东天山觉罗塔格造山带康古尔塔格断裂带构造特征及边界属性研究

东天山觉罗塔格造山带是塔里木板块和古亚洲洋碰撞对接的关键部位,为中亚造山带的重要组成部分,而其大地构造属性一直存在着争议。康古尔塔格断裂带作为觉罗塔格造山带的边界断裂,其构造特征的研究对区内大地构造演化有重要的启示作用。通过对康古尔塔格断裂带的地质特征、火山沉积建造及演化过程等方面的研究,发现康古尔塔格断裂带为韧性兼走滑特征深层次的剪切带;区内石炭系火山岩具有典型的沟-弧-盆体系火山-沉积建造特征;康古尔塔格断裂带到阿其克库都克断裂带之间的区域为准噶尔板块与塔里木板块之间的碰撞缝合带;早石炭-晚二叠世,康古尔大洋发生了颇具规模的南北双向俯冲,形成了康-阿缝合带,而康古尔塔格断裂带为康-阿缝合带的北部边界。     

新疆东天山觉罗塔格韧性挤压带基本特征及动力学意义

新疆觉罗塔格韧性挤压带发育于吐哈地块和中天山地块之间石炭系东西向火山-沉积建造中,由一组走向东西、产状陡立的透入性片理组成。眼球状结构、平行带状结构和菱形网状结构是韧性挤压带不同构造区亚带的排布格式,它们相对变形带主界面而言具有很好的对称性。片理构造、拉伸线理构造、同生褶皱构造、布丁构造、压力影构造、碎斑构造、粒内面理构造、位错构造和矿物光轴优选定向等韧性构造形迹发育,这些不同尺度的韧性变形构造形迹的组构都具以片理面为对称面而呈现出对称的特征。韧性挤压带横分为3个亚带,3个亚带岩石形变相变和应力应变等方面都呈横向对称状分布。“奶油饼”结构是韧性挤压带的应变结构。该韧性挤压带成因于南北两侧吐哈地块和中天山地块的南北向水平共轴挤压作用,形成于255Ma至280Ma(早二叠世),压扁机制是该韧性变形带的变形机制,它的力学性质表明该韧性变形带不应属于南北两大板块之间的俯冲-剪切带,其成因可能与板块孤后盆地的对称开合有关。     

新疆东天山觉罗塔格构造带新发现玉海斑岩型铜矿

新发现的铜矿床地处觉罗塔格构造带内,秋格明塔什-黄山韧性剪切带北缘。该韧性剪切带内矿产丰富,并在黄山-镜尔泉-图拉尔根一带形成与基性-超基性杂岩体有关的铜镍成矿     

觉罗塔格造山带阿奇山花岗岩地球化学、锆石U-Pb定年、Lu-Hf同位素及构造意义

为确定觉罗塔格造山带阿奇山花岗岩的成因和构造背景,并为觉罗塔格造山带在海西期-印支期发生了由后碰撞向板内转化的过程提供证据,对阿奇山地区的正长花岗岩和黑云母二长花岗岩进行了锆石U-Pb定年、Hf同位素和岩石地球化学研究。结果表明,两类花岗岩的形成时代分别为(271.7±3.1) Ma和(251.0±3.7) Ma;锆石~(176)Hf/~(177)Hf值分别为0.282 785～0.282 952和0.282 761～0.282 918,ε_(Hf)(t)值分别为6.00～11.65和4.63～10.20;岩体属高钾钙碱性系列,准铝质-弱过铝质的I型花岗岩。综合分析认为,花岗岩体形成于板内构造环境,且觉罗塔格造山带在海西期-印支期发生了由后碰撞向板内转化,这对深入了解天山造山带碰撞后及陆内构造演化过程、板内岩浆活动起源以及区域动力学背景等具有重要意义。     

中国蛇绿岩与造山带大地构造研究:前言

<正>肖序常院士是我国著名的构造地质学家,他一生致力于蛇绿岩与中国大地构造的研究工作,为中国西部青藏高原、中亚造山带等地区的区域构造与大地构造,以及有关能源、矿产勘查等的研究做出了重要贡献。在肖先生90华诞暨从事地质事业70年之际,我们出版本专辑,向先生致敬!以此     

新疆东天山觉罗塔格带中康古尔金矿床成因的再认识

东天山觉罗塔格构造带中康古尔金矿因其独特的成矿地质特征,成因一直备受争议。文章立足于康古尔金矿地质特征,结合前人的研究资料,通过探讨觉罗塔格带的构造演化,重新审视康古尔金矿的成因。笔者总结了觉罗塔格构造带晚古生代地层时代及火山-沉积建造特征,认为晚古生代早期大洋板块向北俯冲,发育奥陶纪-泥盆纪弧火山岩及火山-沉积岩系,石炭纪康古尔洋发生双向洋-陆俯冲,在两侧形成对称岛弧带,局部平稳拉张环境为铜-铅-锌-金成矿的有利环境。野外地质观察及室内研究结果表明其成因不仅仅与韧性剪切作用有关。康古尔金矿体位于海相安山岩、凝灰岩的交替部位,上部富金-中部铅锌-下部富铜的金属分带特征,与VMS矿床特征一致。矿体呈板状且与围岩截然接触,明显受挤压变形的网脉状矿化表明矿体形成早于韧性剪切作用。矿床地球化学特征表明,康古尔金矿成矿作用具有多期多阶段性。通过详细对比康古尔金矿和造山型金矿、小热泉子VMS铜矿的特征,笔者认为康古尔金矿具有原生VMS矿床的特征,并且被二叠纪韧性变形所改造,为喷流沉积-变质热液改造型富金多金属矿床。     

东天山觉罗塔格构造带钙碱性侵入岩角闪石矿物学特征及其对区域找矿的启示

新疆东天山觉罗塔格构造带位于吐哈盆地和中天山地块之间,区内矿产资源丰富,是我国重要的金属矿产分布区,其成矿作用与岩浆活动密切相关.本文在详细岩相学观察的基础上,对角闪石进行了电子探针(EMPA)测试分析,限定了区内8个岩体结晶的温压条件、岩浆氧逸度和含水量等要素,为解析觉罗塔格构造带内钙碱性侵入岩的构造环境、演化过程和...     

新疆东天山觉罗塔格地区自然铜矿化玄武岩的成岩年代及其地质意义

新疆觉罗塔格地区自然铜矿化玄武岩沿着阿齐库都克深大断裂北侧分布,前人对其成岩年代一直存在争议.本文测得玄武岩条带中部的黑尖山玄武岩同岩浆期锆石SHRIMP U-Pb年龄为306.2±4.0Ma;测得东部东尖峰玄武岩的同岩浆期锆石LA-ICPMS U-Pb年龄为308.9±5.8Ma,确定了玄武岩是晚石炭世的岩浆作用,且归属于晚石炭世马头滩组.与觉罗塔格地区著名的晚石炭世-早二叠世铜镍矿化基性-超基性岩成因对比表明,该晚石炭世玄武岩与之具有共同岩浆源区特征,它们都是觉罗塔格地区晚石炭世-早二叠世岩石圈地幔深部受热熔融而形成岩浆作用.马头滩组玄武岩层是自然铜矿化的重要矿源层.     

西南“三江”造山带大地构造相

西南“三江”造山带由多条缝合带及其间多个大小不等的中间陆块构成,其大地构造属性与划分方案历来受地学界关注与争论。本文以大地构造相理论为切入点,将西南“三江”造山带划分出11个一级及其若干二级大地构造相,包括俯冲、消减杂岩、仰冲等一级大地构造相以及与其相伴的后造山及走滑大地构造相。俯冲大地构造相类包括块体变质相、前陆褶冲相、前陆盆地相;消减杂岩大地构造相包括洋壳残片相、陆壳残片相、增生变质杂岩相、活化基底相、侵入岩相、上叠磨拉石相;仰冲板块大地构造相包括弧前盆地相、岛弧相、弧后及弧间盆地相。特提斯洋向北消减,使泛华夏大陆群各块体先拼接,其后弧后扩张、闭合、造山,从而形成了“三江”造山带“多缝合带”、“多陆体”特征。     

Mesozoic molybdenum deposits in the East Xingmeng orogenic belt,northeast China: characteristics and tectonic setting

Numerous molybdenum (Mo) ore deposits have been discovered in the East Xingmeng orogenic belt (East Central Asian orogenic belt), over the past 10 years, and this region is becoming one of the world's most important Mo production areas. It contains 6.18 Mt of proven Mo metal reserves, which accounts for 30% of the total proven Chinese Mo reserves. The ore district includes 37 deposits and 15 occurrences, with three major Mo ore types, that is porphyries, skarns, and hydrothermal veins. The latter can be subdivided into quartz- and volcanic hydrothermal-vein types. With the exception of the Ordovician Duobaoshan porphyry Cu–Mo deposit (477 Ma), all the East Xingmeng Mo deposits formed during the Mesozoic. Re–Os dating of molybdenite has documented three episodes of Mo mineralization: Early Triassic (248–242 Ma), Jurassic (178–146 Ma), and Early Cretaceous (142–131 Ma). Early Triassic Mo deposits are distributed along the northern margin fault of the North China Craton (NCC) and include porphyry and quartz vein types. They are characterized by the association of Mo + Cu. Jurassic Mo deposits are mainly distributed in the eastern area and include porphyry, quartz vein, and skarn types. They are typified by Mo alone and/or the association of Mo, Pb, and Zn. Cretaceous Mo deposits are distributed in all areas and include porphyry and volcanic hydrothermal vein types. Similar to the Jurassic ores, they are simple Mo or Mo + Pb + Zn deposits. Volcanic hydrothermal vein deposits are characterized by an association of molybdenum and uranium. The Triassic Mo deposits formed in a syn-collision setting between the Siberian and North China plates. The Jurassic Mo deposits formed in a compressional setting, which was probably triggered by the westward subduction of the palaeo-Pacific plate. The Early Cretaceous Mo deposits are linked to a tectonic regime of lithosphere thinning, which was caused by delamination of thickened lithosphere. However, the Mo deposits in the Erguna terrane of the northwest Xingmeng orogenic belt may be related to the evolution of the Okhotsk Ocean.     

新疆南天山构造格架及构造演化

南天山碰撞造山带位于西伯利亚与塔里木地块之间的北亚造山区南部的天山造山系的中南部,是塔里木地块与哈萨克斯坦-准噶尔地块之间的一条构造带,地理上由哈尔克山、额尔宾山、虎拉山等组成,地质上主要由古生代地质体组成,其南北两侧均为活动陆缘,中间由洋壳残片、洋岛和增生杂岩组成,是南天山古生代洋盆演化的产物。南天山古洋盆从震旦纪裂解,寒武纪持续扩张,奥陶纪—石炭纪向南北两侧俯冲闭合,至二叠纪南天山造山带进入后造山调整阶段。     

东天山花岗岩与造山带演化

文章通过建立花岗岩类类型与地球动力学之间的联系,试图利用分类清楚、测年准确的花岗岩解决本区地壳及造山带演化过程。根据K2O等地壳成熟度的指标,得出了该地区地壳性质由不成熟→半成熟岛弧→成熟陆壳演变;构造环境由不成熟岛弧→成熟的"大陆化"岛弧→大陆碰撞带演化。总结了东天山地区经历了三大地壳演化时期,分别为前寒武纪基底演化阶段陆核及超大陆形成期;古生代古亚洲洋形成演化期和中生代特提斯―印欧板块碰撞阶段板内演化期。反演出了东天山造山带经历了俯冲汇聚及不成熟陆壳形成阶段→弧―陆碰撞及半成熟陆壳形成阶段→碰撞造山及成熟陆壳形成阶段→陆内造山及陆壳改造阶段→中生代板内演化阶段。     

东天山觉罗塔格雅满苏花岗岩岩石学、地球化学特征及其板内构造意义

雅满苏花岗岩体由27个侵入体组成,按岩石谱系划分为三个岩相单元,归并为一个超单元,其为同一次岩浆熔融事件过程中曾经发生过三次岩浆侵入活动而形成的椭圆形的深成岩体。LA-ICP-MS锆石U-Pb定年结果表明,雅满苏岩体侵位于中三叠世(227~230Ma),为印支中期的产物。来自岩体的锆石原位Hf同位素测定结果表明,ε_(Hf)(t)值变化于7.7~11.5之间,二阶段Hf模式年龄(T_(DM2))变化于530~776Ma之间,表明其岩浆源区均为来源于亏损地幔的新生地壳岩石。该岩体总体富硅(SiO_2为70.73%~78.12%),富碱(K_2O+Na_2O为7.17%~8.53%),富钾(K_2O/Na_2O为1.1~1.89),而Ti、Ca、Fe和Mg含量较低,(K_2O+Na_2O)/Al_2O_3为0.75~0.91,A/CNK为0.98~1.03,属于高钾钙碱性花岗岩。总体上富集大离子亲石元素(LILE)K、Rb和高场强元素(HFSE)Th,但贫Hf、Zr、Sm、Y及Yb,稀土元素的球粒陨石标准化配分曲线呈右倾型,轻重稀土分馏大,轻稀土分异明显,而重稀土分异不显著,铕呈现弱负异常(δEu=0.38~0.74)。岩石学及地球化学特征研究表明,雅满苏岩体形成与幔源岩浆的内侵使得新元古代年轻的地壳物质发生部分熔融有关。岩浆侵入活动的动力来源于海西晚期至印支早期古特提斯洋向北俯冲和碰撞及随后的板内伸展作用。     

西天山造山带区域构造演化及其大陆动力学解析

西天山位于哈萨克斯坦-准噶尔板块与塔里木-华北板块两大板块之间,在漫长的构造演化过程中历经前震旦纪基底形成演化阶段（D1）、震旦纪至早奥陶世稳定陆壳发展阶段（D2）、中奥陶世至石炭纪末板块裂解与再拼合阶段（D3）、二叠纪陆陆叠覆造山阶段（D4）和中新生代盆山耦合阶段（D5）等5个大的发展阶段,其古生代时期中奥陶世至石炭纪末板块裂解与再拼合阶段（D3）又可细化为4个次级演化阶段：中奥陶世至晚志留世早古南天山洋盆形成阶段（D31）、晚志留世至晚泥盆世俯冲造山阶段（D32）、晚泥盆世至早石炭世初陆陆碰撞造山阶段（D33）和早石炭世至晚石炭世后碰撞阶段（D34）。西天山造山带自中新元古代以来历经俯冲造山、陆陆碰撞造山、陆陆叠覆造山和陆内再生造山等多机制多旋回的造山作用,终成为横亘于中亚地区的宏伟的复合型造山带。     

东天山大草滩蛇纹岩中铬铁矿特征及其构造意义

东天山大草滩蛇纹岩中发育副矿物铬铁矿,部分铬铁矿具环带结构,核部为铝铬铁矿,富Al贫Fe,Cr2O3为39.27%~42.65%,Al2O3为24.58%~26.21%,Ti O2含量很低(0.20%),Fe O为12.18%~18.14%,而Fe2O3含量为0.33%~7.30%,Cr#为50.6~53.5,Mg#为53.3~68.2,Fe2+#为31.8~46.7。核部铝铬铁矿结晶温度平均约为1 385℃,结晶压力平均为2.77 GPa,推断其形成深度约为86 km,相当于软流圈位置;相对于FMQ缓冲剂的地幔氧逸度为FMQ-4.38~FMQ+0.63 log单位,平均值为FMQ-1.15 log单位;地幔熔融程度F为21.04%~21.28%。推测大草滩蛇纹岩的原岩橄榄岩单元源区为石榴石二辉橄榄岩,形成于亏损的软流圈地幔,可能产自俯冲带环境中的岛弧环境。大草滩铬铁矿的环带结构特征表明其经历了温度由高到低、氧逸度由低到高的过程,反映了大草滩蛇纹岩由最初的高温高压地幔环境被推覆到地壳,随后经历了低温低压的浅程度区域变质作用。     

造山带隆起剥蚀过程与沉积记录

大别山造山带是中生代碰撞造山作用的产物,其隆起过程中形成了合肥盆地。本文对合肥盆地侏罗系碎屑岩进行了成分分析,发现砾岩中有两类榴辉岩,一类为高压变质榴辉岩,另一类为超高压变质榴辉岩。对砂岩中碎屑白云母的成分分析表明,指示高压变质作用的多硅白云母在较低层位已大量出现。重建的碎屑物注入顺序为:非超高压变质岩—高压变质岩—超高压变质岩。结合变质岩石学研究和地球物理观测资料重建的大别山造山带内部结构,可进一步重建大别山的剥蚀历史:大别山造山带最先(三尖铺组沉积初期)受到剥蚀的是非超高压变质的片岩、片麻岩及大理岩,高压变质岩折返到地表受到剥蚀不晚于中侏罗世初期(三尖铺组沉积早期),而超高压变质岩折返到地表经受剥蚀的时间稍早于中侏罗世中期(凤凰台组沉积初期)。天山是典型的陆内造山带,其隆起是新生代以来印度板块与欧亚板块碰撞的一种远程效应。本文对天山发育的花岗岩磷灰石裂变径迹分析,并对南侧的塔里木盆地北部古近系及新近系沉积岩进行了碎屑岩物源分析,在新的磁性地层学格架中讨论了天山的隆起剥蚀历史。砾石组分的突然变化发生在75~35 Ma,26~17 Ma和12~8 Ma间,从中天山物源区逐渐变为南天山物源区,12 Ma后变为以南天山为主要物源区。砂岩及重矿物组分变化表明,物源在124 Ma、26(~24)Ma及15(~12)Ma时发生过变化。磷灰石裂变径迹则进一步揭示了天山的3阶段差异性隆起历史:天山的早期隆起发生在124~80 Ma间,从中天山和南天山的交界处开始并向南扩展;第二次隆起发生在大约100~60 Ma间,从中天山开始向南扩展;第三次隆起从大约50 Ma开始,并向北南两侧扩展,至大约30 Ma时扩展到北天山,约20 Ma时扩展至南天山;其后,南天山在15(~12)Ma时发生了独立的隆起事件。本文的两个研究实例表明,盆地的充填符合计算机数据结构的堆栈过程,但造山带的隆起剥蚀却会出现明显的差异性。不能简单地说造山带的剥蚀和盆地的充填具镜像对称关系,这有可能导致错误的认识,一定要具体事例具体分析。     

Lithospheric structure and dynamic processes of the Tianshan orogenic belt and the Junggar basin

Located at the center of the Eurasian continent and accommodating as much as 44% of the present crustal shortening between India and Siberia, the Tianshan orogenic belt (TOB) is one of the youngest (<20 Ma) and highest (elevation>7000 m) orogenic belts in the world. It provides a natural laboratory for examining the processes of intracontinental deformation. In recent years, wide angle seismic reflection/refraction profiling and magnetotelluric sounding surveys have been carried out along a geoscience transect which extends northeastward from Xayar at the northern margin of the Tarim basin (TB), through the Tianshan orogenic belt and the Junggar basin (JB), to Burjing at the southern piedmont of the Altay Mountain. We have also obtained the 2D density structure of the crust and upper mantle of this area by using the Bouguer anomaly data of Northwestern Xinjiang. With these surveys, we attempt to image the 2D velocity and the 2D electric structure of the crust and upper mantle beneath the Tianshan orogenic belt and the Junggar basin. In order to obtain the small-scale structure of the crust–mantle transitional zone of the study area, the wavelet transform method is applied to the seismic wide angle reflection/refraction data. Combining our survey results with heat flow and other geological data, we propose a model that interprets the deep processes beneath the Tianshan orogenic belt and the Junggar basin.Located between the Tarim basin and the Junggar basin, the Tianshan orogenic belt is a block with relatively low velocity, low density, and partially high resistivity. It is tectonically a shortening zone under lateral compression. A detachment exists in the upper crust at the northern margin of the Tarim basin. Its lower part of the upper crust intruded into the lower part of the upper and the middle crust of the Tianshan, near the Korla fault; its middle crust intruded into the lower crust of the Tianshan; and its lower crust and lithospheric mantle subducted into the upper mantle of the Tianshan. In these processes, the mass of the lower crust of the Tarim basin was carried down to the upper mantle beneath the Tianshan, forming a 20-km-thick complex crust–mantle transitional zone composed of seven thin layers with a lower than average velocity. The thrusting and folding of the sedimentary cover, the intrusive layer in the upper and middle crust, and the mass added by the subduction of the Tarim basin into the upper mantle of the Tianshan are probably responsible for the crustal thickening of the Tianshan. Due to the important mass deficiency in the crust and the upper mantle of the Tianshan, buoyancy must occur and lead to rapid ascent of the Tianshan.The episodic tectonic uplift of the Tianshan and tectonic subsidence of the Junggar basin are closely related to the evolution of the Paleozoic, Mesozoic, and Cenozoic Tethys.     

天山-兴蒙造山带主要钼矿床Re-Os定年和地质意义

天山-兴蒙钼矿带是中亚成矿域的重要组成部分,该成矿带主要呈近东西向分布;本文通过对天山-兴蒙钼矿带4个典型矿床Re-Os同位素精确定年,结合前人区域动力学背景的研究,揭示天山-兴蒙造山带钼矿床的成矿作用主要与岩浆侵入形成的花岗岩热液作用有关,并识别出兴蒙造山带3期岩浆活动、钼成矿作用和构造热事件;Re-Os定年结果揭示出晚古生代铜-钼矿床与俯冲-增生作用有关,三叠纪钼的成矿形成于西伯利亚板块与塔里木-华北克拉通碰撞背景下,而侏罗纪-早白垩世的钼成矿作用与古太平洋板块西向俯冲作用有关。