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NTIS 바로가기한국지구과학회지 = Journal of the Korean Earth Science Society, v.39 no.6, 2018년, pp.545 - 554
The Cretaceous Eumsung (Eumseong) Basin is a pull-apart basin, formed along a series of the Gongju strike-slip faults trending NE-SW. The Nongdari-Meer forest of the Gugokri area in the southwestern part of the basin is comprised of thick purple mudstone, intercalating conglomerate, pebbly sandstone...
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핵심어 | 질문 | 논문에서 추출한 답변 |
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한반도 중부지방과 황해에 분포하는 백악기 퇴적분지들은 무엇에 의해 형성되었나? | 한반도 중부지방과 황해에 분포하는 백악기 퇴적분지들은 북동-남서 방향으로 발달한 주향이동 단층대에 의해 형성되었다(Fig. 1; Chough, 2013; Ryang,2013a). | |
백악기 음성분지란? | 백악기 음성분지는 북동-남서 방향으로 발달한 공주 주향이동 단층대를 따라 생성된 인리형 분지이다. 분지 남서부의 구곡리 농다리-미르 숲에는 두꺼운 자색 이암 퇴적층이 분포하며, 역암, 역질 사암, 녹색 이암 등이 자색 이암층에 협재한다. | |
분지 남서부의 구곡리 농다리-미르 숲의 퇴적층 구성은? | 분지 남서부의 구곡리 농다리-미르 숲에는 두꺼운 자색 이암 퇴적층이 분포하며, 역암, 역질 사암, 녹색 이암 등이 자색 이암층에 협재한다. 퇴적층은 7개의 퇴적상으로 구성된다: 층리를 보이는 역암(C2), 실트암 내 역암(CE), 실트암 내 층리를 보이는 역질 사암(PSE2), 자색 사질 실트암(Zp), 녹색 사질 실트암(Zg), 자색 이암(Mp), 녹색 이암(Mg). 퇴적환경은 분지 남서부에서 발달하였던 충적-호소 퇴적계에서 충적 평원이 우세한 환경으로 해석된다. |
10.1016/0037-0738(78)90002-7 Allen, J.R.L. , 1978, Studies in fluviatile sedimentation: an exploratory quantitative model for the architecture of avulsion controlled alluvial suites . Sedimentary Geology, 21, 129-147.
10.1111/j.1365-3091.1983.tb00698.x Bridge, J.S. and Diemer, J.A. , 1983, Quantitative interpretation of an evolving ancient river system . Sedimentology, 30, 599-623.
Brierley, G.J. , 1996, Channel morphology and element assemblages: a constructivist approach to facies modeling. In Carling, P. and Dawson, M. (eds.), Advances in fluvial dynamics and stratigraphy, John Wiley & Sons, 263-298.
10.1016/0037-0738(91)90051-E Brierley, G.J. and Hickin, E.J. , 1991, Channel planform as a non-controlling factor in fluvial sedimentology: the case of the Squamish River floodplain, British Columbia . Sedimentary Geology, 75, 67-83.
Cheong, S.W. , 1987, The structural analysis of the northern part of the Cretaceous sedimentary basin in Jeungpyeong-Eumseong area, Korea. Unpublished M.S. thesis, Seoul National University, Seoul, Korea, 68 p. (in Korean with English abstract)
Choi, S. , Kim, B.C. , Chun, H.Y. and Kim, Y.B. , 1995, Charophytes from the Chopyeong Formation (Cretaceous) of the Eumsung basin, Korea . Journal of the Geological Society of Korea, 31, 523-528. (in Korean with English abstract)
Choi, Y.S. , 1996, Structural evolution of the Cretaceous Eumseong Basin, Korea. Unpublished Ph.D. thesis, Seoul National University, Seoul, Korea, 159 p. (in Korean with English abstract)
Chough, S.K. , 2013, Geology and sedimentology of the Korean Peninsula, Elsevier, Amsterdam, 363 p.
10.1016/j.earscirev.2010.05.004 Chough, S.K. and Sohn, Y.K. , 2010, Tectonic and sedimentary evolution of a Cretaceous continental arcback arc system in the Korean Peninsula: new view . Earth-Science Reviews101, 225-249.
Chun, S.S. and Chough, S.K. , 1992, Tectonic history of Cretaceous sedimentary basins in the southwestern Korean Peninsula and Yellow Sea. In Chough, S.K. (ed.), Sedimentary basins in the Korean Peninsula and adjacent seas. Korean Sedimentology Research Group, Special Publication 1, 60-76.
Cultural Heritage Administration, 2018, Jincheon Nongdari. http://www.heritage.go.kr/heri/idx/index.do (November 20th 2018)
Harms, J.C. , Southard, J.B. , Spearing, D.R. , and Walker, R.G. , 1982, Depositional environments as interpreted from primary sedimentary structures and stratification sequences. SEPM, Short Course 2, 161 p.
10.1144/GSL.SP.1987.028.01.11 Leeder, M.R. and Gawthorpe, R.L. , 1987, Sedimentary models for extensional tilt-block/half-graben basins. In Coward, M.P. , Dewey, J.F. , and Hancock, P.L. (eds.), Continental extensional tectonics, Geological Society, SP. 28, 139-152.
10.1016/0037-0738(93)90090-R Maizels, J. , 1993. Lithofacies variations within sandur deposits: the role of runoff regime, flow dynamics and sediment supply characteristics . Sedimentary Geology85, 299-325.
10.1144/SP290.2 Mann, P. , 2007, Global catalogue, classification and tectonic origins of restraining- and releasing bends on active and ancient strike-slip fault systems. In Cunningham, W.D. and Mann, P. (eds.), Tectonics of strike-slip restraining and releasing bends. The Geological Society of London, Special Publication290, 13-142.
Meerforest.org, 2018, http://www.meerforest.org/ (November 20th, 2018)
Miall, A.D. , 1981, Alluvial sedimentary basins: tectonic setting and basin architecture. In Miall, A.D., Sedimentation and tectonic in alluvial basins, Geological Association of Canada, Paper 23, 1-33.
10.2110/pec.87.39.0205 Morison, S.R. and Hein, F.J. , 1987, Sedimentology of the White Channel Gravels, Klondike area, Yukon territory: fluvial deposits of a confined valley. In Ethridge, F.G. , Flores, R.M. , and Harvey, M.D. (eds.), Recent developments in fluvial sedimentology. SEPM, Special Publication39, 205-216.
10.2110/pec.85.37.0079 Nilsen, T.H. and McLaughlin, R.J. , 1985, Comparison of tectonic framework and depositional patterns of the Hornelen strike-slip basin of Norway and the Ridge and Little Sulpher Creek strike-slip basin of California. In Biddle, K.T. and Christie-Blick, N. (eds.), Strike-slip deformation, basin formation, and sedimentation, SEPM, Special Publication37, 79-103.
Nilsen, T.H. and Sylvester, A.G. , 1995, Strike-slip basins. In Busby, C.J. and Ingersoll, R.V. (eds.), Tectonics of sedimentary basins. Blackwell Scientific Publications, Cambridge, 425-457.
10.1016/0037-0738(93)90095-M Rhee, C.W. , Ryang, W.H. , and Chough, S.K. , 1993, Contrasting development patterns of crevasse channel deposits in Cretaceous alluvial successions, Korea . Sedimentary Geology85, 401-410.
10.1007/BF02910293 Ryang, W.H. , 2003, Contrasting basin fills in a strike-slip setting, Eumsung Basin (Cretaceous), Korea . Geosciences Journal7, 263-275.
Ryang, W.H. , 2013a, Characteristics of strike-slip basin formation and sedimentary fills and the Cretaceous small basins of the Korean Peninsula . Journal of the Geological Society of Korea, 49, 31-45. (in Korean with English abstract)
Ryang, W.H. , 2013b, Sedimentary succession of the Hyundai Mobis forest in the Jincheon-gun area. Geological consulting report, 44 p.
10.1306/D426854F-2B26-11D7-8648000102C1865D Ryang, W.H. and Chough, S.K. , 1997, Sequential development of alluvial/lacustrine system: southeastern Eumsung Basin (Cretaceous), Korea . Journal of Sedimentary Research67, 274-285.
10.1016/S0037-0738(99)00018-4 Ryang, W.H. and Chough, S.K. , 1999, Alluvial-to-lacustrine systems in a pull-apart margin: southwestern Eumsung Basin (Cretaceous), Korea . Sedimentary Geology, 127, 31-46.
10.1016/S0037-0738(99)00091-3 Ryang, W.H. , Chough, S.K. , Kim, J.S. , and Shon, H. , 1999, Three-dimensional configuration of a pull-apartbasin from high-resolution magnetotelluric profiling: Eumsung Basin (Cretaceous), Korea . Sedimentary Geology129, 101-109.
10.1144/GSL.SP.1993.075.01.09 Siegenthaler, C. and Huggenberger, P. , 1993. Pleistocene Rhine gravel: deposits of a braided river system with dominant pool preservation. In Best, J.L. and Bristow, C.S. (eds.), Braided rivers. The Geological Society of London, Special Publication75, 147-162.
Song, M.Y. , Lee, C.Z. , and Lee, J.R. , 1990, Integrated geotectonic study on the Mesozoic sedimentary basinsin Umsong-Jeungpyeong and Kongju area (I. Umsong- Jeungpyeong) . Journal of the Korean Earth Science Society, 11, 1-12.
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