江南造山带(湖南段)金矿成矿规律与资源潜力   总被引：1，自引：0，他引：1  

黄建中  孙骥  周超  陆文  肖荣  郭爱民  黄革非  谭仕敏  隗含涛 《地球学报》2020,41(2):230-252

扬子地块—华夏地块经历武陵期—雪峰期增生造山-碰撞造山形成江南造山带,构成统一的华南板块,进入板内演化阶段。本文从构造-岩浆作用-沉积建造角度,结合地质年代学、古地磁、岩相古地理分析,加里东运动、印支运动属陆内作用,造就了加里东期、印支期两次主要的金矿成矿事件。湖南雪峰山—幕阜山(俗称“金腰带”)加里东期和印支晚期金矿床分区成带产出,构成一条复合型造山型金矿带。区域性构造导矿、次级构造交汇或叠加控矿明显;矿石普遍发育条带状构造,属韧性剪切递进变形的产物。通过对区域成矿背景、金矿成矿理论,金矿床(体)地质特征,结合同位素地球化学、地质找矿成果及深部验证情况等多方面研究表明该成矿带深部找矿潜力巨大,2000 m以浅金远景资源量有望达到3000 t。  相似文献   

鄂尔多斯盆地西南部三叠纪末抬升剥蚀事件及热年代学记录   总被引：1，自引：1，他引：0  

王建强  刘池洋  赵红格  张东东  ZATTIN Massimiliano  彭恒 《岩石学报》2020,36(4):1199-1212

三叠纪末期大型鄂尔多斯盆地遭受了中生代成盆以来首次较大规模的抬升剥蚀,显著改造了中晚三叠世延长期盆地面貌,并控制了侏罗纪早期沉积格局和油藏分布,对盆地演化及矿产资源分布产生了重要影响。本文利用地质及大量钻井资料揭示了该期构造事件对盆地的剥蚀改造特征,盆地及周邻地区磷灰石裂变径迹年代学记录并约束了此次构造抬升的时限与过程;综合周邻区域构造研究成果,探讨了其发育的动力学背景。结果表明,鄂尔多斯盆地三叠纪末期的剥蚀具西南强、东北弱的特点,西南部大范围内延长组地层残缺不全,剥蚀量最大可达1000余米;前侏罗纪沉积古地貌总体呈西南高、北东低的特点;其抬升时间始于205～190Ma,西南部稍早于盆地腹部,抬升速率大于1℃/Myr,可持续至中侏罗世(约160Ma)。该期抬升剥蚀事件范围可涉及至盆地西南缘更广阔的区域,与同期秦岭造山带内出现的快速抬升冷却事件具有较好的时空耦合关系,是对秦岭造山带区域构造环境转变的响应和纪录。该研究丰富和发展了三叠纪末期构造事件在华北克拉通的影响,对该区油气、煤炭资源的进一步勘探和评价提供了新的思路,具有一定的现实意义。  相似文献   

羌塘盆地中央隆起带的抬升演化:构造-热年代学约束     

赵珍  陆露  吴珍汉 《地学前缘》2019,26(2):249-263

本文综合磷灰石裂变径迹年龄(113~43 Ma)、锆石裂变径迹年龄(169~103 Ma)、锆石U-Pb年龄(215~206 Ma)、黑云母K-Ar年龄(186~178 Ma)，通过磷灰石热史模拟，TASC图谱分析和矿物封闭温度年龄等手段，获得了中央隆起晚三叠世至今较为完整的冷却抬升历史。中央隆起主要经历了早侏罗世、晚侏罗世-早白垩世、晚白垩世-中新世早期和中新世晚期至今四期冷却事件，与南北羌塘板块后碰撞伸展、拉萨羌塘板块碰撞、新特提斯洋板片俯冲、印度欧亚板块碰撞以及中新世南北向走滑伸展存在动力学联系，造成11.4 km、2.85 km、4.3~5 km和0.85 km的抬升量。中央隆起在侏罗纪相对两侧盆地抬升，随着两侧盆地经历了侏罗纪的沉积增厚，与两侧盆地高差减小，在早白垩世早期可能位于海平面附近，随后快速抬升至2~2.5 km，统一接受晚白垩世红层沉积，并经历长期持续的逆冲推覆构造活动，进一步抬升至5 km，随后受到中新世古大湖夷平和南北向伸展作用影响，中央隆起相对盆地发生差异抬升。  相似文献   

青藏高原新生代古高度研究：现状与展望     

李乐意  常宏  关冲  陶亚玲  沈俊杰  秦秀玲  权春艳  常小红 《地质论评》2021,67(5):1406-1440

青藏高原新生代古高度研究是地球系统科学研究中的一个热点、难点和重点,它是解决地球深部动力学、地貌地形演化和气候变化等各部分相互关系的一个关键突破口。目前以古生物和氧同位素为代表的各种古高度计被用来重建青藏高原新生代的古高度历史,但是不同的研究方法所得到的结果并不一致,关于青藏高原何时隆升到现在的海拔高度存在晚上新世、晚中新世和始新世等不同认识。因为古高度结果的差异,所以对于青藏高原新生代的构造隆升过程和动力机制也存在大的争议。本文首先详细的阐述了部分古高度计的应用原理及其各自的优缺点,收集总结了78条青藏高原古高度研究的成果,梳理了目前青藏高原新生代古高度研究的历史和现状。然后在此基础上讨论了目前高原古高度研究的特点和存在的问题,即地层年代学、氧同位素和古生物古高度计结果的协调、“以点带面”、区域研究程度差异较大、替代性指标的多解性、古纬度影响、地质时期温度递减率的不确定性、全球气候变化的影响等特点和问题。最后就存在的特点和问题指出在恢复青藏高原新生代古高度时所需要完善和注意的方面,其中最重要的是注重地层年代学的可靠性。  相似文献   

湖南及邻区志留纪兰多弗里世鲁丹期至埃隆期岩相古地理及加里东期板块构造演化     

王根贤  陈必河  郑正福  周超 《地质论评》2021,67(6):1557-1585

湖南兰多弗里世鲁丹期岩相古地理格局以桃江—白马山—苗儿山一线为界,其南东为华夏洋壳板块兰多弗里统鲁丹阶周家溪组陆屑浊积深水盆地相,陆屑来自更南东的湘中南褶皱山地;其北西为扬子陆壳板块兰多弗里统鲁丹阶龙马溪组沉积洋盆,南东后缘是上陆棚相,北西前缘是下陆棚相,陆屑都由南东湘中南褶皱山地提供。至兰多弗里世埃隆期岩相古地理发生巨变：龙马溪组顶部Coronograptus cyphus笔石带末即大约440.8±1.2 Ma时,发生华夏洋壳板块向扬子陆壳板块俯冲碰撞事件,华夏洋壳板块周家溪组本身褶皱造山为华夏褶皱山地,华夏洋壳板块洋盆关闭。同时华夏洋壳板块以A型俯冲形式下插到扬子陆壳板块之下,并使扬子陆壳板块南东前缘崛起形成加里东期雪峰造山带。后者将扬子陆壳板块南东前缘牵引、挠曲和凹陷成华夏洋壳板块弧后前陆盆地,小河坝组是该弧后前陆盆地的沉积盖层,陆屑都由南东的雪峰造山带提供。该弧后前陆盆地沉积了三角洲相—滨海相的小河坝组,向北东、北西和南西方向相变为台地相石牛栏组,再向北西陕南紫阳相变为盆地相斑鸠关组。小河坝组两次采集的重砂样均出现蓝闪石,它是蓝闪石片岩标志矿物,蓝闪石片岩是确认加里东期华夏洋壳板块与扬子陆壳板块俯冲碰撞及形成雪峰造山带的判别标志。  相似文献   

Research achievements of the Qinghai-Tibet Plateau based on 60 years of aeromagnetic surveys     

《China Geology》2021,4(1):147-177

The Qinghai-Tibet Plateau (also referred to as the Plateau) has long received much attention from the community of geoscience due to its unique geographical location and rich mineral resources. This paper reviews the aeromagnetic surveys in the Plateau in the past 60 years and summarizes relevant research achievements, which mainly include the followings. (1) The boundaries between the Plateau and its surrounding regions have been clarified. In detail, its western boundary is restricted by West Kunlun-Altyn Tagh arc-shaped magnetic anomaly zone forming due to the arc-shaped connection of the Altyn Tagh and Kangxiwa faults and its eastern boundary consists of the boundaries among different magnetic fields along the Longnan (Wudu)-Kangding Fault. Meanwhile, the fault on the northern margin of the Northern Qilian Mountains serves as its northern boundary. (2) The Plateau is mainly composed of four orogens that were stitched together, namely East Kunlun-Qilian, Hoh-Xil-Songpan, Chamdo-Southwestern Sanjiang (Nujiang, Lancang, and Jinsha rivers in southeastern China), and Gangdese-Himalaya orogens. (3) The basement of the Plateau is dominated by weakly magnetic Proterozoic metamorphic rocks and lacks strongly magnetic Archean crystalline basement of stable continents such as the Tarim and Sichuan blocks. Therefore, it exhibits the characteristics of unstable orogenic basement. (4) The Yarlung-Zangbo suture zone forming due to continent-continent collisions since the Cenozoic shows double aeromagnetic anomaly zones. Therefore, it can be inferred that the Yarlung-Zangbo suture zone formed from the Indian Plate subducting towards and colliding with the Eurasian Plate twice. (5) A huge negative aeromagnetic anomaly in nearly SN trending has been discovered in the middle part of the Plateau, indicating a giant deep thermal-tectonic zone. (6) A dual-layer magnetic structure has been revealed in the Plateau. It consists of shallow magnetic anomaly zones in nearly EW and NW trending and deep magnetic anomaly zones in nearly SN trending. They overlap vertically and cross horizontally, showing the flyover-type geological structure of the Plateau. (7) A group of NW-trending faults occur in eastern Tibet, which is intersected rather than connected by the nearly EW trending that develop in middle-west Tibet. (8) As for the central uplift zone that occurs through the Qiangtang Basin, its metamorphic basement tends to gradually descend from west to east, showing the form of steps. The Qiangtang Basin is divided into the northern and southern part by the central uplift zone in it. The basement in the Qiangtang Basin is deep in the north and west and shallow in the south and west. The basement in the northern Qiangtang Basin is deep and relatively stable and thus is more favorable for the generation and preservation of oil and gas. Up to now, 19 favorable tectonic regions of oil and gas have been determined in the Qiangtang Basin. (9) A total of 21 prospecting areas of mineral resources have been delineated and thousands of ore-bearing (or mineralization) anomalies have been discovered. Additionally, the formation and uplift mechanism of the Plateau are briefly discussed in this paper.©2021 China Geology Editorial Office.  相似文献   

大陆地质与大陆构造和大陆动力学   总被引：11，自引：1，他引：10       下载免费PDF全文

张国伟  郭安林  董云鹏  姚安平 《地学前缘》2011,18(3):1-12

当代地球科学发展的新需求与板块构造对大陆地质的深化研究,使大陆问题成为21世纪地学发展的前沿研究领域、热点和关键.文中在提出"大陆动力学"研究20多年后的今天,进行关于大陆研究的新思考,从讨论厘定大陆研究的有关争议概念、大陆的基本问题、中国大陆构造的典型实例以及与世界同类范例的简要对比出发,综合概括了大陆地质与大陆构造...  相似文献   

珠江口盆地番禺低隆起东部珠江组沉积环境的恢复     

李小平  施和生  杜家元  张忠涛  郝建光 《海相油气地质》2015,20(1)

对珠江口盆地番禺低隆起东部L16井中新统珠江组的岩心观察分析,岩性包括碎屑岩、碳酸盐岩以及碎屑-碳酸盐的混积岩。珠江组可划分为11种沉积微相类型;建立了三角洲—滨岸—碎屑与碳酸盐混积滨岸—碳酸盐台地—浅海陆棚(23.8 Ma~18.5 Ma)沉积演化序列。地震地质解释证实了珠江组早期东沙三角洲的存在;古珠江三角洲与东沙三角洲构成了研究区珠江组下段的沉积主体。恢复了研究区珠江组沉积相及其演化,重点刻画了SQ2—TST时期由陆到海的变迁,而海平面变化是这一变迁的主要控制因素。  相似文献   

苏北盆地建湖隆起碳酸盐岩储层中的硫酸盐型热矿水成因     

罗璐  庞忠和  杨峰田 《地学前缘》2015,22(2):263-270

碳酸盐岩储层中的硫酸盐型热矿水是宝贵的旅游疗养资源。我国苏北盆地北部分布有丰富的热矿水,其中,盱眙县的一口热水井的单井流量达到3 616t·d-1,矿化度(TDS)达到4g·L-1,温度为53.5℃,为优质硫酸盐型热矿水。采用水化学和同位素方法,结合钻孔地质资料,研究了其形成机理。该地区热矿水的SO2-4离子含量较高,部分热矿水的阴离子中SO2-4离子占主导,成为硫酸盐型水。热水的氢氧稳定同位素(δ2 H、δ18 O)值证明了其来源于大气降水。建湖隆起存在石膏层,主要分布在白垩系浦口组,该组属盐湖相沉积,发育大范围的含膏质泥岩,其中石膏、硬石膏含量较多。根据水样的Sr/Ca摩尔比,该区热水中的硫酸盐来源于石膏的溶解。基于碳酸盐岩热水的pH值和SI值、14 C含量等数据的分析,排除了硫酸盐型热矿水的形成与金属矿的风化或氧化的关系,认为是石膏或硬石膏溶解形成。  相似文献   

The Pleistocene terrace staircase of the River Thame, central-southern England, and its significance for regional stratigraphic correlation, drainage development, and vertical crustal motions     

Rob Westaway 《Proceedings of the Geologists' Association. Geologists' Association》2011,122(1):92-112

The Thame is one of the principal left-bank affluents of the Thames, the largest river in southern England; it joins the Upper Thames at Dorchester, ∼20 km downstream of Oxford. Its terraces include a younger group of four, which date from the late Middle Pleistocene and Late Pleistocene, are disposed subparallel to the modern river, and represent drainage within the modern catchment. At higher levels there are three older terraces, the Three Pigeons, Tiddington and Chilworth terraces, which are assigned to MIS 16, 14 and 12. With much gentler downstream gradients, these are fragmentary remnants of much more substantial fluvial deposits, indicating a much larger river that was disrupted by the Anglian (MIS 12) glaciation. This interpretation supersedes an earlier view that the glacigenic deposits in the Thame headwaters correlate with the Blackditch terrace, the highest of the younger group, which has hitherto provided an argument that the glaciation in this region occurred in MIS 10. It is suggested that the headwaters of the pre-Anglian ‘Greater Thame’ river were located near Northampton and that the Milton Sands of that area represent an upstream counterpart of the Chilworth terrace deposits. It is envisaged that this early Middle Pleistocene drainage geometry, located between the Jurassic limestone and Chalk escarpments, developed as a result of the increase in uplift rates that followed the Mid-Pleistocene Revolution (MPR). It is suggested that before this time, including during the Early Pleistocene, the modern Thame catchment and adjacent regions drained southeastward through the Chalk escarpment, but these small rivers lacked the erosional power to cut through the Chalk in pace with the faster uplift occurring in the early Middle Pleistocene, and so became diverted to the southwest, subparallel to the Chalk escarpment, to form the pre-Anglian ‘Greater Thame’ tributary of the Upper Thames. The post-MPR uplift is estimated to decrease northwestward from 90 m in the Middle Thames to 75 m near the Thame-Thames confluence and to 65 m upstream of Oxford. The post-Anglian (post-450 ka) component of uplift decreases northward from 33 m near the Thame-Thames confluence to an estimated ∼20 m in the Northampton area; the relative stability of the latter area makes feasible the proposed correlation between the Milton Sands and the pre-Anglian River Thame. Limited post-Anglian uplift in the Northampton area is also inferred from the upstream convergence of the terraces of the modern rivers Nene and Great Ouse. These observed lateral variations in vertical crustal motions reflect lateral variations in crustal properties (including heat flow, crustal thickness, and thickness of underplating at the base of the crust) that are known independently. This study thus provides, for the first time, an integrated explanation of the Pleistocene drainage development across a large region of central-southern England.  相似文献