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추파(秋坡) 송기수(宋麒壽)의 철학이론과 유학정신

  • Nam, Myeong-Jin
    • Journal of Korean Philosophical Society
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    • v.105
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    • pp.149-192
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    • 2008
  • 추파(秋坡) 송기수(宋麒壽)(1507-1582)는 500년 전에 출생하여 조선시대 중종, 인조, 명종, 선조의 4대에 걸친 75세를 일기로 생존했던 재조(在朝)의 선비로서 행정가요, 또한 학인이었다. 추파는 기묘사화의 참상을 직접 목도하고 본의 아니게 위훈이 하사되어 평생 마음의 질곡이 되었고, 또한 소위 양재역 벽서사건에 연루된 종형 규암(圭菴) 송인수(宋麟壽)를 구명(救命)하지 못한 그의 처신이 또한 역사 속에서 오해의 사단(事端)으로서 추파에게 큰 굴레로 작용되었다. 추파의 현실인식은, 사화로 사림이 사기저상되었고, 그로 인해서 치도와 강상이 붕괴되었으며, 재해가 출현하고, 민심의 흐트러짐이 모두 천명의 노여움으로 본 동시에, 그 처방을 요순지치인 치도(治道)를 확립할 것, 선진 성학으로서 학문을 진흥할 것과 그 실천 주체인 선비의 기상을 진작시킬 것에서 찾았던 것이다. 추파의 성리설은 이기관계론을 부상리(不相離)라는 주제만을 채택하여 존재론적으로 접근하였고, 그 결과 율곡보다 훨씬 앞서 '리기지묘(理氣之妙)'라는 표현을 쓰면서 리발(理發)보다는 발어리(發於理)라는 말에 무게중심을 둠으로서 기발을 중심으로 말한 "기발어리설(氣發於理說)"을 제시하였다. 이것은 바로 그 뜻으로서의 천리(天理)를 밝혀 기(氣)로 발하는 구체적인 삶 속에 구현 하는 실천하는 길이 되는 것이다. 궁극적으로 추파의 학문은 바로 천리(天理)를 깨달아 실천궁행하여 가는 길로서 삶의 목표로 삼은 점이 특징적인 것이다. 즉 추파에 있어서 학문의 길은 리(理)의 본래적 뜻을 깨닫고 리(理)의 뜻을 심성의지(心性意志)를 통해서 구현하는 길인, 리(理)로 부터 발한 기발(氣發)을 몸소 역행실천(力行實踐)하는 길인 것이다. 이 길을 실제로 자신의 사명과 직결된 삶의 바른 길로 삼았던 것이다. 요컨대 추파의 학문사상의 궁극적 특징은 역행궁리(力行窮理)의 실천학에 있는 것이며, 따라서 결론적으로 사사(事事)(실사(實事))구시정신(求是精神)에 입각한 실천철학만이 그의 학문의 궁극적인 목적지가 되었던 것이다. 현실정치의 민생문제도, 역사적 이념으로서 선비정신 부양과 벽이단도 모두 이 사사구시(事事求是)의 시(是)를 통해야 되고, 이 시(是)를 통해서 구현하는 길이 추파학문사상의 궁극처인 것이다. 그리고 그의 언설과 삶 자체가 실사구시의 실천 그 자체 이었던 것이다. 학문사상사적으로 본다면 추파의 위상은 근본유학의 정신을 살려 그를 근간으로 하여, 한국 성리학의 개화기(開花期)에 새로운 개념으로서 이 기관계를 '리기지묘(理氣之妙)'라든가 발(發)의 근거를 리(理)에 두되 리(理)가 직접 발하는 것이 아니라, 발(發)하는 것은 기(氣)라는 '기발어리(氣發於理)'의 한길만을 중시한 점으로서 이기설의 새로운 문제를 제기한 점이라 할 수 있으며, 궁극적으로 기발론적(氣發論的)인 바탕에서 실천역행의 근거를 확립하게 됐다는 특징을 볼 수 있는 점이다. 또한 이것은 한국성리학의 기발일도라는 기발설의 선구적 주장이며, 또한 이(理)를 근거로 결국 사사구시(事事求是)의 경세실학(經世實學)을 제시함으로서 실학의 선구가 될 만한 문제제기(問題提起)를 했다고 평가할 만한 특징이라 하겠다. 이 연구가 그의 마음속에 얹혀져있던 멍에도, 그간 오해받은 역사적인 멍에도 벗겨질 수 있고, 한국철학사상장성기(韓國哲學思想長成期)(국유사상주류기(國儒思想主流期))의 학술사적인 위상도 바르게 드러나는 계기가 될 수 있기를 기대한다.

Metamorphism of the Gyeonggi Massif in the Gapyeong-Cheongpyeong area (가평-청평 지역 경기육괴의 변성작용)

  • Lee Kwang Jin;Cho Moonsup
    • The Journal of the Petrological Society of Korea
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    • v.1 no.1
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    • pp.1-24
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    • 1992
  • Precambrian metamorphic rocks of the Gapyeong-Cheongpyeong area consist of banded gneiss, augen gneiss, leucocratic gneiss, quartz schist and quartzite, together with minor intercalations of serpentinite, amphibolite and marble. Mineral assemblages of meta-sedimentary rocks are classified into three types: sillimanite-free; sillimanite-bearing; and sillimanite+K-feldspar-bearing assemblages. Compositions of metamorphic phases depend on the type of mineral assemblages. In particular, the Ca contents of plagioclase and garnet are high in sillimanite-free assemblges. Kyanite occurs in three samples, and coexists with sillimanite in one sample. The presence of kyanite indicates that metamorphic rocks of the study area have experienced the Barrovian type metamorphism. Peak metamorphic conditions estimated from various geothermobarometers and phase equilibria are 618-674$^{\circ}C$ and 6.5${\pm}$2.0 kbar for sillimanite-free assemblages, and 701-740$^{\circ}C$ and 4.4${\pm}$0.8 kbar for sillimanite-bearing assemblages, respectively. Furthermore, a clockwise P-T-time path is deduced for the study area, based on the following observations: (1) the polymorphic transition of kyanite to sillimanite, (2) the occurrence of sillimanite and K-feldspar belonging to the upper amphibolite facies, and finally (3) the retrograde metamorphism characterized by muscovite-, chlorite-, and actinolite-bearing assemblages.

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Geochemical Studies of BIF in Wugang, North China Craton: Implication for the Genesis (북중국 우강 지역에 분포하는 호상철광상의 성인에 대한 지구화학적 연구)

  • Moon, Inkyeong;Lee, Insung;Yang, Xiaoyong
    • Economic and Environmental Geology
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    • v.52 no.3
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    • pp.213-221
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    • 2019
  • The Wugang banded iron formation (BIF) is located within the Taihua complex at the southern margin of the North China Craton (NCC). In this study, we analyzed major elements and rare-earth elements in iron ores from the Wugang BIF, to study the type of BIFs and their formation mechanism in combination with previously-published data from the literature. We found that the iron ores from the Wugang BIF display two types of banding textures, which can be described as weak banding or no banding. The samples are composed of coarse-grained magnetite, quartz, pyroxene, and amphibole. Based on our geochemical results, mixing of a hydrothermal fluid with sea water led to the precipitation of the Wugang BIF, and there is evidence of crustal contamination. These results, combined with previous literature data, almost all of the iron ores lack Ce anomalies, though some samples show negative Ce anomalies. Our results indicate that the Wugang BIF was formed in a dominantly reducing environment, although the surfaces were relatively oxidized. Geochemical evidence suggests that the Wugang BIF iron ores were formed in a near-shore continental-shelf environment or in a back-arc basin. The BIF is known as interbedded with migmatite, amphibole gneiss, minor quartz and marble, which indicating lack of volcanic materials input. This study, combined with previous results on geochemical interpretation of related wall rock of Wugang BIF, demonstrated that Wugang BIF belongs to Superior-type BIF.

Geology and Mineralization of the Iscaycruz Pb-Zn-Cu Project, Central Peru (페루 중부 이스카이크루즈 연-아연-동 프로젝트의 지질 및 광화작용)

  • Heo, Chul-Ho;Nam, Hyeong-Tae
    • Korean Journal of Mineralogy and Petrology
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    • v.34 no.1
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    • pp.57-67
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    • 2021
  • The geology of the Iskaycruz project are mainly composed of sedimentary rocks within Cretaceous basin. The basal part is composed up of dark-gray shale, gray sandstone, and clastic rock of Oyon formation interbedded with coal measures. In the folded zone in the eastern part of the survey area, there is Chimu formation that has medium-grained massive and white quarztite. In terms of geological structure, the Iskaykruz region is located in the folded and overthrust zones of the central part of the Occidental Mountains. Ore body was formed by hydrothermal replacement process and consists of zinc, lead, silver, and copper. Stratabound-type deposits are hosted in limestone of Santa formation. It extends 12 kilometers discontinuously from northern Canaypata to southern Antapampa. Irregular iron oxide and sulfide minerals hosted in Santa and Parihuanca formations are observed. The mineralization observed on the surface consist of primary sulfides consisting of sphalerite with galena and chalcopyrite, and iron and manganese oxide produced from oxidation of primary sulfides. Skarn minerals are accompanied by tremolite, garnet, epidote and quartz.

Geological Structure of Okcheon Metamorphic Zone in the Miwon-Boeun area, Korea (미원-보은지역에서 옥천변성대의 지질구조)

  • 강지훈;이철구
    • The Journal of the Petrological Society of Korea
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    • v.11 no.3_4
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    • pp.234-249
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    • 2002
  • The Miwon-Boeun area in the central and northern part of Okcheon metamorphic zone, Korea, is composed of Okcheon Supergroup and Mesozoic Cheongju and Boeun granitoids which intruded it. The Okcheon Supergroup consists mainly of quartzite (Midongsan Formation), meta-calcareous rocks (Daehyangsan Formation, Hwajeonri Formation), meta-psammitic rocks (Unkyori Formation), meta-politic rocks (Munjuri Formation), meta-conglomeratic rocks (Hwanggangni Formation) in the study area, showing a zonal distribution of NE trend. Its' general trend is locally changed into NS to EW trend in and around high-angle fault of NS or NW trend. This study focused on deformation history of the Okcheon Supergroup, suggesting that the geological structure was formed at least by four phases of deformation. (1) The first phase of deformation occurred under ductile shear deformation of top-to-the southeast movement, forming sheath fold or A-type fold, asymmetric isoclinal fold, NW-SE trending stretching lineation. (2) The second phase of deformation took place under compression of NW-SE direction, forming subhorizontal, tight upright fold of M trend in the earlier phase, and formed semi-brittle thrust fault (Guryongsan Thrust Fault) of top-to-the southeast movement and associated snake-head fold in the later phase. (3) The third phase of deformation formed subhorizontal, open recumbent fold through gravitational or extensional collapses which might be generated from crustal thickening and gravitational instability. (4) The fourth phase of deformation formed moderately plunging, steeply inclined kink fold related to high-angle faulting, being closely connected with the local change of NE-trending regional foliation into NS to EW direction of strike in the vicinity of the high-angle fault.

Time-relationship between Deformation and Growth of Metamorphic Minerals around the Shinbo Mine, Korea: the Relative Mineralization Time of Uranium Mineralized Zone (신보광산 주변지역에서 변성광물의 성장과 변형작용 사이의 상대적인 시간관계: 우라늄 광화대의 상대적인 광화시기)

  • Kang, Ji-Hoon;Lee, Deok-Seon
    • Economic and Environmental Geology
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    • v.45 no.4
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    • pp.385-396
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    • 2012
  • The geochemical high-grade uranium anormal zone has been reported in the Shinbo mine and its eastern areas, Jinan-gun, Jeollabuk-do located in the southwestern part of Ogcheon metamorphic zone, Korea. In this paper is reported the time-relationship between deformation and growth of metamorphic minerals in the eastern area of Shinbo mine, which consists of the Precambrian metasedimentary rocks (quartzite, metapelite, metapsammite) and the age-unknown pegmatite and Cretaceous porphyry which intrude them, and is considered the relative mineralization time on the basis of the previous research's result. The D1 deformation formed the straight-type Si internal foliation which is defined mainly as the arrangement of elongate quartz, biotite, opaque mineral in andalusite porphyroblast. The D2 deformation, which is defined by the microfolding of Si foliation, formed S2 crenulation cleavage. It can be divided into two sub-phases, early crenulation and late crenulation. The former occurs as the curvetype Si foliation in the mantle part of andalusite. The latter occurs as S1-2 composite foliation which warps around the andalusite. The andalusite porphyroblast began to grow under non-deformation condition after the formation of S1 foliation which corresponds to the straight-type Si foliation. It continued to grow before the late crenulation phase. The age-unknown pegmatite intruded after the D2 deformation and grew the fibrous sillimanite which random masks the S1-2 composite foliation. The D3 deformation formed F3 fold which folded the S1-2 composite foliation, D2 crenulation, fibrous sillimanite. It means that the intrusion of pegmatite related to the growth of the fibrous sillimanite took place during the inter-tectonic phase of D2 and D3 deformations. The retrograde metamorphism is recognized by the chloritization of biotite and two-way cleavage lamellae which is parallel to the S1-2 composite foliation and the F3 fold axial surface in the andalusite porphyroblast. It occurred during the D2 late crenulation phase and D3 deformation. In considering of the previous research's result inferring the most likely candidate for the uranium source rock as pegamatite, it indicates that the age-unknown pegmatite intruded during the inter-tectonic phase of D2 and D3 deformations, i.e. during the retrograde metamorphism related to the uplifting of crust, and formed the uranium ore zone around the Shinbo mine.

Geological Structures and Geochemical Uranium Anormal Zone Around the Shinbo Mine, Korea (신보광산 주변지역의 지질구조와 우라늄 지화학 이상대)

  • Kang, Ji-Hoon;Lee, Deok-Seon
    • Economic and Environmental Geology
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    • v.45 no.1
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    • pp.31-40
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    • 2012
  • This paper examined the characteristics of ductile and brittle structural elements with detailed mapping by lithofacies classification to clarify the relationship between the geological structure and the geochemical high-grade uranium anormal zone and to provide the basic information on the flow of groundwater in the eastern area of Shinbo mine, Jinan-gun, Jeollabuk-do, Korea. It indicates that this area is mainly composed of Precambrian quartzite, metapelite, metapsammite, which show a zonal distribution of mainly ENE-WSW trend, and age unknown pegmatite and Cretaceous porphyry which intrude them. But the Cretaceous Jinan Group which unconformably covers them, contrary to assumption, could not be observed. The main ductile deformation structures of Precambrian metasedimentary rocks were formed at least through three phases of deformation [ENE striking regional foliation (D1) -> ENE or EW striking crenulation foliation (D2) -> WNW or EW trending open, tight, kink folds (D3)]. The predominant orientation of S1 regional foliation strikes ENE and dips south, being similar to the zonal distribution of Precambrian metasedimentary rocks. Most predominant orientation of high-angled brittle fracture (dip angle ${\geq}45^{\circ}$) [ENE (frequency: 24.3%) > NS (23.9%) > (N)NW (18.8%) > WNW (16.9%) > NE (16.1%) fracture sets in descending frequency order], which is closely related to the flow of groundwater, strikes ENE and dips south. It also agrees with the zonal distribution of metasedimentary rocks and the predominant orientation of S1 regional foliation. The next one strikes NS and dips east or west. Considering the controlling factor of the geochemical uranium anormal zone in the Shinbo mine and its eastern areas from the above structural data. the uranium source rock in these areas might be pegmatite and the geochemical uranium anormal zone in the Sinbo mine area could be formed by an secondary enrichment through the flow of pegmatite aquifer's groundwater into the Sinbo mine area like the previous research's result.

A Feasibility Study of AMT Application to Tidal Flat Sedimentary Layer (갯벌 지역의 하부퇴적층에 대한 AMT 탐사의 적용 가능성 평가)

  • Kwon, Byung-Doo;Lee, Choon-Ki;Park, Gye-Soon;Choi, Su-Young;Yoo, Hee-Young;Choi, Jong-Keun;Eom, Joo-Young
    • Journal of the Korean earth science society
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    • v.28 no.1
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    • pp.64-74
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    • 2007
  • The marine seismic prospecting using a research vessel in the shallow sea near the coastal area has certain limits according to the water depth and survey environment. Also, for the electrical resistivity survey at seashore area, one may need a specially designed high-voltage source to penetrate the very conductive surface layer. Therefore, we have conducted a feasibility study on the application of magnetotelluric method (MT), a passive geophysical method, on investigating of shallow marine environment geology. Our study involves both theoretical modeling and field survey at the tidal flat area which represent the very shallow marine environment. We have applied the audio-frequency magnetotelluric (AMT) method to the intertidal deposits of Gunhung Bay, west coast of Korea, and analysed the field data both qualitatively and quantitatively to investigate the morphology and sedimentary stratigraphy of the tidal flat. The inversion of AMT data well reveals the upper sedimentary layer of Holocene intertidal sediments having a range of 13-20 m thickness and the erosional patterns at the unconformable contact boundary. However, the AMT inversion results tend to overestimate the depth of basement (30-50 m) when compared with the seismic section (27-33 m). Since MT responses are not significantly sensitive to the resistivity of middle layer or the depth of basement, the AMT inversion result for basement may have to be adjusted using the comparison with other geophysical information like seismic section or logging data if possible. But, the AMT method can be an effective alternative choice for investigating the seashore area to get important basic informations such as the depositional environment of the tidal flat, sea-water intrusion and the basement structure near the sea shore.

Polymetamorphism of the Odesan Gneiss Complex in the Northeastern area of the Kyonggi Massif, Korea (경기육괴 북동부지역에 분포하는 오대산편마암복합체의 다변성작용)

  • 권용완;김형식;오창환
    • The Journal of the Petrological Society of Korea
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    • v.6 no.3
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    • pp.226-243
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    • 1997
  • The Odesan Gneiss Complex consists of mainly migmatitic gneiss and porphyroblastic gneiss with locally intercated quartzite, amphibolite, marble and leucocratic gneiss. At least two different regional metamorphisms are recognized in the study area. Metamorphic grade of the first metamorphism increases from the K-feldspar-muscovite zone(in which biotite-muscovite-plagioclase-quartz and garnet-biotite-muscovite-K-feldspar-plagioclase-quartz assemblages occur) in the east and southwestern part of the study area to the K-feldspar-garnet zone(in which garnet-biotite-K-feldspar-plagioclase-quartz, biotite-K-feldspar-plagioclase-quartz, garnet-biotite-K-feldspar-plagioclase-sillimanite-spinel-quartz assemblages occur) in the northwestern part. Kyanite is found as inclusions in plagioclase. The second metamorphism is characterised by occurrence of cordierite. The metamorphic grade of 2nd metamorphism decreases radically from the central-western part near Gaeinsan in which cordierite-garnet-sillimanite-biotite-muscovite-quartz, cordierite-garnet-spinel-sillimanite-biotite-muscovite-quartz assemblages representing the garnet-cordierite zone are observed. The garnet-cordierite zone is surrounded by the sillimanite-cordierite zone which shows cordierite-sillimanite-biotite-plagioclase, cordierite-muscovite-biotite-plagioclase and sillimanite-muscovite-biotite-plagioclase assemblages. The peak metamorphic P-T conditions of the first metamorphism calcuted from garnet-biotite-sillimanite-K-feldspar-plagioclase-spinel assemblage are 5.4~7.4 kb and $776-789^{\circ}C$. Real P-T condition of the first metamorphism might be higher than the calcuated P-T condition according to the study based on the phase equilibria. P-T conditions calcuated from the garnet-biotite in plagioclase are 12.5kb and $650^{\circ}C$ which indicate that the P-T path of the first metamorphism had passed a high pressure condition before the peak metamorphic temperature condition. The peak metamorphic P-T conditions of the second metamorphism calcuated from garnet-biotite-cordierite-spinel-quartz assemblage are $680~750^{\circ}C$ at pressures lower than 6 kb. In the Odesan Gneiss Complex, the first metamorphism of medium pressure and high temperature had occurred after the high pressure condition and fast uplift and then the second metamorphism of low pressure condition occurred after sedimentation of the Kuryong Group.

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Geochemistry and Metamorphism of the Amphibolite in the Odesan Gneiss Complex (오대산편마암복합체내에 산출되는 앰피볼라이트의 지화학적 특성과 변성작용)

  • 권용완
    • The Journal of the Petrological Society of Korea
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    • v.7 no.2
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    • pp.111-131
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    • 1998
  • The migmatitic gneiss in the Odesan Gneiss Complex has small amount of quartzite, amphibolite and marble and the Kuryong Group which contact with migmatitic gneiss unconformitly, also contains some amphibolite. Preview studies of this area had regarded that the amphibolites contact with marble had been produced by metasomatism from the pelitic and calcareous sediments mixtures, but the amphibolite is reinterpreted as igneous origin. $SiO_2$ content of the amphibolite is 45.9~52.7 wt%, which corresponds to basaltic composition. MgO content has narrow range (4.6~6.87 wt%) and major and trace element are plotted against MgO,$TiO_2, P_2O_5$, Hf, Zr are reduced and Cr and Ni are increased their content with increasing MgO. This phenomenon indicates that the basaltic magma as the protolith of the amphibolite had frationated with the crystallization of the pyroxene and/or olivine. REE pattern has smoothly decrease from LREE to HREE. Eu/Eu(0.83~1.19) show the flat Eu anomaly, which indicate small fractional crystallization of plagioclase. HREE is enriched in the garnet-bearing amphibolites. Several discrimination diagram for the basaltic magma show that the amphibolite of the study area is originated tholeiitic basaltic magma indicating continental rift environment. Due to determine the metamorphic condition garnet-hornblende geothermometry and hornblende-plagioclase geobarometry are used. Peak metamorphic temperature range of the amphibolite $788~870^{\circ}C$ and is deduced toward the northeastern part. The calculated temperature from the amphibolite has slightly higher than the temperature of the metapelites but the trend of metamorphic grade which decrease from western to eastern part progradly is similar to each other. The metamorphic pressure calculated by garnet- hornblede-plagioclase geobarometry is 4~5kb. But ilmenite-plagioclase pair enclosed in garnet show 8 kb at $700^{\circ}C$ by garnet-ilmenite-rutile-plagioclase geobarometery. The zonal profile of garnet in sample 84 shows the bell-shape profile, which grossular content decreases whereas pyrope content increases progressively. This means that the amphibolite has undergone the clockwise P-T-t path which is shown in the migmatitic gneiss of the Odesan Gneiss Complex.

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