内蒙古北山造山带时空结构与古亚洲洋演化

内蒙古北山造山带自北向南发育红石山－百合山、月牙山－洗肠井和帐房山－玉石山3条蛇绿构造混杂岩带。其中北部的2条蛇绿岩带揭示了北山造山带两阶段演化的历史：月牙山－洗肠井蛇绿混杂岩带洋壳形成于530~520 Ma,沿该带多处保存较完好的蛇绿岩洋壳残块（洋壳结构具向北变新特征）,与北侧的早古生代公婆泉岩浆弧（由南向北岛弧成熟度变高）共同指示了北山洋向北俯冲消减的过程,即490 Ma初始俯冲,450~440 Ma为俯冲峰期,430~420 Ma为同碰撞阶段,400 Ma的双峰式岩浆岩组合指示了北山洋的消亡和后造山伸展的过程;红石山－百合山蛇绿混杂岩带是发育在雀儿山－圆包山岛弧基础上的SSZ型蛇绿岩,弧后开裂洋壳的形成与南侧最早发育的岛弧岩浆作用年龄接近（340~320 Ma）,310~290 Ma俯冲峰期造成南侧白山岩浆弧大量的岩浆活动,早二叠世末期（275 Ma）的辉长岩和花岗岩侵位及早—中二叠世双堡塘组下部的角度不整合均反映了红石山洋盆的闭合。前人所划"石板井－小黄山蛇绿岩带"实为一条早古生代发育的深大断裂,沿带发育中基性侵入体及少量超基性岩,后期（志留纪末）叠加有较强的韧性剪切变形。中生代以来的走滑作用和逆冲推覆构造改造了古生代的构造格架,使红石山-百合山蛇绿混杂岩带向北左行切错了十余千米,北山南部的中—新元古界推覆至下古生界之上。对内蒙古北山造山带时空结构的厘定,有助于中亚造山带造山作用过程的理解及其对古生代地壳增生的深入研究,也对银额盆地晚古生代新层系油气资源勘查起到基础支撑。     

Geology, Geochemistry and Tectonic Significance of Mafic-ultramafic Rocks of Mesoproterozoic Phulad Ophiolite Suite of South Delhi Fold Belt, NW Indian Shield

A thick sequence of mafic-ultramafic rocks, occurs along a major shear zone (Phulad lineament), running across the length of Aravalli Mountain Range for about 300 kms. It has been suggested, that this sequence may represent a fragment of ophiolite or a rift related metavolcanic suite made up of basalts and fractionated ultramafics. The geological and tectonic significance of the complex is assessed using field relationships, petrography and geochemistry. Structurally, the lowest part of the complex comprises a discontinuous band of plastically deformed harzburgite (mantle component) followed by layered cumulus gabbroic rocks (crustal component). A complex of non-cumulus rocks comprising hornblende schists, gabbros, sheeted dykes and pillowed basalts structurally overlies layered gabbros. Huge bodies of diorite intrude volcanics.

Geochemical classification suggests that all non-cumulus mafic rocks are sub-alkaline basalts except one variety of dykes which shows mildly alkaline character. The sub-alkaline rocks are tholeiite to calc-alkaline with boninite affinity. Tectono-magmatic variation diagrams and MORB normalised patterns suggest a fore arc tectonic regime for the eruption of these rocks.

The mafic rocks of Phulad Ophiolite Suite are zoned across the strike in terms of their distribution from west to east. The hornblende schists and basalts are exposed at the westernmost margin followed by gabbros and dykes. The alkaline dyke occurs at the easternmost part. The rocks of Phulad suite are juxtaposed with shallow water sediments in the east followed by platformal sediments and then continental slope sediments in the further east indicating gradual thickening of the crust from west to east and an eastward subduction. The geochemical interpretation presented in this study, together with discussion of lithological association is used to decipher the tectonic evolution of the Mesoproterozoics of NW Indian shield.     

Permo-Carboniferous Radiolarians from the Wupata＇erkan Group, Western South Tianshan, Xinjiang, China

The Wupata‘erkan Group, also called Wupata‘erkan Formation, distributed in the South Tianshan, Xinjiang,China, mainly consists of gray and dark gray fine-grained clastic rocks, interlayered with volcanic rocks, carbonates and cherts. Some ultra-basic rocks (blocks) punctuate the formation. The formation was variously assigned to Silurian-Middle Devonian, Silurian-Lower Devonian, and pre-Devonian, mainly based on Atrypa bodini Mansuy, Hypothyridina parallelepipedia (Brour.) and Prismatophyllum hexagonum Yoh collected from the limestone interlayers, respectively.However, radiolarian fossils obtained from 24 chert specimens of the Wupata‘erkan Group, mainly include Albaillella sp.cf. A. undulata Deflandre, Albaillella sp. cf. A. paradoxa Deflandre, Albaillella cf. A. deflandrei Gourmelon, Albaillella sp. cf. A. indensis Won, Albaillella sp. cf. A. excelsa Ishiga, Kito and Imoto, Albaillella sp. and Latentifistulidae gen. et. sp.indet., are earliest Carboniferous and Late Permian. The earliest Carboniferous assemblage is characterized by Albaillella sp. cf. A. undulata Deflandre, Albaillella sp. cf. A. paradoxa Deflandre, Albaillella cf. A. deflandrei Gourmelon and Albaillella sp. cf. A. indensis Won, and the Late Permian assemblage by Albaillella sp. cf. A. excelsa Ishiga, Kito and Imoto. This new stratigraphic evidence indicates that the Wupata‘erkan Group is possibly composed of rocks with different ages from Silurian to Permian, and therefore, it is probably an ophiolite mrlange. The discovery of Late Permian Albaillella sp. cf. A. excelsa provides more reliable evidence supporting the existence of a Permian relic ancient oceanic basin in the western part of Xinjiang South Tianshan.     

西藏札达曲松一带两条蛇绿岩带的初步研究

雅鲁藏布江缝合带北支自札达县老武起拉向北西去向不明,南支止于札达县以东.在札达县曲松附近发现了2条蛇绿岩带--夏浦沟蛇绿岩带和波博蛇绿岩带,并在夏浦沟蛇绿岩带台丁拉-天巴拉之间发现了高压变质岩--榴闪岩,对蛇绿岩的空间分析及追索表明它们分别代表雅鲁藏布江缝合带南、北支.其中雅鲁藏布江缝合带南支在札达盆地西北缘首次被发现,而雅鲁藏布江缝合带北支则自老武起拉向西延伸,经研究区内的夏浦沟-台丁拉一带延入印控克什米尔地区,并可能向北西与什约克蛇绿岩相接.由于上述蛇绿岩分别构成北喜马拉雅构造带与札达微陆块、札达微陆块与冈底斯弧之间的板块界线,故它的发现对雅鲁藏布江缝合带西段空间结构的研究及青藏高原大地构造区划的完善具有重要意义.     

湘东北文家市蛇绿混杂岩带的发现及意义

在湘东北文家市首次识别出蛇绿岩套残片 ,它由变沉积岩、变玄武岩、变辉绿岩、变辉长岩、变辉石岩类及变硅质岩组成。综合其地质学、岩石学、地球化学和同位素年代学的资料 ,提出文家市蛇绿岩可能形成于有限小洋盆的构造环境。文家市蛇绿混杂岩带、前陆盆地、磨拉石建造和“S”型花岗岩等构造岩石组合记录了碰撞造山的全过程 ,证实了江南雪峰古陆属元古宙造山带。这一发现为华南前寒武纪的大地构造格架和地壳演化提供了依据 ,同时该地区也将成为研究早期华南大陆地壳演化———武陵运动的关键地带。     

北祁连山大坂大岔地区蛇绿岩含矿性

北祁连山大坂大岔地区蛇绿岩有关矿产可划分为两个矿化系列:1蛇绿岩同生矿化系列,指蛇绿岩套形成过程随之形成的矿产组合,已知有与变质橄榄岩有关的岩浆成因铬铁矿,基性火山岩有关的海底热液成因块状硫化物铜矿;2蛇绿岩后生矿化系列,指蛇绿岩套形成之后再造形成的矿产组合,已知有破碎带蚀变岩型铜矿和银矿。     

东秦岭商丹地区蛇绿岩中的角闪石研究

东秦岭蛇绿岩主要分布在北秦岭南缘、商丹断裂带以北的狭窄地带,断续逶迤呈带状作近东西向展布。分布于商丹地区的蛇绿岩是东秦岭蛇绿岩带的重要组成部分并具有代表性。 本文着重论述了商丹地区蛇绿岩中广泛分布的主要造岩矿物之一,角闪石的主要特征组份、微量元素、晶胞参数、阳离子占位度等成因矿物学特点。并据此说明了该蛇绿岩中的角闪石属于区域正变质的产物;形成的物质来源具有同源性,原岩为超镁铁质-镁铁质的岩浆岩和火山熔岩;形成的热力学条件基本相同,变质程度为绿帘角闪岩相或角闪岩相,变质温度为610℃左右,压力大于5×10~8Pa。 此外,根据商丹地区蛇绿岩中角闪石成因矿物学特征之相同性所提供的信息表明,东秦岭蛇绿岩带是华北和扬子两个板块俯冲、碰撞的构造边界变质带。     

大别山北部蛇绿岩的地球化学制约

常量元素,微量元素,稀土元素,Ｎｄ同位素及氧同位素地球化学特征表明,太别山北部变质镁铁－超镁铁质岩带中存在变质的蛇绿岩,它主要由变质橄榄岩,辉长岩（－辉绿岩？）和基性熔岩三部分组成,其中,变质的基性熔岩的亏损地幔模式年龄ｔＤＭ／Ｍａ＝１０３６．８～１２９３．８,εＮｄ（ｔ）＝７．２～７．７,表明它可能代表１０００Ｍａ左右形成于中等扩张速率（２ｃｍ／ａｄ左右）洋盆条件下的洋壳残片。     

Cr-rich magnesiochloritoid eclogites from the Monviso ophiolites (Western Alps, Italy)

Cr-rich magnesiochloritoid in the eclogitized ophiolites of the Monviso massif occurs in the least differentiated rocks of the gabbroic sequence (troctolites to melatroctolites). Chloritoid ( X _Mg=0.63–0.85; Cr≤0.55, atoms) co-exists with omphacite, talc and garnet. Minor, syn-eclogitic minerals are chromite, rutile and sometimes magnesite and Cr–Ti oxides.
Coronitic textures, indicative of a static recrystallization, characterize the analysed samples. Layers of variable mineral composition develop among igneous plagioclase, olivine, clinopyroxene and spinel. The minerals in the coronitic layers display sharp compositional zonings. The igneous minerals are commonly not preserved; their presence in the original assemblage is inferred from the mineralogical composition of the pseudomorphs.
Syn-eclogitic volatile components are indicated by the development of OH-bearing minerals (e.g. chloritoid & talc) and carbonates (e.g. magnesite), and supported by the presence of coarse-grained and fibrous mineral growths. The complex pseudomorphic replacements of igneous minerals suggest that these rocks changed their mineralogical composition prior to the eclogite facies recrystallization, most likely during ocean-floor metamorphism. It is suggested that syn-eclogitic fluids formed by breakdown reactions of pre-eclogitic volatile-bearing minerals.
Geothermobarometry indicates that the investigated rocks recrystallized at a depth corresponding to 2.4  GPa and temperatures of 620±50  °C. The attainment of high-pressure conditions is supported by the presence of magnesiochloritoid, magnesite and garnet with high pyrope content (up to 58  mol%). P–T  estimates point to a very low thermal gradient (about 9  °C km⁻¹), comparable to that deduced in the adjacent Dora-Maira ultra-high pressure unit.     

Evolution processes of Ordovician–Devonian arc system in the South‐Kitakami Massif and its relevance to the Ordovician ophiolite pulse

The South Kitakami Massif is one of the oldest geological domains in Japan having Silurian strata with acidic pyroclastic rocks and Ordovician–Silurian granodiorite–tonalite basement, suggesting that it was matured enough to develop acidic volcanisms in the Silurian period. On the northern and western margin of the South Kitakami Massif, an Ordovician arc ophiolite (Hayachine–Miyamori Ophiolite) and high‐pressure and low‐temperature metamorphic rocks (Motai metamorphic rocks) exhumed sometime in the Ordovician–Devonian periods are distributed. Chronological, geological, and petrochemical studies on the Hayachine–Miyamori Ophiolite, Motai metamorphic rocks, and other early Paleozoic geological units of the South Kitakami Massif are reviewed for reconstruction of the South Kitakami arc system during Ordovician to Devonian times with supplementary new data. The reconstruction suggests a change in the convergence polarity from eastward‐ to westward‐dipping subduction sometime before the Late Devonian period. The Hayachine–Miyamori Ophiolite was developed above the eastward‐dipping subduction through three distinctive stages. Two separate stages of overriding plate extension inducing decompressional melting with minor involvement of slab‐derived fluid occurred before and after a stage of melting under strong influence of slab‐derived fluids. The first overriding plate extension took place in the back‐arc side forming a back‐arc basin. The second one took place immediately before the ophiolite exhumation and near the fore‐arc region. We postulate that the second decompressional melting was triggered by slab breakoff, which was preceded by slab rollback inducing trench‐parallel wedge mantle flow and non‐steady fluid and heat transport leaving exceptionally hydrous residual mantle. The formation history of the Hayachine–Miyamori Ophiolite implies that weaker plate coupling may provide preferential conditions for exhumation of very hydrous mantle. Very hydrous peridotites involved in arc magmatism have not yet been discovered except for in the Cambrian–Ordovician periods, suggesting its implications for global geodynamics, such as the thermal state and water circulation in the mantle.