藏南洛扎地区基性岩墙群锆石U-Pb定年、地球化学特征及构造意义

藏南洛扎地区广泛分布有近东西向产出的基性岩墙群,主要侵位于晚侏罗世—早白垩世及其以前的地层中,锆石U-Pb同位素定年获得成岩年龄138.0Ma±3.5Ma。基性岩墙可以划分为2种主要类型:一类低K(K2O=0.06%～0.54%),稀土元素总量和轻、重稀土元素分异程度低[∑REE=58.95×10-6～115.5×10-6,(La/Yb)N=0.23～2.94],亏损LILE;另一类富K(K2O=1.22%～1.67%),稀土元素总量和轻、重稀土元素分异程度较高[∑REE=199.97×10-6～381.47×10-6,(La/Yb)N=6.57～11.5],富集LILE而亏损HFSE。地球化学研究结果表明,基性岩墙为具大陆拉斑玄武岩特征的大陆板内岩浆侵入体,可能分别源于亏损的软流圈地幔和富集的岩石圈地幔。基性岩墙群是新特提斯洋晚期大规模扩张的产物,标志着喜马拉雅被动大陆边缘在晚侏罗世—早白垩世处于强烈的拉张、裂离和岩石圈伸展减薄、软流圈上涌的构造环境与动力学背景。     

藏南夏瓦地区基性脉岩锆石U-Pb定年、地球化学特征及地质意义

西藏夏瓦地区位于特提斯喜马拉雅构造带中东部,广泛发育大量近东西向的基性脉岩,这些基性脉岩对于研究该区域地质构造演化具有重要的意义。本文对夏瓦地区基性脉岩开展了系统的岩石学、年代学、地球化学等研究。夏瓦基性脉岩的岩石类型以辉绿岩和辉长玢岩为主。锆石U-Pb年代学揭示基性脉岩结晶年龄为146～145 Ma。夏瓦基性脉岩具有低SiO₂(47.20%～50.54%)和高Mg~#值(39.78～53.79)特征,富集Ti、Fe、P元素,属碱性系列,富集轻稀土元素(LREE),高场强元素(Nb、Ta、Zr、Hf、Th)相对富集,显示出似OIB的地球化学特征,指示夏瓦基性脉岩来源于软流圈地幔的部分熔融,形成于大陆边缘裂谷背景下。结合区域大火成岩省基性岩的发育,认为夏瓦地区基性脉岩是大陆边缘裂谷背景下Kerguelen地幔柱作用的产物。夏瓦基性脉岩的结晶年龄虽然早于Kerguelen地幔柱活动的峰期(132 Ma),但可能属于地幔柱峰期之前的小规模岩浆活动。     

藏北羌塘南部地区基性岩墙与玄武岩的岩浆同源性

青藏高原羌塘南部地区沿龙木错－双湖缝合带南侧成群分布着近东西向的基性岩墙,形成时代为晚石炭世—早二叠世,其围岩是以晚石炭世—早二叠世裂谷型沉积为主并夹有基性火山岩的浅变质岩系。基性火山岩夹层的数量和厚度有由北向南由多变少的趋势。基性岩墙的岩石类型主要为辉绿岩,火山岩以玄武岩为主,玄武安山岩次之。基性岩墙与基性火山岩在空间上密切共生,形成于大致相同的地质时期内。二者均经历了低绿片岩相变质作用,且化学成分相近,稀土元素、微量元素组成均与板内玄武岩具有相似的特点。初步判定羌塘南部地区基性岩墙群与基性火山岩来自同一岩浆源,为晚石炭世—早二叠世冈瓦纳大陆北缘裂解的产物。     

浙江淳安木瓜基性岩墙群U-Pb年龄、地球化学特征及意义

浙江淳安木瓜地区基性岩墙群以NW-SE向产出,岩性丰要为辉绿岩和辉绿玢岩,地球化学分析显示其主要属于拉斑玄武岩系列.稀土元素分布模式均表现为右倾型,(La/Yb)N=5.1～7.6,平均为6.4,反映轻重稀土元素分异较为明显,重稀土元素明显亏损,表明源区有石榴子石的残余.La/Sm-La图解显示本区基性岩墙的岩浆是平衡...     

青藏高原南羌塘基性岩墙群U-Pb和Sm-Nd同位素定年及构造意义

羌塘地区是青藏高原古特提斯研究的关键地区,羌塘南部地区基性岩墙群的侵位时代与构造背景对确定古特提斯阶段联合古陆解体的具体时间和青藏高原构造演化有重要意义。选择单颗粒锆石U-Pb法和全岩Sm-Nd等时线法对基性岩墙进行定年研究,获得了(312±4)Ma单颗锆石U—Pb谐合线年龄和(299±13)Ma和(314±5)Ma两个Sm-Nd全岩等时年龄。结合区域地质资料研究认为,基性岩墙群为羌塘地块裂离作用的产物,所获得的同位素年龄代表了基性岩墙群的侵位时间,为羌塘地块裂解提供了构造事件年龄,为重塑龙木错—双湖古特提斯洋盆的形成演化过程提供了重要信息。     

Petrology, geochemistry and tectonic settings of the mafic dikes and sills associated with the evolution of the Proterozoic Cuddapah Basin of south India

In this article we summarize the petrological, geochemical and tectonic processes involved in the evolution of the Proterozoic intracratonic Cuddapah basin. We use new and available ages of Cuddapah igneous rocks, together with field, stratigraphic, geophysical and other criteria, to arrive at a plausible model for the timing of these processes during basin evolution. We present petrological and geochronological evidence of dike emplacement along preferred lineament directions around the basin in response to stresses, which may have been responsible for the evolution of the basin itself. Basaltic dike intrusion started on the south Indian shield around 2400 Ma and continued throughout the Cuddapah basin evolution and sedimentation. A deep mantle perturbation, currently manifested by a lopolithic cupola-like intrusion under the southwestern part of the basin, may have occurred at the onset of basin evolution and played an important role in its development. Paleomagnetic, gravity and geochronological evidence indicates that it was a constant thermal source responsible for dike and sill emplacement between 1500 and 1200 Ma both inside and out-side the basin. Lineament reactivation in the NW-SE and NE-SW directions, in response to the mantle perturbation, intensified between 1400 and 1200 Ma, leading to the emplacement of several cross cutting dikes. Fe-Mg partition coefficients of olivine and augite and Ca-Na partition coefficient of plagioclase, calculated from the composition of these minerals and bulk composition of their host rocks, indicate that the dikes outside the Cuddapah basin are cumulates. The contemporary dikes may be related by fractional crystallization as indicated by a positive correlation between their plagioclase Ca# (atomic Ca/[Ca+Na]) and augite Mg# (atomic Mg/[Mg+Fe]). A few NW-SE and NE-SW cross cutting dikes of the period between 1400 and 1200 Ma, preserve petrographic evidence of episodic magmatic intrusive activity along preferred directions. Petrological reasoning indicates that a magmatic liquid reacted with a set of cross cutting dikes, intruding into one that was already solidified and altering the composition of the magma that produced the other dike. The Cuddapah basin tholeiites may be related by fractional crystallization at 5 kb and 1019-1154‡ C, which occurred in the lopolithic cupola near the southwestern margin of the basin. Xenolith bearing picrites, which occur near the periphery of the cupola, originated by the accumulation of xenoliths in the tholeiites. This is indicated by the composition of the olivine in the xenoliths (Fo_78.7-81.9), which are closely similar to calculated olivine compositions (Fo_77.8-78.3) in equilibrium with the tholeiites under the sameP-T conditions. It is inferred that fractionation in the cupola resulted in crystals settling on its walls. Hence, the xenolith-bearing sills occur at the periphery of the lopolithic body. The tholeiites both inside and outside the basin are enriched in incompatible elements compared to mid oceanic ridge basalts. The Ba, Rb and K contents of the Cuddapah and other Proterozoic Gondwana tholeiites indicate that a widespread metasomatic enrichment of the mantle source may have occurred between R∼2.9 and R∼2.7Ga. There may be local heterogeneity in the source of the Cuddapah tholeiites as indicated by different Ba/Rb, Ti/Zr, Ti/Y, Zr/Nb and Y/Nb in samples inside and outside the basin. Large-scale differences such as the low P₂O₅-TiO₂ and high P₂O₅-TiO₂ basaltic domains of the Jurassic Gondwana basalts, however, did not exist during the Proterozoic time period under consideration. Although we are beginning to understand the tectono-magmatic processes involved in the evolution of the Cuddapah basin, much work remains to be done to obtain a complete picture. Future research in the Cuddapah basin should focus on obtaining accurate ages of the igneous rocks associated with the evolution of the basin.     

Petrogenesis of Early Cretaceous mafic dikes in southeastern Jiaolai basin,Jiaodong Peninsula,China

Mafic dikes of mainly Early Cretaceous age (130–110 Ma) are widely developed on the Jiaodong Peninsula, China. Previous studies of the dikes, which have focused mainly on occurrences in the Jiaobei uplift and in the Sulu orogenic belt, have thoroughly examined their petrogenesis and geodynamic setting. This study identified four previously unknown mafic dikes (dolerite and lamprophyre) in southeastern Jiaolai basin (near Haiyang city), Jiaodong Peninsula. Detailed geochemical and geochronological analyses were conducted to determine the petrogenesis of the dikes and to infer their geodynamic setting. Zircon U–Pb dating by laser ablation–inductively coupled plasma–mass spectrometry (LA-ICP-MS) indicates that the dikes were emplaced at ~126 Ma. The dikes are characterized by low SiO₂ contents (44.3–52.3 wt.%), high contents of MgO (7.28–10.13 wt.%), Cr (267–652 ppm), and Ni (93–335 ppm), and high Mg^# values (63–73); they are enriched in large ion lithophile elements (LILEs; Ba, K, and Sr), depleted in high field strength elements (HFSEs; Nb, Ta, P, and Ti), and are characterized by high (⁸⁷Sr/⁸⁶Sr)_i isotope ratios (0.707226–0.708222), low ε_Nd(t) values (?12.3 to ?13.6), and zircon ε_Hf(t) values (?15.6 to ?23.6). These features suggest that the dikes were derived from enriched subcontinent lithospheric mantle (SCLM). The wide range of Rb/Sr (0.04–0.18) and Ba/Rb (5–34) ratios, and the low and limited range of Dy/Yb (1.93–2.52) and K/Yb (5.71–11.99) ratios of the dikes indicate that the magmas originated from a low degree of partial melting of an amphibole- and phlogopite-bearing lherzolite in the spinel–garnet transition zone. The parental magma might have experienced fractionation of olivine and clinopyroxene during its ascent without significant crustal contamination. Evident depletion of Nb–Ta and Zr–Hf, low and limited range of Th/Yb ratios, elevated Ba/La ratios, constant chondritic Zr/Hf ratios, and a large range of Hf/Sm ratios further indicate that the mantle sources of the dikes were altered by carbonate-related metasomatism from subducted slab-derived fluids, which were most likely related to subduction of the Palaeo-Pacific plate during the Mesozoic. The mafic dikes in the southeastern Jiaolai basin resemble the arc-like mafic dikes in the Jiaobei terrain and the Sulu orogenic belt, and possibly indicate lithospheric thinning induced by slab rollback of the Palaeo-Pacific plate.     

东昆仑祁漫塔格虎头崖铅锌多金属矿区花岗岩年代学、地球化学及Hf同位素特征

虎头崖铅锌多金属矿床位于东昆仑祁漫塔格地区,矿区内中酸性侵入岩体广泛发育,且与成矿关系密切。LA-ICP-MS锆石U-Pb同位素年龄测试表明,虎头崖Ⅴ矿带外围花岗闪长岩形成时代为(224.3±0.6)Ma,Ⅷ号矿带矿体下部正长花岗岩形成时代为(239.7±0.8)Ma,岩体形成时代为中—晚三叠世。岩石地球化学表明,花岗闪长岩富钾贫钠(K2O/Na2O为2.02~2.88),无明显负Eu异常(δEu为0.68~1.06),富集Rb、Th、U、K等大离子亲石元素,明显亏损Nb、P、Ti等元素,属I型花岗岩;正长花岗岩具高硅、富碱、低铁镁、贫钙磷钛的特征,负Eu强烈(δEu为0.08~0.26),富集Rb、Th、U、K,亏损P、Ti、Ba、Sr,属高分异I型花岗岩;二者均形成于后碰撞构造背景;Hf同位素组成不均一,指示其经历了壳幔岩浆混合作用,幔源物质的加入可能带来了丰富的成矿物质。     

西藏北冈底斯巴木错安山岩的年代学、地球化学及岩石成因

青藏高原南部的冈底斯带中北部地区广泛分布着中生代火山岩及相关侵入岩。由于缺少可靠的年代学和高质量的地球化学数据,使得其成因及地球动力学背景长期以来存在较大争议。为探讨这一问题,本文报道了出露于北冈底斯巴木错东岸安山岩的锆石U-Pb定年、地球化学和Sr-Nd-Hf同位素数据。巴木错安山岩锆石U-Pb年龄为122.1±0.9Ma。岩石为斑状结构,斑晶为斜长石、角闪石和少量辉石、黑云母。岩石SiO2为58.65%～60.16%,全碱(Na2O+K2O)含量为(5.25%～5.52%,平均5.38%),K2O含量为2.67%～2.81%之间,K2O/Na2O均1,TiO2含量较低(0.61%～0.72%),MgO含量为2.78%～3.10%,Mg#值为45～48。岩石相对富集Rb、Th、U、Pb,亏损Ba、Nb、Ta和Ti等元素,显示出弧特征。样品具有较冈底斯成熟大陆地壳(如宁中早侏罗世强过铝质花岗岩)低的(87Sr/86Sr)t(0.7102～0.7103)和高的εNd(t)(-9.3～-9.8)值,Nd同位素单阶段模式年龄为1.61～1.76Ga;锆石εHf(t)值为-4.6～-0.3,地幔模式年龄tDM为795～965Ma。综合岩石学和地球化学研究表明,巴木错安山岩为高钾钙碱性系列,产于大陆岛弧向同碰撞转换的构造环境。该安山岩可能是班公湖-怒江洋向南俯冲于冈底斯带之下的洋壳在重力拖拉下发生板片回转,导致软流圈物质上升提供热量,从而诱发受到俯冲流体改造的古老岩石圈地幔部分熔融并与壳源酸性熔体混合而成的产物。     

湘东锡田A型花岗岩的年代学、Hf同位素、地球化学特征及其地质意义

对湘东锡田岩体进行的LA-ICP-MS定年结果表明,2个第一期中(细)粒斑状黑云母二长花岗岩样品的年龄分别为(220.9±0.6) Ma及(220.7±0.7)Ma;第二期中细粒二云母二长花岗岩的年龄为(154.4±0.7)Ma.两期花岗岩均为高钾、富碱、弱过铝质岩石.稀土元素总量较高,富集U、Th,亏损Ti、P等高场强元素和Ba、Sr等大离子亲石元素,具高的104 Ga/Al,显示A型花岗岩特征.印支期花岗岩略富集轻稀土元素,Eu异常较弱;燕山期花岗岩轻、重稀土元素分异不明显,Eu异常显著.Hf同位素研究显示,两期次花岗岩均具有较低的εHf(t)(-4.91～-11.04),亏损地幔二阶段模式年龄集中在1.6～1.8 Ga,与华夏地块古老的变质基底年龄一致.因此,锡田岩体是华夏地块古元古代地壳物质在伸展的构造背景下部分熔融的产物.锡田A型花岗岩复式岩体的确定,对于研究湖南东部在中生代印支、燕山两期构造事件中所处的构造背景具有重要意义,同时也为华南地区存在印支期A型花岗岩钨锡成矿作用增加了证据.     

藏南基性岩墙群的地球化学特征

藏南江孜—哲古一带广泛分布有北西向和近东西向产出的基性—中基性岩墙群,它们是新特提斯洋晚期发生大规模扩张的产物。本文对这些基性岩脉进行了较为系统的元素地球化学和Pb-Sr-Nd同位素研究。元素地球化学研究表明,该岩体略为富集LREE,Eu的亏损不明显,表明岩浆结晶分异作用较弱;LILE的富集和HFSE的亏损均不明显,所有样品均以相对富集Ta、Ce和亏损La、Y和Yb为特点。铅同位素206Pb/204Pb比值和207Pb/204Pb比值变化范围较小,分别为18.330～18.717和15.504～15.674;而208Pb/204Pb值和μ值相对变化较大,分别为37.664～39.156和9.296～9.931;初始87Sr/86Sr值变化范围较大,为0.7044～0.7105;岩石的εNd(t)值变化范围为-4.49～ 6.77,绝大多数为正值。微量元素地球化学和Nd-Sr-Pb同位素研究结果表明,藏南地区基性岩墙群可能是由来自亏损地幔源的岩浆与来自富集地幔源(EM)的岩浆混合的产物,其快速侵位造成岩浆分异作用较差,而岩浆的不均匀混合导致LILE富集与HFSE亏损均不明显,并产生较大的初始87Sr/86Sr比...     

藏北羌塘南部冈玛错地区展金组玄武岩的成因及其构造意义

羌塘南部地区大面积出露玄武岩、基性岩墙等基性岩类,区域上它们沿龙木错—双湖—澜沧江板块缝合带南侧展布。已有较多的研究报道认为基性岩墙的时代为晚石炭世—早二叠世。玄武岩呈夹层状产出于展金组中,随着羌塘地区地质研究程度的不断提高,玄武岩的确切时代、构造属性等已成为探讨研究区构造演化亟待解决的问题。在野外观察的基础上,选择羌塘南部典型的玄武岩进行地球化学研究。玄武岩属于碱性系列岩石,富集Ti和Fe;轻稀土元素富集,轻、重稀土分异明显;在构造环境判别图解上,主要投在板内环境区域;总体表现出与地幔柱成因同类岩石相似的特点。对玄武岩的研究,为羌塘南部晚古生代地幔柱的存在提供了有力的证据。     

藏北班公湖-怒江缝合带西段沙木罗组火山岩年代学、Hf同位素及地球化学特征

班公湖-怒江缝合带在中生代的构造岩浆演化一直以来都是青藏高原基础地质研究中的热点之一.在该缝合带南部的冈底斯北部地区发育大量的中生代火山岩及相关岩浆岩,其岩石成因与成岩地球动力学背景长期以来存在较大的争议.以班公湖-怒江缝合带西段阿翁错地区沙木罗组新发现的火山岩夹层为研究对象,对沙木罗组的形成时代、火山岩的成因、构造环境以及动力学背景进行了探讨.沙木罗组火山岩由下部扎果安山岩和中部昂母过安山质晶屑凝灰岩组成.锆石U-Pb定年结果表明下部扎果安山岩锆石结晶年龄为141.3±1.7 Ma,中部昂母过安山质晶屑凝灰岩的锆石结晶年龄为134.0±0.4 Ma,与区域上沙木罗组产出的化石及碎屑锆石约束时代较为一致.研究区沙木罗组下部安山岩以低硅(SiO₂=52.58%～55.35%)、低铝(Al₂O₃=14.43%～15.44%,A/CNK=0.58～0.75)、富镁(MgO=6.12%～8.51%)、富钠(Na₂O=1.55%～5.03%,Na₂O/K₂O=1.8...     

豫西雷门沟钼矿区花岗斑岩年代学、地球化学和Sr-Nd-Hf同位素研究

雷门沟钼矿床是东秦岭地区典型的斑岩型矿床之一。矿体主要赋存于雷门沟花岗斑岩体内,部分产于岩体外接触带的太华群片麻岩中。LA-(MC)-ICP-MS锆石U-Pb定年结果显示,雷门沟花岗斑岩的成岩年龄为(131.0±0.6)Ma(n=25,MSWD=1.6),与辉钼矿Re-Os同位素年龄(132±2)Ma一致。岩石地球化学分析表明,该岩体的A/CNK=1.11~1.17,w(K2O+Na2O)为8.12%~9.07%,K2O/Na2O比值为1.17~1.68,属于过铝质和高钾钙碱性系列。稀土和微量元素特征显示,该岩体富集LREE、K、Rb、Ba、Sr、Pb等大离子亲石元素,亏损HREE、Nb、Ta、Ti、P等高场强元素,具有中等的负铕异常。岩石的初始87Sr/86Sr比值为0.709 319~0.709 326,εNd(t)值为-16.26~-16.16;锆石的εHf(t)值变化于-27.9~-16.9,二阶段模式年龄tDM2=2259~2946 Ma,显示其源区物质以壳源物质为主,可能为太古宙太华群,有少量幔源组分的参与,岩体可能是由底侵的基性幔源岩浆诱发的地壳物质部分熔融形成的。与邻近的花山岩基的地球化学和同位素特征对比表明,雷门沟花岗斑岩和花山岩基来源于相同的源区,推测二者应是不同侵入期次的产物。     

Geochemistry of mafic igneous rocks of the northern Prince Charles Mountains,Antarctica

Rare mafic dykes, which intrude 1000 Ma high‐grade metamorphic rocks of the northern Prince Charles Mountains‐Mawson Coast area, are compositionally distinct from abundant early to middle Proterozoic tholeiite dykes, which are confined to Archaean or early Proterozoic terrains in the southern Prince Charles Mountains and elsewhere in East Antarctica, and which have therefore proved useful as stratigraphic markers. The younger dykes (and extrusive rocks) are a composition‐ally heterogeneous group with a wide range of ages (at least Cambrian to Eocene), although most are of K‐rich alkaline composition or have alkaline affinites. Their strong enrichment in highly incompatible elements (Rb, Ba, Th, Nb, K, Pb, Th and U) relative to less incompatible elements (La, Ce and P) suggests derivation by partial melting of more enriched mantle source regions than those of most of the Proterozoic tholeiite suites. However, unlike the latter, many incompatible element ratios have been significantly affected by fractional crystallisation and possibly also by the presence of residual minor phases during low degrees of melting.     

琼南晚白垩世基性岩墙群的年代学、元素地球化学和Sr-Nd同位素研究

系统的年代学、元素地球化学和Sr—Nd同位素地球化学研究表明，琼南晚白垩世基性岩墙群形成于81Ma，富K(K20约为1．95％～3．63％，K20／Na20约为0．61～1．12)、大离子亲石元素、轻稀土元素和Pb，亏损高场强元素，具高的^87Sr／86Sr初始值(0．7078～0．7084)和负的εNd(t)值(—3．2～—2．3)，为典型的钾玄质系列岩石，类似于与俯冲环境相关的高K／Ti—低Ti钾质岩石。该岩墙群形成于“后碰撞弧”的板内拉张环境，源自与俯冲作用有关的富钾和大离子亲石元素的交代地慢，并经历了明显的以单斜辉石为主的结晶分异作用。此外，琼南基性岩墙群和粤北及福建沿海地区晚白垩世基性岩脉的对比表明，晚白垩世中国东南部岩石圈地慢组成存在区域性的差异，这种差异很可能与区域构造演化历史的不同有关。     

藏东南措美大火成岩省中OIB型镁铁质岩的全岩地球化学和锆石Hf同位素

西藏南东部新识别出来的措美大火成岩省的地幔柱头部物质成分尚未得到很好的约束。为探讨此问题,在全岩地球化学数据基础上,本文首次报道了藏东南措美大火成岩省中机布淌、打隆、措美和哲古错OIB型镁铁质岩的锆石Hf同位素和微量元素数据。本文报道的OIB型镁铁质岩包括碱性(组Ⅰ)和亚碱性(组Ⅱ)系列的辉长岩和辉绿岩,以岩墙或岩床的形式产出。这些镁铁质岩具有高的TiO₂(2.61%～4.07%)和P₂O₅(0.32%～0.51%)含量,富集轻稀土元素和高场强元素,地球化学特征类似于OIB。全岩微量元素地球化学指标显示组Ⅰ样品没有或很少受到地壳混染,组Ⅱ样品经历了较高程度的地壳混染。组Ⅰ中一件样品(JBT03-1)具有变化范围大的锆石ε_Hf(t)值(-4.8～+5.3),可能暗示其受到了地壳和/或岩石圈地幔物质的混染。本文结果表明锆石Hf同位素比全岩地球化学数据能够更为有效地识别基性岩浆是否受到地壳和/或岩石圈地幔物质混染。措美大火成岩省中的OIB型镁铁质岩样品(组Ⅰ和组Ⅱ),具有不同于俯冲带镁铁质岩和洋壳镁铁质岩的锆石稀土元素配分型式和锆石Ti温度,这可能是岩浆源区温度和成分不同的结果。综合考虑全岩地球化学和锆石Hf同位素指标,本文提出未受到地壳或岩石圈地幔混染的打隆镇辉长岩体(以组I中的DL01样品为代表)很可能代表了措美大火成岩省纯的地幔柱头部物质成分[⁸⁷Sr/⁸⁶Sr_(t)=0.7047,ε_Nd(t=+1.5,ε_Hf(t=+2.1～+5.7]。这些成分与代表白垩纪Kerguelen地幔柱头部物质的Site 1138和Bunbury Casuarina玄武岩非常相似,可能指示措美大火成岩省中的OIB型镁铁质岩本身就是Kerguelen地幔柱头部物质发生减压熔融的产物。     

Origin of 1.8 Ga zircons in Post Eocene mafic dikes in the Roshtkhar area,NE Iran

The Roshtkhar area is located in the Khaf-Kashmar-Bardaskan volcano-plutonic belt to the northeastern Iran along the regional E–W trending Dorouneh Fault, northeastern of the Lut Block. There are several outcrops of subvolcanic rocks occurring mainly as dikes in the area, which intruded into Cenozoic intrusive rocks. We present U–Pb dating of zircons from a diabase dike and syenite rock using LA-ICP-MS that yielded an age of 1778 ± 10 Ma for the dike, indicating this Cenozoic dike has zircon xenocrysts inherited from deeper sources; and 38.0 ± 0.5 Ma, indicating an Late Eocene crystallization age for the syenite. Geochemically, the dikes typical of high-K calc-alkaline to shoshonitic magmas. Petrographic observations and major and trace element variations suggest that diabase melts underwent variable fractionation of clinopyroxene, olivine, and Fe-Ti oxides and minor crustal contamination during the differentiation process. Primitive mantle-normalized multi-element diagrams display enrichment in LILE, such as Rb, Ba, Th, U, and Sr compared to HFSE, as well as negative anomalies of Nb, Ta, P, and Ti, suggesting derivation from subduction-modified mantle. Chondrite-normalized REE plots show moderately LREE enriched patterns (<3.83 La_N/Yb_N <8.27), and no significant Eu anomalies. Geochemical modelling using Sm/Yb versus La/Yb and La/Sm ratios suggests a low-degree of batch melting (~1–3%) of a phlogopite-spinel peridotite source to generate the mafic dikes. The geochemical signatures suggest that the Roshtkhar mafic dikes cannot be related directly to subduction and likely resulted from melting of upper mantle in an extensional setting where the heat flow was provided from deeper levels. These dikes presumably derived the zircon xenocrysts from the assimilation of upper crust of Gondwanian basement. Processes responsible for partial melting of metasomatized lithospheric mantle and post-collision magmatism in NE Iran was triggered by heating due to asthenospheric upwelling in an extensional setting.     

亚贵拉-沙让-洞中拉矿集区中新生代岩浆岩Hf同位素特征与岩浆源区示踪

选择西藏念青唐古拉地区的工布江达-墨竹工卡县亚贵拉-沙让-洞中拉铅锌钼铜银矿集区典型的中新生代岩浆岩作为研究对象,详细研究了岩体中锆石的Hf同位素组成.亚贵拉燕山期石英斑岩(λπ35)锆石的176Hf/177Hf比值为0.282 090～0.282 480,εHf(t)为-7.750～-21.449,TDM2为1 67...