闽西晚中生代基性岩脉的地球化学研究

对闽西三个地区基性岩脉的地球化学研究发现,该区域的基性岩脉为亚碱性岩石系列,具有高 Al、低 Ti、Na2O > K2O的特征;相对富集大离子亲石元素,亏损高强场元素.半村辉绿岩脉和拔里角闪辉长岩脉以 Nb、Ta、Ti负异常为特征,林子坟辉长辉绿岩脉具有 Nb、Ta负异常和 Ti弱正异常.半村和拔里的岩脉稀土元素总量高,明显富集轻稀土元素,(La/Yb)N=6.8～8.4;林子坟的岩脉稀土元素总量相对较低,轻稀土元素弱富集,(La/Yb)N=2.0.结合基性岩脉的地球化学特征和区域构造演化分析,初步认为半村和拔里的基性岩脉来自与俯冲作用有关的富大离子亲石元素流体交代的富集地幔;林子坟基性岩脉是软流圈地幔部分熔融的产物,地壳混染作用是其相对富集大离子亲石元素的原因.结合玄武岩构造环境判别图解可知,半村和拔里岩脉具有的大陆边缘弧的特征并不指示基性岩脉形成的构造环境,而是说明其源区受到俯冲板片派生出来的流体交代作用.半村和拔里岩脉形成于大陆板内拉张带,林子坟岩脉形成于板内裂谷环境.与华南其他地区的基性岩脉对比表明,虽然晚中生代华南地区处于拉张的构造背景下,但是岩脉形成的构造环境与微量元素地球化学特征均有明显的差异,反映了各地区构造环境演变和地幔演化的复杂性.     

班- 怒带东段丁青蛇绿岩中镁铁质岩石年代学及构造背景

丁青蛇绿岩位于班公湖-怒江缝合带东段,分为东、西两个蛇绿岩体,丁青西蛇绿岩体缺乏基性岩年代学研究。对丁青西地质填图显示,蛇绿岩主要由方辉橄榄岩、纯橄榄岩、辉绿岩、玄武岩及辉长岩组成。其中玄武岩、辉长岩及辉绿岩出露在宗白区域,玄武岩和辉绿岩与下侏罗统沉积岩呈构造接触,辉长岩呈岩脉侵入到下侏罗统沉积岩中。岩石地球化学研究表明,玄武岩和辉长岩同属于碱性基性岩石,其中玄武岩具有典型洋岛玄武岩的稀土和微量元素特征,可能形成于与地幔柱有关的洋岛环境。在玄武质凝灰岩中挑选出的锆石测年,获得U-Pb年龄为198.7±3.8Ma,属早侏罗世。辉长岩的稀土和微量元素含量低于典型洋岛玄武岩,但其REE和微量元素具有OIB的特征,与典型OIB相比,辉长岩的HREE发生了一定程度富集。辉长岩锆石的U-Pb年龄为164.3±2.6Ma,认为辉长岩在形成过程中受到了软流圈地幔和岩石圈下部LVZ中富集熔体的共同作用,其形成于大陆边缘裂谷环境;辉绿岩成分属于拉斑系列岩石,其REE和微量元素曲线显示辉绿岩同时具有N-MORB和E-MORB的特征。辉绿岩锆石U-Pb年龄为114.2±1.3Ma,其形成晚于玄武岩。结合区域地质,认为辉绿岩形成于受地幔柱影响的弧后扩张脊环境。本研究提供了丁青西蛇绿岩新的年代学和岩石学证据,为探讨丁青蛇绿岩的形成和演化历史提供了新的证据。     

西秦岭德乌鲁含矿岩体及其包体的岩石学成因和构造意义

德乌鲁岩体位于西秦岭地区,其主体岩性为花岗闪长岩,在岩体内及其接触带发育有多处金、铜矿床。LA-ICP-MS 锆石U-Pb定年表明该岩体侵位于印支早期,年龄为(250±1.8) Ma,该岩体为准铝质,其铝饱和指数ASI为0.9~1.0。所有样品具有高的K2O含量(2.95%~3.52%)、K2O/Na2O比值(0.97~1.10)、Mg#(0.57~0.61)和相容元素含量(w(Cr)=(88~132)×10-6)。因此,我们认为德乌鲁寄主岩形成于壳幔岩浆的混合作用。在该岩体中广泛分布有镁铁质岩浆包体,这些包体即是镁铁质岩浆注入中酸性岩浆中时迅速降温形成的。德乌鲁包体具有中性的成分,其SiO2含量为56.17%~60.95%,岩性主要为辉长闪长岩和闪长岩。相对于寄主岩,包体有着更高的Mg#(0.65~0.67)和低的TiO2含量(0.57%~0.62%)。它们也有着高的钾含量(1.74%~2.43%),属于高钾钙碱性系列岩石。所有样品具有高的相容元素含量,如Cr((212~419)×10-6)和Ni((46~111)×10-6)。相对于重稀土元素,样品中轻稀土元素相对富集,并且具有中等的Eu负异常。在原始地幔标准化的微量元素蛛网图上,所有包体具有明显的Nb-Ta负异常。德乌鲁暗色包体可能形成于曾受俯冲作用改造过的富钾的岩石圈地幔源区部分熔融过程,并伴随有后期镁铁质矿物的分异。本区的印支早期岩浆作用及与其有关的矿床很可能形成于活动大陆边缘环境。     

Gold Mineralization in Izu Peninsula,Central Japan,during Crustal Extension in Response to Double Subduction

Izu Peninsula in central Japan, the northern tip of the Izu‐Bonin arc, hosts numerous epithermal Au–Ag vein deposits of low‐sulfidation style. All have similar vein textures, mineralogy, and alteration. Geochemical data from fluid inclusions in vein quartz, the mineralogy and mineral chemistry of alteration, and stable isotope data indicate that auriferous hydrothermal activity occurred under subaerial conditions. The K–Ar ages of auriferous vein minerals are <1.5 Ma, indicating that the mineralization took place after extensive submarine volcanism for the host rocks. These observations suggest that Au–Ag mineralization was synchronous with the development of an extensional regime of the Izu block after its collision with the Honshu arc after 1.5 Ma. This collision resulted in the shifting of the Izu block far from the trench to the rear position, and the subduction of the Izu block along the Suruga trough to the west and along the Sagami trough to the east. The reararc position of the Izu block and double subduction resulted in crustal extension, upwelling of asthenospheric mantle, and tholeiitic magmatism reflected by mafic dyke swarms and subsequent monogenetic volcanic activity in the Izu peninsula. The timing of the Au mineralization in the Izu Peninsula during the beginning of lithospheric extension is similar to that of the Sado Au–Ag deposit on Sado island in the Japan Sea. Two mineralization events coincide with extensive tholeiitic mafic volcanism and injections of dyke swarms related to the back‐arc opening of the Japan Sea. The geological setting of the Au–Ag mineralization in Izu and Sado is also similar to that of the epithermal Au–Ag deposits in northern Nevada, where mineralization was contemporaneous with crustal extension and tholeiitic mafic magmatism derived from the asthenospheric mantle. This study suggests that epithermal Au mineralization at shallow crustal depths is a product of large‐scale lithospheric evolution.     

豫南高压镁铁质麻粒岩的初步研究

位于桐柏大别山造山带北缘桐柏信阳地段的豫南高压镁铁质麻粒岩块体主要由石榴角闪二辉麻粒岩类组成。其岩相学和矿物学特征表明它们曾经历过温度Ｔ／Ｋ＞１２６１．１５±５０，压力ｐ≥２．０ＧＰａ，２．０ＧＰａ～１．６ＧＰａ和Ｔ／Ｋ＞９７３．１５ｐ＝１．４ＧＰａ等多阶段近等温减压变质作用，有着似大陆碰撞造山带的很陡的顺时针ｐ－Ｔ轨迹。它们形成于地壳增厚深埋和隆升减薄过程中，而终至抬升折反剥露地表的动力学，可能和壳底逆冲韧性剪切拆离伸展等多种构造作用相关     

Bundelkhand mafic dykes, Central Indian Shield: Implications for the role of sediment subduction in Proterozoic crustal evolution

Abstract The Archean to Paleo–Proterozoic Bundelkhand massif basement of the central Indian shield has been dissected by numerous mafic dykes of Proterozoic age. These dykes are low‐Ti tholeiites, ranging in composition from subalkaline basalt through basaltic‐andesite to dacite. They are enriched in light rare earth elements (LREE), large ion lithophile elements (LILE) and depleted in high field strength elements (HFSE: Nb, P and Ti). Negative Sr anomaly is conspicuous. Nb/La ratios of the dykes are much lower compared with the primitive mantle, not much different from the average crustal values, but quite similar to those of continental and subduction related basaltic rocks. Bulk contamination of the mantle derived magma by crustal material is inadequate to explain the observed geochemical characteristics; instead contamination of the mantle/lithospheric source(s) via subduction of sediment is a better proposition. Thus, in addition to generating juvenile crust along the former island arcs, subduction processes appear to have influence on the development of enriched mantle/lithospheric source(s). The Bundelkhand massif basement is inferred to represent subduction related juvenile crust, that experienced lithospheric extension and rifting possibly in response to mantle plume activities. The latter probably supplied the required heat, material (fluids) and extensional environment to trigger melting in the refractory lithospheric source(s) and emplacement of the mafic dykes. Proterozoic mafic magmatic rocks from Bundelkhand, Aravalli, Singhbhum and Bastar regions of the Indian shield and those from the Garhwal region of the Lesser Himalaya display remarkably similar enriched incompatible trace elements characteristics, although limited chemical variations are observed in all these rocks. This may indicate the existence of a large magmatic province, different parts of which might have experienced similar petrogenetic processes and were probably derived from mantle/lithospheric source(s) with similar trace element characteristics. The minor, less enriched to depleted components of the Jharol Group of the Aravalli terrane and those from the Singhbhum terrane may represent protracted phases of rifting, that probably caused thinning and mobilization of the lithosphere, facilitating the eruption/emplacement of the asthenospheric melts (with N‐ to T‐types mid‐oceanic ridge basalts signatures) and deposition of deep water facies sediments in the younger developing oceanic basins. In contrast, Bundelkhand region did not experience such protracted rifting, although dyke swarms were emplaced and shallow water Bijawar Group and Vindhyan Supergroup sediments were deposited in continental rift basins. All these discrete Proterozoic terranes appear to have experienced similar petrogenetic processes, tectonomagmatic and possibly temporal evolution involving subduction processes, influencing the lithospheric source characteristics, followed by probably mantle plume induced ensialic rifting through to the development of oceanic basins in the Indian shield regions and their extension in the Lesser Himalaya.     

南天山北缘榆树沟变质基性超基性岩的地球化学及其成因机制

榆树沟变质基性－超基性岩带出露于塔里木板块与哈萨克斯坦板块之间的南天山北缘，主要由变质橄榄岩和变质基性岩组成。变质橄榄岩富相容元素Cr、Co和Ni，贫不相容元素，太离子亲石元素Ba、Rb和Sr含量较低，与世界典型蛇绿岩相似，代表了地幔残留物特征。REE分布模式为LREE亏损型，REE含量小于或等于2．5倍球粒陨石，类似于阿尔卑斯型变质橄榄岩，显示榆树沟的变质橄榄岩是原始地幔岩部分熔融萃取出玄武岩后的残留物。变质基性岩绝大部分为LREE亏损型，类似于N－MORB。所有样品均以富集Nb和Ta、高场强元素不分异，以及微量元素含量低为特征，批示岩浆源区总体上类似于MORB，Nb、Ta富集可能与OIB型源区有关，Nd、Sr同位素特征也显示其具有OIB型源区特征。综合分析认为，榆对沟变质基性岩石的岩浆可能经历了两个阶段的演化过程，即上地幔底部或下地幔顶部的OIB型原始岩浆形成阶段和软流圈地幔亏损阶段。     

Destruction of the Northern Margin of the North China Craton in Mid-Late Triassic: Evidence from Asthenosphere-derived Mafic Enclaves in the Jiefangyingzi Granitic Pluton from the Chifeng Area, Southern Inner Mongolia

The petrology, geochronology and geochemistry of the mafic enclaves in the Mid-Late Triassic Jiefangyingzi pluton from Chifeng area, southern Inner Mongolia, in China are studied to reveal their petrogenetic relationship with the host pluton. Furthermore, the coeval magmatic assemblage and its petrogenesis on the northern margin of the North China craton(NCC) are studied synthetically to elucidate their tectonic setting and the implications for the destruction of the NCC. Zircon U-Pb dating reveals that the mafic enclaves formed at 230.4 ± 2.2 Ma, which is similar to the age of the host pluton. The most basic mafic enclaves belong to weak alkaline rocks, and they display rare earth element(REE) and trace element normalized patterns and trace element compositions similar to those of ocean island basalt(OIB). In addition, they have positive εNd(t) values(+3.84 to +4.94) similar to those of the Cenozoic basalts on the northern margin of the NCC. All of these geochemical characteristics suggest that the basic mafic rocks originated from the asthenosphere. Petrological and geochemical studies suggest that the Jiefangyingzi pluton and the intermediate mafic enclaves were formed by the mixing of the asthenosphere-derived and crust-derived magmas in different degrees. The Mid-Late Triassic magmatic rocks on the northern margin of the NCC could be classified into three assemblages according to their geochemical compositions: alkaline series, weak alkaline–sub-alkaline series and sub-alkaline series rocks. Petrogenetic analyses suggest that the upwelling of the asthenosphere played an important role in the formation of these Mid-Late Triassic magmatic rocks. Basing on an analysis of regional geological data, we suggest that the northern margin of the NCC underwent destruction due to the upwelling of the asthenosphere during the Mid-Late Triassic, which was induced by the delamination of the root of the collisional orogeny between Sino-Korean and Siberian paleoplates in Late Permian.     

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。     

华北陆块东部晚中生代基性岩浆作用的地球化学研究

华北陆块晚中生代(早白垩世)基性火成岩沿着郯庐断裂带存在显著的元素-同位素地球化学分区。其西侧(鲁西区)火成岩在主量元素上以高Mg、Fe和低Al、Ti为特征,在微量元素上富集LILE、LREE和强烈亏损HFSE(Nb、Zr、Hf、Ti和P),同时显示出EM1型Sr-Nd同位素组成;其东侧(鲁东区)火成岩则相对低Mg、Fe和高Al、Ti,在微量元素上也表现出LILE、LREE富集和Nb、P亏损的特征,Ti、Zr、Hf异常不明显,并表现出EM1+EM2的Sr-Nd同位素组成。鲁西区基性火成岩源于陆内岩石圈伸展-减薄作用下古老而富集的岩石圈地幔减压部分熔融作用的结果,鲁东区则为被俯冲陆壳物质改造的富集岩石圈地幔减压部分熔融作用产物。中生代华北陆下岩石圈地幔性质仍为古老富集型地幔,因此至少在早白垩世前不可能存在地幔柱作用和大规模的下地壳拆沉作用。