共查询到20条相似文献,搜索用时 264 毫秒
1.
The G. Abu Garadi area is covered mainly by metasediments, alkali feldspar granites and stream sediments. The alkali feldspar granite is traversed by a major strike-slip fault trending in an N-S direction as well as two subordinate sets of faults trending NW to WNW for the first one and NE for the second one. These faults represent the shear zones affected by magmatic (syngenetic) as well as hydrothermal (epigenetic) activities causing alteration of the granitic rocks. The most common alteration features are albitization, greisenization and koalinitization. The mass balance calculations of the studied altered samples show enrichments in Zr, Y, Ni, U, Th and Ga and depletions in Zn, Sr, Nb, Ba, Pb, Cu and V. Only the greisenized samples exhibit a significant enrichment in Nb, ∑REE budget and pronounced lanthanide tetrad effect (M-type), especially TE1,4, while weakly expressed tetrad effects are for the other albitized and koalinitized samples. Mineralogically, the common accessory minerals in the altered samples include samarskite-(Y), betafite, uranothorite, zircon, fluorite and cassiterite. The greisenized granites contain high eU and eTh than the other altered types, where they are characterized by an assemblage of the radioactive minerals; samarskite-(Y), betafite, uranothorite in addition to zircon. The inter-element relationships between U and Th and also their ratios illustrate that the radioelement distribution in these granites is mainly governed by magmatic processes, in addition to post-magmatic ones. The distribution of chemical elements and the fractionation of some isovalents within the shear zone are largely controlled by the newly formed mineral phases. With respect to uranium mobilization, uranium migrated from the host alkali feldspar granites of G. Abu Garadi, while the shear zones acted as traps for the migrated uranium. Moreover, U migrated in the shear zone during greisenization and albitization, and migrated out during koalinitization. 相似文献
2.
《International Geology Review》2012,54(8):1233-1241
Crystallochemical interpretations of composition diagrams (fig. 1) which show muscovites as mixtures of rnuscovitic, celadomitic, and trioctahedral (Mg-Fe-Li) minerals, bring out the following relations: a) a dependence of Li content upon the degree of filling of the octahedral positions and its correlation with the content of the ferromagnesial constituents; b) acidity-alkalinity controls of variations in the K :Rb ratio; c) composition and acidity-alkalinity of the postmagmatic solution - rock system as controlling factors in compositional variations of muscovites. Paragenetically, the following groups are identifiable on such premises: a) lithium muscovites in the zones of amazonite granites; b) muscovites in the outer zones of albitization and greisenization; c) muscovites in the inner zones of intensive albitization and greisenization. -- V .P. Sokoloff. 相似文献
3.
南岭区域不同时期花岗岩体及与其有关的稀有金属矿床的形成,除了受区域混合岩化作用以及区域花岗岩浆分异演化作用的制约外,还受到遍布于南岭区域的每一个多期多阶段复式花岗岩体的自身分异演化作用的深刻的影响。在那些复式岩体中,只有在岩体分异演化的晚期阶段,才会出现稀有金属花岗岩母岩。现仅将本区域复式岩体和成矿母岩的分异演化及其与成矿作用的关系论述如下。 相似文献
4.
《International Geology Review》2012,54(6):814-827
This study is concerned with formation of minerals containing Li, Be, Cb, Ta, W, Bi, and other elements. The distribution of 35 accessory minerals was examined in biotite granite massifs occupying an area of 10 km2 . These minerals formed during the late magmatic stage and mainly during the subsequent metasomatic processes, such as rnuscovitization, early albitization, greisenization, late albitization, and microclinization. Tantalum and columbium mineralization is associated with rocks intensely altered by the processes of alkaline metasomatism and reflects differentiation of rare earth's mineralization in marginal granite massifs. Minerals containing Be, W, Bi, Sn, and Mo were deposited during the acidic stage of metasomatism. The subsequent alkaline stage of metasomatism resulted in leaching of these elements and their redeposition outside the massif. The paper is of interest as a guide in prospecting for tantalum and columbium in granitic intrusions.--E. A. Alexandrov. 相似文献
5.
New fieldwork, mineralogical and geochemical data and interpretations are presented for the rare-metal bearing A-type granites of the Aja intrusive complex(AIC) in the northern segment of the Arabian Shield. This complex is characterized by discontinuous ring-shaped outcrops cut by later faulting. The A-type rocks of the AIC are late Neoproterozoic post-collisional granites, including alkali feldspar granite, alkaline granite and peralkaline granite. They represent the outer zones of the AIC, surrounding a core of older rocks including monzogranite, syenogranite and granophyre granite. The sharp contacts between A-type granites of the outer zone and the different granitic rocks of the inner zone suggest that the AIC was emplaced as different phases over a time interval, following complete crystallization of earlier batches. The A-type granites represent the late intrusive phases of the AIC, which were emplaced during tectonic extension, as shown by the emplacement of dykes synchronous with the granite emplacement and the presence of cataclastic features. The A-type granites consist of K-feldspars, quartz, albite, amphiboles and sodic pyroxene with a wide variety of accessory minerals, including Fe-Ti oxides, zircon, allanite, fluorite, monazite, titanite, apatite, columbite, xenotime and epidote. They are highly evolved(71.3–75.8 wt% SiO_2) and display the typical geochemical characteristics of post-collisional, within-plate granites. They are rare-metal granites enriched in total alkalis, Nb, Zr, Y, Ga, Ta, REE with low CaO, MgO, Ba, and Sr. Eu-negative anomalies(Eu/Eu* = 0.17–0.37) of the A-type granites reflect extreme magmatic fractionation and perhaps the effects of late fluid-rock interactions. The chemical characteristics indicate that the A-type granites of the AIC represent products of extreme fractional crystallization involving alkali feldspar, quartz and, to a lesser extent, ferromagnesian minerals. The parent magma was derived from the partial melting of a juvenile crustal protolith with a mantle contribution. Accumulation of residual volatile-rich melt and exsolved fluids in the late stage of the magma evolution produced pegmatite and quartz veins that cut the peripheries of the AIC. Post-magmatic alteration related to the final stages of the evolution of the A-type granitic magma, indicated by alterations of sodic amphibole and sodic pyroxene, hematitization and partial albitization. 相似文献
6.
Bassam A. Abuamarah Mokhles K. Azer Amany M.A. Seddik Paul D. Asimow Pedro Guzman Brent T. Fultz M.J. Wilner Nathan Dalleska Mahmoud H. Darwish 《Chemie der Erde / Geochemistry》2022,82(1):125840
The Homrit Akarem granitic intrusion (HAGI) outcrops near the western edge of the south Eastern Desert basement exposure in Egypt. It is a composite of two cogenetic intrusive bodies: an early albite granite phase shallowly emplaced at the apex of a magmatic cupola, and a later subjacent pink granite phase with a marginal zone of muscovite granite and better preservation of magmatic features. Mineral chemistry of primary biotite and garnet, together with whole-rock chemistry, identify the HAGI as a highly fractionated A-type peraluminous intrusion. The chemistry of F-dominant, Li-bearing, Fe3+-rich primary magmatic mica in the pink granite resembles that typically found in highly evolved Nb-Y-F pegmatites. The HAGI is the evolved product of a primary magma generated by partial melting of juvenile crust of the Arabian-Nubian Shield (ANS), emplaced along a regional strike-slip fault system that promoted its ascent. The main emplacement mechanism and evolutionary sequence of the HAGI was magmatic, although secondary minerals and textures resulting from hydrothermal fluid interactions are observed, especially at its margins. Primary columbite-(Mn) crystallized from melt and was partly replaced by secondary fluorcalciomicrolite. The high fluorine content of magmatic fluids exsolved from the intrusion is indicated by quartz-fluorite veins, greisenization, albitization, and F-bearing secondary oxide minerals. The magmatic derivation of this fluid is demonstrated by the F-dominant primary mica, a siderophyllite-polylithionite solid solution commonly known as zinnwaldite. The chemistry of zinnwaldite constrains the F/OH activity ratio and oxygen fugacity of its parental melt and thereby resolves the ambiguity between pressure and the effects of F in controlling the normative quartz content of rare-metal granites. The HAGI is less mineralized than the post-collisional rare-metal granites found further east in the south Eastern Desert, replicating a trend observed previously in the central Eastern Desert and suggesting that east-west zoning in rare metal enrichment is a persistent feature across latitudes at the western edge of the ANS. 相似文献
7.
《International Geology Review》2012,54(12):1623-1630
Niobium-bearing granites in the Soviet Union are described as associated with apices of large granitic intrusives, and it is possible to trace their field relationships into nearby granitic intrusives. Albitization of microcline and quartz,. uneven distribUtion of rock-forming minerals, and rare metal minerals are suggested as metasomatic criteria. Most importantly, niobium and zircon mineralizations have close paragenetic association with the albitization and decrease with depth into the associated granitic intrusives. Hence, this paper presents a method of formation of niobiumcontaining granites resulting from the albitization and metalization of the hoods or apices over igneous granitic bodies. The process is described as a metasomatic one and the author feels that similar niobium-containing granites elsewhere in the world which have been interpreted as magmatic in origin should actually be metasomatic instead and derived by intensive albitization and rare-metal metasomatism, a process which is described and prescribed for the niobium-bearing granites of the U.S.S.R. --Robert M. Hutchinson. 相似文献
8.
内蒙锡林浩特石灰窑铌钽矿床是我国最近发现的一处大型稀有金属矿床.通过详细分析该矿床地质特征、控矿因素及其成因,主要获得如下认识:1)该矿床矿石属于碱性花岗岩系列;2)矿石中的铌钽矿物主要包括铌锰矿、铌钽铁矿、铌钽锰矿、锡锰钽矿和细晶石;3)该矿床可能是前期花岗岩岩浆结晶和后期热液交代综合作用的产物,热液交代是铌钽铷主要成矿阶段;4)从铌钽铷矿化成因和富集规律可知,金属矿化与钠长石化、云英岩化密切相关,且矿体赋存于蚀变花岗岩中,分布上严格受北东向构造的控制,因此,钠长石化、云英岩化的花岗岩是寻找上述稀有金属的直接找矿标志,同时石灰窑燕山早期花岗岩出露地段很可能是寻找稀有金属矿的有希望地区;5)围绕石灰窑花岗岩主岩体周围寻找晚期侵位的钠长石化花岗岩小岩体的隆起和浅部部位,是寻找钽铌铷矿的基本思路. 相似文献
9.
D. Küster 《Mineralium Deposita》1990,25(1):25-33
he Sn-(Nb, Ta) mineralization of the Wamba field (central Nigeria) occurs in muscovite-quartz-microcline pegmatites, which are related to the late-orogenic Pan-African (f 550 Ma) "Older Granites". The emplacement of granites and pegmatites was controlled by late Pan-African shear tectonics. The granitoid magmatism was multiphase and has produced peraluminous biotite granite, biotite-muscovite granite, and muscovite granite plutons. Sodic metasomatism has altered highly evolved granite cupolas and many of the pegmatite dikes. The pegmatitic mineralization of predominantly cassiterite is closely associated with albitization. Chemical data of granites and granitic and pegmatitic muscovites show that Rb, Cs, Sn, Nb, and Ta are enriched during both magmatic and postmagmatic evolution, with highest contents of these elements in early muscovites of the albitized and mineralized pegmatites. Trace-element chemistry of the pegmatitic muscovites reveals a chemical zonation of the pegmatite field related to the late-orogenic shear system. 相似文献
10.
《International Geology Review》2012,54(10):1144-1153
The geochemical features of hydrothermal-pneumatolytic rare element deposits are discussed on the basis of a natural connection between high temperature metasomatism phenomena and concentration processes of some rare elements. Two kinds of metasomatic processes are most interesting from the view-point of rare elements (albitization and greisenization). Li and Rb are concentrated in zinnwaldite-bearingalbitized granites and greisens. Nb, Ta (in columbite, pyrochlore, microlite, hatchettolite), Zr (in malacone zyrtolite), Be (beryl) are concentrated in albitized and greisenized granites. The beryllium deposits are closely connected with greisens of different composition, and quartz-greisen veins. The fluorite-bearing metasomatic rocks among carbonate rocks are characterizedby accumulations of Be (chrysoberyl, phenacite, taateite, sianhualite), Li (Li - margarite), Sn (cassiterite). The character of postmagmatic alterations of intrusive and wall rocks is a valuable indicator of the possibility of concentration of different rare elements.—Auth. English Summary. 相似文献
11.
《Lithos》2007,93(1-2):89-106
The Salvezines Massif in northern French Pyrénées has undergone extensive albitization. The massif consists of gneisses and a leucogranite hosted in Paleozoic sediments (schists and carbonates). The leucogranite was emplaced at the end of the Hercynian orogeny. The granite underwent monazite fractionation during magmatic stages, which induced lowering of REE and Th contents in the most evolved rocks. Hydrothermal alteration during late magmatic stages is also identified through the development of a tetrad effect in the REE patterns of the granite and through the fractionation of ratios like Zr/Hf out of the CHARAC (CHarge RAdius Controlled) range. The granite underwent partial to complete sub-solidus albitization. Progressive metasomatic overprint induced metasomatic replacement of feldspars into albite and dissolution of quartz (episyenitization) together with new albite formation. Hydrothermal muscovite with a sheaf-like structure sometimes crystallised in albitites. Inherited muscovites from magmatic stage and newly formed muscovites from albitites have distinct chemical compositions with the latter being much more phengitic. The initial peraluminous chemistry of the leucogranite was lost during albitization and composition evolved towards a pure albite one (A/CNK = 1). Albitization induced gains in Na and Al, and losses in Si and K. Leaching of REE and U is also identified during albitization, as well as the non-CHARAC behaviour of some elements. δ18O values of quartz and muscovite in albitized granites are in the magmatic range (about 12 and 9.5‰, respectively). Feldspars acquired high δ18O values during albitization (up to 15‰). Muscovite grains from albitites have higher δ18O values than inherited ones and tend towards isotopic equilibrium with albite. The albitizing fluids have interacted with high-δ18O rocks (probably local carbonates) prior to alter granite. Muscovites inherited from magmatic stages display very characteristic disturbed 39Ar–40Ar age spectra with saddle-shapes when a muscovite associated with albitization provided a plateau age at 117.5 Ma for this alteration event. Albitization in the Salvezines Massif just preceded the regional talc/chlorite hydrothermal mineralization. Both events might then represent two outward signs of a huge hydrothermal system at the time of the rotation of the Iberian plate around Europe. The North Pyrenean Metamorphism is identified by 39Ar–40Ar analyses at ca. or younger than 100 Ma. 相似文献
12.
Vanja Bi?evac Erwin Krenn Dra?en Balen Fritz Finger Kadosa Balogh 《Mineralogy and Petrology》2011,102(1-4):163-180
Granitic pebbles occurring in the Permotriassic metasedimentary sequence of eastern Papuk, Slavonian Mountains, Croatia, were recognized to represent a coherent group of felsic, muscovite-albite metagranites. Fabrics, modal compositions and geochemical data imply that the rocks are derivatives of S-type granites formed through a combination of igneous and subsequent metasomatic processes. A Variscan formation age is demonstrated by K-Ar dating on coarse muscovite (range of 329?C317?Ma) as well as by electron microprobe based Th-U-Pb monazite dating (338?±?15?Ma). Additionally to the Variscan metasomatic processes of albitization and greisenisation, which led to an almost complete replacement of K-feldspar and biotite by albite and coarse muscovite, pebbles were affected by a younger phase of alteration resulting in the formation of a fine-grained sericitic matrix. The fine sericite yields K-Ar ages of 91?C83?Ma. A substantial reheating of the rocks during the Cretaceous is also indicated by the growth of new monazite dated at 106?±?10?Ma. Yttrium-contents of the Cretaceous monazite from the granite pebbles (0.3?C0.9?wt% Y2O3) are compatible with metamorphic temperatures of ~350?C400°C. These data confirm recent concepts according to which large parts of the Slavonian Mountains received a pervasive Cretaceous low-T regional metamorphic overprint. Furthermore, the pebbles provide useful information on the nature of the eroded Variscan crust of the Tisia Terrain, which has obviously contained considerable amounts of evolved high-level S-type granites modified through albitization and greisenization. 相似文献
13.
华南与燕山期花岗岩有关的稀土、稀有、有色金属矿床成矿系列 总被引:19,自引:4,他引:19
本文所述及的地区在地质构造上属黄汲清先生所划分的华南加里东褶皱带的范围。该区在下古生代时期为冒地槽,志留纪时发生加里东运动,褶皱隆起,结束了地槽阶段。加里东运动之后,此区仍不断经受构造运动,成为比较典型的构造活化区。主要表现为:在海西时期一些地带强烈断陷,堆积了巨厚的沉积物,如湘南、河池—南丹等地区;印支—燕山时 相似文献
14.
A.M.R. Neiva 《Chemical Geology》1974,13(4):295-308
Greisenization of a muscovite-biotite albite granite of Alijó-Sanfins, northern Portugal, is studied for both major and trace elements. The principal tin-tungsten mineralization of the region is connected with this granite and the greisenization is accompanied by an increase in Cl, F, W, Nb, Sn, Pb and Rb. Cassiterite is the main carrier of Sn. Muscovite is the concentrator of Cl and F. The muscovite of the greisenized granite contains more Cl, F, W and Nb than the muscovite of the parental granite, but the former contains less Sn. Sn content of the muscovite of the greisenized granite is higher than that of the biotite of the parental granite; W content is similar or higher.When the greisenization is accompanied by albitization, the oxides and trace elements behave in a similar way to that found only with greisenization, except that there is a decrease of Ni and Rb. Li, Zr, Sr, Ba and Rb decrease as albitization increases. 相似文献
15.
M. A. Romanova 《Mathematical Geology》1987,19(7):613-653
Adamellites, granite porphyries, and white granites of the western dome of the Arga-Ynnykh-Khaya Massif (Yakutiya) have been studied with emphasis on the white granites. The main features of its magmatic crystallization and initial transformation have been obtained by investigating the intensity of transformations using stochastic Markov models. The most widespread transformation is albitization. Two varieties exist. First, and most common, is development of a secondary albite crystal between two primary grains of potassium feldspar. Second, secondary albite has developed between primary quartz grains. Both variants have definite probabilities of occurrence. Less commonly, but with a constant probability, a secondary quartz grain forms as an intergrowth between two grains of potassium feldspar. 相似文献
16.
赣北大湖塘钨矿成岩成矿物质来源的矿物学和同位素示踪研究 总被引:9,自引:3,他引:6
赣北大湖塘超大型钨矿位于九岭钨多金属矿集区东部。本文对大湖塘钨矿石门寺矿段矿物学特征进行了系统的研究,结合同位素示踪分析了成岩成矿物质来源。岩相学研究表明,石门寺矿段蚀变以黑云母化、云英岩化及碱交代(钾长石化、钠长石化)作用为主。黑云母化的过程中释放了一定量的挥发分,云英岩化和碱交代作用除萃取部分的成矿物质外,使岩体中的Ca2+大量活化迁移。晋宁晚期黑云母花岗闪长岩与燕山中期似斑状花岗岩、花岗斑岩矿物成分研究表明:(1)斜长石普遍富钠,似伟晶岩壳主晶为钾长石,客晶为钠长石;(2)黑云母具有富铁贫镁的特点,黑云母花岗闪长岩及似斑状花岗岩中的黑云母均为铁质黑云母,花岗斑岩中黑云母为铁叶云母。黑云母成分指示大湖塘石门寺矿段花岗岩类均为过铝质S型花岗岩,成岩物质均为壳源。石英氢、氧同位素及黑钨矿氧同位素研究表明成矿流体为岩浆水。黄铜矿、辉钼矿硫同位素表明成矿流体中硫来自于岩浆。结合前人研究成果,本文认为富钨的双桥山群浅变质岩在燕山中期发生了部分熔融,产生了高分异的富含钨元素及挥发分的岩浆,岩浆分异演化过程中形成的含矿热液使侵入体自身及围岩发生大规模的蚀变作用,进而在燕山中期侵入岩的内外接触带形成了大湖塘超大型钨多金属矿床。 相似文献
17.
The giant Dahutang tungsten (W) deposit has a total reserve of more than 1.31 Mt WO3. Veinlet-disseminated scheelite and vein type wolframite mineralization are developed in this deposit, which are related to Late Mesozoic biotite granite. Four major types of alterations, which include albitization, potassic-alteration, and greisenization, and overprinted silicification developed in contact zone. The mass balance calculate of the four alteration types were used to further understanding of the mineralization process. The fresh porphyritic biotite granite has high Nb, Ta, and W, but low Ca and Sr while the Jiuling granodiorite has high Ca and Sr, but low Nb, Ta, and W concentrations. The altered porphyritic biotite granite indicated that the Nb, Ta, and W were leached out from the fresh porphyritic biotite granite, especially by sodic alteration. The low Ca and Sr contents of the altered Neoproterozoic Jiuling granodiorite indicate that Ca and Sr had been leached out from the fresh granodiorite by the fluid from Mesozoic porphyritic biotite granites. The metal W of the Dahutang deposit was mainly derived from the fluid exsolution from the melt and alteration of W-bearing granites. This study of alteration presents a new hydrothermal circulation model to understand tungsten mineralization in the Dahutang deposit. 相似文献
18.
19.
本文对额尔古纳地块北段的富源沟林场含电气石花岗岩体进行了LA-ICP-MS锆石U-Pb同位素定年和岩石地球化学研究。含电气石花岗岩的锆石206Pb/238U年龄加权平均值为458±4 Ma(MSWD = 1.8),表明含电气石花岗岩形成于晚奥陶世初期。岩石地球化学特征表明该花岗岩应为高钾钙碱性系列(K2O = 3.45%~4.83%),铝饱和指数A/CNK>1.1(1.11~1.28),属强过铝质的S型花岗岩,富集Th、U、Rb、K等元素,相对亏损Sr、Ba、 Nb、Ti、 P、Eu等元素,是同碰撞构造背景下地壳部分熔融的产物。结合前人研究资料和本文数据提出,富源沟林场含电气石花岗岩的形成与额尔古纳地块和兴安地块的碰撞拼贴有关,形成于额尔古纳地块与兴安地块碰撞拼贴作用所引发的碰撞构造背景,由于地缘因素,构造岩浆作用滞后于额尔古纳地块东缘的碰撞拼贴时限,是额尔古纳地块和兴安地块碰撞拼贴的远程效应。 相似文献
20.
Summary Granite-hosted tantalum mineralization was studied in the apical part of the Cínovec (Zinnwald) granite stock (eastern Kruné hory, Czech Republic). Samples of granite and greisen from drill hole CS-1 (1596m deep), situated in the centre of the granite body were analysed chemically and examined by electron microprobe. The apical, mainly lepidolite granite with 24 to 212 ppm Ta contains Ta-rich Mn columbite, uranmicrolite and strueverite (tantalian rutile). During greisenization the contents of Ta decreased or remained the same, but the newly formed cassiterite has elevated contents of Ta, probably due to remobilization from albitized granites. Niobium and tantalum mineralization can be linked with both magmatic and postmagmatic stages of granite evolution. Ta-rich columbite formed as a result of albitization dominant at the top of the granite cupola, whereas magmatic Nb-rich columbite is present throughout the entire profile of the granite stock.The Cínovec granite stock is similar to some Palaeozoic Ta-bearing granite stocks in the Far East of Russia (Vosnesenka, Pogranichnyi) which are characterized by a vertical sequence of lepidolite, zinnwaldite and protolithionite granites. It shows minor similarities with Mesozoic amazonite-bearing granites in Transbaikalia (Etyka, Orlovka) and differs petrologically and mineralogically from the Palaeozoic lepidolite granite of Beauvoir (Échassieres) in France.
With 11 Figures 相似文献
Tantalvererzung im oberen Teil des Cínovec (Zinnwalder) Granitstocks
Zusammenfassung Eine granitgebundene Tantalvererzung wurde im oberen Teil des Cínovec (Zinnwalder) Granitstocks (östliches Erzgebirge, Tschechische Republik) untersucht. Granit- und Greisenproben aus der Mitte des Granitkörpers wurden chemisch und mittels Elektronenstrahl-Mikrosonde analysiert. Der apikale Lepidolitgranit mit 24-212 ppm Ta führt Ta-reichen Mangancolumbit, Uranmikrolit und Strueverit (Tantalrutil). Im Verlauf der Vergreisung wurden die Tantalgehalte erniedrigt oder blieben gleich. Nur der neugebildete Kassiterit zeigt, wahrscheinlich als Folge der Remobilisierung aus den albitisierten Graniten, erhöhte Tantalgehalte. Die Niob- und Tantalmineralisation ist an das magmatische und postmagmatische Stadium der Granitentwicklung gebunden. Tantalreiche Columbite wurden durch die Albitisierung im Apikalteil des Granitstockes gebildet, während die niobreichen Columbite des magmatischen Stadiums über das ganze Bohrprofil hinweg vorkommen.Der Zinnwalder Granitstock ist einigen paläozoischen Granitstöcken mit Tantalmineralisation im fernen Osten von Russland (Voznesenka, Pogranichnyi) ähnlich, welche durch eine vertikale Zonierung von Lepidolit-, Zinnwaldit- und Protolithionitgranit charakterisiert sind. Der Granitstock zeigt wenig ähnlichkeiten mit den mesozoischen Amazonitgraniten in Transbaikalien (Etyka, Orlovka) und unterscheidet sich petrologisch und mineralogisch vom paläozoischen Granit aus Beauvoir (Échassieres) in Frankreich.
With 11 Figures 相似文献