• 헤리티지:역사와 과학
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• 제46권4호
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• pp.90-107
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• 2013

서울 태종 헌릉 신도비는 조선시대 제3대 임금인 태종 이방원의 생애와 업적을 영원히 기리기 위해 1424년(세종 4년)에 세운 것이다. 신도비는 임진왜란(壬辰倭亂) 때 병화(兵禍)로 인해 훼손되었으나 보수하지 못하여 1695년(숙종 21년)에 구비 옆에 신비를 조성하여 제작시기를 달리하는 2개의 신도비가 위치하고 있다. 구비는 담회색의 중립질 흑운모화강암(귀부)과 유백색의 결정질석회암(비신, 이수)으로 구성되어 있다. 구비의 귀부는 괴상 탈락이 심각하여 원래의 모습을 확인하기 어려운 실정이며 비신에는 균열이 수직상으로 발달하고 표면에 박리박락으로 인해 일부 비문의 확인이 어려운 상태이다. 비파괴 기법을 이용한 전체적인 훼손율을 살펴볼 때, 정면이 88.0%, 후면이 37.9%로 정면에서 높은 훼손율을 나타냈으며, 특히 비신의 경우 물리적 훼손과 표면변색이 복합적으로 발생한 상태로 비신의 정면 하부에 훼손이 심각하다. 구비의 우측에 재건된 신비는 구비와 동일한 암석 구성을 확인하였으며 두 비석을 대상으로 초음파속도를 이용하여 풍화도지수를 산출한 결과, 구비의 귀부는 0.10, 비신은 0.74로 산출되었다. 이는 임재왜란 시 화재로 인한 열 충격 및 타격으로 의한 물리적 충격으로 급격히 열화된 상태에서 오랜 시간 보호각 없이 방치되어 자연풍화가 가속화된 것으로 판단된다.

• 자원환경지질
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• 제22권2호
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• pp.117-127
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• 1989

Devonian Geochang foliated granite and Jurassic plutonic rocks intrude Precambrian metamorphic Complex at Geochang area, southern part of the Korean Peninsular. Among them hornblendes from four Jurassic plutonic bodies which have had no trace of metamorphism or deformation since their intrusion were dated by K-Ar method. Hornblende gabbro dike which intruded Anorthosite of unknown age revealed $204{\pm}10Ma$, and hornblende granite and hornblende-biotite granodiorite were $178{\pm}9Ma$ and $181{\pm}9Ma$, repectively. Also, hornblende diorite which partly showing primary foliations were $178{\pm}9Ma$, so igneous activity of Geochang area, northern part of Jirisan, were active about 180 Ma before. Microprobe data of dated hornblends and other major constituent minerals such as plagioclases and biotites were also reported, and their chemical composition showed systematic changes in terms of lithologic types.

• 자원환경지질
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• 제21권4호
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• pp.335-348
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• 1988

The author aimed to describe the volcano-stratigraphy and petrology of the volcanic mass in the Koheung peninsula, South Cheolla province. The volcanic mass is composed of the volcanics and intrusives of late Cretaceous which extruded the Pre-cambrian metamorphic(Jirisan gneiss complex) and the early Cretaceous sedimentary(Duwon Formation) basement. The volcanic pile consists of, in ascending order, Bibongsan andesite, Koheung tuff and breccia, and Palyeongsan welded tuff, and are intruded by ring intrusives( intrusive breccia, andesite porphyry, intrusive rhyolite and fine-grained quartz-diorite) and central pluton(diorite, quartz monzodiorite, biotite granite and micrographic granite). Bibongsan andesite mainly consists of andesite tuff and lava. Koheung tuff consists of alternation of fine tuff, coarse tuff and lapilli tuff, and Palyeongsan welded tuff which overlies Koheung tuff, comprises K-feldspar and quartz phenocrysts, elongated brown fiamme, lithic fragments in matrix of devitrified brown glass shards, and mainly consists of rhyodacite to rhyolite vitric ash-flow tuff. The results of petrochemical studies of the igneous rocks suggest that the rocks were a serial differentiational products of fractional crystallization of calc-alkaline magma series. This study reveals that the volcanic mass in this area is inferred to the remnant of the resurgent cauldron, measuring 30 by 25 km in diameter. The cauldron block was lowered at least 1,000 m by ring fault displacement.

• 자원환경지질
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• 제27권1호
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• pp.29-39
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• 1994

Gabbroic rocks in which titanomagnetite orebodies are embedded were emplaced in Precambrian metasedimentary rocks. Hornblende K-Ar ages for equigranula and gneissic gabbros were obtained to be $1021.8{\pm}14.5$ Ma and $1468.4{\pm}20.8$ Ma, respectively. Biotite-granite has an age of 116.4 Ma, which has corresponded to Daebo granite. Amphibole minerals of the gabbroic rock and the magnetite orebodies belong to calcic amphibole group such as ferroan pargasite, pargasite, and ferro-pargasite. The gabbroic rocks have unusually high content of $TiO_2$ ranging from 0.88 to 6.03 wt.% with an average value of 3.46 wt.% as compared to normal gabbroic rock with 1.32 wt.% in $TiO_2$. Incompatible elements such as Ba and Sr of the gabbros are negatively correlated with $SiO_2$. In contrast, Co and Cr have a positive correlation with $SiO_2$, suggesting a normal differentiation trend of gabbroic magma.

• 한국환경과학회지
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• 제6권5호
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• pp.489-496
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• 1997

The arm of this study is to determine harmful radioactive gas($Rn^{222}$)-concentrations in soils and to suggest the anormalous regions of $Rn^{222}$-concentration in Taejeon area. The range of $Rn^{222}$-concentration in the soils (45 samples) of the survey area is 100 to 2, 475 (pCi/L) and mean$\pm$$\sigma$ of those values is 489$\pm$ 505 (pCi/L). The 2% (4 samples) of soil-gas samples (45 ones) collected In the survey area is corresponded to high rusk level, 53% (24 samples) to medium one and 43% (19 samples) to low one. Especially. The $Rn^{222}$-concentration is relatively higher in schistose granite region than in other rock Mts (two-mica granite and biotite ganite) in the survey area. The $Rn^{222}$-concentration is propotional to the uranium contents in the soils. The soil hardness among the various factors is correlative with $Rn^{222}$-concentrations. To prevent the damage from $Rn^{222}$-concentrations, It is necessary to close the cracks of underground structure and to consider methods reducing $Rn^{222}$-concentration for the anormalous regions.

• 자원환경지질
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• 제17권2호
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• pp.91-100
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• 1984

The Gwangyang gold deposits geologically consist of granitic gneiss, metatectic gneiss and porphyroblastic gneiss which correspond to Jirisan gneiss complex. The formations of Gyeongsang system lies unconformably on these gneisses and are intruded by diorite, porphyritic andesite and Bulgugsa granites. Goheung districts are composed of quartz schist, andesitic rock, tuff and granite. The Gwangyang gold deposits are gold bearing fissure filling veins. The vein thickness varies from 15cm to 40cm and they consist of 7-10 layers in parallel. The Goheung copper deposits are sulphide bearing quartz veln which filled the fracture in andesitic rock and biotite granite. The contact zone of these rocks is partially altered. The mineral paragenesis of the Gwangyang and Goheung districts is pyrite, arsenopyrite, pyrrhotite, chalcopyrite, sphalerite, galena, sericite, quartz and calcite. The variation trends of FMA and A'KF triangular diagrams and the differentiation index (norm, Q + Or + Ab) versus oxides diagrams is similar to the Gyeonsang basin igneous rocks. From the trace element analysis of 10 samples of country rocks, wall rocks and veins, the distribution of copper and lead contents display a correlative distribution pattern in relation to gold and silver. Homogenization temperature of fluid inclusions range from $200^{\circ}C$ to $270^{\circ}C$ in quartz from the Gwangyang gold vein and the size of fluid inclusion range from 0.01mm to 0.04mm. The fluid inclusions are mainly one or two phase and the filling degree of the inclusions varies from 85 to 95.

• 자원환경지질
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• 제15권3호
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• pp.113-122
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• 1982

The surveyed Boseong river, flows from south to north crossing Boseong gun Mirukg myon, Nodong myon, Yuleo myon, Bocgnae myon, Mundeog myon, and Seungju gun Nam myon, Jeonranam do. The geology of the surveyed area consists of age-unknown composite gneiss and schist, crystaline chlorite gneiss, porphyroblastic gneiss and granite gneiss, and metasediments of Myon Bong formation and Seologri formation. These metamorphic rocks are intruded by cretaceous biotite granite, granodiorite, and quartz diorite. The heavy sands occur in Quarternary alluvium and colluvium. The composition of the river bed is sand 60%, gravel 30%, and clay 10%. The gravel content of the river bed decreases as the increases. The average depth of auger boring is 0.87 m. The average heavy mineral composition of the heavy sand is monazite 6.83%, zircon 4.88%, ilmenite 11.36%, magnetite 8.36% and garnet 4.84%. The best heavy minerals separation procedure would be primary treatment of the sand by humphrey spiral and table, and retreatment of the table concentrate by magnetic separator. The minimum economically feasible capacity of gravity and magnetic separation plant would be 500 ton/hr when only the heavy minerals are recovered but it may be reduced to 100 ton/hr. capacity, if gravels and sands are added to the valuable products.

• 자원환경지질
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• 제7권2호
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• pp.63-78
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• 1974

Daehwa tungsten-molybdenum deposits is fissure filled quartz veins occurring in Precambrian granite gneiss adjacent to the contact with Mesozoic biotite granite mass. Essential ore minerals are molybdenum and wolframite accompaning scheelite, cassiterite, chalcopyrite, pyrrhotite, pyrite and bismuthinites. Gangue minerals are quartz and little muscovte, fluorite, beryl and Carbonate minerals. Fluid inclusions in quartz, fluorite, beryl, scheelite and calcite have filling temperature ranges of $170-353^{\circ}C$. According to the studies of mineral paragenesis and filling temperature of fluid inclusion indicate that main tungsten and molybdnum mineralization have taken place with the minerals whose filling temperature ranges 205 to $353^{\circ}C$. Liquid $CO_2$ bearing fluid inclusions are characteristic in the quartz and early fluorite of tungsten and tungsten bearing molybdenum veins but hardly recognized from molybdemun veins. Estimated $CO_2$ concentration according to diagram proposed by the Takenouchi ranges from 10 to 20wt%. These facts suggest that tungsten mineralization may be related to the $CO_2$ content of the hydrothermal solution during the mineralizing period.

• 한국지구과학회지
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• 제29권7호
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• pp.640-644
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• 2008

국내 대표적인 장석광산인 제천장석 광산과 부여장석 광산 모암의 암석학적 특성을 통하여 국내 장석광의 성인 및 광산유형을 분류하였다. 제천장석 광산은 거정질의 K장석을 함유한 반상화강암이 풍화되어 잔류물로 나타나는 거정질 K장석이 채취대상이 되는 전형적인 풍화잔류 광산이고 반상화강암의 형성 온도-압력은 $840^{\circ}C$, 5Kb를 나타내며 거정질의 K-장석은 변성기원이 아닌 화성기원이다. 반면 부여장석 광산은 우백질 화강편마암이 주변의 흑운모화강암의 관입으로 열수용액에 의한 교대변질 광산으로 순수한 알바이트 장석과 부수광물로서 석류석, 견운모가 나타나며 치밀하게 재결정화된 광물조직이 특징이다.

• 한국지구과학회지
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• 제22권6호
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• pp.528-547
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• 2001

소백산 육괴 서남부에 분포하는 지리산 지역에는 알칼리장석이 거정으로 산출되는 편마암이 광범위하게 분포한다. 본 연구는 기존의 반상변정질 편마암을 그 기원과 조직 특성에 따라 잔류반상 화강편마암(blastoporphyritic granite gneiss)으로 명명하였다. 화강암질 편마암을 관입하고 있고 포획암을 함유하며 잔류반상 화강편마암과 화강암질 편마암 경계에서 알칼리장석 거정의 유 ${\cdot}$ 무를 뚜렷이 확인할 수 있는 등의 야외 증거는 잔류반상 화강편마암이 멜트 기원임을 밝혀준다. 잔류반상 화강편마암에서 거정으로 나타나는 알칼리장석의 형태는 주로 장방형이며, 타원형 내지 원형을 이루기도 한다. 알칼리장석 거정들의 평균 장경은 2.2에서 6.5cm(평균 4.3cm)이지만, 큰 거정(크기로 상위 30%)들은 7.9cm(평균 5.2cm)에 달한다. 잔류반상 화강편마암의 흑운모 조성은 에스토나이트와 시데로필라이트의 중간 성분으로 구성되어 있다. 잔류반상 화강편마암에서 산출되는 석류석은 그 성분이 알만딘으로 중심부는 파이로프 성분이 풍부한데 비하여 주변부로 가면서 파이로프 성분이 급격히 감소하고 알만딘 성분이 풍부해지는 전형적인 후퇴변성의 누대구조를 이루고 있다. 알칼리장석 거정의 분석 결과는 결정의 주변부로부터 중심에 이르기까지 그 조성의 변화가 없었다. 알칼리장석 거정에 석영, 흑운모, 사장석, 세립의 미사장석 등이 포유되어 있다. 잔류반상 화강편마암의 사장석은 안데신의 조성을 나타낸다. 주성분 산화물의 변화 경향에서 잔류반상 화강편마암은 체계적인 변화를 보이며, 분화 경향에 의하면 마그마의 결정분화에 의해 생성되었음을 알 수 있다. 전암 화학조성에 의하면 잔류반상 화강편마암은 화강섬록암 영역에 도시되며 칼크알칼리 계열의 파알류미나질 S-타입화강암이 기원암이다.