• 지질공학
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• 제28권3호
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• pp.397-409
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• 2018

일본 시코쿠 서부의 이즈미 퇴적분지는 중앙구조선의 굴곡부(사쿠라기 굴곡) 서쪽에 널리 분포하고 있다. 시코쿠 서부의 이즈미 퇴적분지의 형성 메커니즘은 아직 잘 알려지지 않고 있다. 이즈미 퇴적분지의 층서는 일반적으로 굴곡부를 향해서 퇴적시기가 젊게 퇴적되는 경향을 보인다. 이 특징은 비대칭 pull-apart 퇴적분지와 비슷하다. 그래서, 이즈미 퇴적분지가 비대칭 pull-apart 퇴적분지인지에 대한 연구를 아날로그 모델실험을 이용하여 수행하였다. 실험을 실시하여 길이 60 cm, 폭 20 cm 정도의 퇴적 분지가 형성되었다. 모래 표면에는 퇴적분지를 감싸듯 2차 단층으로 정단층이 나타났다. 또한, 변위방향과 평행한 단면에서는 퇴적한 층이 개방성의 굴곡부를 향해서 층리가 젊어져 가는 구조가 보였다. 변위방향과 수직단면에서는 주로 단층과 반대의 경사를 가진 선상(listric) 정단층이 확인되었다. 이 결과는 이즈미 시코쿠 서부의 퇴적분지와 매우 유사하며, 이즈미 시코쿠 서부의 퇴적분지가 비대칭 pull-apart퇴적분지의 가능성을 지지하는 것이다.

• 한국지구과학회지
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• 제27권7호
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• pp.757-767
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• 2006

Alluvial-plain deposits in the southeastern part of the Eumsung Basin (Cretaceous) are characterized by coarse-grained channel fills encased in purple siltstone beds. It represents distinct channel geometry, infill organization, and variations in facies distribution. The directions of paleocurrent, sedimentary facies changes, and channel-fill geometry can be used to reconstruct a channel network in the alluvial system developed along the southeastern margin of the basin. The channel-fill facies represent downstream changes: 1) down-sizing and well-sorting in clast and martix of channel fills and 2) internal organization of scour fill or gravel lag and overlying cross-stratified, planar-stratified beds. These findings suggest multiple stages of channel-filling processes according to flooding and subsequent stream flows. In the small-scale pull-apart Eumsung Basin (${\sim}7{\times}33km^2$ in area), vertical-stacked alluvial architecture of the coarse-grained channel fills encased in purple siltstone is expected to result from episodic channel shifting under a rapidly subsiding setting.

• 한국석유지질학회지
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• 제7권1_2
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• pp.7-12
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• 1999

새로운 고해상 자기지전류 자료가 인리형 분지해석 (백악기 음성분지)을 위해서 지표 퇴적학적 자료와 함께 획득되었다. 두개의 분지 횡단 자기지전류 단면 자료는 남동부의 부분지 형성과 비대칭적인 분지 단면을 보여준다. 이러한 분지 구조는 분지 충진층에 반영된 고수류 방향성과 퇴적상 변이 방향 자료와도 일치한다. 또한 충진층이 중간블록의 급격한 침강이 수반된 인리형 열개작용도 반영하고 있음을 제시한다. 충적-호소 퇴적계의 비대칭적인 암상분포, 퇴적상 변이와 고수류 방향에 대한 지표 자료와 함께, 종합·해석된 고해상 자기지전류 비저항 단면자료는 분지형성과 분지충진 과정을 이해하는데 큰 도움을 준다. 석유탐사와 분지해석을 위해, 고해상 자기지전류 탐사방법은 고비용의 부담이 큰 육상 탄성파 반사법 탐사의 유용한 대안이 될 수 있다.

• 한국암석학회:학술대회논문집
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• 한국암석학회 2001년도 춘계학술대회
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• pp.95-95
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• 2001

• 한국지구과학회지
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• 제23권1호
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• pp.87-96
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• 2002

Aeromagnetic and gravity data were analyzed to delineate the subsurface structure of the Yeongdong basin and its related fault movement in the Okcheon fold belt. The aeromagnetic data of the total intensity (KIGAM, 1983) were reduced to the pole and three dimensional inverse modeling, which considers topography of the survey area in the modeling process, were carried out. The apparent susceptibility map obtained by three dimensional magnetic inversion, as well as the observed aeromagnetic anomaly itself, show clearly the gross structural trend of the Yeongdong basin in the direction on between $N30^{\circ}E$ and $N45^{\circ}E$. Gravity survey was carried out along the profile, of which the length is about 18.2 km across the basin. Maximum relative Bouguer anomaly is about 7 mgals. Both forward and inverse modeling were also carried out for gravity analysis. The magnetic and gravity results show that the Yeongdong basin is developed by the force which had created the NE-SW trending the magnetic anomalies. The susceptibility contrast around Yeongdong fault is apparent, and the southeastern boundary of the basin is clearly defined. The basement depth of the basin appears to be about 1.1 km beneath the sea level, and the width of the basin is estimated to be 7 km based on the simultaneous analysis of gravity and magnetic profiles. There exists an unconformity between the sedimentary rocks and the gneiss at the southeastern boundary, which is the Yeongdong fault, and granodiorite is intruded at the northwestern boundary of the basin. Our results of gravity and magnetic data analysis support that the Yeongdong basin is a pull-apart basin formed by the left-stepping sinistral strike-slip fault, which formed the Okcheon fold belt.

• 한국지구과학회지
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• 제39권6호
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• pp.545-554
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• 2018

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. 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. 구곡리 퇴적계의 퇴적층을 1:5000 축척 지형도를 이용하여 조사하였고, 도로 지질도로 작성하였다. 본 연구는 이 숲의 새로운 노두에서 측정한 고수류 방향 자료와 퇴적층의 특징에 근거하여, 동북동과 북북동 방향으로 발달한 하천 퇴적계를 새로이 제안하였다. 또한 기존에 보고된 구곡리 퇴적계의 모델을 개선하였다.

• 지질공학
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• 제32권4호
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• pp.467-482
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• 2022

The Yeonghae basin is located at the northeastern part of the Yangsan fault (YSF; a potentially active fault). The study of the architecture of the Yeonghae basin is important to understand the activity of the Yangsan fault system (YSFS) as well as the basin formation mechanism and the activity of the YSFS. For this study, Digital Elevation Model (DEM) was used to highlight the marginal faults, and structural fieldwork was performed to understand the geometry of the intra-basinal structures and the nature of the bounding faults. DEM analysis reveals that the eastern margin is bounded by the northern extension of the YSF whereas the western margin is bounded by two curvilinear sub-parallel faults; Baekseokri fault (BSF) and Gakri fault (GF). The field data indicate that the YSF is striking in the N-S direction, steeply dipping to the east, and experienced both sinistral and dextral strike-slip movements. Both the BSF and GF are characterized dominantly by an oblique right-lateral strike-slip movement. The stress indicators show that the maximum horizontal compressional stress was in NNE to NE and NNW-SSE, which is consistent with right-lateral and left-lateral movements of the YSFS, respectively. The plotted structural data show that the NE-SW is the predominant direction of the structural elements. This indicates that the basin and marginal faults are mainly controlled by the right-lateral strike-slip movements of the YSFS. Based on the structural architecture of the Yeonghae basin, the study area represents a contractional zone rather than an extensional zone in the present time. We proposed two models to explain the opening and developing mechanism of the Yeonghae basin. The first model is that the basin developed as an extensional pull-apart basin during the left-lateral movement of the YSF, which has been reactivated by tectonic inversion. In the second model, the basin was developed as an extensional zone at a dilational quadrant of an old tip zone of the northern segment of the YSF during the right-lateral movement stage. Later on, the basin has undergone a shortening stage due to the closing of the East Sea. The second model is supported by the major trend of the collected structural data, indicating predominant right-lateral movement. This study enables us to classify the Yeonghae basin as an inverted strike-slip basin. Moreover, two opposite strike-slip movement senses along the eastern marginal fault indicate multiple deformation stages along the Yangsan fault system developed along the eastern margin of the Korean peninsula.

• 자원환경지질
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• 제27권1호
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• pp.65-80
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• 1994

The Tertiary $Ch{\check{o}}ngja$ basin is located in the southeastern coastal area of the Korean Peninsula. It is a lozenge shaped fault-bounded basin with circa $5{\times}5km$ areal extent, isolated from other Tertiary basins by the Cretaceous Ulsan Formation in-between. The northwestern boundary of the basin is a domino/listric type normal fault trending $N30^{\circ}E$, whereas its southwestern boundary is a dextral strike-slip fault (trending $N20^{\circ}W$) with a lateral offset of more than 1 km. The basin is bounded by the East Sea on the eastern margin. Basin-fills consist of extrusive volcanic rock (Tangsa Andesites) of Early Miocene (16~22 Ma in radiometric age), unconsolidated fluviatile conglomerate (Kangdong Formation) and shallow brackish-water sandstone ($Sinhy{\check{o}}n$ Formation). The latter yields abundant Vicarya-Anadara molluscan fossils of early Middle Miocene age. The Tertiary strata become younger toward the northwestern boundary-fault of the basin, showing a zonal distribution pattern parallel to the fault: the younger sedimentary formations occupy a narrow zone of 2 km width along the northwestern boundary-fault, whereas the older Tangsa Andesites underlie them unconformably in the eastern and southeastern portions of the basin. The strata in the basin, including the Tangsa Andesites, are tilted (about $20^{\circ}$) toward the northwestern boundary-fault Sedimentary strata thicken toward the boundary-fault, forming a wedge shaped half-graben structure. A number of small-scale syndepositional normal growth faults and graben structures are observed in the sedimentary strata. These extensional structures have the same trend as the normal northwestern boundary-fault which we interpret as a pull-apart detachment fault. These characteristics imply persistent extension during the basin evolution, caused by a NW-SE directed tensional force. The $Ch{\check{o}}ngja$ basin is, thus, a kind of syndepositional tectonic basin evolved in a strike-slip (pull-apart) regime. The latter was caused by a dextral simple shear associated with the NNW-SSE opening of the East Sea. In view of the fact that the normal growth faults do not cut through the uppermost portion of the youngest $Sinhy{\check{o}}n$ Formation, it is inferred that the tensional force came to be inactive in the early Middle Miocene. This is coincident in timing with the termination of the East Sea opening (15 Ma).

• 한국석유지질학회지
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• 제12권1호
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• pp.1-8
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• 2006

중국 산동반도에는 백악기 육상 퇴적분지인 교래분지가 발달하고 있으며, 여러 지역의 노두에서 다양한 형태의 유징이 나타난다. 교래분지는 전기 백악기와 후기 백악기에 걸쳐 발달한 인리형 분지로 하호성 퇴적물과 화산암으로 구성된다. 교래분지의 퇴적층은 3개의 층으로 구분되는데 하부로부터 래양층 (萊陽層), 청산층 (靑山層), 왕씨층(王氏層)이다. 전기 백악기에 속하는 래양층은 적색과 비적색 하호성 퇴적물로 구성되며 역암, 사암, 셰일을 포함한다. 청산층 역시 전기 백악기에 속하는데 여러 종류의 화산암으로 구성된다. 후기 백악기에 속하는 왕씨층은 적색의 역암, 사암, 셰일 등으로 구성된다. 아스팔트, 기름 냄새, 스며 나온 기름통의 다양한 형태의 유징이 여러 지역의 노두에서 관찰되지만 유전은 발견되지 않았다. 3개의 지층 중에서 비교적 풍부한 유기물을 포함하는 지층은 래양층이다. 래양층의 일부 흑색 혹은 회색 세일의 유기물 함량은 1% 이상이며, 타이프 I 혹은 타이프 II의 특성을 가지는 유기물 기원의 케로젠을 포함하는 층준들이 있다. 열적 성숙도는 주 석유 생성단계에 도달하였고, 석유생성 잠재력도 비교적 높아 래양층의 흑색 세일은 석유 근원암으로 유망하다.

• 한국광물학회:학술대회논문집
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• 한국광물학회.한국암석학회 2001년도 공동학술발표회 논문집
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• pp.95-95
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• 2001

The Yeongdong basin is one of the pull-apart basins in the southwestern part of the Korean Peninsula that has developed during Cretaceous sinistal fault movement. The bimodal igneous activities (basalts and rhyolites) in the basin appear to be closely associated with the basin development. Here, we discuss the origin of the igneous rocks using chemical and radiogenic isotope data. Basaltic (48.4-52.7 wt% SiO$_2$) and rhyolitic (70.3-70.8 wt% SiO$_2$) rocks are slightly alkalic in a total alkali-silica diagram. The rhyolitic rocks with have unusually high K$_2$O contents (5.2-6.0 wt%). The basaltic rocks show an overall pattern of within-plate basalt in a MORB-normalized spider diagram, but have distinct negative anomaly of Nb, which indicates a significant amount of crustal component in the magma. The basaltic rocks plot within the calc-alkaline basalt field in the Hf/3-Th-Ta and Y/l5-La/10-Nb/8 discrimination diagrams. The eNd(T) values of the basaltic rocks (-13.6 to 14.3) are slightly higher than those of the rhyolitic rocks (-14.1 to 15.2), and the initial Sr isotopic ratios of the former (0.7085-0.7093) are much lower than those of the latter (0.7140-0.7149). However, the initial Nd and Sr isotope ratios of the igneous rocks in the Yeongdong basin are similar to those of the nearby Cretaceous igneous rocks in the Okcheon belt. The Pb isotope ratios plot within the field of Mesozoic granitoids outside of the Gyeongsang basin in Pb-Pb correlation diagrams. Since a basaltic magma requires the mantle source, the enriched isotopic signatures and negative Nb anomaly of the basaltic rocks suggest two possibilities for their origin: enriched mantle lithospheric source, or depleted mantle source with significant amount of crustal contamination. However, we prefer the first possibility since it would be difficult for a basaltic magma to maintain its bulk composition when it is significantly contaminated with granitic crustal material. The slightly more enriched isotopic signatures of rhyolitic rocks also suggest two possibilities: differentiate of the basaltlc magma with some crustal contamination, or direct partial melting of the lower crust. Much larger exposed volume of the rhyolitic rocks, compared with the basaltic rocks, indicates the latter possibility more favorable.