西准噶尔成矿带晚古生代花岗岩类岩浆活动及其构造意义

中亚造山带是晚古生代地壳显著生长与大规模成矿的重要地区。本文采集了中亚造山带西部的西准噶尔成矿带哈图-别鲁阿嘎希及其附近地区11个岩体共33件花岗岩类样品,对其开展了岩石地球化学与同位素示踪等研究,厘定了该地区晚古生代岩浆活动的特点与大地构造环境,并与哈萨克斯坦境内的巴尔喀什成矿带晚古生代岩浆活动进行了对比。研究表明,哈图地区晚石炭世花岗岩类主要为后碰撞伸展构造环境的A型花岗岩类,别鲁阿嘎希等地区存在洋内俯冲与岛弧环境的埃达克岩,显示了西准噶尔晚古生代构造环境时空变化的复杂性。该地区花岗岩类εNd(t)值较高(+4.62~+7.53)、εSr(t)值为(-57.61~+18.21),具有中亚造山带花岗岩类的共同特征,为古生代增生的新生陆壳,其源区与亏损地幔组分具有亲缘关系,这与巴尔喀什成矿带东段的花岗岩类具有一致性。花岗岩的~(206)Pb/~(204)Pb、~(207)Pb/~(204)Pb和~(208)Pb/~(204)Pb比值范围分别为18.2776~19.1677、15.5260~15.5796和38.2080~39.0821,为造山带花岗岩类。     

Paleozoic Tectono-Metallogeny in the Tianshan-Altay Region, Central Asia

The research on Paleozoic tectonics and endogenic metallogeny in the Tianshan-Altay region of Central Asia is an important and significant project. The Altay region, as a collision zone of the Early Paleozoic (500–397 Ma), and the Tianshan region, as a collision zone of the early period in the Late Paleozoic (Late Devonian-Early Carboniferous, 385–323 Ma), are all the result of nearly N-S trending shortening and collision (according to recent magnetic orientation). In the Late Devonian-Early Carboniferous period (385–323 Ma), regional NW trending faults displayed features of dextral strike-slip motion in the Altay and Junggar regions. In the Tianshan region, nearly EW-trending regional faults are motions of the thrusts. However, in the Late Carboniferous-Early Permian period (323–260 Ma), influenced by the long-distance effect induced from the Ural collision zone, those areas suffered weaker eastward compression, the existing NW trending faults converted into sinistral strike-slip in the Altay and Junggar regions, and the existing nearly E-W trending faults transferred into dextral strike-slip faults in the Tianshan region. The Rocks of those regions in the Late Carboniferous-Early Permian period (323–260 Ma) were moderately ruptured to a certain tension-shear, and thus formed a number of world famous giant endogenic metal ore deposits in the Tianshan-Altay region. As to the Central Asian continent, the most powerful collision period may not coincide with the most favorable endogenic metallogenic period. It should be treated to “the orogenic metallogeny hypothesis” with caution in that region.     

Paleozoic Tectono-Metallogeny in the Tianshan-Altay Region, Central Asia

The research on Paleozoic tectonics and endogenic metallogeny in the Tianshan-Altay region of Central Asia is an important and significant project. The Altay region, as a collision zone of the Early Paleozoic(500–397 Ma), and the Tianshan region, as a collision zone of the early period in the Late Paleozoic(Late Devonian-Early Carboniferous, 385–323 Ma), are all the result of nearly N-S trending shortening and collision(according to recent magnetic orientation). In the Late Devonian-Early Carboniferous period(385–323 Ma), regional NW trending faults displayed features of dextral strike-slip motion in the Altay and Junggar regions. In the Tianshan region, nearly EW-trending regional faults are motions of the thrusts. However, in the Late Carboniferous-Early Permian period(323–260 Ma), influenced by the long-distance effect induced from the Ural collision zone, those areas suffered weaker eastward compression, the existing NW trending faults converted into sinistral strike-slip in the Altay and Junggar regions, and the existing nearly E-W trending faults transferred into dextral strike-slip faults in the Tianshan region. The Rocks of those regions in the Late Carboniferous-Early Permian period(323–260 Ma) were moderately ruptured to a certain tension-shear, and thus formed a number of world famous giant endogenic metal ore deposits in the Tianshan-Altay region. As to the Central Asian continent, the most powerful collision period may not coincide with the most favorable endogenic metallogenic period. It should be treated to "the orogenic metallogeny hypothesis" with caution in that region.     

Biostratigraphy of Paleozoic Tabulata and Heliolitida of Central Asia

In Soviet Central Asia (Tien Shan and Pamirs) corals are unknown in the Lower Ordovician, rare and unstudied in the Middle Ordovician. The tabulate coral record from the Upper Ordovician, Silurian and Devonian is excellent and numerous common and Key genera and species are enumerated for each stage or substage. Tabulata reached their peak development in the Wenlock, and had markedly decreased in numbers and variety by late Middle Devonian time. Tabulata are rare in Upper Devonian and later rocks but occur through the Carboniferous and into the Upper Permian. -- W. A. Oliver, Jr.     

西准噶尔晚古生代花岗岩类侵入体(40)~Ar/(39)~Ar热年代学

西准噶尔成矿带夹持在天山断裂与额尔齐斯断裂之间,是中亚成矿域西部的核心区域之一,广泛发育晚古生代深成岩浆活动、走滑断裂构造和斑岩铜矿、造山型金矿成矿作用。本文在西准噶尔成矿带包古图岩体、康德岩体、加曼岩体、库鲁木苏岩体、别鲁阿嘎希岩体、哈图岩体、阿克巴斯套岩体、庙尔沟岩体、克拉玛依岩体及红山岩体采集12个样品,通过黑云母和钾长石(40)~Ar/(39)~Ar阶段升温测年,给出了该地区(40)~Ar/(39)~Ar冷却年龄。其中,黑云母(40)~Ar/(39)~Ar年龄处在326~302 Ma范围内,钾长石(40)~Ar/(39)~Ar年龄为297~264 Ma,反映了西准噶尔地区晚石炭世-中二叠世的区域中温冷却历史。结合前人报道的锆石U-Pb、角闪石(40)~Ar/(39)~Ar、辉钼矿Re-Os、磷灰石裂变径迹等年龄数据,构建了西准噶尔成矿带晚古生代岩浆侵入,成矿作用与构造抬升,以及晚中生代剥露过程的整个热历史;并与区域左行走滑断裂活动的时间进行了对比,讨论了(40)~Ar/(39)~Ar冷却年龄的构造意义。     

Continental construction in Central Asia and actualistic comparisons with western Pacific: Preface

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Early Paleozoic tectonics and geodynamics of Central Asia: role of mantle plumes

There were two key stages in the history of Paleozoids that formed in the place of the Paleoasian ocean, one in the Cambrian–Ordovician and the other in the Permian–Triassic. Both time spans were characterized by a combination of similar geodynamic, magmatic, and geomagnetic events: closure and opening of oceanic basins, intense plume magmatism associated with Earth's core cooling, and absence of geomagnetic reversals (superchrons). Three superchrons about 490–460, 260–300, and 124–86 Ma correlate with major events of plume magmatism. Plume reconstructions have to be updated for the period 490–460 Ma, which corresponded to the third superchron and was marked by ocean opening. The previous superplume, about 800–740 Ma, requires further justification but fits the global periodicity with 240 Ma major cycles and smaller ones of 120 (or also 30) Ma.In the Late Cambrian–Ordovician, large-scale accretion and collision events acted, in similar tectonic settings, upon the vast territory that currently extends from the Polar Urals to Lake Baikal (and was times larger in the past). As a result, Gondwanian microcontinents (Kokchetav, Altai–Mongolia, Tuva–Mongolia, etc.) and island arcs joined into the Kazakhstan–Tuva–Mongolia system. The formation of the Late Cambrian–Ordovician orogen in Central Asia was synchronous with opening of the Ural, Ob–Zaisan, Turkestan, and Paleotethys oceans. The plume pulses (520–500 and 490–460 Ma) may have been responsible for opening of new oceans, accelerated amalgamation of terranes, and synchronicity in geodynamic events from the Urals to Transbaikalia.     

扬子陆块下古生界页岩发育特征与沉积模式

为了深入探讨扬子陆块下古生界页岩发育与分布特征、建立沉积模式,系统收集与整理了扬子陆块下寒武统牛蹄塘组与上奥陶统-下志留统五峰-龙马溪组两套富有机质页岩大量数据,选取贵州省三都县渣拉沟及四川省筠连县昭104井两个典型剖面与井岩芯进行了系统观察与采样,对扬子陆块范围内两套富有机质页岩岩性与沉积相发育特征进行了系统分析.研究表明,早古生代以来,扬子陆块受被动大陆边缘扩张与陆缘造山挠曲坳陷两类成盆环境影响[1-2],牛蹄塘组页岩沉积于被动大陆边缘扩张环境,缘于上升洋流与缺氧事件复合沉积模式,富有机质页岩以扬子陆块东南缘深水陆棚-斜坡相区最为发育、厚度最大、有机碳含量最高;五峰-龙马溪组页岩沉积于加里东期周缘前陆造山环境,缘于浅水陆棚-闭塞滞留海湾沉积模式,富有机质页岩以中上扬子陆块东南缘深水陆棚区最为发育、厚度最大、有机碳含量最高.     

准噶尔盆地中部1区钻井优化设计研究

围绕钻井工程设计优化展开研究,论述了准噶尔盆地中部1区井身结构优化过程,提出了井身结构优化方案;建立了该区岩石可钻性剖面,结合钻头使用效果评价,推荐了钻头选型方案;介绍了该区钻井液体系优选及使用情况。形成了准噶尔盆地中部1区钻井设计优化方案,提出了后续研究方向。     

新疆西准噶尔晚古生代以来构造样式与变形序列研究

断裂构造的发育是不同地质历史、不同应力场条件下地壳应变的叠加。针对某一地域断裂构造的研究,理清其发育序次和不同阶段断裂系统对应的构造应力场,是了解区域大地构造性质演变的重要环节。新疆西准噶尔地区构造运动和岩浆活动非常强烈,是认识中亚构造域性质的重要研究基地,同时也为断裂构造和变形序次研究提供了很好的野外实验室。通过对研究区1500个构造面理产状数据的统计与分析,认为新疆西准噶尔地区主要发育以下几组构造面理：（1）290°走向;（2）10°~20°和80~90°走向;（3）40°~45°和320°~325°走向;（4）60°~70°和340°~350°走向。通过对野外构造现象、断裂之间的交切关系、断裂与相关地层及岩体的切割关系等的综合分析,结合遥感图像解译,确立了走滑断裂是西准噶尔地区晚古生代以来主要的构造样式,并建立了相应的变形序列：（1）大约在二叠纪晚期-三叠纪,由于准噶尔与中天山汇聚末期的区域性水平运动,受到北西-南东向的挤压应力作用,发育最早一期北西西向（290°左右）右旋走滑断裂;（2）侏罗纪-白垩纪,地层产状平缓,没有发现区域性构造变形证据;（3）古近纪,主要受制于太平洋构造域,受到北西-南东向挤压应力作用,发育北北东向（10°~20°）左旋与近东西向（80°~90°）右旋共轭走滑构造;（4）新近纪早期,受印度大陆和欧亚大陆碰撞的远程效应影响,应力场为近南北向,发育北东向（40°~45°）、北西向（320°~325°）走滑构造,新近纪晚期应力场发生了小角度顺时针旋转,构造形迹又转变为北东东向（60°~70°）和北北西向（340°~350°）。     

西准噶尔晚古生代岩浆活动和构造背景

西准噶尔作为中亚造山带的一部分,吸引了大量学者的关注。蛇绿混杂岩带、花岗岩、中基性岩墙在本地区广泛出现,表明西准噶尔晚古生代构造演化极为复杂。但是在许多方面仍存在很多争议,例如西准噶尔蛇绿混杂岩带的形成时代、岩石组合和岩石成因;I型和A型花岗岩的岩石成因,构造背景和热机制;中基性-酸性岩墙群的年代学、岩石成因、构造背景和古应力场;西准噶尔晚古生代年代学格架和构造背景;西准噶尔显生宙地壳增生;西准噶尔基底特征和西准噶尔晚古生代构造演化等。笔者通过搜集前人的资料和数据,对西准噶尔区域发育的蛇绿混杂岩带、地层、古地理环境、花岗岩体和中基性岩墙群的总结,结合项目组野外与室内数据的研究,得到以下认识:(1)达尔布特和克拉玛依蛇绿混杂岩的形成环境为与俯冲相关的弧后盆地,源区来自含尖晶石二辉橄榄岩高程度部分熔融作用;(2)早石炭世花岗岩形成于俯冲环境,晚石炭世-早二叠世花岗岩形成于后碰撞环境,中二叠世花岗岩形成于板内环境;(3)I型花岗岩的成因与俯冲密切相关,而A型花岗岩和中基性岩墙产于后碰撞环境下;(4)A型花岗岩是下地壳受地幔底侵发生部分熔融并高度分离结晶的产物,中基性岩墙群普遍具有埃达克质岩的地球化学特点,可能产于受流体(或熔体)交代的残余洋壳板片的部分熔融;(5)中基性岩墙群稍晚于寄主岩体而形成,但两者均形成于后碰撞构造背景。在晚石炭世-早二叠世,西准噶尔处于近南北向的拉张应力体系;(6)西准噶尔在泥盆纪为洋盆体系;早石炭世,俯冲-碰撞过程结束;晚石炭世-早二叠世属于后碰撞环境;中晚二叠世处于板内环境。     

扬子西缘新元古代中期裂谷作用:来自年代学与沉积学的新证据

华南新元古代沉积盆地演化与Rodinia超大陆裂解存在紧密联系,但仍缺乏精细刻画.对扬子西缘澄江组开展了系统的碎屑锆石年代学和沉积学研究.澄江组砂岩的碎屑锆石U-Pb年龄主要为新元古代（870~780 Ma）,少数为前新元古代（2 850~1 010 Ma）,最显著的峰值为820 Ma,最年轻一组碎屑锆石206Pb/238U年龄加权平均值为804.5±5.4 Ma.结合已发表年龄数据,将澄江组沉积时限进一步限定为800~720 Ma.物源分析揭示澄江组的新元古代碎屑锆石剥蚀自邻近的新元古代岩浆岩,而前新元古代锆石可能来自于邻近新元古代岩体的剥蚀或地层的沉积再循环.扬子西缘新元古代中期沉积盆地具有由冲积扇相逐渐过渡为前扇三角洲相的沉积演化序列,最终形成了具有裂谷充填特征的“楔状地层”.这种沉积超覆演化过程在整个华南新元古代裂谷系普遍存在,指示在800 Ma左右华南全面进入裂谷盆地成熟阶段.      

Late Paleozoic faults of the Altai region, Central Asia: tectonic pattern and model of formation

The present kinematic and dynamic analysis of large-scale strike-slip faults, which enabled the formation of a collage of Altai terranes as a result of two collisional events. The Late Devonian–Early Carboniferous collision of the Gondwana-derived Altai-Mongolian terrane and the Siberian continent resulted in the formation of the Charysh–Terekta system of dextral strike-slip faults and later the Kurai and Kuznetsk–Teletsk–Bashkauss sinistral strike-slip faults. The Late Carboniferous–Permian collision of the Siberian and Kazakhstan continents resulted in the formation of the Chara, Irtysh and North-East sinistral strike-slip zones. The age of deformation of both collisional events becomes younger toward the inner areas of the Siberian continent. In the same direction the amount of displacement of strike-slip faulting decreases from several thousand to several hundred kilometers. The width of the Late Paleozoic zone of deformation reaches 1500 km. These events deformed the accretion-collision continental margins and their primary paleogeographic pattern.     

西准噶尔别鲁阿嘎希花岗闪长岩年代学、地球化学特征及岩石成因

为更深入了解西准噶尔晚古生代岩浆活动和构造背景,对位于西准噶尔中部的别鲁阿嘎希岩体开展了年代学、地球化学以及Sr-Nd同位素研究,讨论了岩石成因、源区性质和构造背景.别鲁阿嘎希花岗闪长岩为钙碱性系列岩石,岩浆锆石结晶年龄为318.7±3.3 Ma.其具相对高的MgO(Mg#=49~59)、Ni、Cr含量,富集大离子亲石元素(如K、Rb、Sr和Ba)、亏损高强场元素(如Nb、Ta、Ti),轻重稀土元素分异不明显.Sr-Nd同位素特征显示,其有较低的初始Sr比值(0.704 297~0.704 399),较高的ε_Nd(t)值(5.8~6.5).通过综合分析,认为在晚石炭世早期,达尔布特洋壳(板片)俯冲至地幔楔下部,俯冲洋壳板片脱水所产生的流体在上升过程中与地幔楔共同作用,底侵加热由亏损地幔形成不久的年轻地壳(由洋壳和岛弧组成),使其部分熔融形成了别鲁阿嘎希分异I型花岗岩.