南北地震带强震迁移特征及其预测意义

在分析南北构造带构造体系的基础上，研究了该带强震的时空动态图象演化，结果表明，南北带的地震活动有如下特征：（１）经向迁移，其空间演化有步进型和步进折返型两种形态；（２）远程的快速响应；（３）诱发地震的链锁分布，该特征反映了强震间的相互耦合，对未来强震具有示踪意义，（４）时空可公度性，该结果对分析判定本带的地震趋势从而实现正确的预测具有实际意义。     

郯庐断裂带新近纪以来的挤压构造与合肥盆地的反转

郯庐断裂带于新近纪以来呈现强烈的逆冲活动,使得先存的伸展性断层产生了一系列逆冲反转构造.该逆冲活动使合肥盆地东部边缘地层被明显掀斜并产生断弯褶皱.与此同时,合肥盆地也相应遭受了挤压而反转,在合肥盆地内形成了一系列NW向左行平移断层和NNE向的宽缓褶皱构造.这些构造对油气二次运移和圈闭有利.在太平洋板块向西俯冲产生的弧后扩张使中国东部大陆受到挤压的区域动力学背景下,郯庐断裂的逆冲活动和合肥盆地反转构造在近EW向挤压应力下形成.     

金州朝阳断裂带的活动特点与地震

对比研究了金州、朝阳两断裂带的活动特点及分段特征，探讨了断裂带赋存的深部环境与地震孕育，发生的关系。     

造山带环境中的东疆型镁铁—超镁铁杂岩

新疆东部黄山－镜儿泉一带产有大－中型铜镍矿床的镁铁－超镁铁岩体是中石炭统弧后盆地引张环境下的热侵位产物，主要岩石类型有橄榄岩、辉橄岩、橄辉岩、二辉岩、辉长苏长岩、苏长辉长岩、辉长岩、橄长岩、辉长岩和闪长岩等；其超镁铁岩相对富铁．不具变质组构，并具橄榄石＋斜方辉石＋单斜辉石＋角闪石±斜长石矿物组合；岩石化学以富硅、贫碱、贫铝、贫钙为特征，并具拉斑玄武岩系演化趋势。这些岩体是造山带杂岩体的一种新类型，可称为东疆型。     

江西省村前铜多金属矿床罕见矿物的发现及意义

通过野外地质调查采样、显微镜鉴定、扫描电镜观察和X射线能谱仪测试分析,对钦杭成矿带村前铜铅锌矿床的矿石物质组分做了系统的研究,首次在矿石中发现了自然界罕见的自然铝及锌铜互化物矿物.这两类矿物均具有独特的形成条件,对研究矿床成矿环境、形成条件、成矿物质来源具有重要的指示意义,表明矿床成矿初期为高温强还原、低硫逸度环境,成矿流体中有幔源物质混入.     

“三江”云龙锡(钨)成矿带晚白垩世二云母花岗岩LA-ICP-MS锆石U-Pb定年及其地质意义

云龙成矿带位于西南“三江”中段,是该区重要的锡(钨)矿集区.本文利用LA-ICP-MS锆石U-Pb定年方法,对带内与成矿相关的二云母花岗岩进行了年龄测试,获得成岩年龄为72.2±0.8 Ma(MSWD=1.9),属晚白垩世.这是在保山地块首次发现确凿的晚白垩世岩浆岩,表明保山地块经受了该时期构造-岩浆活动的影响.通过锆石微量元素和主微量地球化学特征分析,认为其应属S型花岗岩.结合区域地质背景,认为云龙成矿带该期花岗岩可能与腾冲地块晚白垩世S型花岗岩形成于一致的动力学背景,为新特提斯东向俯冲过程中内陆增厚地壳熔融的产物.本次报道的晚白垩世S型花岗岩与成矿带内一期重要成矿期次时代一致.结合前人研究资料认为,云龙成矿带内三期主要的成矿事件均有同期构造-岩浆事件对应,其中早、晚白垩世成矿活动与同期花岗岩体侵入紧密相关,而新生代成矿活动则与崇山剪切带走滑活动关系密切.这表明本区锡(钨)矿床经历了多期成矿过程,岩浆侵入活动和构造相关混合岩化对矿床形成均有贡献,单一的成因机制(花岗岩相关或混合岩化)可能无法合理解释本区矿床的成因.     

Decomposition and Evolution of Intracontinental Strike-Slip Faults in Eastern Tibetan Plateau

Little attention had been paid to the intracontinental strike-slip faults of the Tibetan Plateau. Since the discovery of the Longriba fault using re-measured GPS data in 2003, an increasing amount of attention has been paid to this neglected fault. The local relief and transverse swath profile show that the Longriba fault is the boundary line that separates the high and flat tomography of the Tibet plateau from the high and precipitous tomography of Orogen. In addition, GPS data shows that the Longriba fault is the boundary line where the migratory direction of the Bayan Har block changed from eastward to southeastward. The GPS data shows that the Longriba fault is the boundary fault of the sub-blocks of the eastern Bayan Har block. We built three-dimensional models containing the Longriba fault and the middle segment of the Longmenshan fault, across the Bayan Har block and the Sichuan Basin. A nonlinear finite element method was used to simulate the fault behavior and the block deformation of the Eastern Tibetan Plateau. The results show that the low resistivity and low velocity layer acts as a detachment layer, which causes the overlying blocks to move southeastward. The detachment layer also controls the vertical and horizontal deformation of the rigid Bayan Har block and leads to accumulation strain on the edge of the layer where the Longmenshan thrust is located. After a sufficient amount of strain has been accumulated on the Longmenshan fault, a large earthquake occurs, such as the 2008 Wenchuan earthquake. The strike slip activity of the Longriba fault, which is above the low resistivity and low velocity layer, partitions the lateral displacements of the Bayan Har block and adjusts the direction of motion of the Bayan Har block, from the eastward moving Ahba sub-block in the west to southeastward moving Longmenshan sub-block in the east.