• 자원환경지질
• /
• 제23권2호
• /
• pp.135-141
• /
• 1990

A number of alunite and pyrophyllite deposits occur around the Haenam area where Cretaceous volcanic and volcanogenic sediments are widely distributed. The K-Ar ages of alunite, sericite and whole rocks collected from alunite and pyrophyllite deposits and unaltered rocks representing various stratigraphic horizon of the area were determined and their formation stage was discussed. The ages of volcanic rocks range between $68.6{\pm}1.9$ and $94.1{\pm}2.0$ Ma corresponding to Cenomanian-Maastrichtian of upper Cretaceous. Andesitic rock gives $94.1{\pm}2.0$. Rhyolite and acidic tuffs give $79.47{\pm}1.7$ and $82.8{\pm}1.2$ Ma corresponding to Campanian. The later stage andesite gives $68.6{\pm}1.9$ Ma of Maastrichtian. The results suggest that volcanism of the area can be devided into three different stages. The ages of alunite and sericite range $71.8{\pm}2.8$ to $76.6{\pm}2.9$ Ma of late Campanian to early Maastrichtian which is rather earlier than the age of granite(67 Ma). It indicates that the alteration ages of these clay mineral deposits appeared to be related with its volcanism rather than the hydrothermal stage of granite of this area.

• 한국지형학회지
• /
• 제28권1호
• /
• pp.1-12
• /
• 2021

This study tried to reveal relative surface denudation resistance and ranking by geologic types in the Southern Korean Peninsula using an 1:250,000 digital geologic map and ASTER GDEM. Among rock types such as igneous, sedimentary and metamorphic rocks, metamorphic rock showed the greatest resistance to surface denudation. The most resistant rock to surface denudation by geologic periods (e.g., the Precambrian, Paleozoic, Mesozoic and Cenozoic) was found from the Precambrian. Among the major tectonic settings in the Southern Korean Peninsula such as the Gyeonggi massif, Okcheon belt, Yeongnam massif, Gyeongsang basin and Pohang basin, the Okcheon belt indicated the greatest resistance. The most and least resistant rocks from the representative nine rocks in the Southern Korean Peninsula were Paleozoic limestone, and Cretaceous sedimentary rock and Cenozoic sedimentary rock, respectively. This study suggests that Paleozoic limestone, Cretaceous volcanic rock, Paleozoic sedimentary rock and Precambrian gneiss can be regarded as hard rocks with high elevation, steep slope and complicated relief, while soft rocks with low elevation, gentle slope and simple relief are Jurassic granite, Cretaceous sedimentary rock and Cenozoic sedimentary rock.

• 암석학회지
• /
• 제11권3_4호
• /
• pp.214-233
• /
• 2002

무등산 지역 화성암류는 화강편마암, 각섬석흑운모화강섬록암, 백악기 화성암류로 구성되어 있다. 백악기 화성암류는 안산암-데사이트-유문암으로 구성된 화산암류와 미문상화강암과 석영반암 등의 심성-반심성암으로 구성되어 있다. 이들 화성암류는 중생대 송림변동-대보운동-불국사변동의 화성활동 산물로서 각 지질시대에 분출-관입한 화성암류들의 일련의 분화산물들로서 칼크-알카리암 계열에 속한다. 이는 대륙이나 대륙 연변부에서 구조운동시 생성되는 화강암류가 보이는 특징과 일치한다. 총희토류 함량에 대한 La/Yb 변화도와 바나듐에 대한 SiO$_2$ 변화도는 화산암에 대한 분화도와 자철석 분별결정작용을 받은 순서가 화순안산암$\longrightarrow$무등산데사이트$\longrightarrow$석영반암 임을 지시해 준다. 광물성분 중에서 사장석과 흑운모의 화학성분은 분화에 따른 전암 성분 변화와 잘 일치하며, 각섬석 지압력계에 의한 마그마의 정치-고결 심도는 석영섬록암은 약 15 km(4.9 Kbar)이고, 각섬석흑운모화강섬록암은 약 2.0~3.2 km (0.6~l.0 Kbar) 이다. 무등산 지역의 화성암류를 형성시킨 마그마 유형은 I형(자철석 계열) 및 동시충돌성화강암(syn-COLG)에 해당한다.

• 자원환경지질
• /
• 제9권1호
• /
• pp.45-73
• /
• 1976

This study has been made for the enlargement of a previous work of 1964 which was carried out by an author of this work emphasizing the stratigraphy, micropaleontology, depositional environment, and structural tectonics of the studied area. The stratigraphic sequences of the area are groupped into four units: (1) basement of Pre-Cretaceous, (2) lower sediments of Late Cretaceous, (3) upper sediments of Late Cretaceous and (4) igneous rocks of Late Cretaceous and Tertiary (?). The oldest rocks consisting of schists and gneisses of Pre-Cambrian and schistose granite' of Jurassic age are exposed at the base of this area on which the thick Cretaceous sediments were deposited. These old rocks are unconformably overlain by the lower sedimens of Late Cretaceous composed of three members, an alternation of black shale and tuffaceous sediments, fine tuff and rhyollite flow in ascending order. The oily material was found from the black shales of the alternation m"ember as semi-solid greaselike material, oily order and microscopic granular spherical material and oily stain. The lower sediments are also overlain, in low-angleunconfromity, by the 'upper sediments having three members, an alternation of volcanic conglomerate and andesitic tuff, rhyollitic tuff and andesite flow in the same order. The igneous suit of diabase, diorites, biotite granite, porphyritic granite and porphyries of the latest Cretaceous and small exposure of pitchstone of Tertiary (?) intruded into the pre-existed rocks above mentioned. Considerable amount of ostra- coda microfossils have been chemically extracted from the black shales of the lower sediments and the identification of the fossils suggests that the depositional environment of the sediments were under fresh or brackish water condition. The distribution of the geology and its tectonic data also suggest a combination of dome and basin structures in the area of San-i peninsula and Jin-do as shown in fig. 8. Between these two units an anticlinal structure was constructed. As a result of this study, a seismic survey in a district between U-su-yong and north coast of Jin-do is recommended to determine the underground features.

• 자원환경지질
• /
• 제33권3호
• /
• pp.229-237
• /
• 2000

The structure of Euiseong Sub-basin and boundary of sub-basins were examined by analytical aeromagentci anomaly data. Magnetic lineaments have trends of NE-SW, NWW-SEE and NEE-SWW. The NE-SW lineaments in the sedimentary formations and pre-Cretaceous basement are assoicated with the direction of expansion of basin and the lineaments in the volcanic rocks and intrusives indicate the direction of structural weakness ones such as fault, which were major gateways of igneous activities. Euiseong Subbasin is bounded by pre-existing Andong Fault, pre-Cretaceous basement in the west, NE-SW lineament from Jyungsan to Angang, and NW-SE lineament connecting southwestern boundary of Palgongsan Granite and Jeokje Fault. In particular , the NW-SE lineament , which caused upheavel of pre-Cretaceous rocks, on Jeokje Fault is inferred as a boundary between Euiseong and Milyang Sub-basins.

• 자원환경지질
• /
• 제15권3호
• /
• pp.123-154
• /
• 1982

Petrochemical, K-Ar dating, Sand Rb/Sr isotopes, metallogenic zoning, paleomagnetic and geotectonic studies of the Gyongsang basin were carried out to examine applicability of plate tectonics to the post-late Cretaceous igneous activity and metallogeny in the southeastern part of Korean Peninsula. The results obtained are as follows: 1. Bulgugsa granitic rocks range from granite to adamellite, whose Q-Ab-Or triangular diagram indicates that the depth and pressure at which the magma consolidated increase from coast to inland varying from 6 km, 0.5-3.3 kb in the coastal area to 17 km, 0.5-10 kb in the inland area. 2. The volcanic rocks in Gyongsang basin range from andesitic to basaltic rocks, and the basaltic rocks are generally tholeiitic in the coastal area and alkali basalt in the inland area. 3. The volcanic rocks of the area have the initial ratio of Sr^{87}/Sr^{86} varying from 0.706 to 0.707 which suggests a continental origin; the ratio of Rb/Sr changing from 0.079-0.157 in the coastal area to 0.021-0.034 in the inland area suggests that the volcanism is getting younger toward coastal side, which may indicate a retreat in stage of differentiation if they were derived from a same magma. The K_2O/SiO_2 (60%) increases from about 1.0 in the coastal area to about 3.0 in the inland area, which may suggest an increase indepth of the Benioff zone, if existed, toward inland side. 4. The K-Ar ages of volcanic rocks were measured to be 79.4 m.y. near Daegu, and 61.7 m.y. near Busan indicating a southeastward decrease in age. The ages of plutonic rocks also decrease toward the same direction with 73 m.y. near Daegu, and 58 m.y. near Busan, so that the volcanism predated the plutonism by 6 m.y. in the continental interior and 4 m.y. along the coast. Such igneous activities provide a positive evidence for an applicability of plate tectonics to this area. 5. Sulfur isotope analyses of sulfide minerals from 8 mines revealed that these deposits were genetically connected with the spacially associated ingeous rocks showing relatively narrow range of ${\delta}^{34}S$ values (-0.9‰ to +7.5‰ except for +13.3 from Mulgum Mine). A sequence of metallogenic zones from the coast to the inland is delineated to be in the order of Fe-Cu zone, Cu-Pb-Zn zone, and W-Mo zone. A few porphyry type copper deposits are found in the Fe-Cu zone. These two facts enable the sequence to be comparable with that of Andean type in South America. 6. The VGP's of Cretaceous and post Cretaceous rocks from Korea are located near the ones($71^{\circ}N$, $180^{\circ}E$ and $90^{\circ}N$, $110^{\circ}E$) obtained from continents of northern hemisphere. This suggests that the Korean peninsula has been stable tectonically since Cretaceous, belonging to the Eurasian continent. 7. Different polar wandering path between Korean peninsula and Japanese islands delineates that there has been some relative movement between them. 8. The variational feature of declination of NRM toward northwestern inland side from southeastern extremity of Korean peninsula suggests that the age of rocks becomes older toward inland side. 9. The geological structure(mainly faults) and trends of lineaments interpreted from the Landsat imagery reveal that NNE-, NWW- and NEE-trends are predominant in the decreasing order of intensity. 10. The NNE-trending structures were originated by tensional and/or compressional forces, the directions of which were parallel and perpendicular respectively to the subduction boundary of the Kula plate during about 90 m.y. B.P. The NWW-trending structures were originated as shear fractures by the same compressional forces. The NEE-trending structures are considered to be priginated as tension fractures parallel to the subduction boundary of the Kula plate during about 70 m.y. B.P. when Japanese islands had drifted toward southeast leaving the Sea of Japan behind. It was clearly demonstrated by many authors that the drifting of Japanese islands was accompanied with a rotational movement of a clock-wise direction, so that it is inferred that subduction boundary had changed from NNE- to NEE-direction. A number of facts and features mentioned above provide a suite of positive evidences enabling application of plate tectonics to the late Cretaceous-early Tertiary igneous activity and metallogeny in the area. Synthesizing these facts, an arc-trench system of continental margin-type is adopted by reconstructing paleogeographic models for the evolution of Korean peninsula and Japan islands. The models involve an extention mechanism behind the are(proto-Japan), by which proto-Japan as of northeastern continuation of Gyongsang zone has been drifted rotationally toward southeast. The zone of igneous activity has also been migrated from the inland in late-Cretaceous to the peninsula margin and southwestern Japan in Tertiary.

• 한국지구과학회지
• /
• 제33권7호
• /
• pp.618-626
• /
• 2012

2007년 11월에 천연기념물 제487호로 지정된 화순군 서유리의 백악기 화석산지는 수각류 발자국 보행렬, 식물화석, 건열, 연흔, 수평층리 등 고환경을 연구하는데 중요한 자료들을 포함한다. 이 백악기 퇴적층은 하부에 직경 5-40 cm의 다양한 성분의 화산암역을 함유하며, 후기의 화순안산암에 의해 덮인다. 백악기 퇴적층과 동시퇴적된 6시료의 화산암역과 이 지층을 덮는 화순안산암 2시료를 대상으로 전암을 이용한 K-Ar법 절대연대측정을 실시하였으며, 그 결과 백악기말의 투로니안(90-70 Ma)에서 신생대 초기인 플라이오세($63.4{\pm}1.2$, $62.1{\pm}1.2$ Ma)에 해당한다. 연대측정 결과 백악기 퇴적층의 퇴적시기와 공룡의 활동시기에 대한 최대지질연대는 약 70 Ma이다. 이 연대는 여수 사도지역에서 공룡발자국을 포함하는 백악기층의 퇴적시기(71-66 Ma)와 서로 대비될 가능성을 시사한다.

• 암석학회지
• /
• 제18권1호
• /
• pp.1-17
• /
• 2009

부산 금정산의 장군봉, 계명봉 일대에는 백악기 화산암류가 안산암질암을 하위에 두고서, 상부에 차례로 퇴적암과 유문암질암으로 구성되며, 이들은 각섬석화강암, 흑운모화강암에 의해 관입되어 있는 양상을 잘 보여 준다. 본 역의 화간암류는 다소 분산되기는 하나 medium-K에서 high-K에 이르는 칼크-알칼리 계열에 속하며, 현무암질 안산암과 안산암질암, 유문암질암으로의 분화경향을 나타낸다. 본 역의 화간암류는 $SiO_2$ 함량이 증가함에 따라 $Al_{2}O_{3}$, $Fe_{2}O_{3}$, $TiO_2$, CaO, MgO MnO, $P_{2}O_{5}$ 등의 함량이 점진적으로 감소하며, $K_{2}O$와 $Na_{2}O$의 함량은 증가한다. 거미도 패턴과 희토류원소의 패턴, 그리고 조구조 판별도에 도시해 본 결과, 본 역의 화산암류가 해양지관이 침강, 선입한 결과 형성된 대륙 연변부의 칼크-알칼리 계열의 대륙화산호에 속함을 보여 준다. 본 역에서 현무암질 안산암과 안산암질암, 유문암질암에서 Nb의 이상값, Eu의 부(-)이상 그리고 희토류원소 패턴의 유사성 등은 본 역의 유문암질 마그마가 현무암질 안산암 마그마로부터 사장석, 휘석, 각섬석, 그리고 흑운모 등의 결정분화작용에 의해 진화되었을 가능성이 크다는 것을 시사해 준다.

• 암석학회지
• /
• 제6권1호
• /
• pp.19-33
• /
• 1997

본역의 지질은 백악기 경상누층군의 퇴적암, 이를 관입 또는 분출한 중성화산암류, 산성화산암류 및 제 4기 충적층으로 구성된다. 중성화산암류는 화성쇄설화산각력암, 석질화산력응회암, 안산암용암으로 구성되며, 산성화산암류는 데사이트질용결응회암 및 유문암용암, 유문암질응회암으로 구성된다. 본 연구에서는 중성 및 산성 화산암류에 대해 암석기재학적 연구와 신선한 시료 10개에 대한 암석화학적 특성을 고찰하고, K-Ar법에 의한 절대연대 측정을 실시하였다. 현미경 관찰에서 안산암용암은 사장석이 주 반정광물로 나타나며, 기질은 미정질 내지 은미정질로서 반정광물과 동일한 필로택시틱 조직을 보인다. 안산암질각력암은 퇴적암 및 안산암의 자력 암편을 포함한다. 테사이트질용결응회암은 현저한 파라택시틱 조직을 보이며, 유문암용암은 유상구조를 잘 보여 주고, 안산암의 암편을 함유하고 용결구조가 현저한 화산력용결응회암이 나타나는데, 유문암용암에서 기질의 함량은 80.9~ 89.3%에 이른다. 주 반정광물은 사장석이며 부분적으로 녹염석, 녹니석, 방해석, 제오라이트, 푸로필라이트 등으로 2차 변질되어 나타난다. 본역의 화산암류는 Norm값에 의한 Q-A-P 도표에서 현무암질안산암, 안산암, 데사이트, 유문암의 일련의 분화과정을 나타내고 대부눈 칼크알칼리 계열에 속한다. 화산암류의 화학조성은 $SiO_2$ 함량이 57.61~75.40 %이며, MgO, CaO, $Fe_2O_3$, $Al_2O_3$, $Ti_2$, MnO, $P_2O_5$ 등은 $SiO_2$함량이 증가함에 따라 연속적으로 증가하는 경향을 보인다. 주성분원소 및 미량 원소의 변화도에서 안산암질에서 유문암으로 분화되는, 즉 마그마의 정출 분화 특징을 뚜렷이 보여준다. REE 양상 및 spider 도표에서 일정한 분화 경향을 보이며 나란하다. spider 도표에서 본역의 화산암류는 Th, La, Nd, Gd 등이 부화되어 있으며, Ba, Nb, Sr, Hf, Zr 등이 결핍되어 있는 특징을 나타낸다. 안산암에서 유문암으로 분화가 진행될수록 Cs, Sr, Eu이 점차 결핍되는 경향이, Th가 증가하는 경향이 있고, Ba, Nb, Sr, Eu의 부(-)의 이상값이 점차 커지는 경향을 보인다. 희유 원소의 변화 경향에서 안산암과 중성 암맥, 데사이트와 유문암의 경향이 서로 일치함을 볼 수 있다. 주성분 원소 및 미량 원소 함량 변화는 본역의 화산암이 안산암으로부터 일연의 분별결정작용 산물임을 암시하며, 또한 $Al_2O_3$와 CaO 함량의 관계도, Th/Yb 비에 대한 Ta/Yb 비의 관계도, $Ce_N/Yb_N$ 대 $Ce_N$의 관계도에 따른 판별에서도 분별결정작용의 경향을 따르고 있다. 본역의 화산암은 $K_2O$, $Na_2O$, CaO 삼각도에서 도호의 영역에, Ba/La비, La/Th비에 의한 판별도에서 조산대의 high-K suite에 속한다. Rb 대 (Y+Nb)의 판별도 및 Hf-Th-Ta 지구조 판별도에서 지판이 침강 섭입하는 지판 경계부(destructive plate margin) 중 화산호의 조구적 영역에 도시된다. 본역의 화산암을 생성시킨 마그마는 $Al_2O_3$와 CaO 함량의 관계도, mode에서 나타나는 사장석 반정, 분화가 진행될수록 부의 Eu 이상이 증가하는 것 등에서 사장석의 분별이 우세한 분별결정작용을 거쳤음을 알 수 있다. 안산암질암을 관입한 중상 암맥에서 측정한 암석 년령은 $97.0{\pm}6.8~94.5{\pm}6.6$, 데사이트질암은 $68.9{\pm}4.8,\61.5{\pm}4.9~60.7{\pm}4.2$Ma으로 측정되었고, 이것은 백악기 유천층군과 대비되며, 백악기 유천층군 암석의 지화학적 자료와 본역 화산암의 지화하적 자료는 판별도 등에서 같은 영역에 도시된다.

• 자원환경지질
• /
• 제17권3호
• /
• pp.197-214
• /
• 1984

This studg is to clarify intrusion sequence and petrogenetic processes of the so-called schistose granites in the northeastheastern part of the Kwangju, Chonnam Province. The study area is composed of the Pre-cambrian and Unknown age metasediments, the Unknown age schistose granites and basic plutons, the Cretaceous sedimentary and volcanic rocks, and the Cretaceous Ogang-ri granite and dykes. The schistose granites of the study area is divided into three rock units based on relative intrusion age, mineralogical constituent and texture;SoonChang schistose granite, two mica granite and Sam-o-ri schistose granite. The schistose granites intruded into metasediments, are intruded by Ogang-ri granite and dikes, and overlain by the Cretaceous sedimentary and volcanic rocks. The schistose granites vary widely in composition (granite-granodiorite-tonalite) and content of porphyroblastic feldspar Caugen and rectangular shaped). The foliation of schistose granites shows similar trend to the Shinian direction. In especially, strong foliation reflects dynamic metamorphism by mortar texture and much content of well oriented biotite. These schistose granites are characterized by its gray feldspar porphyroblasts. This feldspar is considered to be formed by potassic metasomatism and assimilation of pelitic metasediments of unexposed highly metamorphosed rocks deeply buried under the level of the schistose granites emplacement. Variation of silica versus oxides of major elements shows that the schistose granites are similar to the trend of Daly's average basalt-andesite-dacite-rhyolite which shows the trend of the fractional crystallization of magma. AMF diagram shows that the schistose granite is corresponded to contaminated differentiation products such as Lower California batholith and Cascade lava. These evidence suggest that the schistose granite is a series of differentiation products formed by fractional crystallization that associated with srtongly contamination and potassic metasomatism.