STAGES OF THE NEOTECTONIC MOVEMENT IN THE MENYUAN BASIN, QINGHAI PROVINCE

The Menyuan Basin is a structural basin located inside the Qilianshan Mountains, the northern edge of Qinghai—Tibet Plateau, the surface of which is about 3000m ASL. To the south of this basin is the Dabanshan Mountain and to the north, the Lenglongling Mountain, which are 4000m ASL.. The neotectonic movement within this area is intense and can be divided into 6 stages.1 The basic data for identifying the stages of the neotectonic movement (1) Deformation of Tertiary deposit: Of the Tertiary system, only Baiyanghe Formation exists in the studied area, distributing at the boundary and under the bottom of the basin with Quaternary deposits discontinuously overlying it. Baiyanghe Formation has been intensely offset and folded, the folding dose not appear in Quaternary deposits. Its exact age remains unknown.(2) Deformation of Quaternary deposits: Most of Quaternary deposits belong to glacial and fluvial deposits, which have been offset and uplifted or sunk by neotectonic movement.(3) Deformation of the geomorphic surfaces: In the studied area exist many types and many orders of geomorphic surfaces, including 2 orders of planation surfaces, 3 orders of glacial platforms, 3 orders of river terraces and 2 orders of alluvial fans. Their ages are dated or comparatively estimated. All of them have been offset and uplifted or subsided by neotectonic movement. They are the time scales for dividing the stages of neotectonic movement.

祁连山内部门源盆地地貌特征及构造意义

祁连山位于青藏高原东北部边缘,是青藏高原向北东方向挤压扩展的前缘部位,其典型流域地貌特征记录了该地区的新构造活动和地貌发育演化过程。门源盆地是位于祁连山中段内部的一个典型的山间盆地,其发育模式和地貌特征与构造活动有着直接的关系。为探究门源盆地北缘断裂及其不同区段构造活动性的差异及其成因,文中基于30m分辨率数字高程模型(DEM)数据,采用ArcGIS空间分析技术,提取了盆地北缘横穿山体的15条河道的面积-高程积分(HI)和积分曲线(HC),再利用克里金插值法得到HI值在盆地空间上的分布特征。结果表明,以门源盆地北缘断裂走向转折处——老虎沟为界,其西侧河道流域的HI值整体较高,东侧HI值普遍较低;结合野外活动构造调查结果,发现老虎沟东侧断裂已经挤压扩展到盆地内部,并发育一系列的活动逆断层-褶皱带,由此推断断裂走向变化及北东向断裂导致了流域HI值的分布差异。同时,盆地内部青石嘴镇附近出现一处HI高值异常,结合大地电磁探测结果推测盆地内部存在一条隐伏断层。另外,多数河道在主断裂通过上游一定位置时出现了河长坡降指数(SL)峰值波动,说明SL波动位置与断裂通过河道位置具有良好的相关性,即构造活动可以对SL产生显著影响;而处于岩性变化位置附近的波动异常,可能表明局部河段的岩性变化对SL也有一定影响。综合分析表明,门源盆地北缘东、西段的地貌发育具有显著差异,主要受该区域活动构造即门源盆地北缘断裂的控制和影响,上述地貌参数是较为敏感的构造活动性评价指标。

祁连山中段门源盆地新构造运动的阶段划分

门源盆地是祁连山中段的山间盆地,南北边缘均为断裂控制,发育古近系白杨河组、第四纪冰碛物和冰水堆积物。地层变形、地貌发育和断裂活动分期的差异显示新生代以来门源盆地经历了4个构造运动阶段。新生代最早的构造运动开始于渐新世中期(约30MaB.P.),Ⅰ级夷平面解体,盆地断陷形成并接收了白杨河组砂砾石沉积。第二阶段始于渐新世末期—中新世初(约23MaB.P.),盆地结束了沉降过程,白杨河组褶皱变形,这一过程持续至中更新世初期。第三阶段始于中更新世中期(约460ka B.P.),新的边界断裂形成,盆地再次断陷,堆积了厚度大于400m的冰碛或冰水堆积物,边缘断裂强烈活动,这一过程持续到晚更新世晚期(约30ka B.P.)。最新阶段始于30ka B.P.,盆地和两侧的山地整体抬升,盆地面由此前的加积过程转变为侵蚀切割过程,北缘断裂的活动由含走滑分量的逆冲性质转变为走滑性质,但走滑速率明显降低。

对门源盆地“红层”形成时代的新认识

门源盆地位于青藏高原东北缘北祁连山腹地，为狭长的新生代走滑拉分山间宽谷盆地。其中充填一厚约407～960m、干旱气候条件下的河湖相沉积“红层”，长期以来各项研究工作均未能于其中采获任何生物化石。因此，尽管各家均认同其属“第三纪”无疑，但仍对其确切时代存在着较大的争论，而对其时代的确定有助于正确认识门源盆地形成时的构造背景，具有较为重要的意义。通过区域地层对比、“红层”形成气候条件与南侧西宁盆地及北邻酒泉一张掖盆地古气候环境所作的对比，深入探讨认为其时代属中中新世，并初步分析了门源盆地形成的新构造运动大陆动力学机制背景。