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红柳沟北镁铁-超镁铁质岩体位于柴达木陆块北部的欧龙布鲁克微陆块东北缘,呈岩墙状,出露面积约0.1km~2,由方辉橄榄岩、橄榄二辉岩、含长单辉橄榄岩、橄榄辉长苏长岩、暗色橄榄辉长岩、苏长岩、辉长岩等组成,各岩相带在空间上呈渐变过渡关系。电子探针分析结果显示,岩体的主要造岩矿物为贵橄榄石、古铜辉石、普通辉石和斜长石,并且各矿物的结晶温度为1 307~1 122℃。岩体钛铁矿化明显,主要金属矿物为钛铁矿、钛磁铁矿和磁铁矿。利用橄榄石Fo最高值反演出原生岩浆MgO含量为8.49%,FeO含量为10.03%,TiO_2含量为1.63%,为普通玄武质岩浆。通过综合研究各矿物形成的温度和氧逸度条件,认为岩浆从橄榄石结晶到普通辉石结晶,其氧逸度是缓慢升高的,并且氧逸度是控制红柳沟北岩体Ti-Fe氧化物结晶的主要因素。 相似文献
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西昆仑大红柳滩稀有金属矿田出露大面积的复式花岗岩体和数千条花岗伟晶岩脉,含锂和富锂伟晶岩脉分布在巴颜喀拉山群、石英闪长岩、黑云母二长花岗岩的内部以及二云母二长花岗岩和石榴子石电气石二云母二长花岗岩的边缘或者外围,围绕复式岩体存在明显的矿物组合分带特征。富锂伟晶岩与二云母二长花岗岩、石榴子石电气石二云母二长花岗岩的空间关系更加密切。野外地质特征和精确的年代学数据显示:复式岩体主要由先后侵入的片麻状石英闪长岩、黑云母二长花岗岩和二云母二长花岗岩组成,锆石U-Pb年龄分别为214.7~213.7 Ma,214~213 Ma和209.6~208.8 Ma;花岗伟晶岩的锡石、锆石、独居石、铌钽矿物U-Pb年龄分别为223~207.4 Ma,显示花岗伟晶岩与复式岩体具有密切的时空关系。石英闪长岩、黑云母二长花岗岩和二云母二长花岗岩具有不同的岩石地球化学、εHf(t)值、εNd(t)值和δ7Li同位素特征,显示三者来源于不同的岩浆源区。二云母二长花岗和石榴子石电气石二云母二长花岗岩具有相似的εHf(t)值(-9.49~-4.47)和εNd(t)值(-8.64~-7.81),表明其源于下地壳物质的部分... 相似文献
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杜尔基花岗岩基位于大兴安岭中南段,且处在大兴安岭一个大型多金属矿集区(Au-Ag-Cu-Zn-Sn-Fe)中。区内岩浆活动复杂,成矿元素多样,其中,杜尔基花岗岩是本地区出露面积较大(约190 km2)的岩体之一。为厘清区内不同花岗质岩石的源区特征及其与成矿的关系,文章对杜尔基地区花岗岩的主要岩性单元二长花岗岩和正长花岗岩进行了系统的矿物学和Hf同位素组成研究。结果表明:二长花岗岩的主要矿物为斜长石(32%)、钾长石(45%)、石英(20%),次要矿物为黑云母、角闪石和辉石等暗色矿物(3%);正长花岗岩的主要组成矿物为石英(10%~15%)、钾长石(60%~70%)和斜长石(30%),次要矿物为黑云母(5%),在这两种花岗岩中均广泛发育条纹长石。黑云母主要为铁质黑云母和铁叶云母,角闪石为韭闪石和普通角闪石,辉石为普通辉石。矿物学特征均指示杜尔基花岗岩主要为I型花岗岩。二长花岗岩εHf为-1.6~17.6,正长花岗岩εHf为-3.3~12.2。杜尔基花岗岩Hf同位素特征指示其源区为新生的地壳物质,可能是来自地幔的底侵玄武质岩浆发生重熔的结果。 相似文献
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胶西北高Ba-Sr郭家岭型花岗岩岩浆混合成因:岩石地球化学与Sr-Nd同位素约束 总被引:9,自引:8,他引:1
胶东是我国最重要的金矿集区,拥有全国近四分之一的金资源储量,其95%以上赋存在玲珑型和郭家岭型花岗质岩体内。然而,关于花岗岩类的成因,尤其是早白垩世郭家岭型花岗质岩石成因仍存有争议。郭家岭型花岗岩质岩体自西向东包括三山岛岩体、新城岩体、上庄岩体、北截岩体、丛家岩体和郭家岭岩体等。其中,新城岩体是迄今为止在胶东矿集区内发现的唯一赋存超大型金矿床的郭家岭型花岗质岩体,呈北东向岩株状侵入到玲珑型花岗岩体中,主要由石英二长岩和二长花岗岩组成,二者之间呈渐变过渡关系,为同期岩浆活动作用的产物。为了厘定新城岩体的岩石成因,揭示胶西北早白垩世高Ba-Sr郭家岭型花岗岩形成的地球动力学背景,论文对新城岩体进行了详实的野外地质调查,系统采集了二长花岗岩样品,分析了其矿物化学、元素地球化学和Sr-Nd同位素组成。新城二长花岗岩的SiO2含量变化于70.89%~73.35%,相对于传统的I、S、M和A型花岗岩具有高的全碱(K2O+Na2O=7.03%~8.68%)、Sr(640×10-6)、Ba(853×10-6)和轻稀土(LREE)含量(65.43×10-6),低的Al2O3(14.41%~15.54%)、MgO(0.21%~0.62%)、Rb(103×10-6)、Th(10.3×10-6)、U(5.87×10-6)、Nb(6.14×10-6)、Ta(0.599×10-6)、Y(10.3×10-6)和重稀土(HREE)含量(5.3×10-6),LREE富集、HREE相对亏损(LREE/HREE=15.03~42.05),轻、重稀土元素分馏明显[(La/Yb)N=20.32~198.79],无明显的铕异常,明显亏损Nb、Ta、P、Ti等高场强元素,显示出典型的高Ba-Sr花岗岩所具有的地球化学特征,属高Ba-Sr花岗岩。二长花岗岩中的斜长石和钾长石斑晶均呈典型的反环带结构,其中斜长石属于更长石,An值介于12.87~22.91,钾长石属于正长石,Or值为81.24~93.69。Sr-Nd同位素分析表明二长花岗岩的初始87Sr/86Sr(Isr)和εNd(t)分别为0.71071~0.71172和-21.3~-17.1,二阶段亏损地幔模式年龄(tDM2)为2310~2648Ma。上述元素地球化学、矿物化学和Sr-Nd同位素数据分析表明,高Ba-Sr新城二长花岗岩是胶北地体基底岩石胶东群变质岩部分熔融形成的酸性岩浆与早先幔源岩浆底侵作用形成的新生镁铁质地壳部分熔融形成的中性岩浆混合作用的结果,古太平洋板块向华北板块俯冲及其伴生的软流圈物质上涌可能是胶西北高Ba-Sr郭家岭型花岗岩形成的机制。 相似文献
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河北承德的大庙斜长岩杂岩体是我国著名的岩体型斜长岩杂岩体,其苏长岩可分为两种类型,即早期苏长岩和晚期辉长—苏长岩。早期苏长岩已发生钠长绿帘角闪岩相变质;晚期辉长—苏长岩变质程度较弱,含有斜长石、斜方辉石和单斜辉石巨晶,主要呈岩墙、岩脉或小岩体侵入于斜长岩杂岩体中,与铁磷矿紧密相关。研究表明:晚期辉长—苏长岩主要由中性斜长石、反条纹长石、单斜辉石、斜方辉石、黑云母、磷灰石、钛磁铁矿和磁铁矿等组成,依矿物含量、成分和结构的差异可分为淡色辉长岩、单斜辉石苏长岩、斜方辉石辉长岩以及含铁磷矿对应岩石。其Ba、Sr和轻稀土富集、Eu弱负异常或无异常特征,表明晚期辉长—苏长岩岩浆不是形成斜长岩的基性岩浆,而是经斜长石分离结晶后的残余岩浆。Sr-Nd-Pb同位素地球化学特征显示晚期辉长—苏长岩可能源自EMI富集的岩石圈地幔,与岩体型斜长岩不存在同源岩浆分离结晶演化的关系。大庙地区晚期辉长—苏长岩的岩浆来源、演化和构造控制的特征对深化研究岩体型斜长岩杂岩体的成因有重要意义。 相似文献
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粤北大宝山矿床矿区出露船肚和大宝山矿化岩体。本文分析了两个岩体矿物组成特征和锆石LA-ICP-MS U-Pb年龄。船肚岩体为似斑状结构,块状构造,主要由似斑状花岗岩、似斑状二长花岗岩及似斑状花岗闪长岩等组成,和云英岩型及矽卡岩型Mo-W矿化紧密共生。大宝山岩体为斑状结构,块状构造,主要由碱长花岗斑岩、普通花岗斑岩、二长花岗斑岩及花岗闪长斑岩组成,矿物组成和船肚岩体的基本相同,和细脉浸染状Mo-W矿化紧密共生。船肚似斑状二长花岗岩和大宝山二长花岗斑岩锆石LA-ICP-MS U-Pb年龄分别为162.1±1.6 Ma,MSWD=2.72和165.8±2.0 Ma,MSWD=1.38。据船肚和大宝山岩体矿物组成基本相同、岩石结构不同及两者锆石Th/U比值不同和U-Pb年龄存在约4 Ma左右时差,提出大宝山矿区在燕山期发生了两阶段岩浆成矿事件,第一阶段岩浆成矿事件发生在166 Ma左右,形成大宝山斑岩型矿床,第二阶段岩浆成矿的形成时间约为162 Ma左右,形成船肚似斑状二长花岗岩及与岩体紧密共生的矽卡岩型和云英岩型矿化;大宝山斑岩体和船肚似斑状岩体是同一岩浆房两次脉动侵入形成的。 相似文献
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安基山岩体和石马岩体是宁镇地区的两个含矿岩体。其中安基山岩体的主要岩石类型由花岗闪长斑岩和石英闪长玢岩组成,石马岩体由斑状花岗闪长岩、花岗闪长斑岩和石英正长闪长斑岩组成。两个岩体分别含有铜矿和铁矿。岩石学研究已经表明:铜和铁的富集分别与K_2O、Na_2O 关系密切,因而笔者采用了μ_k20—μN_a20矿物共生组合图解来探讨安基山岩体和石马岩体在岩石的矿物 相似文献
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Fatemeh Sarjoughian Ali Kananian Michael Haschke Jamshid Ahmadian 《Geological Journal》2016,51(3):387-404
The South Dehgolan pluton, in NW Iran was emplaced into the Sanandaj–Sirjan magmatic–metamorphic zone. This composite intrusion comprises three main groups: (1) monzogabbro–monzodiorite rocks, (2) quartz monzonite–syenite rocks, and (3) a granite suite which crops out in most of the area. The granites generally show high SiO2 content from 72.1%–77.6 wt.% with diagnostic mineralogy consisting of biotite and amphibole along the boundaries of feldspar–quartz crystals which implies anhydrous primary magma compositions. The granite suite is metaluminous and distinguished by high FeOt/MgO ratios (av. 9.6 wt.%), typical of ferroan compositions with a pronounced A‐type affinity with high Na2O + K2O contents, high Ga/Al ratios, enrichment in Zr, Nb, REE, and depletion in Eu. The quartz monzonite–syenites show intermediate SiO2 levels (59.8%–64.5 wt.%) with metaluminous, magnesian to ferroan characteristics, intermediate Na2O + K2O contents, enrichment in Zr, Nb, REE, Ga/Al, and depletion in Eu. The monzogabbro–monzodiorites show overall lower SiO2 content (48.5%–55.9 wt.%) with metaluminous and calc‐alkaline compositions, relatively lower Na2O + K2O contents, low Ga/Al ratios, and FeOt/MgO (av. 1.6 wt.%) ratios, low abundances of Zr, Nb, and lower REE element concentrations relative to the granites and quartz monzonite–syenites. These geochemical differences among the three different rocks suites are likely to indicate different melt origins. We suggest that the South Dehgolan pluton resulted from a change in the geodynamic regime, from compression to extension in the Sanandaj–Sirjan zone during Mesozoic subduction of the Neo‐Tethys oceanic crust beneath the Central Iranian microcontinent. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
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Here we discuss the post-metamorphic metasomatism of high-grade orthogneisses by studying granite-looking, pink-coloured microcline-bearing rocks exposed around Ambagaspitiya, Sri Lanka. These rocks are medium- to coarse-grained, and are more or less homogeneous, and isotropic. Textural, and petrographic analyses clearly show that these special rocks are neither deformed nor metamorphosed, and that they are not any kind of intrusive rocks. The present study shows that these rocks have formed through K-metasomatism of once intensely deformed, and metamorphosed granodiorite, tonalite, monzodiorite, and quartz monzodiorite. The modal compositions of most of these metasomatic rocks of Ambagaspitiya are very similar to those of syenite, quartz syenite, monzonite, quartz monzonite, and quartz monzodiorite.All the original metamorphic rocks — namely granitic gneiss, metagranite, metagranodiorite, metatonalite, metamonzodiorite, metaquartz monzodiorite, metadiorite, basic dikes, and metapelites — had undergone at least five ductile deformations, D1 to D5, and had been metamorphosed under upper amphibolite to granulite facies conditions prior to the metasomatism. Almost all the parent metamorphic rocks had acquired a well-developed gneissic foliation (S2), and had suffered at least two intense folding events (F3, and F5) before the metasomatism occurred. All the metamorphic, and deformational fabrics of affected metamorphic rocks have been completely or partially obliterated by the metasomatism. This indicates that the metasomatic process post-dates all ductile deformations (D1 — D5), and the regional metamorphism. Of the parent metamorphic rocks, metagranodiorite, metatonalite, metamonzodiorite, and metaquartz monzodiorite have undergone intense metasomatism. It is shown that the metasomatism has nucleated along late-stage, post-D5 shear zones, which may form an interconnected network. Potassium-bearing metasomatic fluids, derived from a deep-seated K-rich source, may have migrated along these shear zones. The fluids which entered the shear zones have pervaded the orthogneisses through foliation planes, and along grain boundaries, and microcracks in minerals, transforming the host gneisses to metasomatic rocks. The main metasomatic transformation has taken place through the replacement of metamorphic plagioclase, and plagioclase-quartz by microcline, and through formation of myrmekite. Further studies are necessary to unravel the nature, composition, and the source of these late-stage K-rich fluids in the lower crust. 相似文献
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《Gondwana Research》2002,5(2):453-465
The Kunduru Betta Ring Complex (KRC), at the southern margin of Dharwar craton, South India, comprises metaluminous sub-solvus syenites and quartz monzonite with a concentric disposition younging towards the center. An outer mafic syenite (of lamprophyric affinity) is followed by porphyritic monzonite, quartz monzodiorite and finally a quartz monzonitic stock at the centre.SiO2, Al2O3 and Na2O increase from the primitive lamprophyric mafic syenite to the quartz monzonite through the intermediate members, while CaO, MgO, Fe2O3T, TiO2, P2O5 and MnO show an opposite trend suggesting fractionation of hornblende, clinopyroxene, biotite, apatite, sphene, and iron oxide minerals. Rb, Th and U increase with a complementary decrease in Sc, V, Cr, Co, Cu, Sr and Ba from the outer mafic syenite to the inner quartz monzonite. Y, Zr and Hf decrease from lamprophyric mafic syenite to quartz monzodiorite and the trend is reversed in the final quartz monzonite phase. However, the suite is characterised by a compositional gap between quartz monzodiorite and quartz monzonite. Total REE gradually decrease from the mafic syenite to quartz monzonite and the REE distribution patterns show LREE-enriched and HREE-depleted parallel distributions with negligible Eu anomalies.The geochemical data suggest that the rock types were formed as products of progressive differentiation by crystal fractionation of calc-alkaline lamprophyric parent magma which was derived by partial melting of metasomatically enriched mantle in the Kabini lineament. Although the quartz monzonites conform to the trend of differentiated Kunduru Betta suite, the compositional gap between them and the quartz monzodiorite precludes their origin by simple differentiation. It is suggested that convective liquid fractionation might have resulted in the discrete body of quartz monzonite. 相似文献
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我国东北小古里河-科洛-五大连池-二克山火山带钾质矿物成因及地质意义 总被引:3,自引:2,他引:1
东北黑龙江小古里河-科洛-五大连池-二克山火山岩带是我国近代保存最好的火山群之一,此带火山岩的岩石化学特点全都强碱富钾,K2O/Na2O>1.2,属于一套高钾过碱性火山岩。通过对东北钾质火山岩及金云母橄榄岩地幔捕虏体中钾质矿物金云母、白榴石的成分、结晶环境与岩浆成分及来源关系的研究,认为在岩石圈伸展构造背景下,地幔金云母橄榄岩的低度部分熔融形成钾质岩浆,钾质岩浆上升到地壳浅部经历了白榴石的结晶作用。岩浆演化晚期,因钾质矿物大量晶出导致岩浆相对富钠而出现他形霞石和方钠石等填隙矿物。火山岩及地幔捕虏体中富挥发分矿物金云母、白榴石、磷灰石、霞石和方钠石还提供了钾质岩浆富含H2O、F、Cl、P等挥发分的证据。 相似文献
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冀西北水泉沟杂岩体成因的Nd同位素证据 总被引:8,自引:0,他引:8
水泉沟碱性杂岩体是冀西北金矿集中区最重要的赋矿岩体。长期以来,关于水泉沟杂岩体的成因一直争议很大,严重制约了本区金矿床理论研究水平的提高。本文对水泉沟杂岩体及其围岩太古宙变质岩进行了系统的Nd同位素研究。研究结果表明,水泉沟杂岩体不可能是太古宙变质岩混合岩化或重熔的产物,而是由来自地幔的岩浆与下地壳局部熔融的物质不均匀混合形成的。 相似文献
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In western part of the CEIM (Central-East Iranian Microcontinent) (Bayazeh area, Isfahan province, Iran), a series of Paleozoic
basaltic rocks, occur. Major minerals of these basalts are olivine, clinopyroxene (diopside, augite), plagioclase (albite),
sanidine, amphibole (kaersutite), phlogopite, ilmenite and magnetite. Secondary minerals include epidote, pumpellyite, albite,
calcite and chlorite. Olivine and clinopyroxene are as phenocryst, while feldspars are restricted to groundmass. Chemical
composition of clinopyroxenes indicates crystallization during ascending of magma. Geochemical analysis of whole rock samples
shows that these rocks are characterized by low SiO2 (43.21–48.45 wt %), high TiO2 (1.81–3.00 wt %) and P2O5 (0.18–0.34 wt %). Petrography, chemistry of clinopyroxenes and whole rock analyses reveal an alkaline nature of these basalts.
They are enriched in alkalis (Na2O + K2O = 4.1–7.7 wt %), LILE, HFSE and LREE. The Bayazeh alkali-basalts present strong enrichment in LREE relative to HREE (La/Lu
ratio = 77.6–119.6) and were dominantly derived from partial melting of a metasomatized asthenospheric garnet-amphibole lherzolite.
Field relationships reveal that junction of faults in west of the Bayazeh prepared a suitable path for ascending of magma
from deep regions to surface and intra-plate continental magmatism. The Paleo-Tethys subduction from lower to upper Paleozoic
is too enough for mantle enrichment in volatiles and basaltic alkaline magmatisrn in upper Paleozoic of Bayazeh area. 相似文献
17.
The Nabar pluton with the age of Oligo-Miocene located northwest of Isfahan, the Urumieh-Dokhtar magmatic belt, is composed of gabbro, gabbro diorite, diorite, quartz diorite, tonalite, and quartz monzonite. These rocks contain plagioclase, quartz, alkali-feldspar, magnesiohornblende, actinolite, tremolite-hornblende, actinolite-hornblende, anthophyllite, biotite, and Na-poor pyroxene. Application of the Al-in-hornblende barometry indicates pressures of 2–2.15 kbar, whereas the clinopyroxene barometry shows a pressure of 5 kbar. The temperature (i.e., 750–800°C) is estimated using the amphibole-clinopyroxene thermometry in a dioritic sample. Magmatic water content was greater than 10% at the time of formation of dioritic rocks in the Nabar pluton. Based on chemistry of mafic minerals and geochemical data, the Nabar plutonic complex comprises medium-K, calc-alkaline, and I-type granitoid. The rocks are characterized by enrichment of lithophile elements (LILEs) and depletion of high-field-strength elements (HFSEs). The Nabar rocks have weak concave-upward rare earth element (REE) patterns, suggesting that amphibole played a significant role in their generation during magma segregation. Low (Al2O3/(FeO + MgO + TiO2) and (Na2O + K2O)/(FeO + MgO + TiO2) ratios, and the patterns of trace and rare earth elements suggest that these rocks formed along a destructive plate margin and were derived from a lower crustal source. The magma probably formed by partial melting of lower crustal protoliths (amphibolites). Lower crust contamination with magma derived from partial melting of the upper mantle has an important role in the formation of this intrusive body, and a fractional crystallization of melts in higher crustal levels generated this spectrum of rock types. Mantle-derived gabbroic magmas emplaced into the lower crust are the most likely heat sources for partial melting. 相似文献
18.
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
19.
The Ancient Gneiss Complex (AGC) of Swaziland, an Archean gray gneiss complex, lies southeast and south of the Barberton greenstone belt and includes the most structurally complex and highly metamorphosed portions of the eastern Kaapvaal craton. The AGC is not precisely dated but apparently is older than 3.4 Ga.The AGC consists of three major units: (a) a bimodal suite of closely interlayered siliceous, low-K gneisses and metabasalt; (b) homogeneous tonalite gneiss; and (c) interlayered siliceous microcline gneiss, metabasalt, and minor metasedimentary rocks — termed the metamorphite suite. A geologically younger gabbro-diorite-tonalite-trondhjemite suite, the Granodiorite Suite, is spatially associated with the AGC and intrusive into it.The bimodal suite consists largely of two types of low-K siliceous gneiss: one has SiO2 < 75%, Al2O3 > 14%, low Rb/Sr ratios, and depleted heavy rare earth elements (REE's); the other has SiO2 > 75%, Al2O3 < 13%, high Rb/Sr ratios, and relatively abundant REE's except for negative Eu anomalies. The interlayered metabasalt ranges from komatiitic to tholeiitic compositions. Lenses of quartz monzonitic gneiss of K2O/Na2O close to 1 form a minor part of the bimodal suite. Tonalitic to trondhjemitic migmatite locally is abundant and has major-element abundances similar to those of non-migmatitic varieties.The siliceous gneisses of the metamorphic suite show low Al2O, K2O/Na2O ratios of about 1, high Rb/Sr ratios, moderate REE abundances and negative Eu anomalies.K/Rb ratios of siliceous gneisses of the bimodal suite are very low (~130); of the tonalitic gneiss, low (~225); of the siliceous gneiss of the metamorphite suite, moderate (~300); and of the Granodiorite Suite, high (~400).Rocks of the AGC differ geochemically in several ways from the siliceous volcanic and hypabyssal rocks of the Upper Onverwacht Group and from the diapirs of tonalite and trondhjemite that intrude the Swaziland Group. 相似文献
20.
Anthony Azubuike Elueze 《Precambrian Research》1982,19(2):167-177
The Ilesha granite gneiss comprises a varied series ranging from porphyroblastic alkali gneiss and granitic gneiss to banded and strongly foliated melanocratic rocks. Deformation is intense and the dominant structural trend is approximately N-S.Chemical data show essentially a systematic variation reflecting the differences in the petrographic character of the outcrops. SiO2, Na2O, K2O and related trace elements, particularly Rb, are higher in the alkali and granitic varieties, whereas the melanocratic types have lower contents of these elements. The basic rocks are likewise significantly enhanced in TiO2, Fe, MgO, CaO, Cr and Ni concentrations, with some values being comparable to those of basaltic rocks. 相似文献