• Title/Summary/Keyword: DIASPORE

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Mineralogy and Genesis of Hydrothermal Deposits in the Southeastern Part of Korean Peninsula: (4) Kimhae Napseok Deposit (우리나라 동남부 지역의 열수광상에 대한 광물학적 및 광상학적 연구: (4) 김해납석광상)

  • Kim, Soo Jin;Choo, Chang Oh;Cho, Hyen Goo
    • Journal of the Mineralogical Society of Korea
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    • v.6 no.2
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    • pp.122-144
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    • 1993
  • The Kimhae napseok clay deposit was studied to characterize its mineralogy and genesis. Geology of the deposit is composed of Tertiary volcanic rocks and granodiorite. Tertiary volcanic rocks consist of andesitic tuff with minor interstratified tuffaceous shale, and rhyodacitic tuff. The main ore body of 2.4 to 4 m in thickness developed parallel to the bedding of andesitic tuff bed. Its strike and dip are $N70^{\circ}E-N85^{\circ}E$ and $16^{\circ}NW-32^{\circ}NW$, respectively. Two alteration zones; the propylitic zone of albite-epidote-chlorite-quartz assemblage and advanced argillic zone of pyrophyllite-dickite-alunite-diaspore assemblage are developed. Correlation of $SiO_2$ to $Al_2O_3$ shows no relation in propylitic zone, while a negative linear relation in advanced argillic zone. Chemical variation shows that $SiO_2$, $Al_2O_3$, MgO, CaO, $Na_2O$ and $K_2O$ were leached out during hydrothermal alteration. Pyrophyllite, the most abundant mineral in advanced argillic zone, occurs as low temperature 2M polytype. It is closely associated with dickite, diaspore and alunite. The Hinckley index of dickite is 0.83 showing moderate crystallinity. Na content is increasing in the M site with the increasing content of cations in the R-site. the mole percent of Na replacing K in alunite ranges from 53.2 to 71.6. It is also found that pyrophyllite grows in the dissolution site of diaspore. Plagioclase was albitized. Lowering of pH caused mainly by sulfide and sulfate decomposition resulted in preferential leaching of Si. It is inferred that aluminum released from plagioclase in the volcanic rocks as well as from the tuffaceous shale intercalated in andesitic tuff were the main sources of aluminum required for the formation of clay deposit. pH in hydrothermal fluid decreased from propylitic zone to advanced argillic zone with increasing degree of alteration. Based on experimental data reported in the literature and mineral assemblages, the formation temperature of the deposit ranges 270 to $320^{\circ}C$.

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Mineralogical Characteristics and Designation of Key Beds for the Effective Surveys of the Jeonnam Pyrophyllite Deposits (전남일원 납석광상의 광물학적 특성과 효과적 탐사를 위한 Key Beds의 선정)

  • Yoo, Jang-Han;Kim, Yong-Ug;Lee, Gill-Jae
    • Journal of the Mineralogical Society of Korea
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    • v.22 no.4
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    • pp.297-305
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    • 2009
  • Ores of the Jeonnam pyrophyllite province mainly consist of not only pyrophyllite but also kaolinite, and they usually contain minor amounts of muscovite and quartz. We usually call them as porcelaneous stones which usually show lower grade characteristics in the viewpoint of Korean nonmetallic industries. Mineralogical studies for the ores and their intimate formations revealed that another kind of clay minerals could have been produced from the volcanic sediments with similar ages and compositions. Corundum is commoner than the diaspore in the pyrophyllite deposits, and so diaspore can be regarded as one of temporary minerals from which corundum would be finally formed. Kaolinite deposits contain neither diaspore nor corundum, but alunites produced by an advanced argillic alteration are often observed in the upper portions of the kaolin ores. The lowest formation interbedded with pyrophyllite and/or kaolinite ores usually contain purple tuff bed on the uppermost part, and in ascending order, siliceous formation, fine ash tuff and lapillistone are found in the study areas. As ages are becoming younger, amounts of pyrophyllite and kaolinite are radically decreased, or disappeared completely. On the other hand, content of muscovite is slightly increased, and those of plagioclase feldspars and quartz are found to have been preserved from the original rocks during alteration process. Most of ore bodies show rather well bedded formations which are easily discernable in the outcrops, but more effective discremination is desirable where rather massive ores exist. Siliceous beds and purple tuff ones on the upper part of ore bodies would be useful as marker horizons or key beds which have distinct lithologies and extensions.

Genesis of Kaolin-Pyrophyllite Deposits in the Youngnam Area (영남지역 고령토-납석 광상의 성인 연구)

  • Sang, Ki-Nam
    • Economic and Environmental Geology
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    • v.25 no.2
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    • pp.101-114
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    • 1992
  • Occurrences of many kaolin-pyrophyllite deposits in the Youngnam area is related to the Late Cretaceous volcanic rocks, which are widely distributed through southern part from Tongnae-Yangsan to Miryang-Wolsung. The mode of occurrence and genesis of the kaolin-pyrophyllite deposits related to the volcanism was studied. This area is covered by andesitic rocks, rhyolite and rhyolitic welded tuff in ascending order. Lower most andesitic part is almost fresh. The altered rocks in the rhyolitic welded tuff can be classified into the following zones: silicified, pyrophyllite-kaolin, and argillic zone from the center part of ore deposit. The clay deposits occur as irregular massive, layer and funnel type about 5~20 m in width and is accompanied by thin diaspore bed outside of ore shoot. The clays chiefly consist of kaolinite, sericite, pyrophyllite, a little amount of diaspore, alunite, dumortierite, corundum and pyrite. The process of kaolinization-pyrophyllitization has a close relation to a local acidic hydrothermal solution originated from granitic rocks. Acidic hydothermal alteration occurrs mainly in the rhyolitic welded tuff. Initial solution containing $H_2S$ and others was oxidized near the surface and formed hydrothermal sulfuric acid solution.

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Geological Occurrence and Mineralogy of Pyrophyllite Deposits in the Jinhae Area (진해 납석광상의 산상과 광물학적 특성)

  • Kwack, Kyo-Won;Hwang, Jin-Yeon;Oh, Ji-Ho;Yoon, Keun-Taek;Chi, Sei-Jeong
    • Journal of the Mineralogical Society of Korea
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    • v.22 no.2
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    • pp.163-176
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    • 2009
  • The pyrophyllite deposits located in Jinhae area have been studied through field observations and laboratory works including the X-ray diffraction (XRD), X-ray fluorescence (XRF), Electron probe microanalyzer (EPMA) and Inductively Coupled Plasma (ICP). The pyrophyllite deposits consist of mainly illite, dickite, pyrophyllite, diaspore, chlorite, pyrite and copiapite. According to the mineral assemblages, geological occurrences and alteration modes, the altered rocks can be classified into four types: Type A; quartz with silicifictaion, Type B; quartz + illite with illitization, Type C; quartz + dickite + illite with kaolin alteration, Type D; pyrophyllite + illite + dickite + diaspore with pyrophyllite alteraion. Rocks in Type A, which is generated by silicifictaion, have high $SiO_2$ contents more than 90 wt% and distinctive equigranular textures with microcrtstalline quartz. The pyrophyllites from the study area belong to 2M polytype. The host rocks of the pyrophyllite ore in this mine are rhyolitic rock, andecitic tuff and volcanic breccia. The alteration products seem to be controlled by the different lithology of the host rocks. The hydrothermal solution formed the deposits would be inferred to the acidic and have relatively high ionic activity of hydrogen and silica judging from alteration mineral assemblage. Pyrophyllite alteraion zone is generated by highest temperature condition of all alteration zone.

Wall Rock Alteration and Genetic Environment of the Milyang Pyrophyllite Deposit (밀양 납석광상의 모암변질작용과 생성환경)

  • Lee, Kangwon;Moon, Hi-Soo;Song, Yungoo;Kim, In Joon
    • Economic and Environmental Geology
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    • v.26 no.3
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    • pp.289-309
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    • 1993
  • Milyang pyrophyllite deposit which was formed by hydrothermal alteration occurs in Late Cretaceous andesitic tuff in the Milyang area, Gyeongsangnamdo. The wall rock alteration and genesis of the Milyang pyrophyllite deposit were studied. The ore minerals are composed dominantly of pyrophyllite accompanied by small amounts of quartz, kaolinite, pyrite, dumortierite and diaspore. The alteration halo of this deposit can be divided into three zones on the basis of mineral assemblage; pyrophyllite, sericite and chlorite zone. The common mineral assemblages of each alteration zone are as follows: (1) pyrophyllite zone; pyrophyllite-quartz-kaolinite-pyrite-dumortierite-diaspore, (2) sericite zone; sericite-quartz-pyrite-kaolinite, and (3) chlorite zone; chlorite-plagioclase-quartz. Major element chemistry shows that characteristic depletion in MgO, CaO, and $Na_2O$ and relative increase in FeO from less altered chlorite zone to extensively altered pyrophyllite zone corresponding to variation in mineral assemblages. The paragenesis of ore minerals, oxygen isotope data, chlorite and illite geothermometry suggest that ore deposit was formed at about $250{\sim}330^{\circ}C$. Both hydrogen and silica activities are high in pyrophyllite zone. Potassium activity increases in sericite zone while hydrogen activity becomes low in chlorite zone. The pyrophyllite zone was formed relatively higher temperature than those of sericite and chlorite zones. The ore fluid was considered to be magmatic water in origin derived from the residual granitic magma which interacted with meteoric water.

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Mineralogical and Geochemical Characteristics and Designation of Key Beds for the Effective Surveys in the Jeonnam Clay Deposits (전남일원 점토광상의 광물 및 지화학적 특성과 효과적 탐사를 위한 건층의 선정)

  • Yoo, Jang-Han;Koh, Sang-Mo;Moon, Dong-Hyuk
    • Journal of the Mineralogical Society of Korea
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    • v.24 no.4
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    • pp.265-278
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    • 2011
  • Clayey ores of the Jeonnam province mainly consist of pyrophyllite (monoclinic), kaolinite (1T), and minor amounts of quartz, muscovite, and feldspars. Mineralogical studies revealed that two kinds of clay minerals were mainly produced from the volcanic sediments with similar ages and compositions. Kaolinite deposits sometimes contain neither diaspore nor corundum, but alunites are often found in the upper portions of the kaolin ore bodies. On the other hand, corundum and diaspore are commoner in the pyrophyllite deposits than the kaolin deposits. As ages of rock formations are becoming younger, amounts of pyrophyllite and kaolinite are rather radically decreased, and finally disappeared. But muscovite, quartz, and plagioclase feldspars are inclined to be preserved because of weak alteration. Most of clay ore bodies contain purple tuff beds on the uppermost portion, and silicified beds, tuff, and lapillistone are found in an ascending order in the most of clay quarries. Chemical analyses show that higher contents of $Al_2O_3$ might not necessarily be due to the argillization, since some tuffs contain higher $Al_2O_3$ contents originated from feldspars. $SiO_2$ contents are fairly higher in the silicified beds than in those of adjacent formations, which might have been introduced from the ore bodies. And $K_2O$ contents are obviously lower than those of $Na_2O$ and CaO in the ores and their vicinities. Ignition losses of some of clays represent much higher contents than those of the ordinary ones because of the sporadic presence of alunite, diaspore and corundum which are accompanied with lots of $SO_4$ and $Al_2O_3$ contents. REE (rare earth element) abundances of most of volcanics and clay ores show rather higher LREE (light rare earth elements) contents, and represent small to moderately negative Eu anomalies. Though most of ores ususally show milky white color, fine-grained and well bedded formations which could be easily discernible in the most of outcrop. But more distinct characteristics are desirable where rather massive ore bodies exist. Purple tuffs and silicified beds above the ore bodies would be useful as marker horizons/key beds since they have rather obvious lithology, extension and mineralogy than those of other adjacent formations.

Some Aspects of Kaoline-Pyrophyllite Deposits in Southern Korea (한반도(韓半島) 남부지역(南部地域)의 고령토-납석광상(鑛床) 생성기구(生成機構))

  • Sang, Ki Nam
    • Economic and Environmental Geology
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    • v.19 no.spc
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    • pp.43-52
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    • 1986
  • Kaolin-pyrophyllite are locally abundant in the three hydrothermal areas at Yangsan-Tongnae area, Hadong-Sancheong area and Haenam area, deposits are originally composed of acidic volcanic rocks and anorthositic rocks in Hadong-Sancheong area. The clay deposits are formed in the near shallow depths environment through acid hydrothermal alteration. Hadong-Sancheong halloysite deposits are formed by alteration of anorthosite. These differences are mainly on the various country rocks, geological structure and properties of hydrothermal solutions. Country rock is mostly underlain by rhyolitic tuffaceous and anorthositic rocks and a large number of clay deposits were formed during volcanic activity through upper Cretaceous-lower Tertiary. Intrusive rocks is broadly distributed in this area and clay deposits are variable in shapelayer and funnel typed. Zonal pattern of mineral assemblage is as follows, Yangsan-Tongnae deposits-kaolinite, pyrophyllite, dumortierite, andalusite and sericite, Hadong-Sancheong-mostly halloysite, and Haenam-dickite, pyrophyllite, alunite and diaspore. The difference in the zonal pattern of altered rock is considered to depend on differences in the initial acidity of related hydrothermal solution, initial acidity was controlled by the oxygen fugacity.

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A Geochemical Study on the Alunite Zone of the Nohwa Pyrophyllite Deposits (노화납석광산에서 산출되는 명반석대에 대한 지구화학적 연구)

  • Shin, Sang Eun;Park, Hong Bong
    • Economic and Environmental Geology
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    • v.25 no.4
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    • pp.373-378
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    • 1992
  • Ores of the Nohwa Pyrophyllite Deposits are composed mainly of pyrophyllite, kaolinite (dickite), quartz, pyrite, alunite and diaspore, etc. Alunite ore zone is located in the middle-lower parts of the deposits. Alunite ore zone with thickness of 20~30 cm is divided into two parts according to alunite contents: reddish and white greyish zone in the upper and lower parts, respectively. And the reddish alunitic ore has higher contents $Al_2O_3$, $K_2O$, $Na_2O$ and Ig.loss than the white greyish alunitic ore. Perhaps alunitization of the deposits occurred in the vicinity of paleo-ground water table. EPMA data shows that sodium replaces potassium considerably in alunite structures and that the hydrothermal solution probably contains considerable amounts of sodium.

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A Study on the Ceramic and Clay Mineral Resources and its Genesis in Cheonnam Province and Hadong Area (전남(全南)과 하동지역(河東地域)에서 산출(産出)하는 요업(窯業) 및 점토(粘土) 광물자원(鑛物資源)과 성인(成因)에 관(關)한 연구(硏究))

  • Park, Hong Bong;Park, Bae Young;Shin, Sang Eun;Huh, Min
    • Economic and Environmental Geology
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    • v.21 no.1
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    • pp.1-15
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    • 1988
  • This is a study on the mineral compositions, SK numbers of refractoriness and the genesis of the clay mineral deposits in Cheonnam Province and Handong area. 1. Jindo kaolin deposits: Chief clay minerals of the deposits are kaolinite, quartz and alunite. The SK number of the ore is from $34^+$(the highest) to 27(the lowest). On the genesis of the deposits some geologists believe that the deposits were formed by the alteration of the siliceous tuff. But the deposits seems to be formed by the hydrothermal alteration of the rhyolite lava beds. This area is formed by alternative beds of tuff; and kaoline deposits. 2. Hadong area: Chief mineralogy of Hadong kaolin area is $10{\AA}$ halloysite and kaolinite. The SK number of some of the ore is up to $36^+$. The theoretic SK number of kaolinitic composition is 35. So one of the highest alumina minerals of gibbsite is formed in the ores of $36^+$ SK numbers. 3. Hampyong kaolin deposits: Most of kaolin has black color. The chief minerals are kaolinite, quartz and muscovite. Some of the kaoline contains rutile crystals. SK number ranges from 30 to 17. The kaolin deposit is formed by the transported sedimentation in lower part of the seashore. 4. Jangsan kaoline deposits: Chief minerals of the kaolin is kaolinite, quartz and muscovite. Some kaoline contains small crystals of pyrite. This area consists almost of the tuffs. Kaolin deposits also would be formed by the alteration of the tuffs. 5. Nohwado pyrophyllite deposits: Quartz and pyrophyllite are chief minerals. SK number of the ore ranges from 32 to 30. The pyrophyllite deposits would be formed by the hydrothermal alteration of the rhyolitic lava beds. This area consists of alterative beds of tuffs and rhyolitic lavas. 6. Songsuk pyrophyllite deposits: Chief minerals are quartz, kaolinite, pyrophyllite and iron oxides. In the pyrophyllite deposits egg-like inclusions of diaspore and kaolinite in composition. This area almost consists of tuffs. Several faults are developed and along the fault the tuff would begin to alter to pyrophyllite and some parts to diaspore and kaolinite nodules by the acts of hydrothermal solution.

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A Study on the Habitat Environment and Mutualism with Ants of Genus Melampyrum - focusing on M. roseum, M. setaceum var. nakaianum and M. roseum var. ovalifolium in Kangwondo - (며느리밥풀속 서식지 특성 및 개미와의 공생관계에 관한 연구 - 강원도의 꽃며느리밥풀, 새며느리밥풀 및 알며느리밥풀을 중심으로 -)

  • Lee, Jae-Hyeon;Lyu, Dong-Pyo;Kim, Gab-Tae
    • Korean Journal of Environment and Ecology
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    • v.30 no.2
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    • pp.139-145
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    • 2016
  • To search for habitat characteristics of myrmecochory Melampyrum species, diaspores and related ant species, habitat characteristics, collecting fruits and diaspores of three Melampyrum species, cafeteria experiments, and the related ant species were studied from May 2012 to November 2014. The habitat of Melampyrum species was south-facing open forest edge with slightly acidic soil and relatively shallow soiil layers. Major plants coexisting with Melampyrum species were four woody species including Quercus mongolica and four herbaceous species including Carex siderosticta. These Plants might be host plants of the Melampyrum species. The shape of the diaspore was an oval seed attached to the white cap on one side. Significant differences is proved between three plant species in weight of diaspores, seeds and and elaiosome ratios. Mean values of diaspores weight showed 10.6mg, 8.0mg and 7.2mg in M. setaceum var. nakaianum, M. roseum var. ovalifolium and M. roseum, respectively. The heaviest elaiosome is M. roseum var. ovalifolium with 1.2mg, M. setaceum var. nakaianum has 1.0mg and the lightest elaiosome is M. roseum with 0.8mg. Major ant species frequently transporting the diaspores of Melampyrum species are Myrmicinae four species; Myrmica kotokui, M. excelsa, Myrmecina nipponica and Aphaenogaster japonica. Further studies on Melampyrum species, hemiparasite annual myrmecochorous plant, and related ant species should be needed.