澜沧江南带三叠纪火山岩岩石学、地球化学特征、Ar-Ar年代学研究及其构造意义

滇西三江地区澜沧江南带广泛发育三叠纪火山岩。在北部云县一带,中晚三叠世火山岩出露齐全,自下而上可划分为中三叠统忙怀组(T₂m),上三叠统小定西组(T₃x)和上三叠统芒汇河组(T₃mh)。忙怀组以酸性火山岩为主,为一套流纹岩夹火山碎屑岩组合;小定西组发育为中基性火山熔岩夹火山碎屑岩;芒汇河组具有流纹质火山碎屑岩与玄武岩共存的"双峰式"火山岩特征。地球化学特征表明,南澜沧江带三叠纪火山岩具有弧火山岩与大陆板内火山岩的双重属性,推测其形成环境为过渡型的大陆边缘造山带环境。对南澜沧江带南部景洪附近采集到的石英安山岩样品进行Ar-Ar年龄测试,得到的坪年龄为236.7±2.2Ma,为中三叠世。结合火山岩年代学结果,推测澜沧江洋主碰撞期为早三叠世,中三叠世与晚三叠世早期分别为碰撞后的应力松弛阶段与洋盆继续俯冲期,到晚三叠世末期,俯冲作用结束,澜沧江洋关闭。     

Young,active conjugate strike–slip deformation in West Sichuan: evidence for the stress–strain pattern of the southeastern Tibetan Plateau

The active kinematics of the eastern Tibetan Plateau are characterized by the southeastward movement of a major tectonic unit, the Chuan-Dian crustal fragment, bounded by the left-lateral Xianshuihe–Xiaojiang fault in the northeast and the right-lateral Red River–Ailao Shan shear zone in the southwest. Our field structural and geomorphic observations define two sets of young, active strike–slip faults within the northern part of the fragment that lie within the SE Tibetan Plateau. One set trends NE–SW with right-lateral displacement and includes the Jiulong, Batang, and Derong faults. The second set trends NW–SE with left-lateral displacement and includes the Xianshuihe, Litang, Xiangcheng, Zhongdian, and Xuebo faults. Strike–slip displacements along these faults were established by the deflection and offset of streams and various lithologic units; these offsets yield an average magnitude of right- and left-lateral displacements of ～15–35 km. Using 5.7–3.5 Ma as the time of onset of the late-stage evolution of the Xianshuihe fault and the regional stream incision within this part of the plateau as a proxy for the initiation age of conjugate strike–slip faulting, we have determined an average slip rate of ～2.6–9.4 mm/year. These two sets of strike–slip faults intersect at an obtuse angle that ranges from 100° to 140° facing east and west; the fault sets define a conjugate strike–slip pattern that expresses internal E–W shortening in the northern part of the Chuan-Dian crustal fragment. These conjugate faults are interpreted to have experienced clockwise and counterclockwise rotations of up to 20°. The presence of this conjugate fault system demonstrates that this part of the Tibetan Plateau is undergoing not only southward movement, but also E–W shortening and N–S lengthening due to convergence between the Sichuan Basin and the eastern Himalayan syntaxis.     

Irregular western margin of the Yangtze block as a cause of variation in tectonic activity along the Longmen Shan fault zone,eastern Tibet

On 12 May 2008 and 20 April 2013, respectively, the devastating magnitude 7.9 (Wenchuan) and magnitude 7.0 (Ya’an) earthquakes struck the southwestern Longmen Shan fault zone (LMSFZ), the eastern margin of the Tibetan Plateau. These events were notable because they occurred in a heavily populated area and resulted in severe damage and loss of life. Here we present an integrated analysis of potential field anomalies and a crustal-scale seismic reflection image to investigate the crustal structure and some tectonic relationships associated with these devastating events. Our results show that the western margin of the Yangtze crustal block possesses an irregular margin that extends westward beyond the LMSFZ to the northeast and merges gradually with the LMSFZ to the southwest. We interpret this variation in deep structure to create a lateral heterogeneity in the local stress regime that explains the observed variations in fault geometry and slip distribution, as well as seismicity, of the LMSFZ. This structural complexity results in a differential build-up of stress as the Tibetan Plateau is being extruded eastward. Thus, the results of this research can help identify potential natural hazard zones and focus efforts on hazard mitigation.     

青藏高原困难地区开展区域重力调查工作遇到的问题与对策

青藏高原的大部分地区自然条件恶劣、人口稀少、交通不便、基础测绘程度低、通讯条件极其落后,属于典型的开展区域重力调查工作的困难地区。在这些地区开展区域重力调查工作,在重力仪选择及标定、GPS控制点的建立及其控制范围、重力测点水准高程求取,以及近区地形改正、物性标本采集等方面都会遇到很多与内地一般地区工作时不一样的问题。笔者通过对青藏高原地区开展的多个1：20万区域重力调查项目的野外工作过程进行总结,分析了困难地区区域重力调查项目实施过程中遇到的一些技术问题,认为可通过尽量选择高精度、稳定性好的重力仪,合理延长闭合时间,采用CQG2000似大地水准面模型求取测点水准高程,扩大GPS基准站的控制半径等办法解决。这些措施可作为以后在青藏高原地区及国内其他困难地区开展区域重力调查工作时的参考。     

Chronology of the Tungsten Deposits in Southern Jiangxi Province,and Episodes and Zonation of the Regional W‐Sn Mineralization – Evidence from High‐precision Zircon U‐Pb,Molybdenite Re‐Os and Muscovite Ar‐Ar Ages

Previous studies have obtained some petrogenetic and metallogenic chronological data with SHRIMP (sensitive high-resolution ion microprobe) zircon U-Pb, zircon LA-ICPMS (laser-ablation–inductively coupled plasma mass spectroscopy) U-Pb, molybdenite Re-Os isochron and muscovite Ar-Ar methods in southern Jiangxi Province and its adjacent areas. Based on these, the purpose of this paper is to study the petrogenetic and metallogenic ages and their time gap for different genetic types of W-Sn deposits, and thus to research their numerous episodes, zonal arrangement and their geodynamic background. The result shows that the large-scale W-Sn mineralization in southern Jiangxi Province occurred in the middle to late Jurassic (170–150 Ma), the skarn W-Sn-polymetallic deposits formed much earlier (170–161 Ma), and all of the wolframite – quartz vein type, greisen type, altered granite type and fractured zone type tungsten deposits formed in the late Jurassic (160–150 Ma). In one ore field or ore district, greisen type tungsten deposits formed earlier than quartz vein type ones hosted in the endo- or exo-contact zone; and quartz vein type hosted in the endocontact zone formed earlier than that of exocontact zone. There is no significant time difference between tungsten-tin mineralization and its intimately associated parent granite emplacement (1–6 Ma). They all formed in the same rock-forming and ore-forming system and under the same geodynamic setting. Regionally, rock-forming and ore-forming processes of the W-Sn deposits in the Nanling region (include southern Jiangxi Province, southern Hunan Province, northern Guangdong Province and eastern Guangxi Zhuang Autonomous Region) exhibit numerous episodes. The mineralization in the Nanling region mainly occurred at (240–210) Ma, (170–150) Ma and (130–90) Ma. The tungsten-tin deposits in this region are centered by the largest scale in southern Jiangxi Province and southern Hunan Province, and become small in the east, west, south and north directions. This displays a zonal arrangement and temporal and spatial distribution regularity. Integrated with the latest research results, it is concluded that the W-Sn mineralization in southern Jiangxi Province and its adjacent areas corresponds to the second large-scale mineralization in South China. The Indosinian W-Sn mineralization formed under the extensional tectonic regime between collisional compressional stages, while the Yanshanian large-scale petrogenetic and metallogenic processes occurred in the Jurassic intraplate extensional geodynamic setting of lithosphere extension.     

青藏高原东缘古近纪沙漠及其对季风起源的启示

沙漠沉积是地质历史演化过程中的一种特殊沉积,是特殊气候条件下的产物,对研究全球气候变化、大气环流样式具有独特的作用。沙漠沉积在地质历史中普遍存在但极少保存,它的发现和研究对恢复地质历史具有重要意义。研究表明,现代东亚季风系统建立前,尤其是古近纪早、中期,青藏高原东缘仍然处于行星环流所控制的干旱带内,发育了大量代表干旱炎热气候的石膏与盐类沉积,但至今尚未找到沙漠存在的确切记录。近年来,笔者采用沉积学、古气候学、古地理学等手段,并结合前人研究资料,对青藏高原东缘沉积盆地的古近纪早、中期红色地层进行了综合研究。结果表明,青藏高原东缘存在一个厚度稳定的古近纪早、中期风成沙丘富集带。在此基础上,通过古地理、沉积模式及古气候替代指标等分析,论证了青藏高原东缘存在古近纪盆山型沙漠沉积体系的可能性。沉积相、古流向分析揭示,青藏高原东缘存在一个由干旱向潮湿、由行星风系向季风风系转换的界面,可能暗示了东亚季风建立事件的发生。本研究相关成果可为新生代中国干旱带演化与全球气候变化研究提供可贵的沉积学资料,也可为青藏高原隆升与东亚季风起源研究提供重要的大气环流证据。     

利用新近系煤的镜质组反射率计算滇西高原 的隆升幅度

为了定量地计算滇西高原的隆升幅度,在滇西中甸、保山、景东、景谷四地分别取新近纪煤岩样,在野外实测煤层上覆地层残留厚度和测得样品的镜质组反射率并确定有效作用时间后,根据三者关系曲线图计算出成煤时的最大古地温和最大埋深,进而计算出滇西高原上新世时期自北而南的隆升幅度在1500~1700m之间。该时期隆升表现出总体均匀抬升的特征。     

夏季青藏高原大气热源与西南地区东部旱涝的关系

利用1959～2006年西南地区东部20个测站逐日降水量资料和NCEP/NCAR再分析月平均资料,分析了夏季青藏高原大气热源特征,指出了影响西南地区东部夏季旱涝的热源关键区域,并就关键区大气热源对该区域夏季旱涝的影响进行了诊断,得出了以下主要结论:西南地区东部夏季降水与高原主体东南部的热源变化关系密切,当该区域(该区域...     

青藏高原春季土壤湿度异常与我国夏季降水的联系

利用 197-2014年 GLDAS-CLM(Global Land Data Assimilation System-the Community Land Mod-el)地表参量数据集、中国区域逐日观测资料格点化数据集(CN05.1)和ERA-nterim大气环流再分析数据,研究青藏高原5月(春季)土壤湿度的异常变化...     

用拉萨点大地测量资料检测青藏高原地壳的增厚

青藏高原地壳的隆升与增厚,是一个复杂的热点问题.印度板块和欧亚板块的碰撞挤压导致地壳的隆升与增厚,已被地质、构造学等方面资料证实,但利用大地测量资料定量确定高原地下地壳增厚速率的很少.基于此,利用高精度绝对重力测量资料及GPS结果定量检测高原拉萨点地下地壳增厚速率((3.9±0.8)cm/a),并给出简单的动力学模型,...