Cadet, J.P., 1991, Evolution tectonique polyphasee d'un basin continental: Le basin de Kyungsang (Coree). C.R. Academy Science of Paris, 313, Series II, 465-470
  39. Ingersoll, R.V., 1988, Tectonics of sedimentary basins. Geological Society of America Bulletin, 100, 1704-1719 https://doi.org/10.1130/0016-7606(1988)100<1704:TOSB>2.3.CO;2
  40. Kim, B.C., 1996, Sequential development of depositional systems in a strike-slip basin: Southern part of the Cretaceous Yongdong Basin. Ph.D. thesis, Yonsei University, Seoul, Korea, 336 p
  41. Kim, H.M., 1973, Paleocurrent analysis of the Yeongdong (Yongdong) Group, Southern Korea. Journal of Geological Society of Korea, 10, 1-24
  42. Kim, H.M., 1974, Sedimentation of the Yeongdong Group, Southern Korea. Journal of Geological Society of Korea, 10, 225-244
  43. Kim, J.Y., 1996, The study on metalliferous vein system and Early Cretaceous - Paleocene tectonic stress fields in the Kyeongsang Basin (1). Journal of Korean Earth Science Society, 17, 137-149
  44. Kim, K.B. and Hwang, J.H., 1986, Geological report of the Yongdong Sheet (1:50,000). Korea Institute Energy and Resources
  45. Kim, K.H. and Lee, J.S., 1993, Petrochemical studies of the Cretaceous volcanic rocks from the Kyeongsang (Kyongsang) sedimentary basin. Journal of Geological Society of Korea, 29, 84-96
  46. Kim, K.H., Nam, K.S., and Lee, J.H., 1990, Jurassic Paleo-magnetism of South Korea. Journal of Geological Society of Korea, 26, 513-526
  47. Kim, S.W., Lee, J.Y., Kim, Y.K., and Koh, I.S., 1991, Petrology of the Cretaceous Volcanic Rocks in Southern Yuchon Minor Basin (in Korean). Journal of Geological Society of Korea, 27, 24-39
  48. Klimetz, M.P., 1983, Speculations on the Mesozoic platetectonic evolution of eastern China. Tectonics, 2, 129-166 https://doi.org/10.1029/TC002i002p00139
  49. Koster, E.H., 1978, Experimental studies of coarse-grained sedimentation. Ph.D. Thesis, University of Ottawa, Canada, 177 p
  50. Kwon, B.D. Joo, J.A., and Kwon, J.H., 1993, Geophysical studies on major faults in the Ogcheon Belt: Gravity survey on the faults at Muan and Haenam areas. Journal of Geological Society of Korea, 29, 281-290
  51. Kwon, B.D. and Kim, K.J., 1994, Gravity and magnetic interpretation of Youngdong (Yongdong) basin Korea (abs). Fourth International Symposium and Field Excursion of IGCP, 321, Seoul Korea
  52. Lee, D.W., 1990, Sedimentation and tectonic evolution of the cretaceous Yongdong basin. Ph.D. Thesis, Korea University, Seoul, Korea, 273 p
  53. Lee, D.W., 1998, Strike-slip tectonics and basin formation during Cretaceous in the Korean Peninsula. Island Arc, 8, 218-231 https://doi.org/10.1046/j.1440-1738.1999.00233.x
  54. Lee, D.W., Chi, J.H., and Choh, S.J., 1992, Depositional environments of Northern part of the Cretaceous Yongdong basin, Korea. In Chough, S.K. (ed.), The Sedimentary basins in the Korean Peninsula and adjacent seas. Special Publication Korean Sedimentology Research Group (KSRG), Harnlimwon Publication, Seoul, Korea, 168-181
  55. Lee, D.W., Chi, J.H., and Lee, K.C., 1991, Stratigraphy of the strike-slip fault-controlled Yongdong basin, Korea: A genetic study in the northern part of the basin. Journal of Geological Society of Korea, 27, 246-258
  56. Lee, D.W. and Paik, K.H., 1989, Sedimentological characteristics along Yongdong Fault Zone in Cretaceous Yongdong basin. Journal of Geological Society of Korea, 25, 259-272
  57. Lee, D.W. and Paik, K.H., 1990, Evolution of strike-slip fault-controlled Cretaceous Yongdong basin, South Korea: Signs of strike-slip tectonics during infilling. Journal of Geological Society of Korea, 26, 257-276
  58. Lee, G.D., Basse, J., Courtillot, V., and Montigny, R., 1987, Eastern Asia in the Cretaceous: New paleomagnetic data from South Korea and a new look at Chinese and Japanese data. Journal of Geophysical Research, 92, 3580-3596 https://doi.org/10.1029/JB092iB05p03580
  59. Lee, J.D., Kim, I.S., Yoon, S., Sang, K.N., and Kim, Y.H., 1993, Study on the Yangsang fault in Eonyang area with emphasis on fracturing and magnetic anisotropy. Journal of Geological Society of Korea, 29, 128-144
  60. Lee, J.I., 1994, Evolution of granitic magmatism in the southern part of the Kyeongsang (Kyongsang) basin, Korea (abs.). 4th international symposium and field excursion, International Gorilla Conservation Programme, 321
  61. Lee, Y.J. and Kim, J.W., 1990, Characteristics of evolution trends of biotites in the Cretaceous to Tertiary granitic rocks of the southern Gyeongsang basin. Journal of Geological Society of Korea, 26, 133-142
  62. Lewis, D.W., Laird, M.G., and Lee, K.C., 1980, Debris flow deposits of early Miocene age, Deadman Stream, Marlborough, New Zealand. Sedimentary Geology, 27, 83-118 https://doi.org/10.1016/0037-0738(80)90032-9
  63. Lorentz, J., 1980, Late Jurassic-Early Cretaceous sedimentation and tectonics of the Murzuq Basin, Southeastern Libya. In Salem, M.J. and Busrewil, M.T. (eds.), The Geology of Libya. 2, Academic Press, London, England, 383-392
  64. Lowe, D.R., 1976, Grain flow and grain flow deposits. Journal of Sedimentary Petrology, 46, 188-199
  65. Lowe, D.R., 1982, Sediment gravity flows II: Depositional models with special reference to the deposits of highdensity turbidity currents. Journal of Sedimentary Petrology, 52, 279-297 https://doi.org/10.1306/212F7F31-2B24-11D7-8648000102C1865D
  66. Mader, D., 1985, Fluvial conglomerates in continental Red beds of the Buntsandstein (Lower Triassic) in the Eifel (F.R.G) and their palaeoenvironmental, palaeogeographical and palaeotectonic significance. Sedimentary Geology, 44, 1-64 https://doi.org/10.1016/0037-0738(85)90031-4
  67. Maizels, J., 1993, Lithofacies variations within sand deposits: The role of runoff regime, flow dynamics and sediment supply characteristics. Sedimentary Geology, 85, 299-325 https://doi.org/10.1016/0037-0738(93)90090-R
  68. Massari, F., 1984, Resedimented conglomerates of Miocene fan-delta complex, southern Alps, Italy. In Koster, E.H. and Steel, R.J. (eds.), Sedimentology of Gravels and Conglomerates. Canadian Society of Petroleum Geologists Memoir, 10, 259-278
  69. Mastalerz, K., 1995, Deposits of high-density turbidity currents on fan-delta slopes: An example from the upper Visean Szczawno Formation, Intrasudetic Basin, Poland. Sedimentary Geology, 98, 121-146 https://doi.org/10.1016/0037-0738(95)00030-C
  70. McPerson, J.G., 1979, Calcrete (caliche) palaeosols in fluvial redbeds of the Aztec Siltstone (Upper Devonian), Southern Victoria land, Antarctica. Sedimentary Geology, 22, 267-285 https://doi.org/10.1016/0037-0738(79)90056-3
  71. Miall, A.D., 1977, A review of the braided-river depositional environments. Earth Science review, 13, 1-62 https://doi.org/10.1016/0012-8252(77)90055-1
  72. Miall, A.D., 1978, Lithofacies types and vertical profile models in braided river deposits: A summary. In Miall, A.D. (ed.), Fluvial Sedimentology Canadian Society of Petroleum Geologists Memoir. 5, Stacs Data Service, 597-604
  73. Middleton, G.V. and Hampton, M.A., 1976, Subaqueous sediment transport and deposition by sediment gravity flows. In Stanley, D.J. and Swift, D.J.P. (eds.), Marine Sediment Transport and Environmental. Wiley, NY, USA, 197-218
  74. Miller, M.M., 1989, Intra-arc sedimentation and tectonism: Late Paleozoic evolution of the eastern Klamath terrane, California. Geological Society of America Bulletin, 101, 170-187 https://doi.org/10.1130/0016-7606(1989)101<0170:IASATL>2.3.CO;2
  75. Nemec, W., 1990, Aspects of sediment movement on steep delta slopes. In Colella, A. and Prior, D.B. (eds.), Coarse-Grained Deltas International Association of Sedimentologists Special Publication, 10, 29-73
  76. Nemec, W. and Steel, R.J., 1984, Alluvial and coastal conglomerates: Their significant features and some comments on gravelly mass-flow deposits. In Koster, E.H. and Steel, R.J. (eds.), Sedimentology of Gravels and Conglomerates. Canadian Society of Petroleum Geologists Memoir, 10, 1-32
  77. Nemec, W., Steel, R.J., Porebski, S.J., and Spinnavgr, A., 1984, Domba conglomerate, Devonian, Norway: Process and lateral variability in a mass flow-dominated, lacustrine fan-delta. In Koster, E.H. and Steel, R.J. (eds.), Sedimentology of Gravels and Conglomerates. Canadian Society of Petroleum Geologists Memoir, 10, 295-320
  78. Nilsen, T.H. and Mclaughin, R.J., 1985, Comparison of tectonic framework and depositional patterns of the Hornelen strike-slip basin of Norway and the Ridge and Little Sulphur Creek strike-slip basins of California. In Biddle, K.T. and Christie-Blick, N. (eds.), Strike-slip deformation, basin formation, and Society of Economic Paleontologists and Mineralogists Special Publication, 37, 79-103
  79. Otsuki, K., 1992, Oblique subduction, collision of microcontinents and subduction of oceanic ridge: Their implications on the Cretaceous tectonics of Japan. The Island Arc, 1, 51-63 https://doi.org/10.1111/j.1440-1738.1992.tb00057.x
  80. Paola, C., Wiele, S.M., and Reinhart, M.A., 1989, Upperregime parallel lamination as the result of turbulent sediment transport and low-amplitude bed forms. Sedimentology, 36, 47-59 https://doi.org/10.1111/j.1365-3091.1989.tb00819.x
  81. Park, Y.S., Kim, C.B., Yoon, C.H., and Ahn, K.S., 1997, The petrochemistry and geochronology of Cretaceous plutonic Rocks in the Koheung area, Chonnam. Journal of Korean Earth Science Society, 18, 70-83
  82. Pickering, K., Stow, D., Watson, M., and Hiscott, R., 1986, Deep-water facies, processes and models: A review and classification scheme for modern and ancient sediments. Earth Science Review, 23, 75-174 https://doi.org/10.1016/0012-8252(86)90001-2
  83. Postma, G., 1984, Mass-flow conglomerates in a submarine canyon: Abrioja fan-delta, Pliocene, southeast Spain. In Koster, E.H. and Steel, R.J. (eds.), Sedimentology of Gravels and Conglomerates. Canadian Society of Petroleum Geologists Memoir, 10, 237-258
  84. Postma, G., 1986, Classification for sediment gravity-flow deposits based on flow conditions during sedimentation. Geology, 14, 291-294 https://doi.org/10.1130/0091-7613(1986)14<291:CFSGDB>2.0.CO;2
  85. Postma, G. and Cruickshank, C., 1988, Sedimentolgy of late Weichselian to Holocene terraced fan delta, Varangerfjord, northern Norway. In Nemec, W. and Steel, R.J. (eds.), Fan deltas: Sedimentology and Tectonic Settings. Blackie and Son, London, England, 144-157
  86. Prebble, W.M., 1980, Late Cainozoic sedimentation and tectonics of the East Coast Deformed Belt, in Marlborough. New Zealand, 4, 217-228
  87. Prior, D.B. and Bornhold B.D., 1988, Submarine morphology and processes of fjord fan deltas and related highgradient systems: Modern examples from British Columbia. In Nemec, W. and Steel, R.J. (eds.), Fan Deltas: Sedimentology and Tectonic Settings. Blackie and Son, London, England, 125-143
  88. Prior, D.B. and Bornhold B.D., 1989, Submarine sedimentation on a developing Holocene fan delta. Sedimentology, 36, 1053-1076 https://doi.org/10.1111/j.1365-3091.1989.tb01542.x
  89. Prior, D.B. and Bornhold B.D., 1990, The underwater development of Holocene fan deltas. In Colella, A. and Prior, D.B. (eds.), Coarse-Grained Deltas. International Association of Sedimentologists Special Publication, 10, 75-90
  90. Reading, H.G., 1980, Characteristics and recognition of strike-slip fault system. In Balance, P.F. and Reading, H.G. (eds.), Sedimentation in Oblique-slip Moblie Zone. Internatinal Association of Sedimentologists Special Publication, 4, 7-26
  91. Reinek, H.E. and Singh, I.B., 1980, Depositional sedimentary environments. Springer, NY, USA, 549 p
  92. Ritter, D.F., 1975, Stratigraphic implications of coarsegrained gravel deposited as overbank sediment, southern Illinois. Journal of Geology, 83, 645-650 https://doi.org/10.1086/628146
  93. Rust, B.R., 1972, Pebble orientation in fluviatile sediments. Journal of Sedimentary Petrology, 25, 384-388
  94. Rust, B.R., 1978, Depositional models for braided alluvium. In Miall, A.D. (ed.), Fluvial Sedimentology. Canadian Society of Petroleum Geologist Memoir, 5, 602-625
  95. Rust, B.R. and Koster, E.H., 1984, Coarse alluvial deposits. In Walker, R.G. (ed.), Facies Models Geoscience Canada Reprint Series, 1, 53-69
  96. Sakai, T. and Okada, H., 1997, Sedimentation and tectonics of the Cretaceous sedimentary basins of the Axial and Kurosegawa Tectonic Zones in Kyushu, SW Japan. Memoirs of the Geological Society of Japan, 48, 7-28
  97. Shultz, A.W., 1984, Subaerial debris-flow deposition in the Upper Paleozoic Culter Formation, western Colorado. Journal of Sedimentary Petrology, 54, 759-772 https://doi.org/10.1306/212F84EF-2B24-11D7-8648000102C1865D
  98. Simamura, S., 1927, Geologic map of Chosen, Yeongdong and Cheongsan sheet (1: 50,000). Geological Survey of Chosen
  99. Smith, G.A., 1986, Coarse- grained non-marine volcaniclastic sediment: Terminology and depositional process. Geological Society of America Bulletin, 97, 1-10 https://doi.org/10.1130/0016-7606(1986)97<1:CNVSTA>2.0.CO;2
  100. Smith, N.D., 1971, Transverse bars and braiding in Lower Platte River, Nebraska. Geological Society of America Bulletin, 82, 3407-3420 https://doi.org/10.1130/0016-7606(1971)82[3407:TBABIT]2.0.CO;2
  101. Smith, N.D., 1974, Sedimentology and bar formation in the upper Kicking Horse River, a braided outwash stream. Journal of Geology, 82, 205-224 https://doi.org/10.1086/627959
  102. Son, C.M., Cheong, C.H., Lee, S.M., and Um, S.H., 1969, A study on the sedimentary environments and geological structure of Korea. Research Report of Ministry of Science and Technology, 25-26
  103. Speksnijder, A., 1985, Anatomy of a strike-slip fault controlled sedimentary basin, Permian of the Southern Pyrenees, Spain. Sedimentary Geology, 44, 179-223 https://doi.org/10.1016/0037-0738(85)90014-4
  104. Steel, R.J., 1974, New Red Sandstone floodplain and piedmont sedimentation in the Hebridean province, Scotland. Journal of Sedimentary Petrology, 44, 336-357 https://doi.org/10.1306/74D72A27-2B21-11D7-8648000102C1865D
  105. Steel, R.J. and Gloppen, T.G., 1980, Late Caledoian (Devonian) basin formation, western Norway: Signs of strikeslip tectonics during infilling. In Balance, P.F. and Reading, H.G. (eds.), Sedimentation in Oblique-slip Mobile Zones. International Association of Sedimentologists Special Publication, 4, 79-103
  106. Steel, R.J., Maehle, S., Nilsen, H., Roe, S.L., and Spinnangr, A., 1977, Coarsening-upward cycles in the alluvium of Hornelen Basin (Devonian) Norway: Sedimentary response to tectonic events. Geological Society of America Bulletin, 88, 1124-1134 https://doi.org/10.1130/0016-7606(1977)88<1124:CCITAO>2.0.CO;2
  107. Surlyk, F., 1984, Fan-delta to submarine fan conglomerates of the Volgian-Valanginian Wollastone Foreland Group, East Greenland. In Koster, E.H. and Steel, R.J. (eds.), Sedimentology of Gravels and Conglomerates Canadian Society of Petroleum Geologists Memoir, 10, 359-382
  108. Turner, B.R., 1980, Sedimentological characteristics of the Red 'Muds' at Makapansgat Limeworks. Paleontology of Africa, 23, 51-58
  109. Utkin, V.P., 1975, On the wrench deformation of Central Sikhote-Alin. Geology of Far East, Science Center of Far East, Academy of USSR, Vladivostok, Russia, 5-15
  110. Utkin, V.P., 1978, The East Asian massive wrench belt, volcanic zone and marginal sea. Representative of Academy of USSR, 240, 400-403
  111. Utkin, V.P., 1984, The geodynamic condition of formation of continental marginal volcanic belt. Volcanic belt of East Asia, Science Press, Moscow, Russia, 328-352
  112. Utkin, V.P., 1993, Wrench fault of Sikhote-Alin and Accretionary and Destructive Types of Fault Dislocation in the Asia-Pacific Transition Zone. In Xu, J. (ed.), The Tancheng-Lujiang Wrench Fault System. John Wiley and Sons, 225-237
  113. Walker, R.G., 1975, Conglomerate: Sedimentary structures and facies models. In Harms, J.C., Southard, J.B., Spearing, D.R., and Walker, R.G. (eds.), Depositional Environments as Interpreted from Primary Sedimentary Structures and Stratification Sequences. Society of Economic Paleontologists and Mineralogists, Short Course, 2, 133-158
  114. Walker, R.G., 1985, Mudstones and thin-bedded turbidites associated with the upper Cretaceous Wheeler Gorge Conglomerates, California: A possible channel-levee complex. Journal of Sedimentary Petrology, 55, 279-290
  115. Watson, M.P., Hayward, A.B., Parkinson, D.N., and Zhang, Zh.M., 1987, Plate tectonic history, basin development and petroleum source rock deposition on shore China. Marine Petroleum Geology, 4, 205-225 https://doi.org/10.1016/0264-8172(87)90045-6
  116. Wells, S.G. and Harvey, A.M., 1987, Sedimentologic and geomorphic variations in storm-generated alluvial fans, Howgill Fells, northwest England. Geological Society of America Bulletin, 98, 182-198 https://doi.org/10.1130/0016-7606(1987)98<182:SAGVIS>2.0.CO;2
  117. Williams, P.F. and Rust, B.R., 1969, The sedimentology of a braided-river. Journal of Sedimentary Petrology, 39, 649-679
  118. Xu, J., Zhu, G., Tong, W., Cui, K., and Liu, Q., 1987, Formation and evolution of the Tancheng-Lujiang wrench fault system: A major shear system to the northwest of the Pacific Ocean. Tectonophysics, 134, 273-310 https://doi.org/10.1016/0040-1951(87)90342-8
  119. Yanai, S., Park, B.S., and Otoh, S., 1985, The Honam Shear Zone (South Korea): Deformation and tectonic implication in the Far East. Scientific Papers of the College of Arts and Science, University of Tokyo, 35, 185-210
  120. Yin, A. and Nie, S., 1993, An indentation model for the North and South China collision and the development of the Tan-Lu and Honam fault systems, eastern Asia. Tectonics, 12, 801-813 https://doi.org/10.1029/93TC00313
  121. Zalan, P.V. and Davis, T.L., 1985, The Piaui Basin: Rifting and wrenching in an Equatorial Atlantic transform basin. In Biddle, K.T. and Christie-Blick, N. (eds.), Strike-slip deformation, basin formation, and sedimentation. Society of Economic Paleontologists and Mineralogists Special Publication, 37, 177-192