Rare earth elements in ‘Younger’ granites,Northern Portugal

Rare earth elements (REE) were determined in two suites of Hercynian ‘Younger’ granodiorites and granites, one massive and the other porphyritic. Within each suite, the REE abundances decrease towards the more felsic granite while the REE patterns are almost identical. The patterns of the porphyritic types are only slightly more fractionated than those of the massive rocks. Negative Eu-anomalies are observed in all rocks although those of the granodiorites are smaller than those of the granites. Modeling of the data indicates that the granitic magmas may be derived, by partial melting, from the greywackes and pelites of the orogenic belt, the melts being in equilibrium with a residuum composed of quartz, plagioclase, garnet, orthopyroxene or cordierite, and, possibly, biotite.     

Geochemistry, geochronology and mineralisation potential of the granites in the Central Iberian Zone: The Jalama batholith

The Jalama batholith (Spain and Portugal) is one of the numerous granites of the Central Iberian Zone with Sn- and W-associated mineralisation. On the basis of petrographical and geochemical characterisation three types of granite have been distinguished: inhomogeneous granitoids, porphyrytic granites and leucogranites, all of these being peraluminous and subalkaline. All the granites correspond to S-type granites. The field data, the petrography and lack of geochemical affinity relationships of the leucogranites with the remaining granites indicate that their geneses correspond to an independent magma batch and superimposed fractional crystallisation process. The granitic units show subparallel REE patterns. There is a decrease in total REE and an increase in the negative Eu anomaly from the inhomogeneous granitoids to leucogranites. Some leucogranites show relatively low contents of Sn and W almost certainly due to segregation in the magma of a melt rich in water carrying Sn-W. These elements are concentrated in the water phase, which eventually gives rise to Sn-W-associated mineralisation.The ages obtained by means of a whole-rock Rb-Sr isochron for the granites mainly indicate an early intrusion of the inhomogeneous granitoids (319±10 Ma), followed in time by porphyrytic granites (279±9 Ma), which can be associated to the late-post-kinematic granites within the third Variscan deformation phase (D₃).Apart from the average Sn content, the variations of trace elements, principally Sr, Ba, Rb, Th and P, establish that the porphyritic granites and the inhomogeneous granitoids will be barren granites while the leucogranites and the subfacies at the margin of the porphyritic granites correspond to granites with mineralisation potential. It is precisely in these granites of the Jálama batholith that the Sn-W mineralisation is located, for which the criteria utilised has been demonstrated to be effective.     

Two different magma series imply a Palaeogene tectonic transition from contraction to extension in the SE Korean Peninsula

Late Cretaceous–early Tertiary granites in the Gyeongsang Basin have distinctly different bulk-rock compositions. Calc-alkaline I-type metaluminous granites display petrographic features implying magma mixing, whereas A-type granites are hypersolvus and peralkaline. I-type plutons mainly consist of enclave-rich granodiorites and enclave-poor porphyritic granites typified by abundant plagioclase phenocrysts; these granitoids contain various mafic clots and magmatic/microgranular enclaves (MMEs). A-type bodies are perthitic alkali-feldspar granites characterized by interstitial annite + riebeckite-arfvedsonite. New SHRIMP-RG zircon U–Pb age dating of an I-type enclave-poor porphyritic granite and an A-type alkali-feldspar granite yielded ages of 65.7 ± 0.7 and 53.9 ± 0.3 million years, respectively. Based on prior geochronologic data and these contrasting ages of granitic magma genesis, SE Korea may have evolved tectonically from latest Cretaceous compression to late Palaeocene extension (i.e. orogenic collapse). The later part of the 66–54 Ma magmatic gap apparently includes the time of tectonic inversion in the SE Korean Peninsula, a far-field effect of the collision of the Indian subcontinent with Eurasia. This process is also reflected in the 69–52 Ma NNE-trending Eurasian apparent polar wandering path.     

Cumulate-like textures and chemical relationships in the Bressanone (Brixen) Granodiorite (Eastern Alps, Italy)— A new genetic approach

The shallow level pluton of Bressanone is a Late Hercynian multiple intrusion into the South Alpine basement of the Eastern Alps. Most of this complex is composed of anatectic granodiorites and granites intruded in separate stocks 282 ± 14 Ma ago; gabbros and leucogranites occur in smaller quantities. The chronological intrusion sequence is: layered gabbro, granodiorites and granites, two-mica cordierite leucogranite and fayalite leucogranites.

The granodiorites and granites may contain hornblende or garnet. The hornblende and garnet rocks differ both in chemistry and (⁸⁷Sr/⁸⁶Sr)_i ratio, and may be identified as “I-type” and “S-type”, respectively, according to the Chappell-White classification.

Textural and chemical patterns show that the granites may be linked to the granodiorites by cumulate-like processes. The granodiorite → granite transition, attributed to filter pressing, expresses an increase in the liquid/xenolith ratio in a magma where the liquid fraction was a minimum melt and the solid fraction was restitic material.     

Petrogenesis of the Xihuashan Granite in Southern Jiangxi Province,South China: Constraints from Zircon U-Pb Geochronology,Geochemistry and Nd Isotopes

Mesozoic granitic intrusions are widely distributed in the Nanling region,South China.Yanshanian granites are closely connected with the formation of tungsten deposits.The Xihuashan granite is a typica...     

Les granites du Massif Central Français: étude comparée des leucogranites et granodiorites

Chemical and mineralogical compositions of granitic rocks of the French Massif Central enable us to classify them into two distinct groups: (i) leucogranites, (ii) granodiorites or quartz-monzonites, separated by a natural gap. The differences between these two groups are not only chemical and mineralogical, but are also reflected by:

conditions of crystallization as deduced from compositions and from thermal metamorphism of xenoliths.

nature of inclusions and, especially, the occurrence of basic fine-grained igneous xenoliths restricted to the granodiorite — quartz-monzonite group

relations between intrusive and autochtonous migmatitic masses;

levels of formation and of intrusion; the granodioritic and quartz-monzonitic magmas have originated at deeper horizons of the earth's crust than the leucogranitic one, but have risen higher.

In our opinion these differences are linked, and the specific characteristics of the granodiorites and quartz-monzonites are related to the presence of basic igneous inclusions. These inclusions are relics of deep basic intrusions in the earth's crust, which have overheated the surrounding acid rocks beyond the minimum temperature of melting. Thus granodioritic or quartz-monzonitic melts were produced and were able to rise to superficial levels. These inclusions are missing in leucogranites. The compositions of the latter and their poor mobility suggest a wet anatectic origin in minimal PT conditions.     

北山花岗岩S型/I型空间变化规律及含矿性

北山地区花岗岩十分发育, 出露面积接近总面积的30%, 形成时代以华力西期为主, 约占80%以上。笔者根据岩石化学判别统计, 本区花岗岩的S型/I型个数比例, 北带0.33, 中带0.54, 南带0.59, 说明从北向南, I型花岗岩逐渐减少, S型花岗岩逐渐增多。区内花岗岩类为重要的含矿岩石, 其中典型斑岩铜矿床与I型花岗质斑岩有关, 当出现铜铅组合时则与S型花岗质斑岩有关; 钼矿床有关花岗岩一般属I型, 当出现钨钼组合时则向S型花岗岩过渡; 钨锡矿床主要与S型花岗岩有关; 金矿床有关的花岗岩既有I型, 也有S型, 专属性不明显。     

Neogene basin development around Söke-Kuşadası (western Anatolia) and its bearing on tectonic development of the Aegean region

The AMS study has been performed on various types of the basement – Variscan granitic and surrounding – Mesozoic sedimentary rocks in the Velká Fatra Mountains, Tatric Superunit of the Central Western Carpathians. The Velká Fatra Mts. provides good opportunity for AMS study because of composite S-type and I-type granite character of pluton and clear relations to Mesozoic sedimentary rocks in the cover and nappe positions. The granitic massif consists of the three types of weakly magnetic peraluminous granites (350 – 340 Ma in age), ranging from two-mica granites to biotite granodiorites in composition and carrying accessory monazite and ilmenite; whereby they resemble common S-type and/or Ilmenite Series granite. This pre-existing granitic body was intruded by relatively young (304 Ma old) metaluminous to subaluminous, strongly magnetic (due to magnetite) tonalitic intrusion of the I-type and/or Magnetite Series granite. In all S-types investigated as well as in the I-type tonalite body, the magnetic fabrics are not uniform, but slightly variable within a body and differing from body to body. The magnetic fabrics in all granitic rocks can be classified as mostly magmatic in origin, only subordinately affected by ductile deformation. The Alpine overprint of the magnetic fabric of the Variscan granite frequent in the central areas of the Central Western Carpathians was only weak in the Velká Fatra Mts. and the magnetic fabrics of these granites thus mostly comprise the original Variscan magmatic fabrics. On the other hand, in the marginal parts of the Velká Fatra Mts. the magnetic fabrics in granites are locally conformable to the deformational magnetic fabrics in surrounding sedimentary rocks (Mesozoic in age) thus indicating at least local effects of the Alpine deformation. The magnetic fabrics in Mesozoic sedimentary rocks covering the crystalline basement are partially (Cover Formation) to entirely (Nappe Units) deformational in origin.     

西昆仑西段三叠纪两类花岗岩年龄测定及其构造意义

西昆仑造山带海西晚期-印支早期(三叠纪)花岗岩发育,但已有的测年资料、岩石地球化学研究及少量的构造学观察还没有对本区这一时期造山事件的时间尺度做到准确把握。对西昆仑西段海西晚期两类构造特征完全不同的花岗岩露头尺度的观察、锆石U-Pb定年结果表明,一类含石榴子石片麻状花岗岩形成时代为240.5 ±1.8 Ma,表现出同造山过程中的花岗岩变形特征;另一类块状含角闪石花岗岩的年龄为228.2±1.5 Ma。根据两个岩体的构造特征,结合前人的研究及地球化学特征,表明含石榴子石片麻状花岗岩形成于同碰撞造山时期,是甜水海地体与西昆仑南带晚古生代岛弧沿麻扎-康西瓦缝合带碰撞峰期的产物,代表了沿麻扎-康西瓦分布的古特提斯洋一个分支的闭合,而228 Ma块状含角闪石花岗岩形成于碰撞造山后的伸展背景。220-190 Ma持续发育的花岗岩是南昆仑地体拼合到北昆仑地体之后在其南部形成的新的深成岩浆弧带。这一研究为西昆仑海西晚期-印支早期构造演化提供了更精细的时间制约。     

九资河—天堂寨地区燕山晚期花岗岩与大别造山带核部隆升

大面积分布在大别造山带核部九资河－天堂寨地区、构成著名的天堂寨花岗质杂岩体主体的燕山晚期花岗岩,包括九资河片麻状花岗岩、吴家山花岗闪长岩、天堂寨斑状花岗岩、薄力峰细粒花岗岩和笔架山浅色花岗岩等和个岩石类型（单元）。其围岩为遭受角闪岩相区域变质和混合岩化的新太古代大别杂岩。根据其与研究区主体构造－巨型ＮＥ向右行走测韧性剪切带的关系,这些花岗岩可分为同构造、无构造和构造后等３个构造类型。从岩石角度看,     

Petrology and geochemistry of Jura granite and granite gneiss in the Neelum Valley,Lesser Himalayas (Kashmir,Pakistan)

Late Proterozoic rocks of Tanol Formation in the Lesser Himalayas of Neelum Valley area are largely green schist to amphibolite facies rocks intruded by early Cambrian Jura granite gneiss and Jura granite representing Pan-African orogeny event in the area. These rocks are further intruded by pegmatites of acidic composition, aplites, and dolerite dykes. Based on field observations, texture, and petrographic character, three different categories of granite gneiss (i.e., highly porphyritic, coarse-grained two micas granite gneiss, medium-grained two micas granite gneiss, and leucocratic tourmaline-bearing muscovite granite gneiss), and granites (i.e., highly porphyritic coarse-grained two micas granite, medium-grained two micas granite, and leucocratic tourmaline-bearing coarse-grained muscovite granite) were classified. Thin section studies show that granite gneiss and granite are formed due to fractional crystallization, as revealed by zoning in plagioclase. The Al saturation index indicates that granite gneiss and granite are strongly peraluminous and S-type. Geochemical analysis shows that all granite gneisses are magnesian except one which is ferroan whereas all granites are ferroan except one which is magnesian. The CaO/Na₂O ratio (>0.3) indicates that granitic melt of Jura granite gneiss and granite is pelite-psammite derived peraluminous granitic melt formed due to partial melting of Tanol Formation. The rare earth element (REE) patterns of the Jura granite and Jura granite gneiss indicate that granitic magma of Jura granite and Jura granite gneiss is formed due to partial melting of rocks that are similar in composition to that of upper continental crust.     

Genese des zonar gebauten Beryllpegmatits von Venturinha (Visen,Portugal) in geochemischer Sicht

We present the geologic map of the region of Venturinha (Penalva do Castelo, Viseu), located in the Hercynian Massif, where there are the following outcrops: porphyritic granite, adamellite, aplites, pegmatites with beryl, tantalite and phosphate minerals, quartz veins and alluvium. Occurring in this region, bedded in porphyritic granite, are pegmatites and aplites which are occasionally intimately associated. Pegmatites and aplites, when bedded in adamellite, are very rare and very small in dimensions. The most important pegmatite is that of Venturinha. It has a zoned structure, passing without any break to the bedding porphyritic granite. Particularly well noticeable and well limited are the wall zone, intermediate zone and core as well as the replacement bodies which are very irregular. This pegmatite was studied from the structural, mineralogical, geochemical and genetic points of view. We have quantitatively determined by X-ray spectrography K, Ca, Rb, Sr and Ba in 46 samples of potash-feldspars and albites in the Venturinha pegmatite; and also, by emission spectrography, Pb in these same samples. For all these elements we used the internal standard method. The results obtained, after being transformed into components Or, An and Ab and projected inYoder'S et al. diagram (1957) define two areas, one in the field of feldspars rich in Ab-An and the other in the field of feldspars rich in Ab-Or. Apart from K and Ca, among those elements studied, that which appears in a higher percentage is Rb, followed in decreasing order by Ba., Sr and Pb. As regards Rb we found that there is a noticeable and progressive increase from the orthoclase of the bedding porphyritic granite (480 ppm) to the core of the pegmatite where the potash-feldspars reach up to 2000 ppm of the above element. The variation of the quantity of Ba in pegmatite is much more irregular than that of Rb, although we have noticed that there is a tendency for Ba to decrease as we get nearer to the core. The percentage of Ca in potash-feldspars goes from 0,54% in porphyritic granite to the average value of 0,28% in pegmatite. We have not observed, as in the case of Rb, a gradual variation of Ca in the pegmatitic formation, whether in the potash-feldspars or in the albites, where the average contents in Ca is 0,47%. The distribution of Sr and Pb in pegmatite is very irregular. There is a close geochemical connection between K and Rb, K and Ba, and Rb and Ba in the Venturinha pegmatite. The interpretation of the results obtained by spectrography lead to the following conclusions

1. a)
   The relation K/Rb in the potash-feldspars gives us values which are much below the average (220–230) and this shows the great differentiation occurred in the Venturinha, pegmatite. The distribution of K in function of Rb defines, in accordance with the degree of differentiation attained, an area located at the right hand side of the curves of normal dispersion (Ahrens et al. 1952) altered by TAYLOR et al. (1956). The values of the relation K/Rb in the albites studied fall, most of them, within the limits of the above normal dispersion.     
   
   

吕梁地区古元古代花岗岩浆作用——来自同位素年代学的证据

古元古代吕梁变质地块位于华北克拉通中部构造带中段的西缘，其中有大量的古元古代花岗闪长质到花岗质的侵入体。根据花岗岩岩石组合和同位索地质年代学资料，吕梁地区古元古代的花岗岩浆事件可分四个阶段。在早期拉张阶段，2364Ma的盖家庄片麻状花岗岩侵位，并伴随有大陆边缘裂谷型的吕梁群的火山活动。拉张一挤压转化阶段的花岗岩浆活动，代表性产物是2150Ma左右的赤坚岭片麻状花岗闪长岩；中期的挤压阶段的花岗岩浆活动，代表性产物是2063Ma的道仁沟石英二长岩、1906Ma的惠家庄似斑状黑云母花岗岩和1848Ma的市庄细粒花岗闪长岩等；晚期的拉张阶段的花岗岩浆活动，主要有1805Ma的大草坪斑状花岗岩和1800Ma的芦芽山斑状花岗岩、云中山花岗岩等。锆石SHRIMP U-Pb年代学研究结果表明，以往划分的关帝山杂岩是由不同时期的花岗岩所组成，应以解体。可将其划分为挤压阶段的惠家庄岩体、市庄岩体和后造山阶段的大草坪岩体等。     

辽西台里黑云母二长花岗岩地球化学特征及锆石U-Pb年代学

辽西台里地区花岗质岩石主要由花岗质片麻岩、斑状花岗质片麻岩和黑云母二长花岗岩等组成,这些花岗质岩石均曾被视为新太古代花岗岩。根据各类花岗质岩石的产状序次关系确定,块状/片麻状黑云母二长花岗岩呈岩脉或岩枝状侵入太古宙花岗质片麻岩和斑状花岗质片麻岩中,分别出露于研究区南北两侧。地球化学研究表明,黑云母二长花岗岩属于准铝质-弱过铝质的I型花岗岩,显示火山弧花岗岩的特点。黑云母二长花岗岩中锆石组成复杂,大量继承性锆石和新生锆石共存。新生锆石岩浆结晶特征明显,内部发育振荡生长环带,并具较高的Th/U值（0.15~1.70）。两个样品的新生锆石U-Pb定年结果（加权平均年龄）分别为(153.7±2.0) Ma和(153.7±4.7) Ma。研究表明,黑云母二长花岗岩为源自下地壳中基性火成岩的晚侏罗世花岗质侵入岩,其构造背景与古太平洋板块向亚洲大陆下俯冲作用有关。     

Constraints of Mantle and Crustal Sources Interaction during Orogenesis of Pre- and Post-collision Granitoids from the Northern Arabian-Nubian Shield: A Case Study from Wadi El-Akhder Granitoids,Southern Sinai,Egypt

The Egyptian older and younger granitic rocks emplaced during pre- and post-collision stages of Neoproterozoic Pan-African orogeny, respectively, are widely distributed in the southern Sinai Peninsula, constituting 70% of the basement outcrops. The Wadi El-Akhder, southwestern Sinai, is a mountainous terrain exposing two granitoid suites, namely the Wadi El-Akhder Older Granites (AOG) and the Homra Younger Granites (HYG). The AOG (granodiorites with subordinate tonalite compositions) have geochemical characteristics of medium-K calc-alkaline, metaluminous to mildly peraluminous granitoids formed in an island-arc environment, which are conformable with well-known Egyptian older granitoids rocks, whereas the HYG display calc-alkaline to slightly alkaline nature, peraluminous syeno-, monzogranites and alkali feldspar granites matching well those of the Egyptian younger granites. With respect to the AOG granitoids, the HYG granites contain lower Al2O3, FeO*, MgO, MnO, CaO, TiO2, Sr, Ba, and V, but higher Na2O, K2O, Nb, Zr, Th, and Rb. The AOG are generally characterized by enrichment in LILE and LREE and depletion in HFSE relative to N-MORB values (e.g., negative Nb and Ta anomalies). The geochemical features of the AOG follow assimilation-fractional crystallization (AFC) trends indicative of extensive crustal contamination of magma derived from a mantle source. The chemical characteristics of the AOG are remarkably similar to those of subduction-related granitoids from the Arabian-Nubian Shield (ANS). The compositional variations from monzogranites through syenogranites to alkali feldspar granite within HYG could not be explained by fractional crystallization solely. Correlating the whole-rock composition of the HYG to melts generated by experimental dehydration melting of meta-sedimentary and magmatic rocks reveals that they appear to be derived by extended melting of psammitic and pelitic metasediments, which is similar to the most of younger granitic suites in the ANS.     

通化地区古元古代晚期花岗质岩浆作用与地壳演化

广泛出露于华北板块东部辽吉地区的古元古代变质杂岩,多年来一直被认为是古老的陆内裂谷作用的产物,我们通过详细的野外地质调查工作发现,该变质杂岩中以往所划定的混合岩实际是不同变质程度和变形特征的岩浆成因花岗岩岩体,其岩石类型除典型的片麻状角闪正长花岗岩（俗称“条痕状花岗岩”或“辽吉花岗岩”）外,另有片麻状石英闪长岩、巨斑状黑云母二长花岗岩、巨斑状一环斑状舍石榴石花岗岩和角闪辉石正长岩等、,应用SHRIMP技术,本文对片麻状石英闪长岩和巨斑状一环斑状含石榴石花岗岩进行了结石U—Pb同位素年龄测定,结果显示它们的侵位时代为1872～1850Ma,与巨癍状黑云母二长花岗岩和角闪辉石正长杂岩侵位时代相近,岩石学一地球化学特征显示片麻状石英闪长岩是“Ⅰ”型花岗岩,具有岛弧型花岗岩地球化学特征;而巨斑状一环斑状含石榴石花岗岩（局部具有球斑状结构）属“S”型花岗岩结合区内与花岗岩形成同时发生的变质作用P—T特征,这种I-、S-和A-型花岗岩的同时产出,反映他们可能形成于造山后构造背景,结合朝鲜狼林一中国辽南和龙岗太古宙陆块的结晶基底差别,可以认定华北板块在太古宙末期并非仅由东、西部陆块组成,在东部陆块至少还存在朝鲜狼林-辽南-胶东联合陆块和龙岗-鲁西-五准陆块两个微陆块,这两个微陆块大约在1．90Ga左右发生拼合,然后它们再于1．85Ga左右与西部地块拼合     

The 401–409 Ma Xiaodonggou granitic intrusion: implications for understanding the Devonian Tectonics of the Northwest China Altai orogen

Abstract

Palaeozoic granitoids in the Chinese Altai are important for understanding the evolution of the Central Asian Orogenic Belt (CAOB). The Xiaodonggou granitic intrusion, situated in the Chinese Altai (southern CAOB), is composed of two intrusive phases, medium-grained granite intruded by porphyritic granite. Zircon LA-ICP-MS U–Pb analyses of medium-grained granite and porphyritic granite yield ages of 409 ± 2 Ma and 400 ± 1 Ma, respectively, indicating that these formed in Early Devonian time. Medium-grained granite and porphyritic granite have similar geochemical features and Nd–Hf isotopic compositions. Arc-like geochemical characteristics (e.g. enrichment of LILEs and negative anomalies of Nb, Ta, Ti, and P) show that both phases are volcanic arc granites (VAGs). Geochemical and isotopic characteristics suggest that these magmas originated from melting older crust. Based on their near-zero or negative ε_Nd(t) values (?1.4to 0) and positive ε_Hf(t) values (+1.4 to +7.8), together with Nd model ages of 1.15–1.26 Ga and zircon Hf model ages of 0.90–1.30 Ga, we suggest that the Xiaodonggou granites were derived from a mixture of juvenile and old crustal components. Some other Devonian granitic intrusions were recently identi?ed in the Chinese Altai with ages between 416 and 375 Ma. These Devonian granites have similar geochemical characteristics and petrogenesis as Xiaodonggou granites. The formation of these Devonian granites was in response to subduction processes, suggesting that Chinese Altai was an active continental margin in Early Devonian time.     

新疆可可托海地区花岗岩成因的研究

新疆可可托海地区有三种花岗岩,它们形成于造山运动不同阶段:片麻状黑云母花岗岩是海西造山运动早期的产物;似斑状花岗岩形成于海西晚期;二云母花岗岩是印支一燕山期侵入而成。三者的岩石、岩石化学、CMF值和QAP图解、亲合度、微量无素、稀土元素、铅和氧同位素组成等研究表明,它们是陆壳交代重熔成因的一个连续成岩系列。     

Sm-Nd systematics and petrology of postorogenic granitoids in the northern Baltic Shield

In the northern part of the Baltic Shield, quartz diorites, diorites, and monzodiorites compose massifs of postorogenic granites, in which younger granite phases are restricted to their central parts, and dike rocks (aplites, pegmatites, and granite porphyries) occur in the apical parts. The rocks of the Litsa-Araguba Complex (which is located in the northwestern part of the Kola Peninsula and was examined most thoroughly) compose seven intrusions 850 km² in total area, which were formed in mesoabyssal and hypabyssal depth facies. The massifs consist of quartz diorites and monzodiorites dated at 1774 ± 9 Ma, diorites, diorite porphyries, and lamprophyres, which are distinguished as phase 1. The porphyritic and equigranular granites, granodiorites, quartz monzonites, granites, alaskites and related vein leucogranites, pegmatites, and granite porphyries of phases 2 (main), 3, and 4 have an age of 1772–1762 Ma. Data obtained on the Sm-Nd systematics of the rocks indicate that their ?_Nd(1765) values are close to those for rocks of phases 1, 2, and 3 (from ?6.8 to ?8.8) and vary from ?5.0 to ?11.9 for the leucocratic granites of phase 4. The model age values are, respectively, 2.37–2.62 and 2.58–3.23 Ga. These data suggest that the parental melts were of anatectic genesis and were produced by the melting of mostly metasomatically altered garnet granulites from the lower crust. The leucogranites and alaskites of phase 4, which occur as relatively thin bodies in the rocks of the Archean Complex penetrated by the Kola Superdeep Borehole, were derived from a Neoarchean sialic source or produced by the contamination of the parental melts with the material of the Late Archean upper crust. The SHRIMP-II zircon age of the lower crustal migmatized garnet granulites lies within the range of 1831 ± 23 to 1392 ± 21 Ma in the concordia plot. All dates of the rocks are characterized by a unimodal distribution with most values lying within the range of 1650–1800 Ma and approximated by a discordia with T₁ = 1750 ± 30 Ma, MSWD = 3.1. This age value can be interpreted as an averaged age of the lower crustal granitization and corresponds, within the errors, to the age of postorogenic granite intrusions in the upper crust.     

Formation,evolution of the granitic complex and its contribution to mineralization in Dongqiyishan deposit,Inner Mongolia: Chronological and geochemical evidencesSCIEI北大核心CSCD

内蒙古东七一山钨多金属矿位于北山造山带东段,是一个以钨为主,共伴生锡、钼、铷、铍、铌、钽、铁和萤石的综合型矿床。本次工作对含矿花岗质杂岩开展了岩石学、地球化学、锆石U-Pb及辉钼矿Re-Os年代学研究。富W-Sn-Mo花岗岩岩性为细粒似斑状二长花岗岩、中细粒似斑状二长花岗岩、花岗斑岩,结晶年龄分别为220.6±1.6Ma、220.4±1.3Ma和220.0±1.1Ma。富Rb-Be-Nb-Ta花岗岩岩性为中粗粒钠长石化似斑状二长花岗岩,结晶年龄为219.9±1.9Ma。辉钼矿Re-Os定年获得加权平均年龄为211±1Ma(MSWD=0.83),说明成岩成矿发生在晚三叠世。含矿花岗质杂岩均具有高硅、富碱、贫铁镁钙特征,为高钾钙碱性花岗岩。其中,富W-Sn-Mo花岗岩为准铝质-过铝质花岗岩;而富Rb-Be-Nb-Ta花岗岩为强过铝质花岗岩。杂岩体轻重稀土具一定分馏,呈现显著的负Eu异常,均富集Rb、K、U、Ta,强烈亏损Ba、Nb、Sr、P、Ti、Zr、Hf。与富W-Sn-Mo花岗岩相比,富Rb-Be-Nb-Ta花岗岩具更低的稀土总量,更显著的Eu负异常,并显示微弱的稀土四分组效应,更高的Li、Ta含量,更低的P、Ti、Zr、Hf、W、Mo、Bi含量。时空关系和地球化学特征表明,杂岩体为同一次岩浆活动不同演化阶段的产物,均经历了较高程度的结晶分异和较强的熔体-流体相互作用。相比而言,富Rb-Be-Nb-Ta花岗岩比富W-Sn-Mo花岗岩结晶分异程度更高,熔体-流体作用更强,花岗质岩浆的高程度分离结晶和熔体-流体相互作用是形成该杂岩体并促使成矿的重要控制因素。