Stratigraphic implications of the Pyeongchang Group (Joseon Supergroup) in Korea

Kim, Ryoung Gyun; Ro, Seong Han; Ju, Sungok; Jo, Kyoung Nam; Sik, Woo Kyung

doi:10.14770/jgsk.2019.55.6.727

Cited by 2 publications

(9 citation statements)

References 5 publications

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“…이와 같은 지구조적 중요성에도 불구하고, 주천-평창지 역에서는 선캄브리아시대 기반암과 조선누층군 사이에 분포하는 시대 미상 방림층군의 층서적 문제로 인해 제 한된 구조지질 연구만 진행되어왔으며, 이들 대부분의 연 구는 기반암 및 방림층군을 조선누층군 상위로 충상시키 는 방림트러스트의 구조적 특성에 대해서만 집중되었다 (e.g. Son and Cheong, 1971;Park et al, 1978;Cheong et al, 1979;Lee et al, 1985;Yoon, 1994;Hong et al, 1995;Ryoo, 1995;Kim et al, 1999;Jin, 2006;Kihm et al, 2010).…”

Section: 서 론unclassified

“…양덕층군의 지층 들은 태백지역의 조선누층군과 구분하여 안미리층군(행 화동층, 방학동층)으로 사용해야 한다고 제안된 바 있으 나 (Son and Jeong, 1971;Kwon et al, 2019), 본 연구에 서는 기존 연구와의 비교를 위해 Cheong et al (1979)의 층서명을 따르기로 한다. 방림층군을 비롯한 화강편마암 및 양덕층군의 지층들은 북북동-남남서 방향으로 길게 연 장된 방림트러스트에 의해 평창층군의 석회암층 상위로 충상된다 (Cheong et al, 1979;Lee et al, 1985;Kim et al, 1999Kim et al, , 2001)(Fig. 1b).…”

Section: 지질개요unclassified

“…기 발간된 1:50,000 평창•영월도폭 (Cheong et al, 1979) 및 창동도폭 (Hong et al, 1995)을 중심으로 야외조사를 수행한 결과와 기존 연구자들의 연구결과(e.g. Yoon, 1994;Kim et al, 1999;Jin, 2006, Kihm et al, 2010 (Cheong et al, 1979;Yoon, 1994;Jin, 2006;Kihm et al, 2010)(Fig. 1b).…”

Section: 주천-평창지역의 주요 지질구조unclassified

“…이 트러스트는 주천지역에서 서쪽으로 계속 연장되다가 강원도 원주시 신림면 일대에서 당골단층에 의해 절단된 다 (Won et al, 1974). 북쪽으로는 평창군 평창읍 임하리 와 방림면을 지나 대화면 일대까지 연장되다가 외솔배기 일대에서 개수리단층에 의해 분절되며 (Kim et al, 1999), 더 북쪽에서 중생대 화강암류에 의한 관입으로 절단된다 (Cheong et al, 1979;Hong et al, 1995)(Fig. 1b).…”

Section: 주천-평창지역의 주요 지질구조unclassified

“…2). 평창지역 북부의 개수리단층 북 쪽에서는 방림트러스트가 거의 남북 방향에 가까운 북북 동-남남서 주향을 가지며, 고각의 경사를 보인다 (Cheong et al, 1979;Kim et al, 1999) (Yoon, 1994;Jin, 2006;Kihm et al, 2010). 기존의 연구에서는 지질도 상에서 본래 완전한 폐곡선 형태를 이루던 와촌클리페가 후기에 발달한 우수향의 누루하지주향이동단층에 의해 변위되어 현재는 온전한 클리페의 형태를 유지하지 못하 (Yoon, 1994;Jin, 2006;Kihm et al, 2010).…”

Section: 주천-평창지역의 주요 지질구조unclassified

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Preliminary Structural Geometry Interpretation of the Pyeongchang Area in the Northwestern Taebaeksan Zone, Okcheon Belt: A Klippe Model

Lee,

Jang,

Kwon

2023

Econ. Environ. Geol.

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The Jucheon-Pyeongchang area in the northwestern Taebaeksan Zone of the Okcheon fold-thrust belt preserved several thrust faults placing the Precambrian basement granite gneisses of the Gyeonggi Massif on top of the Early Paleozoic Joseon Supergroup and the age-unknown Bangrim Group. Especially, the thrust faults in the study area show the closed-loop patterns on the map view, showing older allochthonous strata surrounded by younger autochthonous or para-autochthonous strata. These basement-involved thrusts including Klippes will provide important information on the hinterland portion of the foldthrust belt. For defining Klippe geometry in the thrust fault terrains of the Jucheon-Pyeongchang area by older on younger relationship, the stratigraphic position of the age-unknown Bangrim Group should be determined. The Middle Cambrian maximum depositional age by the detrital zircon SHRIMP U-Pb method from this study, together with field relations and previous research results suggest that the Bangrim Group overlies the Precambrian basement rocks by nonconformity and underlies the Cambrian Yangdeok Group (Jangsan and Myobong formations). The structural geometric interpretation of the Pyeongchang area based on newly defined stratigraphy indicates that the Wungyori and Barngrim thrusts are the same folded thrust, and can be interpreted as a Klippe, having Precambrian hanging wall granite gneisses surrounded by younger Cambrian strata of the Joseon Supergroup and the Bangrim Group. Further detailed structural studies on the Jucheon-Pyeongchang area can give crucial insights into the basement-involved deformation during the structural evolution of the Okcheon Belt.

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Section: 서 론unclassified

Section: 지질개요unclassified

Section: 주천-평창지역의 주요 지질구조unclassified

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Preliminary Structural Geometry Interpretation of the Pyeongchang Area in the Northwestern Taebaeksan Zone, Okcheon Belt: A Klippe Model

Lee,

Jang,

Kwon

2023

Econ. Environ. Geol.

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The Ordovician of the Korean Peninsula: a synthesis

Lee

Cho

Choh

et al. 2022

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The Ordovician succession of the Korean Peninsula is part of the Cambro-Ordovician Joseon Supergroup exposed in the Taebaeksan Basin of South Korea and the Pyeongnam Basin of North Korea. This review summarises the advances made on these successions during the past two decades, focusing on the Taebaeksan Basin. The Ordovician succession in the Taebaeksan Basin comprises the Taebaek, Yeongwol, Yongtan, Pyeongchang, and Mungyeong groups, of which the Taebaek and Yeongwol groups have been studied in detail. These strata are mixed carbonate-siliciclastic deposits formed in peritidal to deep-subtidal environments. Sedimentological and palaeontological studies show that the Korean Ordovician succession represents local variations of the Great Ordovician Biodiversification Event, exemplified by reef evolution, changes in sedimentary systems, and changes in invertebrate fossil assemblages. Recent studies on the Yongtan, Pyeongchang, and Mungyeong groups have demonstrated that these units are important for understanding the tectonic evolution of the Taebaeksan Basin. The Ordovician strata in the Taebaek Group are generally similar to those of the Pyeongnam Basin and North China; however, the Upper Ordovician to Devonian strata between the two Korean basins show palaeontological affinities to those of South China, perhaps recording the Permo-Triassic collision between the Sino-Korean (North China) and South China blocks.

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Stratigraphic implications of the Pyeongchang Group (Joseon Supergroup) in Korea

Cited by 2 publications

References 5 publications

Preliminary Structural Geometry Interpretation of the Pyeongchang Area in the Northwestern Taebaeksan Zone, Okcheon Belt: A Klippe Model

Preliminary Structural Geometry Interpretation of the Pyeongchang Area in the Northwestern Taebaeksan Zone, Okcheon Belt: A Klippe Model

The Ordovician of the Korean Peninsula: a synthesis

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