西昆仑库地蛇绿岩中基性火山岩的Sm-Nd等时线年龄

本文总结了前人有关库地蛇绿岩系各组成单元以及与其有成因联系的岩浆岩的年代学资料,同时利用Sm-Nd法测定了一些克沟基性火山岩的形成时代,获得了 2个晚元古代全岩等时线年龄:1023±51 Ma和834±29 Ma。在此基础上,对库地蛇绿岩系的形成和演化时代进行了讨论,认为库地蛇绿岩中基性火山岩的Sm-Nd等时线年龄可能代表了库地洋开始消减俯冲的年代。     

Eclogite facies metarodingites – phase relations in the system SiO2-Al2O3-Fe2O3-FeO-MgO-CaO-CO2-H2O: an example from the Zermatt-Saas ophiolite

Eclogite facies metarodingites occur as deformed dykes in serpentinites of the Zermatt‐Saas ophiolite (Western Alps). They formed during the subduction of the Tethys oceanic lithosphere in the Early Tertiary. The metarodingites developed as a consequence of serpentinization of the oceanic mantle. Three major types of metarodingites (R1, R2 & R3) can be distinguished on the basis of their mineralogical composition. All metarodingites contain vesuvianite, chlorite and hydrogrossular in high modal amounts. In addition they contain: R1 – diopside, tremolite, clinozoisite, calcite; R2 – hydroandradite, diopside, epidote, calcite; and R3 – hydroandradite. Both garnets contain a small but persistent amount of hydrogarnet component. The different metarodingites reflect different original dyke rocks in the mantle. In each group of metarodingite, textural relations suggest that reactions adjusted the assemblages along the P–T path travelled by the ophiolite during subduction and exhumation. Reactions and phase relations derived from local textures in metarodingite can be modelled in the eight‐component system: SiO₂‐Al₂O₃‐Fe₂O₃‐FeO‐MgO‐CaO‐CO₂‐H₂O. This permits the analysis of redox reactions in the presence of andradite garnet and epidote in many of the rocks. Within this system, the phase relations in eclogite facies metarodingites have been explored in terms of T–X_CO2, T–μ(SiO₂), μ(Cal)–μ(SiO₂) and P–T sections. It was found that rodingite assemblages are characterized by low μ(SiO₂) and low X_CO2 conditions. The low SiO₂ potential is externally imposed onto the rodingites by the large volume of antigorite‐forsterite serpentinites enclosing them. Moreover, μ(SiO₂) decreases consistently from metarodingite R1 to R3. The low μ(SiO₂) enforced by the serpentinites favours the formation of hydrogarnet and vesuvianite. Rodingite formation is commonly associated with hydrothermal alteration of oceanic lithosphere at the ocean floor, in particular to ocean floor serpentinization. Our analysis, however, suggests that the metarodingite assemblages may have formed at high‐pressure conditions in the subduction zone as a result of serpentinization of oceanic mantle by subduction zone fluids.     

西藏罗布莎蛇绿岩铬铁矿中金刚石的研究

在西藏罗布莎豆荚状铬铁矿中发现过金刚石,但迄今仍有人因为自己所取的小试样中没有分离出金刚石而否定罗布莎等地金刚石的存在。由于金刚石涉及西藏雅鲁藏布江缝合线和蛇绿岩、铬铁矿成因等问题,笔者重新在罗布莎铬铁矿中取样,经过选矿,又在1500kg样品中选出了25粒金刚石和近70种伴生矿物。这就表明西藏金刚石是的确存在的,而且它和蛇绿岩的铬铁矿同是深部成因的产物。     

西昆仑加里东期造山作用初探

在西昆仑前山一带存在一个发育完全的加里东期碰撞造山带，该造山带代表了古秦－－祁－－昆大洋的消亡和两侧大陆的剧烈碰撞，古昆仑洋可能开始裂解于震旦纪，寒武纪达最大程度，奥陶纪开始向南俯冲消减，志留纪两侧陆块发生碰撞。其曼于特－－库地蛇绿岩为其洋壳残片，北侧的塔里木板块南缘具被动边缘性质，南侧的西昆仑地块为活动边缘性质，同时有大量俯冲型，碰撞型和造山期后伸展型花岗岩侵入，晚泥盆世紫红色磨拉石建造代表了这一过程的结束。     

东秦岭松树沟蛇绿岩构造变形及其演化

东秦岭松树沟蛇绿岩是沿西沟早期韧性剪切带和界岭韧性剪切带构造侵位于早元古代秦岭群变质杂岩南缘之上的蛇绿岩推覆体，主要遭受了４期构造变形，反映蛇绿岩演化过程中四期主要的构造运动，分别为：１０亿年左右上地幔部分熔融残余体──蛇绿橄榄岩块底辟侵位于上覆玄武岩、晋宁期蛇绿岩构造侵位、加里东─早华力西期由南向北的过冲及晚华力西─印支期的左行走滑运动。     

SHRIMP Ion Microprobe Zircon U—Pb Age and Sm—Nd Isotopic Characteristics oof the NE Jiangxi Ophiolite and Its Tectonic Implications

The new SHRIMP zircon U-Pb isotopic study suggests that the crystallization age of a highly fractionated magma in the NE Jiangxi ophiolite suite is 968±23 Ma. Re-calculated Sm-Nd isochron age of 955±44 Ma is within analytical errors. consistent with the zircon U-Pb age. With the exception of two anomalous Sm-Nd data, the remaining 15 analyses so far obtained for the ophiolite gave^εNd (T) values falling into a limited range from +4.3 to +6.7, indicating that the ophiolite was derived from a relatively strongly depleted mantle source. Sm-Nd isotopic systematics in some samples may have been strongly affected by post-magmatic events, such as alteration, deformation and metamorphism, resulting in anomalous^εNd (T) values. Combined with published⁴⁰Ar³⁹Ar age data, it can be concluded that the collision between the Yangtze and South China Blocks occurred during 0.97-0.80 Ga. This work was financially supported by the President Grant of the Chinese Academy of Sciences.     

Tectonometamorphic evolution of the Neoproterozoic Delgo suture zone,Northern Sudan

In the area around Delgo in north-east Sudan a narrow NNE-trending Neoproterozoic belt of low grade volcanosedimentary rocks is fringed by high grade migmatitic basement blocks. The volcanosedimentary sequence is structurally overlain by a rock body of several kilometres length, which is composed of metamorphosed ultramafic and mafic rocks. This sequence is interpreted as an island arc-ophiolite association representing a suture zone.With respect to their degrees of metamorphism and their structural characteristics, the lithological units of the Delgo area are significantly different from the adjacent basement rocks in the east and west. The lithological contacts of the metavolcanic-metasedimentary rocks with the basement rocks are often marked by intermediate-dipping mylonites which are locally overprinted by ductile to brittle-ductile strike-slip faults.The Delgo suture evolved through the subduction-related closure of an oceanic basin and final collision of the island arc with the migmatitic basement blocks on either side of the oceanic basin. Peak metamorphism of deeply buried back-arc basin sequences occurred at around 700 Ma ago. During the collision stage, island arc rocks, passive margin sequences and ophiolitic rocks were thrust to the east and west over the basement blocks, causing limited crustal thickening and a minor isostatic rebound.Lithospheric extension associated with increasing heat flow caused migmatization in the basement between ca. 580 and 540 Ma ago. The development of numerous intermediate-dipping mylonitic shear zones at decreasing temperatures post-dates the migmatization. Lithospheric extension may explain the juxtaposition of rocks which were formed and/or metamorphosed at significantly different crustal levels.     

乌苏县莫托沟─古尔图蛇绿岩特征

通过对莫托沟─古尔图蛇绿岩特征的研究，认为该区蛇绿岩尽管受到强烈的多期构造肢解，但根据岩石类型仍能恢复蛇绿岩的原始层序，代表了早石炭世－中石炭世强烈拉张所形成的海盆壳－幔型建造残块，是古洋壳最后闭合的一部分。因此，笔者认为：巴音沟─莫托沟─古尔图蛇绿岩套，是哈萨克斯坦板块与塔里木板块多次聚合俯冲所形成的，是划分两大板块界线的重要依据之一。     

Types and Ore-forming Conditions of Gold Deposits in the Jinsha River-Lancang River-Nujiang River Area

The Jinsha River-Lancang River-Nujiang River area is one of the important prospect areas for noble metal and nonferous metal deposits of China. Of a great variety of gold deposits present in this area, the following types seem to be economically most valuable and promising: tectonic alteration type in ophiolitic melange; polymetallic quartz vein type related to intermediate-acid intrusions; finely disseminated type in fracture zones; mixed hydrothermal type in tectonic fractures of carbonate rocks; hydrothermal type related to subvolcanic rocks; volcanic-hot spring type; submarine volcano exhalation-sedimentary-hydrothermal reformation type. Metallogenic epochs are exclusively Mesozoic and Cenozoic, and ore deposits and orebodies are controlled by linear structures. Magmatic activity has affected gold mineralization in varying degrees, and gold deposits are basically of mesothermal-epithermal type with ubiquitous and intense alterations. Ore-forming materials and hydrothermal solutions show multi-source character.