东昆仑南缘布青山复合增生型构造混杂岩带组成特征及其形成演化过程

为了研究东昆仑南缘布青山复合增生型构造混杂岩带的物质组成、构造属性及形成演化历史,在前人资料基础上从构造混杂岩带物质组成、形成时代、构造属性等方面对其进行综合研究.研究结果表明,布青山复合增生型构造混杂岩带是一条分隔东昆仑造山带与巴颜喀拉造山带的增生型构造边界,主要由元古代-古生代不同构造属性的大型构造混杂岩块与混杂基质组成.构造混杂岩块包括中元古代中深变质基底岩块（苦海岩群）、寒武纪蛇绿岩岩块、奥陶纪蛇绿岩岩块、石炭纪蛇绿岩岩块、石炭纪洋岛/海山玄武岩岩块、奥陶纪中酸性弧岩浆岩岩块、格曲组磨拉石沉积等.基质岩系主要为一套强烈构造变形的早中二叠世马尔争组浊积岩系.该混杂岩带记录了东昆仑南缘布青山地区东特提斯洋（布青山洋）自新元古代晚期开启以来,从晚寒武世-中三叠世长期持续向北的洋壳消减及俯冲增生过程,并于中三叠世晚期布青山洋消减完毕而使巴颜喀拉地块与东昆仑地块碰撞拼合.该次造山事件导致了不同类型、不同时代构造岩块与马尔争组浊积岩强烈混杂,最终形成了布青山复合增生型构造混杂岩的基本构造格架.      

滇西北中甸地区哈工组放射虫及其构造古地理意义

位于甘孜-理塘构造带和金沙江构造带之间的德格-中甸微板块,可分为乡城晚三叠世岛弧带、义敦晚三叠世弧后盆地带和中咱地块等次级构造单位.滇西北中甸地区上三叠统哈工组包含大量沉积混杂岩块,与乡城、得荣泥砾混杂岩相连,形成晚三叠世沉积混杂岩带.哈工组沉积序列和沉积混杂岩沉积特征研究表明,中甸地区沉积混杂岩带为义敦晚三叠世弧后盆地形成过程中,由盆地边缘垮塌沉积形成,混杂岩块物源为近源下伏地层.沉积混杂岩块主要为晚古生代灰岩,但也有含中泥盆世、早石炭世和中二叠世放射虫化石的层状硅质岩,说明德格-中甸微板块晚古生代不是统一的碳酸盐台地,而是碳酸盐台地与深水断陷盆地并存的构造古地理格局.另外,哈工组三段还发现侏罗纪放射虫化石,说明金沙江带以东地区侏罗纪仍存在海盆.     

四川炉霍-道孚构造带“如年各岩组”研究进展

通过1∶50 000炉霍县幅区域地质调查详细填图工作,如年各岩组主要为一套整体有序,局部无序(滑塌沉积混杂无序)的地层。碳酸盐外来滑塌岩块、火山喷发混杂造成地层中新的砂泥质沉积与早期成岩的碳酸盐岩块分属不同时代,但这属于沉积混杂,排除外来岩块,砂泥质基质仍然是成层有序的,无论是野外还是室内,均未发现砂泥质基质有类似佛朗西斯科混杂岩的剪切现象(后期鲜水河断裂的破坏不在此列),排除了其蛇绿岩组合的可能。     

炉霍县幅地质调查新成果及主要进展

对如年各组进行了重新厘定,并根据其中的放射虫硅质岩及辉长岩U—Pb测试结果,将其时代限制在中三叠世拉丁期至晚三叠世诺利期。如年各组中蛇绿岩残片的首次发现,表明炉霍-道孚构造带曾经有初始洋盆的形成。     

阿尔金山中段清水泉-茫崖蛇绿构造混杂岩带地质特征

清水泉—茫崖蛇绿构造混杂岩带沿阿尔金山南坡分布,呈醒目的“绿色岩带”,其主要由蛇绿岩、蛇绿岩上覆岩系和元古代外来岩片或岩块组成,现多为构造透镜体,蛇绿岩上覆岩系具远洋深海沉积特征;岩石地球化学资料研究证明,蛇绿岩中的玄武岩与洋内岛弧拉斑玄武岩相似;同位素测年结果显示蛇绿岩形成于早古生代,蛇绿岩源自亏损的软流圈地幔,同时有富集地幔物质加入,暗示早古生代研究区曾出现过小洋盆构造环境。     

雅鲁藏布江开合带蛇绿岩地层

对西藏地层清理发现，沿雅鲁藏布江构造带分布的蛇绿岩，为具有类同正常沉积和沉积火山岩一样的有层、有序、有沉积构造及时代新老关系的蛇绿岩地层，它是特提斯洋开裂形成期的产物，赋予地层学的涵义，命名为雅鲁藏布江蛇绿岩群，从下至上建立变质橄榄岩组、堆积杂岩组、辉绿岩床（墙）组、枕状熔岩组及放射虫硅质岩、浊积岩组。它们构成完整的五套结构地层组合，生成时代为侏罗纪－白垩纪。新近区调成果表明，沿雅鲁藏布江构造带尚有中三叠世－晚三叠世时期蛇绿岩地层存在的可能性。雅鲁藏布江侏罗纪－白垩纪地层区划，其北与冈底斯－念青唐古拉地层区的界线，应划在日喀则群北界；其南应是雅鲁藏布江蛇绿岩群以南为界，南界同时是板块碰撞闭合边界或构造区划边界。     

青海拉脊山东段峡门蛇绿混杂岩带的物质确定及其构造意义

在拉脊山东段青海省民和县峡门镇以南地区新识别出一条蛇绿混杂岩带,其物质组成复杂,构造岩块主要由蛇绿岩岩块、外来岩块、火山岩岩块以及变沉积岩岩块组成. 基性火山熔岩和辉绿岩具轻稀土富集的"右倾"配分模式,大离子亲石元素Ba、Th、Sr相对富集,高场强元素P、Ti、Nb相对亏损,总体岩石地球化学特征与岛弧拉斑玄武岩类似. 岩石学、岩石地球化学、同位素年代学特征及区域资料综合研究认为,峡门蛇绿岩属与俯冲有关的SSZ型蛇绿岩,很可能是早古生代原特提斯洋俯冲消减的弧后小洋盆,属于弧后盆地扩张型蛇绿岩.     

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。     

藏北大横山一弯岛湖一带的中一晚三叠世地层——对若拉岗日构造带地质演化的地层学制约

在藏北大横山地区二岔沟一带的硅质岩、硅质泥岩中首次发现了拉丁晚期-卡尼早期的放射虫动物群,建立了二岔沟组.二岔沟组在区域上出露比较广泛,并往往与蛇绿岩相伴产出,系蛇绿岩的上覆沉积岩系,根据其中的放射虫化石的时代及获得的蛇绿岩Sm-Nd全岩等时线年龄值232Ma±11Ma,推断蛇绿岩形成于中三叠世晚期-晚三叠世早期.若拉岗日群的解体和二岔沟组、弯岛湖蛇绿岩的基本特征,表明大横山地区中三叠世晚期-晚三叠世早期为多岛洋盆扩张的鼎盛时期,晚三叠世-早侏罗世早期的消减闭合、碰撞造山运动形成了大横山构造蛇绿混杂岩带.     

雅鲁藏布江缝合带区域性构造-沉积特征

沿雅鲁藏布江缝合带的蛇绿岩套出露状态可分为3种类型,如在岗仁波齐和白朗地区完整出露大套基性 超基性岩体,层状堆晶岩,辉绿岩质岩席、岩墙,以及层状深海沉积建造。而在仁布地区的蛇绿岩露头规模迅速收敛,仅剩少量地幔岩体表现为串珠状排列的小岩株向东延伸并逐渐尖灭。在拉萨地区蛇绿岩套则完全缺失,相应位置出露一套同时代中 酸性火山岩建造。为探讨雅鲁藏布江蛇绿岩带的大地构造性质,笔者选择蛇绿岩套出露巨厚、迅速收敛和完全缺失3种不同的构造位置开展构造-沉积剖面研究。初步结果显示：白朗大规模蛇绿岩套核心区保留基底构造窗,且局部可直接观察到深海沉积建造与上下围岩复理石的沉积整合接触关系。仁布地区的镁铁 超镁铁岩体具有保留完好的原生侵位构造形迹,岩体与围岩常呈侵位时的牵引平行或者低角度斜交接触关系,地幔岩与围岩接触带保留典型烘烤边等热接触变质带（晕）等。两剖面的岩石均处于区域性脆性 韧脆性变形和低绿片岩相变质作用,缺乏统一的区域性构造极性,因而整体属于原地系统,并非经历板块俯冲-碰撞-反逆冲的外来残余洋壳岩片。拉萨地区在蛇绿岩带向东延线位置出露侏罗-白垩系中 酸性火山建造,大剖面南北两侧的中 新生代沉积建造的岩性组合,构造样式和沉积环境演变过程具有明显的相似性和时间上的宏观对应性,应当记录了同一个盆地的完整演化旋回。上述构造-沉积地质特征说明雅鲁藏布江蛇绿岩套并不代表中生代近万公里宽阔洋壳的残余构造岩片,新特提斯洋实际上属于一条中生代不均一洋壳化的弧后裂陷盆地。     

四川炉霍—道孚小区如年各岩组构造地层解析

"构造岩片四维裂拼复原法"是一种近年来在造山带地质填图中取得较大成就的方法。运用此方法对长期以来存在争议的如年各岩组进行了较为深入的解析,从物态、时态、相态、位态和变形、变质等多方面对其进行了调查和研究,认为如年各岩组在纵向上构造叠置,整体有序,局部无序;横向上各岩性层不能稳定延伸,构成大级别的构造透镜网络系统,显示如年各岩组经历了早期沉积混杂和后期构造混杂双重效应才构成了目前这样一套典型的造山带非史密斯地层体。这一研究成果不仅提高了如年各岩组的研究程度,而且重新阐述了如年各岩组的原始定义。     

西藏江孜地区上白垩统宗卓组沉积混杂堆积基本特征及构造意义

分布于藏南江孜一带的上白垩统宗卓组沉积混杂堆积岩呈近东西向与雅鲁藏布江缝合带平行相伴,由“基质”、原地岩块、外来岩块三部分组成。“基质”以正常沉积的细碎屑岩为主;原地岩块是沉积物未完全固结时,由于重力或其它地质作用使之变形变位后形成的;外来岩块成分复杂、形态各异、大小悬殊,不同岩块中产晚三叠世—早白垩世的箭石、双壳类等化石。岩块间很少直接接触,地貌上明显突起,其变形变质程度与“基质”极不协调,它是早白垩世以来,喜马拉雅板片向冈底斯－念青唐古拉板片俯冲,于被动陆缘形成近东西向的狭长海槽,而仰冲板片受到强烈的破碎,大小不等的岩块滑落于海槽中构成的沉积混杂堆积岩。     

Palaeozoic suturing of eastern and western Tasmania in the west Tamar region: Implications for the tectonic evolution of southeast Australia

A new tectonic model for Tasmania incorporates subduction at the boundary between eastern and western Tasmania. This model integrates thin‐ and thick‐skinned tectonics, providing a mechanism for emplacement of allochthonous elements on to both eastern and western Tasmania as well as rapid burial, metamorphism and exhumation of high‐pressure metamorphic rocks. The west Tamar region in northern Tasmania lies at the boundary between eastern and western Tasmania. Here, rocks in the Port Sorell Formation were metamorphosed at high pressures (700–1400 MPa) and temperatures (400–500°C), indicating subduction to depths of up to 30 km. The eastern boundary of the Port Sorell Formation with mafic‐ultramafic rocks of the Andersons Creek Ultramafic Complex is hidden beneath allochthonous ?Mesoproterozoic turbidites of the Badger Head Group. At depth, this boundary coincides with the inferred boundary between eastern and western Tasmania, imaged in seismic data as a series of east‐dipping reflections. The Andersons Creek Ultramafic Complex was previously thought of as allochthonous, based mainly on associations with other mafic‐ultramafic complexes in western Tasmania. However, the base of the Andersons Creek Ultramafic Complex is not exposed and, given its position east of the boundary with western Tasmania, it is equally likely that it represents the exposed western edge of autochthonous eastern Tasmanian basement. A thin sliver of faulted and metamorphosed rock, including amphibolites, partially separates the Badger Head Group from the Andersons Creek Ultramafic Complex. Mafic rocks in this package match geochemically mafic rocks in the Port Sorell Formation. This match is consistent with two structural events in the Badger Head Group showing tectonic transport of the group from the west during Cambrian Delamerian orogenesis. Rather than being subducted, emplacement of the Badger Head Group onto the Andersons Creek Ultramafic Complex indicates accretion of the Badger Head Group onto eastern Tasmania. Subsequent folding and thrusting in the west Tamar region also accompanied Devonian Tabberabberan orogenesis. Reversal from northeast to southwest tectonic vergence saw imbricate thrusting of Proterozoic and Palaeozoic strata, possibly coinciding with reactivation of the suture separating eastern and western Tasmania.     

Lower and Middle Ordovician conodonts of Laurentian affinity from blocks of limestone in the Rosroe Formation,South Mayo Trough,western Ireland and their palaeogeographic implication

The Middle Ordovician Rosroe Formation consists of some 1350 m of coarse, mainly siliciclastic to volcaniclastic sedimentary rocks, deposited in a submarine fan environment, and is restricted to the southern limb of the South Mayo Trough, western Ireland. Discrete allochthonous blocks, reaching 5 m in size, are present in the formation at several localities. Conodonts recovered from these blocks, collected from two separate locations, are of late Early and mid Mid Ordovician age. The conodonts have high conodont‐alteration indices (CAI 5) indicative of temperatures as high as 300^o to max. 480 °C; some found in the Lough Nafooey area have abnormally high indices (CAI 6), which correspond to temperatures of about 360^o to max. 550 °C. The oldest fauna is dominated by Periodon aff. aculeatus and characterized by Oepikodus evae typical of the Oepikodus evae Zone (Floian Stage; Stage Slices Fl2–3, Lower Ordovician). The younger conodont assemblage, characterized by Periodon macrodentatus associated with Oistodella pulchra, is referred to the P. macrodentatus conodont Biozone (lower Darriwilian; Stage Slices Dw1–2). The Rosroe conodont assemblages are of Laurentian affinity; comparable faunas are well known from several locations along the east to south‐eastern platform margin of Laurentia and the Notre Dame subzone of central Newfoundland, Canada. The faunal composition from the limestone blocks suggests a shelf edge to slope (or fringing carbonate) setting. The faunal assemblages are coeval with, respectively, the Tourmakeady Formation (Floian–Dapingian) and Srah Formation (Darriwilian) in the Tourmakeady Volcanic Group in the eastern part of the South Mayo Trough and probably are derived from the same or similar laterally equivalent short‐lived carbonate successions that accumulated at offshore ‘peri‐Laurentian’ islands, close to and along the Laurentian margin. During collapse of the carbonate system in the late Mid Ordovician, the blocks were transported down a steep slope and into deep‐water by debris flows, mixing with other rock types now found in the coarse polymict clastics of the Rosroe Formation. The faunas fill the stratigraphical ‘gap’ between the Lower Ordovician Lough Nafooey Volcanic Group and the upper Middle Ordovician Rosroe Formation in the South Mayo Trough and represent a brief interval conducive to carbonate accumulation in an otherwise siliciclastic‐ and volcaniclastic‐dominated sedimentary environment. Copyright © 2015 John Wiley & Sons, Ltd.     

Stratigraphy of Mesozoic (Upper Triassic-Lower Cretaceous) volcanogenic-sedimentary deposits of the Dhiarizos Group,the allochthonous Mamonia Complex of Cyprus

Data on the studied radiolarians from cherty rocks are used to distinguish stratigraphic subdivisions of diverse volcanogenic rocks in the Dhiarizos Group of the allochthonous Mamonia Complex, in Southwest Cyprus. The results obtained confirm the Triassic-Early Cretaceous age of a basalt-chert-carbonate succession corresponding to the Phasoula Formation and first define the Early Jurassic age of basalt-diabase breccias in the Loutra tis Aphroditis Formation. The results represent new basis for deciphering the Mesozoic geological history of Cyprus and East Mediterranean.     

太行山区的一些太古宙地层问题剖析

相关论文对笔者所做狭义阜平群地层年龄的报道所做评论与实际不符,而其厘定地层生成年龄或为Sm-Nd等时值,但却是违背了所需具备的前提条件;或属侵入该群的岩体年龄;或为同侵入体年龄吻合的变质年龄。所述湾子群的碎屑锆石年龄等也为高级变质作用中H2O流体改造的再次均一化值;在空间分布上的亲缘关系也远大于新太古代五台群,并非所倾向的古元古代。赞皇群中部的原红鹤组被分离为古元古代官都群的依据与实际不符,解释有误。所称狭义阜平群最老层位索家庄组的命名地点实为花岗质侵入体所占据,所含麻粒岩为从北区移植至此。《中国地层典》所建阜平群的全部层序己被1/5万区调所改变。     

鲜水河断裂带炉霍旦都土林构造初步研究

鲜水河断裂带的断层破碎带在四川省炉霍县旦都一带发育成土(石)林构造。其原岩为中-上三叠统如年各岩群(一套含灰岩滑塌块体的火山-构造混杂岩地层单位)变质砂岩夹板岩,在再脆性变形机制下断裂破碎形成。其内发育一组倾角较缓的劈理构造,可能是重力与地震波联合作用的产物。其内的擦痕、阶步构造显示至少存在早期右行,晚期左行两个活动阶段,并且左行走滑常伴有逆冲分量。     

孙吴-嘉荫盆地白垩系淘淇河组-太平林场组砂岩主量元素的地球化学特征

沉积盆地中砂岩的地球化学特征主要受物源区控制,碎屑岩的地球化学成分可揭示沉积物的地质信息.笔者通过对孙吴-嘉荫盆地白垩系淘淇河组-太平林场组砂岩的主量元素地球化学特征分析,结合砂岩薄片碎屑成分统计表明:淘淇河组-太平林场组时期物源区的大地构造背景主要为活动大陆边缘,包括大陆岛弧和大洋岛弧.物源区母岩类型主要为花岗岩,中酸性火山岩及低级变质岩.盆地不同位置物源区的大地构造背景和母岩类型有所不同.结合区域地质资料综合分析认为:在淘淇河组-太平林场组沉积时期,小兴安岭仅在太平林场组时期不是盆地主要物源区,而佳木斯地块一直是盆地东部的一个主要物源区.     

Structural history of the Arthur Lineament,northwest Tasmania: An analysis of critical outcrops

The Arthur Lineament of northwestern Tasmania is a Cambrian (510 ± 10 Ma) high‐strain metamorphic belt. In the south it is composed of metasedimentary and mafic meta‐igneous lithologies of the ‘eastern’ Ahrberg Group, Bowry Formation and a high‐strain part of the Oonah Formation. Regionally, the lineament separates the Rocky Cape Group correlates and ‘western’ Ahrberg Group to its west from the relatively low‐strain parts of the Oonah Formation, and the correlated Burnie Formation, to its east. Early folding and thrusting caused emplacement of the allochthonous Bowry Formation, which is interpreted to occur as a fault‐bound slice, towards the eastern margin of the parautochthonous ‘eastern’ Ahrberg Group metasediments. The early stages of formation of the Arthur Lineament involved two folding events. The first deformation (CaD₁) produced a schistose axial‐planar fabric and isoclinal folds synchronous with thrusting. The second deformation (CaD₂) produced a coarser schistosity and tight to isoclinal folds. South‐plunging, north‐south stretching lineations, top to the south shear sense indicators, and south‐verging, downward‐facing folds in the Arthur Lineament suggest south‐directed transport. CaF₁ and CaF₂ were rotated to a north‐south trend in zones of high strain during the CaD₂ event. CaD₃, later in the Cambrian, folded the earlier foliations in the Arthur Lineament and produced west‐dipping steep thrusts, creating the linear expression of the structure.