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1.
三叠纪花岗岩在秦岭造山带广泛发育,直接记录了秦岭造山带演化过程中的重要信息。秦岭梁岩体位于秦岭造山带商丹缝合带北侧,岩性主要为石英二长斑岩,斑晶为钾长石,部分斑晶具有白色斜长石环边;基质主要由石英(25%)、斜长石(45%)、钾长石(10%)、黑云母(15%)、角闪石(5%)组成。秦岭梁岩体中的锆石自形程度好,具环带结构,显示岩浆锆石的特征,两个样品的LA ICP MS锆石U Pb同位素年龄分别为(2165±21) Ma和(2194±26) Ma,二者在误差范围内一致,表明该岩体的岩浆结晶年龄为晚三叠纪。秦岭梁岩体的岩浆结晶年龄与勉略洋壳向北俯冲的时间(248~200 Ma)一致,表明岩体的形成与勉略洋壳向北俯冲有密切联系;同时秦岭梁石英二长斑岩的地球化学特征显示其是洋壳俯冲时弧岩浆活动的产物。因此北秦岭地区勉略洋闭合时间和陆陆碰撞拼合时间应不早于216~219 Ma。 相似文献
2.
Review of Microstructural Evidence of Magmatic and Solid-State Flow 总被引:13,自引:0,他引:13
R.H. Vernon 《Visual Geosciences》2000,5(2):1-23
Evidence of magmatic flow includes: (a) parallel to sub-parallel alignment of elongate euhedral crystals (e.g., of feldspar or hornblende) that are not internally deformed, (b) imbrication (‘tiling’) of elongate euhedral crystals that are not internally deformed, (c) insufficient solid-state strain in regions between aligned or imbricated crystals to accommodate phenocryst rotation, (d) elongation of microgranitoid enclaves without plastic deformation of the minerals, (e) magmatic flow foliations and elongate microgranitoid enclaves deflected around xenoliths, and (f) schlieren layering (if due to flow sorting) in the absence of plastic deformation of the minerals involved. These features are consistent with rotation of crystals in a much weaker medium, namely a melt phase, at a stage when the magma has become viscous enough to preserve the alignment.Evidence of solid-state flow includes: (a) internal deformation and recrystallization of grains, (b) recrystallized “tails,” (c) elongation of recrystallized aggregates (e.g. of quartz and mica), (d) grainsize reduction, (e) fine-grained folia anastomosing around less deformed relics, (f) microcline twinning, (g) myrmekite, (h) flame perthite, (i) boudinage of strong minerals, typically with recrystallized aggregates of weaker minerals (e.g. quartz and mica) between the boudins, (j) foliation passing through, rather than around enclaves, and (k) heterogeneous strain with local mylonitic zones.Several criteria suggest “submagmatic flow,” including recrystallized feldspar, inferred transitions from magmatic imbrication to solid-state S/C arrangements, evidence of c-slip in quartz, and especially evidence of migration of residual melt into lower-pressure sites.Recent experimental studies indicate that a change from grain-supported flow to suspension flow typically occurs in deforming magmas at melt contents of between 20% to 40%, and that large amounts of strain may accumulate in magmas without being recorded by the final fabric. At lower melt percentages, perhaps as low as a few percent, depending on the minerals and their shapes, strain may be accommodated by: (a) melt-assisted grain-boundary sliding, (b) contact-melting assisted grain-boundary migration, (c) strain partitioning into melt-rich zones, (d) intracrystalline plastic deformation (c-slip in quartz indicating plastic deformation at temperatures near the granite solidus), and (f) transfer of melt to sites of low mean stress. The only indication of strain in the absence of crystal plasticity may be an alignment of crystals. Moreover, magmatic flow microstructures may be destroyed by fracturing, crystal plasticity and recrystallization before the magma reaches its solidus.Many rocks show evidence of solid-state flow superimposed on magmatic flow. Evidence of magmatic flow is commonly preserved in deformed felsic metamorphic rocks: for example the alignment of rectangular K-feldspar megacrysts and of microgranitoid enclaves. However, absence of alignment does not preclude a magmatic origin for K-feldspar megacrysts in felsic gneisses, as magmatic flow may cease before the magma becomes viscous enough to preserve an alignment. 相似文献
3.
义敦岛弧措交玛岩体岩浆混合成因:镁铁质微粒包体的证据 总被引:2,自引:0,他引:2
义敦岛弧北部的措交玛岩基岩体主要由黑云母二长花岗岩和边部的花岗闪长岩组成。在黑云母二长花岗岩中存在有少量镁铁质微粒包体,其成分为闪长质,与寄主岩石接触关系从渐变到截然。在包体周围的寄主岩石中存在黑云母、角闪石自身的包含结构,角闪石包含黑云母,斜长石发育明显的溶蚀结构,核部斜长石被溶蚀成筛状,边部环带状斜长石溶蚀不明显,是基性岩浆注入到酸性岩浆中导致岩浆混合的结果。黑云母二长花岗岩具有更高的轻重稀土分异系数,闪长质包体轻重稀土分异系数较低,黑云母二长花岗岩和暗色闪长质微粒包体具有明显相似性的微量元素特征。寄主岩黑云母二长花岗岩锆石U-Pb年龄为236±1.9Ma,闪长质包体为235±3.9Ma,二者形成年代在误差范围内基本一致,可能为甘孜-理塘洋向西俯冲过程中,俯冲洋壳部分熔融形成的玄武质岩浆上涌底侵于壳-幔边界导致地壳的部分熔融形成酸性的黑云母二长花岗岩岩基。 相似文献
4.
胶东玲珑金矿田地表以下2070 m处发现黑云母二长岩,不仅可以探索该区金矿成矿物质的来源,而且对研究矿床成因提供了新的证据。黑云母二长岩在胶东金矿集中区地表及其他钻孔岩芯中尚未见报道,通过显微镜下观察、鉴定,具有典型的二长结构。非金属矿物主要有斜长石、正长石、石英、黑云母和角闪石;含有较多的金属矿物,主要为原生的黄铁矿和磁铁矿等。黑云母的40Ar-39Ar热年代学研究表明,黑云母二长岩的成岩年龄为123.7±1.5 Ma,晚于玲珑花岗岩、滦家河花岗岩和郭家岭花岗岩,与玲珑金矿的形成年龄非常接近。尽管玲珑金矿矿体中的金属矿物并不一定直接来源于黑云母二长岩,但从形成时间分析,二者具有成因联系。黑云母二长岩在侵入过程中可能为金矿的形成提供成矿物质、成矿流体,而且为成矿物质和成矿流体的运移提供能量及驱动力。因而可以推断,黑云母二长岩的侵入与玲珑金矿成矿作用关系密切。 相似文献
5.
Preferred Mineral Orientations Related to Magmatic Flow in Ophiolite Layered Gabbros 总被引:3,自引:2,他引:3
Detailed study of Shape Preferred Orientations (SPOs) and LatticePreferred Orientations (LPOs) of olivine, clinopyroxene, andplagioclase have been carried out for samples of compositionallylayered gabbro from the lower crustal section of the Oman ophiolite.These gabbros have a strong magmatic foliation and magmaticlineation which are oblique with respect to the compositionallayering. The results of SPO analysis indicate that the rockfabric is due to a laminar viscous magmatic flow within theophiolite magma chamber. LPO fabrics correspond to SPO fabricsproving that mineral shape anisometry corresponds to anisotropicgrowth rates controlled by crystal structure. Magmatic flowhas been induced by a deformation including an important componentof non-coaxial strain, as indicated by the monoclinic symmetryof the SPO fabric. It is proposed that the monoclinic symmetrymay be used to determine shear sense during magmatic flow. Dueto non-coaxial deformation in the magmatic state, the magmaticfoliation would tend towards parallelism with compositionallayering. The obliquity between magmatic foliation and compositionallayering may thus provide a field criterion for magmatic shearsense determination. 相似文献
6.
A.A. Tsygankov B.A. Litvinovsky B.M. Jahn M.K. Reichow D.Y. Liu A.N. Larionov S.L. Presnyakov Ye.N. Lepekhina S.A. Sergeev 《Russian Geology and Geophysics》2010,51(9):972-994
The Late Paleozoic intrusive rocks, mostly granitoids, totally occupy more than 200,000 km2 on the territory of Transbaikalia. Isotopic U-Pb zircon dating (about 30 samples from the most typical plutons) shows that the Late Paleozoic magmatic cycle lasted for 55–60 m.y., from ~330 Ma to ~275 Ma. During this time span, five intrusive suites were emplaced throughout the region. The earliest are high-K calc-alkaline granites (330–310 Ma) making up the Angara–Vitim batholith of 150,000 km2 in area. At later stages, formation of geochemically distinct intrusive suites occurred with total or partial overlap in time. In the interval of 305–285 Ma two suites were emplaced: calc-alkaline granitoids with decreased SiO2 content (the Chivyrkui suite of quartz monzonite and granodiorite) and the Zaza suite comprising transitional from calc-alkaline to alkaline granite and quartz syenite. At the next stage, in the interval of 285–278 Ma the shoshonitic Low Selenga suite made up of monzonite, syenite and alkali rich microgabbro was formed; this suite was followed, with significant overlap in time (281–276 Ma), by emplacement of Early Kunalei suite of alkaline (alkali feldspar) and peralkaline syenite and granite. Concurrent emplacement of distinct plutonic suites suggests simultaneous magma generation at different depth and, possibly, from different sources. Despite complex sequence of formation of Late Paleozoic intrusive suites, a general trend from high-K calc-alkaline to alkaline and peralkaline granitoids, is clearly recognized. New data on the isotopic U-Pb zircon age support the Rb-Sr isotope data suggesting that emplacement of large volumes of peralkaline and alkaline (alkali feldspar) syenites and granites occurred in two separate stages: Early Permian (281–278 Ma) and Late Triassic (230–210 Ma). Large volumes and specific compositions of granitoids suggest that the Late Paleozoic magmatism in Transbaikalia occurred successively in the post-collisional (330–310 Ma), transitional (305–285 Ma) and intraplate (285–275 Ma) setting. 相似文献
7.
The southern Sinai Peninsula, underlain by the northernmost extension of the Arabian-Nubian Shield, exposes post-collisional calc-alkaline and alkaline granites that represent the youngest phase of late Neoproterozoic igneous activity. We report a petrographic, mineralogical and geochemical investigation of post-collisional plutons of alkaline and, in some cases, peralkaline granite. These granites intrude metamorphosed country rocks as well as syn- and post-collisional calc-alkaline granitoids. The alkaline and peralkaline granites of the southern tip of Sinai divide into three subgroups: syenogranite, alkali feldspar granite and riebeckite granite. The rocks of these subgroups essentially consist of alkali feldspar and quartz with variable amounts of plagioclase and mafic minerals. The syenogranite and alkali feldspar granite contain small amounts of calcic amphibole and biotite, often less than 3%, while the riebeckite granite is distinguished by sodic amphibole (5–10%). These plutons have geochemical signatures typical of post-collisional A-type granites and were most likely emplaced during a transition between orogenic and anorogenic settings. The parental mafic magma may be linked to lithospheric delamination and upwelling of asthenospheric mantle material. Differentiation of the underplated basaltic magma with contributions from the juvenile crust eventually yielded the post-collisional alkaline granites. Petrogenetic modelling of the studied granitic suite shows that pure fractional crystallization cannot quantitatively explain chemical variations with the observed suite, with both major oxides and several trace elements displaying trends opposite to those required by the equilibrium phase assemblage. Instead, we show that compositional variation from syenogranite through alkali feldspar granite to riebeckite granite is dominated by mixing between a low-SiO2 liquid as primitive or more primitive than the lowest-SiO2 syenogranite and an evolved, high-SiO2 liquid that might be a high-degree partial melt of lower crust. 相似文献
8.
新疆拜城县波孜果尔A型花岗岩类矿物学特征及岩浆形成的温度条件 总被引:2,自引:0,他引:2
新疆拜城县波孜果尔A型花岗岩类为富含铌、钽、锆等有用元素的含矿岩体。通过偏光显微镜、电子探针(EPMA)化学成分分析、电子探针背散射(BSE)对波孜果尔A型花岗岩类的矿物学特征进行了研究,并对岩浆形成的温度条件与构造背景进行了讨论。结果表明,波孜果尔A型花岗岩类包括霓石钠闪石英碱性长石正长岩、霓石钠闪碱性长石花岗岩、黑云母碱性长石正长岩3种岩石类型。主要造岩矿物包括石英、钠长石、钾长石、霓石、钠铁闪石和铁叶云母。副矿物包括锆石、烧绿石、钍石、萤石、独居石、氟碳铈镧矿、磷钇矿等。岩浆平均温度832~839℃,形成于非造山的板内构造环境,且具高温、无水、低氧逸度的成岩特点。 相似文献
9.
Hamdy M. Abdalla 《Resource Geology》2009,59(2):121-139
Mineral chemistry and geochemical characteristics of beryl-bearing granitoids in Eastern Desert of Egypt, were examined in order to identify the metallogenetic processes of the host granitoids. The investigated Be-bearing granitoids and type occurrences are classified into two groups: (i) peraluminous, Ta ≥ Nb + Sn + Be ± W-enriched, Li-albite granite (e.g. Nuweibi and Abu Dabbab); and (ii) metasomatized, Nb >> Ta + Sn + Be ± W ± Mo-enriched alkali feldspar granite (i.e. apogranite; e.g. Homr Akarem, Homr Mikpid and Qash Amir). In these two groups, beryl occurs as stockwork greisen veins, greisen bodies, beryl-bearing cassiterite ± wolframite quartz veins, dissemination, and miarolitic pegmatites. Beryl of the Be-granitoids, particularly those of miarolitic pegmatites, contains appreciable contents of Fe, Na, and H2 O. An important feature of the Be-apogranites is the occurrence of white mica as the sole mafic mineral in the unaltered alkali feldspar granite in lower zones. Presence of white mica as volatile-rich pockets suggests that the melt underwent disequilibrium crystallization, rapid nucleation rates, and exsolving and expulsion of volatiles. 相似文献
10.
花岗岩是陶瓷工业中所需长石原料的重要来源之一.由于花岗岩中云母和氧化铁的存在,其最终产品的质量受到影响(强度、硬度、密度降低).本研究对浙江花岗岩采用两阶段分离方法,以提高花岗岩中长石的质量.第一阶段为重力分离,去除重矿物杂质;第二阶段为磁性分离,进一步减少铁含量.用机械方法对不同加工阶段的3种样品进行了成分测试:1)原料花岗岩;2)第一阶段处理的花岗岩;3)第二阶段处理的花岗岩.结果显示,最终处理后的样品较之原始花岗岩在显微硬度、强度、密度及裂隙坚韧性方面都有明显提高. 相似文献
11.
水泉沟岩体为岩浆成因,岩体的侵位深度2~3km,侵位时代为印支期,划分为4种岩石组合.水泉沟岩体是一个钾质-高钾质的钙碱性、弱碱性和碱性岩石共存的杂岩体.岩石化学成分变异图解证明岩浆存在两种演化趋势,一是酸性演化趋势:辉石闪长岩→角闪二长岩(包括二长岩)→石英碱长正长岩→碱长花岗岩;二是碱性演化趋势:正长岩→霓辉正长岩→碱长正长岩.同时也探讨了这两种演化趋势的内在机理. 相似文献
12.
浙西南遂昌-大柘地区八都岩群在印支期变质事件影响下发生变质变形,通过详细野外调查和岩相学研究,可将其划分为3期变质变形序列:S1变形期,NW向片麻理记录的残留紧闭褶皱,共生矿物组合为石榴子石变斑晶及其内部定向分布的包裹体矿物,石榴子石+黑云母+石英(泥质)和石榴子石+角闪石+斜长石+石英(长英质);S2变形期,区域性宽缓褶皱及NE向缓倾透入性片麻理,共生矿物组合为石榴子石变斑晶及定向分布的基质矿物,矽线石+石榴子石+黑云母+石英+斜长石±钾长石(泥质)和石榴子石+钾长石+斜长石+黑云母+石英(长英质);S3变形期,NE向陡倾透入性片麻理及韧脆性断裂大部分被花岗斑岩脉填充,共生矿物组合为石榴子石变斑晶及其周围退变矿物,石榴子石+矽线石+堇青石+斜长石+黑云母+石英±钾长石(泥质)和角闪石+斜长石+黑云母+钛铁矿(长英质)。结合前人研究成果,八都岩群印支期变质事件峰期变质程度达到麻粒岩相,显示顺时针近等温降压(ITD)型的p-T演化轨迹,S1-S3变质变形反映出从俯冲碰撞到快速折返冷却的演化过程,伴随S3同期侵位的花岗斑岩锆石U-Pb定年结果,将该演化过程完成时间约束在229.7 Ma,可能是浙西南地区对印支期古特提斯洋域内印支-华南-华北板块之间俯冲-碰撞过程的响应。 相似文献
13.
运用岩相学研究理论和元素地球化学研究理论,针对冀北赤城二堡子片麻状角闪二长岩,进行岩相学(4件样品)和地球化学分析(4件样品),结果表明:角闪二长岩的矿物成分为斜长石(30%~35%)、碱性长石(25%~30%)、角闪石(15%~20%)、石英(10%~15%)和黑云母(5%~10%)等。岩石中w(SiO2)介于60.16%~62.16%之间,w(K2O+Na2O)为8.56%~8.82%,稀土总量较高(ΣREE为246.30×10-6~317.76×10-6),(La/Yb)N值为28.18~42.79,具有轻稀土富集、重稀土亏损的分配模式,Eu异常(Eu/Eu*值为0.90~1.03)及Ce异常(Ce/Ce*值为0.91~0.98)均不明显,富集大离子亲石元素(如Ba,Rb,Sr和Th等)及轻稀土元素(如La,Ce和Nd等),亏损高场强元素(如Nb,Ta,Zr和Hf等)。角闪二长岩的锆石SIMS U-Pb年龄为243.1Ma±1.8 Ma,锆石的Th/U比值为0.709~1.258,表明其形成于三叠纪,应该是中生代印支期岩浆作用的产物,这是赤城地区确定的第二个印支期中酸性侵入岩体,其形成可能与赤城-崇礼断裂带在印支期重新活动有关。赤城印支期角闪二长岩体的确定表明赤城、崇礼地区存在印支期(~239Ma^243Ma)岩浆-变质-构造热事件,这对于冀北大地构造演化特征的确定具有重要的指示意义。 相似文献
14.
Walegen Au deposit is closely correlated with granitic intrusions of Triassic age, which are composed of granite and quartz porphyries. Both granite porphyry and quartz porphyry consist of quartz, feldspar and muscovite as primary minerals. Weakly peraluminous granite porphyry(A/CNK=1.10–1.15) is enriched in LREE, depleted in HREE with Nb-Ta-Ti anomalies, and displays subduction-related geochemistry. Quartz porphyry is strongly peraluminous(A/CNK=1.64–2.81) with highly evolved components, characterized by lower TiO_2, REE contents, Mg~#, K/Rb, Nb/Ta, Zr/Hf ratios and higher Rb/Sr ratios than the granite porphyry. REE patterns of quartz porphyry exhibit lanthanide tetrad effect, resulting from mineral fractionation or participation of fluids with enriched F and Cl. LAICP-MS zircon U-Pb dating indicates quartz porphyry formed at 233±3 Ma. The ages of relict zircons from Triassic magmatic rocks match well with the detrital zircons from regional area. In addition, ε_(Hf)(t) values of Triassic magmatic zircons from the granite and quartz porphyries are -14.2 to -9.1(with an exception of +4.1) and -10.8 to -8.6 respectively, indicating a crustal-dominant source. Regionally, numerous Middle Triassic granitoids were previously reported to be formed under the consumption of Paleotethyan Ocean. These facts indicate that the granitic porphyries from Walegen Au deposit may have been formed in the processes of the closing of Paleotethyan Ocean, which could correlate with the arc-related magmatism in the Kunlun orogen to the west and the Qinling orogen to the east. 相似文献
15.
安徽庐枞地区中生代A型花岗岩类及其岩石包体:在碰撞后岩浆演化过程中的意义 总被引:9,自引:0,他引:9
安徽庐枞地区位于下扬子断陷带内,区内中生代岩浆活动强烈,壳幔交换频繁,形成了一系列A型花岗岩类,其中产有一些同源岩石包体。这些A型花岗岩类以富碱富钾为特征,为准铝质硅饱和岩石,具有高的104×Ga/Al比值和REE含量,明显富集Rb,Th,K等大离子亲石元素,而Nb,Ta,Ti和Zr等高场强元素和Sr,P相对亏损。与寄主岩相比,岩石包体SiO2和全碱含量偏低,Cr,Co,Sc,V等元素明显偏高,Zr和Eu的负异常不明显。包体和寄主岩的(87Sr/86Sr)i 值为0.7053~0.7089,εNd(t)值为-2.2~-8.66。这些资料表明,庐枞地区中生代A型花岗岩类是起源于富集岩石圈地幔的玄武质岩浆与地壳物质发生轻度同化混染作用,并经历结晶分异作用的产物,在岩浆演化过程中,结晶分异作用发挥着主导作用。从岩石组合来看,庐枞地区的A型花岗岩类主要由石英正长斑岩、正长斑岩、辉石二长岩和碱长花岗岩组成,属于碰撞后准铝质镁铁质-长英质岩套的一部分。岩石样品分析数据在Nb-Y-Ce,Nb-Y-3Ga和Rb/Nb-Y/Nb图上的投影结果表明,庐枞A型花岗岩类为碰撞后环境结束阶段的产物。结合区域地质背景分析,可以认为庐枞地区A型花岗岩类形成于岩石圈伸展背景下的碰撞后岩浆活动的末期,其出现可能标志着碰撞后环境的结束。 相似文献
16.
We processed five thermal infrared (TIR) bands of Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) “at-sensor radiance” (Level 1B) data to derive few new indices to delineate variation in quartz, feldspar and mafic minerals in three different variants of granitoid; commonly occurring quartz bearing intrusive rock group. In this regard, three indices named as quartz-bearing rock index (QRI), feldspar-bearing rock index (FRI) and mafic-bearing rock index(MRI) were proposed.QRI index was derived using band 10, band 12 and band 13((band 10/band 12) 1 (band 13/band 12)) of ASTER radiance image. MRI index was derived using band 12, band 13 and band 14 ((band 12/band 13) 1 (band 13/band 14)) of ASTER radiance bands while band 10, band 11 were combined to derive FRI ((band 10/band 11) index. Three indices were combined in false colour composite image (FCC) and three-dimensional scatter plot to delineate granite, alkali granite and mafic rich granodioritic gneiss from each other as these granitoids had variable abundances of quartz, feldspar and mafic minerals. QRI and MRI were compared with the corresponding quartz and mafic indices proposed by Ninomiya (2005). It was observed from the respective ratio images and their regression plots that MRI and Ninomiya's mafic index (NMI) were complementary to each other. On the other hand, QRI image was better in enhancing quartz enrichment in alkali granites than Ninomiya's quartz index (NQI).However, QRI index was comparable with the quartz index proposed by Rockwall and Hofstra (2008) in terms of delineating quartz enrichment in alkali granite. Mutual exclusive nature of mafic minerals and quartz in granitoids was also evident from the negative correlation between MRI and QRI indices of the granitoids. On the other hand, FRI and QRI were negatively correlated with low regression value. This was resulted due to the combined effect of inverse relation of abundance of two dominant feldspars with quartz in different granitoids. In granitoids, abundance of plagioclase is known to increase with decreasing quartz content in granodiorite and tonalite although alkali feldspar bearing granites are characterised with high silica content. Results of discrimination of granitoids using proposed indices were validated based on deriving emissivity spectra of rocks and comparing them with ASTER TIR band resampled laboratory spectra of respective granitoids in addition to use geological map of the study area. Emissivity spectra of granitoids were derived from emissivity image (derived using emissivity normalisation method) after geospatially tagging it with QRI–FRI–MRI image composite; which was used to delineate exposures of granitoids. Further, we also found that the QRI, MRI and FRI indices had poor temperature dependence; when these indices were compared with relative surface temperature image derived from radiance bands using emissivity normalisation algorithm. Therefore, proposed indices can be implemented for delineating mineralogical variations of granitoids irrespective of surface temperature condition. Hence, proposed indices may be used successfully to delineate different granitic intrusions and relating their mineralogical variations with metallogeny. 相似文献
17.
Many elongated, lenticular plutons of porphyritic granitoids are distributed mainly near the southern and northern margin of the Chhotanagpur Gneissic Complex (CGC) which belongs to the EW to ENE-WSW tending 1500 km long Proterozoic orogenic belt amalgamat ng the North and South Indian cratonic blocks. The late Grenvillian (1071 ±64 Ma) Raghunathpur porphyritic granitoid gneiss (PGG) batholith comprising alkali feldspar granite, granite, granodiorite, tonalite, quartz syenite and quartz monzonite intruded into the granitoid gneisses of southeastern part of CGC in the Purulia district, West Bengal and is aligned with ENE-WSW trending North Purulia sr~ear zone, Mineral chemistry, geochemistry, physical condition of crystallization and petrogenetic model of Raghunathpur PGG have been discussed for the first time. The petrographic and geochemical features (including major and trace- elements, mineral chemistry and S7Sr/S6Sr ratio) suggest these granitoids to be classified as the shosh- onitic type. Raghunathpur batholith was emplaced at around 800 ~C and at 6 kbar pressure tectonic discrimination diagrams reveal a post-collision tectonic setting while structural studies reveal its emplacement in the extensional fissure of North Purulia shear zone. l'he Raghunathpur granitoid is compared with some similar granitoids of Europe and China to draw its petrogenetic model. Hybridi- zation of mantle-generated enriched mafic magma and crustal magma at lower crust and later fractional crystallization is proposed for the petrogenesis of this PGG. Mafic magma generated in a post-collisional extension possibly because of delamination of subducting slab. Raghunathpur batholith had emplaced in the CGC during the final amalgamation (~ 1.0 Ga) of the North and South Indian cratonic blocks. Granitoid magma, after its generation at depth, was transported to its present level along megadyke channel, ways within shear zones. 相似文献
18.
Summary The strongly peraluminous, P- and F-rich granitic system at Podlesí in the Krušné Hory Mountains, Czech Republic, resembles
the zonation of rare element pegmatites in its magmatic evolution (biotite → protolithionite → zinnwaldite granites). All
granite types contain disseminated Nb-Ta-Ti-W-Sn minerals that crystallized in the following succession: rutile + cassiterite
(in biotite granite), rutile + cassiterite → ferrocolumbite (in protolithionite granite) and ferrocolumbite → ixiolite →
ferberite (in zinnwaldite granite). Textural features of Nb-Ta-Ti-W minerals indicate a pre-dominantly magmatic origin with
only minor post-magmatic replacement phenomena. HFSE remained in the residual melt during the fractionation of the biotite
granite. An effective separation of Nb + Ta into the melt and Sn into fluid took place during subsequent fractionation of
the protolithionite granite, and the tin-bearing fluid escaped into the exocontact. To the contrast, W contents are similar
in both protolithionite and zinnwaldite granites.
Although the system was F-rich, only limited Mn-Fe and Ta-Nb fractionation appeared. Enrichment of Mn and Ta was suppressed
due to foregoing crystallization of Mn-rich apatite and relatively low Li content, respectively. The content of W in columbite
increases during fractionation and enrichment in P and F in the melt. Ixiolite (up to 1 apfu W) instead of columbite crystallized
from the most fluxes-enriched portions of the melt (unidirectional solidification textures, late breccia). 相似文献
19.
普朗斑岩铜矿床是近年来发现的一个重要印支期铜矿床.含矿岩体为普朗复式斑岩体,由全岩铜矿化的石英二长斑岩、石英闪长玢岩及花岗闪长斑岩组成,其中矿化较好者主要与石英二长斑岩关系密切.矿区蚀变矿物有伊利石、镁绿泥石、多水高岭石、硬石膏、蒙脱石、黑云母、铁镁绿泥石、白云母、阳起石、金云母、方解石等,蚀变类型主要有钾长石化、黑云母化、钠长石化、硅化、绢云母化、钠黝帘石化、泥化.并且由中心向外依次为硅化核—硅化钾化带—绢英岩化带—青磐岩化带—角岩化带的面型蚀变特征.其中硅化钾化、绢英岩化蚀变带与铜矿关系密切. 相似文献
20.
湖南省花岗岩主要形成于加里东期、印支期和燕山期,分为"I"型和"S"型两个成因类型。其中"I"型花岗岩主要为角闪(或含角闪)石英闪长岩-花岗闪长岩-二长花岗岩,Mf值(铁镁比值)多小于0.78;"S"型花岗岩主要为黑云母(或二云母)二长花岗岩-钾长花岗岩,Mf值多大于0.78."I"型花岗岩与金矿的关系更为密切,于该类岩体内或其周围形成岩浆热液型或混合热液型多金属共生金及钨锑-金矿床。根据"I"型花岗岩与金矿关系的不同特点,将其划分为自源型金成矿"I"型花岗岩带和它源型金成矿"I"型花岗岩带。"S"型花岗岩与金矿的关系仅表现为部分岩体周围发育一定程度的金矿化。 相似文献