• 지질공학
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• 제23권4호
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• pp.399-407
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• 2013

대전지역은 우리나라에서 고함량 우라늄 지하수에 대한 우려가 높은 지역이다. 대전의 복운모 화강암 지역의 지하수에서 우라늄의 함량이 높지만 복운모 화강암에서 우라늄 함량은 화강암의 세계 평균치 보다 낮고 우라늄 광물의 산출이 아직 보고되지 않았다. 이 연구는 우라늄의 근원암과 지하수에 우라늄을 공급할 수 있는 우라늄 광물의 산출상태를 규명하는데 있다. 이를 위해 지표 방사능 탐사와 전자현미경을 이용한 광물학적 연구를 수행하였다. 우라늄 이상은 화강암맥과 열수변질된 화강암에서 측정되었다. 우라늄 이상을 보이는 화강암맥은 복운모 화강암과 운모-편암의 경계부에 발달한다. 복운모 화강암 내의 우라늄 이상대는 열극대를 따라 석영 세맥이 충진한 열수변질대에 발달한다. 우세한 열수변질작용은 칼륨 변질작용과 프로필리틱 변질작용이다. 우라니나이트는 화강암맥과 열수변질된 화강암에서 공통적으로 산출되는 우라늄 광물이며, 코피나이트와 우라노페인은 열수변질 화강암에서 산출된다. 모든 우라늄 광물은 백운모, 녹니석, 녹염석, 방해석 등과 같은 열수변질 광물과 밀접히 공생한다. 우라늄 광물이 산출되는 화강암맥과 열수변질된 화강암은 대전지역 지하수 내 우라늄의 주요 기원암으로 판단된다.

• 자원환경지질
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• 제32권5호
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• pp.519-535
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• 1999

Precambrian metasedimetay rocks in the Sunchang Shear Zone (so-called Seologri and Yongamsan Formation) consist of black slate, phylite, mica schistm quartzite and rarely calc schist. The metamorphic rocks in the area have undergone at least three stages of metamorphism, which are two prograde (M1 and M2) and one contact metamorphism (M3). The metamorphism which made the most prevailing mineral assemblages in the area, is M2 stage metamorphism. The metamorphic grade of M2 methamorphism in metapelites increases from the Chlorite zone through Biotituzone, Garnet zone to Staurolite zone. The M1 stage metamorphism is recognized by kyanite and sillimanite pressure type regional metamorphism. The M3 stage methamorphism is represented in the contact boundary, which area is the chlorite zone and biotite zone near the Sunchang foliated granite and the namwon granite. The M3 stage methamorphism is characterized by andalusite bearing mineral assemblages. The peak temperature condition of M2 metamorphism estimated from coexising garnet and biotite (Kretz, 1990) is 518~598$^{\circ}C$.

• 자원환경지질
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• 제26권3호
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• pp.349-361
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• 1993

The granitic rocks in the study area are divided into the schist and gneiss complex, Yongdok pluton, Yonghae pluton and Onjong pluton by their texture, fabric and relationship to the adjacent rocks in the field, Schist and gneiss complex occurs as xenolith or roof pendant in the Yongdok, Yonghae and Onjong plutons. The Yongdok pluton occurs in association with pegmatite and aplite in many places of its pluton. In the field it is obviously clarified that the Yongdok pluton is unconformably overlay by the Cretaceous sedimentary rocks. The Yonghae and Onjong plutons are gradationally changed each other, and these plutons truncate both the Yongdok pluton and the Cretaceous sedimentary rocks. Petrographically, the Yongdok pluton consists of granodiorite and granite with minor quartz monzonite. The Yonghae pluton is composed of diorite, quartz diorite, tonalite, and granodiorite. The Onjong pluton also ranges granodiorite to granite. Both the Yongdok and Yonghae-Onjong plutons are different in the constituent minerals, such as alkali feld~par, myrmekite, mica, sphene and mafic minerals. This suggests that each pluton might have been different crystallization sequence and characteristically different gological history during the crystallization period. Iron/magnesium ratio in biotite and hornblende from both the Yongdok and Yonghae-Onjong plutons gradually decrease as the differentiation index increasing in the whole rock. The decrease of this ratio strongly depend on the increase of opaque mineral contents. From the results of chemistry in the whole rocks and some mafic minerals, it is suggest that the granite plutons of the two different geological ages would have been suffered the environment of high oxygen fugacity in the process of magmatic emplacement and during the crystallization period.

• 자원환경지질
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• 제30권2호
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• pp.163-174
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• 1997

Precambrian metapelites and metapsammites of the Jinan-Osu area (so-called Seologri and Yongamsan Formation) consist of black slate, phyllite, mica schist, quartzite and rarely calc schist. They are intruded by Sunkagsan granite gneiss, Foliated granodiorite, Amphibolite, Sunchang foliated granite and Namwon granite. Mylonite texture, crenulation cleavage and minor shear zone are common. The meta-sedimentary rocks include various rock-fragments xenoliths in size (up to 3 cm) and rock-type. They have various porphyroblastic spots in size (up to 1 cm) and their mineral composition is different. The xenoliths are schists, granite and quartzite, which are rectangular or lens form and recrystallized muscovite, chlorite and quartz. Spots are andalusite and biotite aggregates extensively replaced by chlorite. The metamorphic terrain is divided into three zones of progressive metamorphism on the basis of mineral assemblage. They are chlorite zone, chloite-biotite zone and andalusite-biotite zone ascending order, from west to east approximately. Isograd reactions are phengitic muscovite + chlorite = less phengitic muscovite + biotite + quartz + $H_2O$ and muscovite + chlorite + quartz = andalusite + biotite + $H_2O$ between the chlorite zone and chlorite-biotite zone, and between the chloritebiotite zone and andalusite-biotite zone, respectively. Sample B6 (exposed near the Obong-ri) includes staurolites and greenish biotites, that is different in mineral assemblage and chemical composition from the meta-sedimentary rocks. Sample A12 (exposed near the Shinam-ri) has greenish white spots (up to 1 cm in diameter) mainly composed of Kfeldspar, quartz and sillimanite replaced by muscovite.

• 자원환경지질
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• 제30권6호
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• pp.531-541
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• 1997

Unconsolidated sediments of Youngjong Island were investigated to consider the vertical distribution of clay minerals and their origin. At least three sedimentation units can be recognized by color, magnetic susceptibility, and pH. X-ray diffraction analysis of clay size fraction reveals that illite is the most abundant phase (52.06%), and chlorite (27.16%), kaolinite (16.92%), smectite (3.86%) occur next to it. Detailed XRD study suggests that illitic materials contain fairly large amount of ordinary muscovite derived from the mica schist in Youngjong Island and adjacent area. The relative amount of kaolinite and chlorite is less than those of samples from estuary mouth of several rivers that flow to Yellow Sea and South Sea. Especially smectite content of the present sample is much higher than those of estuary sediments. These indicate that the unconsolidated sediments of tidal-flat deposit in Youngjong Island are largely affected by marine influence and partly affected by sediment in influx from China. However, some degree of source of this unconsolidated sediments is inland origin from adjacent estuary sediment and in situ or nearby weathered materials.

• 자원환경지질
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• 제1권1호
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• pp.9-34
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• 1968

Manganese ore deposits of the Samhan Changgun Properties are located at the valley of west-lope-side of Changgun-bong (1132m) occupied over the Myon border between Sochon-myon and Jaesan-myon Pongwha-gun, Kyongsang-Pukdo. Geology of the more property and it's vicinity consists of Wonnan formation and Yulri formation of pre-Cambrain and Changgun limestone formation, Mica-schist formation, quartizite formation and Jaesan formation (containing coal bearing zone the unknown age. And granites and dykes were intruded into the above formation later. 1. Management deposits is embedded the formation of Janggun limestone especially Contact zone in the contact zone to of Chunyang Granite limestone enclosed by Granite, and Maginal zone of fault line in the limestone. Therefore, Chunyang Granite is Closely related to ore deposit. Pegmatite which is near by ore deposit was intruded before mineralization and it seems to be a channelway of ore solution. The most important ore deposits of property grouped into south deposit, east deposit, east-Gachon deposit, South-Gachon deposit, Durimgok deposit and West deposit, out-crops at several place. Besides these deposits there also are several prospects on outcrop scathered. Hydrothermal alteration take place strongly in the well rock and it's sequence are Characterized as following; 1) Dolomitization 2) Carbonization 3) Mamgamotozation 4) Pyritization 5) Silicification 6) Oxidation 2. The grade of manganese dioxide is up to Mn 45% in Maximum, but generally, averaging Mn 30~35% of high grade ore and averaging Mn 30~32% of manganese carbonates are mined in his property.

• 자원환경지질
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• 제19권1호
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• pp.19-24
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• 1986

The Samkwang mine is one of gold deposits distributed mainly in the southwestern province (Chungnam) of the Korean peninsula. Golds occur in quartz veins aged of $223{\pm}4MA$ according to K-Ar age dating from muscovite in a pegmatitic quartz vein. Quantz veins intrude Precambrian biotite-granite gneiss and mica schist of unknown age. Fluid inclusions in the quartz show a range of homogenization temperatures from 159 to $274^{\circ}C$. A calculated temperature from the isotopes of the galena-sphalerite pair is $375^{\circ}C$. Two phases-fluid inclusions homogenized either by liquid or vapor phase are frequently observed in specimens over $260^{\circ}C$, which may indicate the boiling of the fluids. Pressure of formation of the quartz veins inferred by the homogenization temperatures of liquid-$CO_2$ bearing fluid is 1kb. Based on these data, it is assumed that the temperature of the formation of the Samkwang mine may lie in between $350^{\circ}-230^{\circ}C$. ${\delta}^{34}S_{{\Sigma}s}$ values of sulphide minerals show narrow range of +2.1 to +4.6, and show a trend of enrichments of $^{34}S$ in the fluid from deep to the surface. ${\delta}^{34}S_{{\Sigma}s}$ in the fluid estimated is less than 3 permil, suggesting sulphur fluid originated from the magma.

• 보존과학연구
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• 통권16호
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• pp.123-128
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• 1995

For establishing the plan of scientific conservation on the Kyongch′onsa and site of Won-gaksa 10 floors pagodas, the investigation on the rocks consisting these pagodas has been made on the rock phase and weathering characteristics. The Kyongch′onsa pagoda consists of fine grained pale graylimestone containing abundant fossils of shell and fragments of organisms. The site of Won-gaksa pagoda is composed of marble of pale gray, white and/or light brown color, which is intercalated with thin mica schist. The marble, the recrystallized limestone, consists mainly of recrystallized calcite accompanied with minor amount of muscovite. Especially carbonate rocks are somewhat different in chemical weathering from such granitic rocks. The field survey and laboratory experiment using polarizing microscope had been done during 30 days from Feb, 13 to March, 31, 1995. The rocks equivalent to that of the site of Kyongch′onsa were identified from the Myobong limestone formation and taken samples around the road from P′yongch′ang to Mitan, P′yongch′ang-gun. The rocks similar to that of the site of Won-gaksa pagoda were distributed around Pan-un-ri, Chunch′on-myon, Yong-wol-gun. The rocks of the Silluksa pagoda consisting of white recrystallized limestone with banded structure are similar to the marble of the Hyangsan-riformation distributed around Suanbo, Ch′ungch′ongbuk-do.

• 한국지구과학회지
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• 제21권3호
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• pp.302-314
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• 2000

옥천대 내의 옥천누층군과 조선누층군의 경계지역인 제천시 남부의 금성지역 내에는 선캠브리아 기반암인 당두산변성암복합체와 조선누층군인 도리층, 그리고 이들을 관입한 쥬라기 제천화강암이 분포한다. 당두산변성암복합체는 석영편암, 운모편암, 규암 및 페그마타이트 등으로 구성되어 있으며, 도리층은 주로 엽리상 석회암으로 구성된다. 연구지역 내의 지층들에서는 고생대 이후에 최소한 세 번의 변형작용의 영향이 인지된다. 당두산변성암복합체는 연구지역 내에서 세 곳에 분포하는데, 두 곳은 단층과 관련되어 분포하고, 한 곳은 도리층 내에 내암군으로 분포하고 있다. 당두산변성암복합체의 상승과 관련하여 이 연구에서는 두 번째 변형작용의 산물인 월굴리 및 당두산드러스트와 세 번째 변형작용 이후의 정단층인 중보들, 고교, 중전리단층들에 의해 당두산변성암복합체가 상승하여 현재와 같은 분포 상태를 보이는 것으로 해석되었다. 연구지역 서쪽의 부산변성암복합체는 연성변형작용에 의해서 상승하여 옥천누층군 내에 노출된 것으로 보고되어 있으나, 당두산변성암복합체는 취성 내지 반취성 변형작용에 의해서 상승하였다. 기존에 보고된 옥천누층군과 조선누층군이 고생대 이후 받은 변형작용 순서에 의하면, 변형작용은 시간에 따라서 연성에서 취성으로 바뀐 것으로 보고되어 있다. 따라서 아직 그 지질시대는 규명되지 못 하였지만, 당두산변성암복합체의 상승은 부산변성암복합체의 상승보다 후에 일어난 것으로 생각된다.

• 한국산림과학회지
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• 제104권4호
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• pp.588-597
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• 2015

이 연구는 우리나라에서 발생한 땅밀림 산사태의 발생원인을 파악하여 이를 방지하기 위한 관리대책을 수립하기 위한 기초자료를 제공하기 위하여 수행하였다. 우리나라에서 발생된 땅밀림 산사태지는 총 29개소로 이 중 암반 땅밀림지 2개소(6.9%), 풍화암 땅밀림지 2개소(6.9%), 붕적토 땅밀림지 22개소(75.9%), 점질토 땅밀림지 3개소(10.3%)로 붕적토 땅밀림지가 가장 많았다. 땅밀림 산사태지의 암석 성인별 모암은 화성암류에서 화강암, 안산암, 유문암, 안산암류와 마산암 등이 4개소(13.8%), 퇴적암류에서는 석회암, 사암 및 혈암, 이암 등이 12개소(41.4%), 변성암류에서는 편암, 천매암, 미그마싸이트질편마암, 석영편암, 반상변정질편마암, 우백질화강암, 운모편암, 호상편마암, 화강암질편마암 등이 13개소(44.8%)로 변성암 지대에서 가장 많이 발생하였다. 발생 원인별로 직접적인 원인으로는 채석 및 토사채취에 의한 산각의 절취, 전원주택, 공장 및 도로건설을 위한 산각의 절취, 산지 상부의 밭경작, 저수지 축설을 위한 산지절취 등의 인위적 원인은 전체의 약 71%로 나타났으며, 하천 및 계곡의 포락 등에 의한 벼랑침식에 의한 지역이 약 7%, 지질적이거나 자연적인 현상에 의한 땅밀림 산사태지는 약 22%로 인위적 원인이 가장 높은 것으로 분석되었다.