Crustal structure beneath the Qilian Orogen Zone from multiscale seismic tomography

The Qilian Orogen Zone(QOZ), located in the north margin of the Tibetan Plateau, is the key area for understanding the deformation and dynamics process of Tibet. Numerous geological and geophysical studies have been carried out on the mechanics of the Tibetan Plateau deformation and uplift; however, the detailed structure and deformation style of the Qilian Orogen Zone have remained uncertain due to poor geophysical data coverage and limited resolution power of inversion algorithms. In this study, we analyze the P-wave velocity structure beneath the Qilian Orogen Zone, obtained by applying multi-scale seismic tomography technique to P-wave arrival time data recorded by regional seismic networks. The seismic tomography algorithm used in this study employs sparsity constraints on the wavelet representation of the velocity model via L1-norm regularization. This algorithm can deal efficiently with uneven-sampled volumes, and can obtain multi-scale images of the velocity model. Our results can be summarized as follows:(1) The crustal velocity structure is strongly inhomogeneous and consistent with the surface geological setting. Significant low-velocity anomalies exist in the crust of northeastern Tibet, and slight high-velocity anomalies exist beneath the Qaidam Basin and Alxa terrane.(2)The Qilian Orogen Zone can be divided into two main parts by the Laji Shan Faults: the northwestern part with a low-velocity feature, and the southeastern part with a high-velocity feature at the upper and middle crust.(3) Our tomographic images suggest that northwestern and southeastern Qilian Orogen Zones have undergone different tectonic processes. In the northwest Qilian Orogen Zone, the deformation and growth of the Northern Tibetan Plateau has extended to the Heli Shan and Beida Shan region by northward overthrusting at the upper crust and thickening in the lower crust. We speculate that in the southeast Qilian Orogen Zone the deformation and growth of the Northern Tibet Plateau were of strike-slip style at the upper crust; in the lower crust, the evidence suggests ductile shear extrusion style and active frontage extension to the Alxa terrane.(4) The multi-scale seismic tomography technique provides multiscale analysis and sparse constraints, which has allowed to us obtain stable, high-resolution results.

Precise Timing of Caledonian Structural Deformation Chronology and Its Implications in Southeast Qilian Mountains, China

The middle Qilian orogenic belt and Lajishan orogenic belt, both of which were formed in the Caledonian, strike NW-SE direction across southeast Qilian Mountains and their basement consists of pre-Caledonian metamorphic rocks with lozenge-shaped ductile shear zones in the crystalline basement. The blunt angle between the conjugated ductile shear zones ranges from 104° to 114°, indicating approximate 210° of the maximum principal stress. The plateau ages of muscovite ^40Ar/^39Ar obtained from the mylonitized rocks in the ductile shear zones of Jinshaxia-Hualong-Keque massif within the middle Qilian massif are （405.1±2.4） Ma and （418.3±2.8） Ma, respectively. The chronology data confirm the formation of ductile shear zones in the Caledonian basement metamorphic rocks during the Caledonian orogeny. Furthermore, on the basis of basement rock study, precise timing for the closing of the Late Paleozoic volcanic basin （or island-arc basin） and Lajishan ocean basin is determined. This provides us a new insight into the closing of ocean basin in the structural evolution of orogenic belt.

北祁连山加里东期聚敛作用的构造转换及其成矿响应

北祁连造山前的构造聚敛样式的诸多争议 ,主要源于北祁连山东西段的巨大差异。甘肃肃南白泉门以东主要表现为 ,自北而南发育有弧后、岛弧和洋中脊、洋岛海相火山岩系 ,产出岛弧裂谷白银厂式 (黑矿型 )和弧后扩张脊石居里沟式 (塞浦路斯型 )块状硫化物矿床 ,少见陆壳基底碎块 ,花岗岩侵入体不发育 ;而西段以镜铁山微地块为特点 ,岛弧钙碱性火山岩系发育 ,分布有大面积花岗质岩基 ,产出夕卡岩型钨矿床。这种东西段区域岩石组合和成矿特征上的差异 ,反映了早古生代北祁连洋盆在中奥陶世—早志留世向北俯冲消减构造聚敛上的不同 ,东段为洋—洋俯冲的马里亚纳型的沟—弧—盆系大陆边缘 ,西段则转换为洋—陆俯冲的智利型活动大陆边缘 ,并由于深部消减物质的差异而形成不同的碰撞岩浆作用形式和相应的成矿组合。

甘肃省党河南山乌兰达坂沟-扎子沟地区水系沉积物地球化学特征及找矿远景预测

党河南山位于南祁连地块北缘,以党河断裂为界,北邻中祁连,属南祁连Au、Pb、Zn、Cu、Ni、W、Cr成矿带。金矿为该成矿带的主要矿种,素有72道金沟之称,目前已发现贾公台、黑刺沟等大中型金矿床2处,小型金矿床及金矿点10余处。乌兰达坂沟-扎子沟地区位于党河南山中段,小比例尺化探显示金异常强烈,且区内可见大量的砂金采矿点及民采坑硐,显示了该地区良好的找矿地质条件。本文是在对区内开展调查研究基础上,利用1∶5万水系沉积物测量,对区内地球化学特征、元素分布特征、元素相关性及异常元素组合特征等进行相关分析研究,并结合异常区内地层、构造、岩浆岩及矿化蚀变特征等成矿地质条件,圈定成矿远景区。通过本次工作在该地区圈出11处金的成矿远景区,并对其进行了分类排序。一类成矿远景区有扎子沟南、钓鱼沟脑、钓鱼沟、红庙沟、背架子-乌兰达坂沟成矿远景区,对一类成矿远景区内地质成矿条件进行了概略论述,并对其下一步工作提出了建议。成矿远景区的圈定为该地区下一步继续找矿工作提供了重要的参考。

祁连山东南段加里东造山期构造变形年代的精确限定及其意义

祁连山东南段呈北西-南东向展布着加里东期中祁连造山带和拉脊山造山带，其基底为前加里东变质岩系，在该变质结晶基底岩系中发育着菱形网格状韧性剪切带，共轭韧性剪切带面对缩短方向的夹角为104°～114°，其最大主应力方位为SW210°左右．在中祁连地块金沙峡和化隆地块科却两处韧性剪切带中的糜棱岩化岩石，获取变质矿物白云母40^Ar-39^Ar坪年龄分别为（405．1±2．4）Ma和（418．3±2．8）Ma．这一年代学结果不仅确定了加里东基底变质岩系中韧性剪切带是加里东造山作用过程中形成，更重要的是通过对基底韧性剪切带中变质变形岩石的年代学研究，精确地限定了祁连山东南段的早古生代火山盆地（或岛弧盆地）、拉脊山小洋盆关闭的构造年代．这为造山带构造演化过程中盆地关闭时间的确定开辟了新的途径．

天水地区花岗岩类及其构造演化

通过对地处祁连造山带与秦岭造山带结合部位的天水地区花岗岩类的岩石学、岩石化学、地球化学等资料的分析研究,区内花岗岩类可划分为3个构造岩浆带。对大量的花岗岩类构造环境信息综合分析表明,祁连造山带和秦岭造山带在晚古生代之前,二者分属两大造山带,具有皆然不同的岩浆事件和大地构造背景及其演化模式。直到晚古生代之后,祁连造山带才与秦岭造山带一道共同进入陆内演化阶段。花岗岩类为探索本区构造演化特征提供了佐证,具有重要研究意义。

柴达木盆地东部基底花岗岩类岩浆活动的化学地球动力学

柴达木盆地东部是连接秦岭、祁连、昆仑三大造山带的关键构造部位,发育了以晚二叠世—中三叠世(P-T)花岗岩类为主的古特提斯域深成岩浆活动。岩石地球化学分析表明,柴达木盆地东部基底P-T花岗岩类形成于大洋环境,主要为I型花岗岩类。该期花岗岩类可分为两个时间演化系列,早期为钾长花岗岩—花岗闪长岩—英云闪长岩—闪长岩系列,晚期为碱性花岗岩—钾长花岗岩—花岗闪长岩系列,均具有与经典的鲍文反应系列相反(即反鲍文系列)的演化趋势,反映了深成岩浆的动态混合作用模式。Nd-Sr-Pb-O同位素组成特征说明,柴达木盆地东部基底P-T花岗岩类具有年轻地壳的特征,其来源主要与富集地幔EMⅡ源区有关,具明显的造山带与上地壳Pb同位素特征。柴达木盆地东部基底与西秦岭及扬子块体中生代花岗岩类的Pb同位素组成具有相似性,说明了柴达木盆地基底与扬子地块具有亲缘性。研究表明,来自地幔的基性岩浆底侵作用,以及幔源镁铁质岩浆与壳源长英质岩浆之间的混合作用,可能是柴达木盆地东部基底地壳生长的重要方式。

甘肃大佛寺、金佛寺花岗岩体的锆石U-Pb年龄、Hf-O同位素和全岩地球化学特征及地质意义

走廊过渡带大佛寺花岗岩为弱过铝质(A/CNK=1.03~1.06),SiO_2(76.7%~78.9%)、全碱(Na2O+K2O=7.7%~8.3%)、Rb(303×10^(-6)~383×10^(-6))、Nb(32×10^(-6)~42×10^(-6))、重稀土(Yb^8×10^(-6))含量以及和FeOT/MgO(6.3~7.6)、Ga/Al(>3×10-4)、Rb/Ba(3.0~6.2)比值较高,MgO(~0.1%)、CaO(0.5%~0.6%)含量较低,Ba、Sr、Eu、Ti强烈亏损,属A型花岗岩,其源岩可能为泥质岩。大佛寺花岗岩中锆石δ18O和εHf(t)值分别为7.8‰~8.6‰(平均8.24±0.13‰)和-4.8^-2.0,Hf同位素两阶段亏损地幔模式年龄1540~1717Ma,岩浆温度达到~820℃以上。北祁连造山带北缘金佛寺花岗岩为过铝质(A/CNK=1.0~1.1),SiO_2(65.5%~75.0%)、MgO(0.6%~2.2%)、Fe2O3(1.9%~5.2%)、TiO_2(0.3%~0.8%)含量变化较大,其主量和微量元素特征与北祁连造山带的柴达诺花岗岩相似,源岩可能包括杂砂岩和角闪岩。金佛寺花岗岩的锆石δ18O为7.4%~9.7‰(平均8.03±0.36‰),εHf(t)在-0.5^+1.9之间,Hf同位素两阶段亏损地幔模式年龄为1289~1439Ma,岩浆温度达到800~900℃。走廊过渡带大佛寺花岗岩、北祁连造山带北缘金佛寺花岗岩的锆石U-Pb SIMS年龄分别为426.1±2.8Ma、424.0±1.6Ma,不同构造单元发育同时期岩浆活动以及A型花岗岩的出现,表明在~425Ma北祁连洋盆已经闭合,北祁连造山带及邻区进入到后碰撞拉伸阶段。

甘肃省车路沟北金矿找矿方向探讨: 来自阿尔金断裂带东段“金三角”金矿控矿因素对比研究的启迪

甘肃省玉门市车路沟北金矿地处北祁连造山带西端和阿尔金韧性剪切带东段交汇部位,是区域上著名的西北“金三角”。该矿的形成与阿尔金左行韧性剪切带关系密切并且产出受其次级分支断裂带的控制;古生界在区域上普遍含金较高,是该矿主要的矿源层;区域岩浆活动强烈,与金矿(化)体紧密伴生,车路沟花岗闪长杂岩体为该矿形成提供热源和部分矿源。结合区域成矿背景,采用区域矿床综合类比的方法,详细对比了车路沟北金矿区和寒山金矿、鹰嘴山金矿、滴水山金矿、牛毛泉东金矿、胡湾子金矿、南湖西金矿、红口子金矿、车路沟金矿以及昌马金矿等“金三角”金矿在地层-构造-岩浆岩-物化遥异常特征等控矿因素以及矿体、矿石、围岩蚀变等矿床地质特征等等方面的情况。研究结果表明:车路沟北金矿和上述诸金矿控矿因素基本类同,矿床地质特征极其相似,作为“金三角”金矿带在北东方向上的延伸,具备深部隐伏较大规模矿床的潜力。在此基础上进一步系统总结了“金三角”金矿的找矿模型,探讨了找矿标志和找矿方向。研究成果能对本矿区以及北祁连地区构造蚀变岩型金矿床进一步的勘查工作有所启迪。