Cosmogenic ^(26)Al/^(10)Be Burial Dating of the Uplift Rate of Southern Qinling Mountains since the Middle Pleistocene

Objective The Qinling Mountains （QM） in Central China is a natural harrier that corresponds to the boundary between the southern and northern climate and environment （Gong Hujun et al., 2017）. Northern QM is relatively steep, and southern QM is in contrast relatively low and gentle. Investigations have shown that the average uplift rate of northern QM since 17.8 Ma is approximately 0.19 mm/a （Yin Gongming et al., 2001）, whereas that of central QM since 0.36 Ma is approximately 0.32 mm/a （Wang Fei et al., 2004）. To date, however, few investigations have yet been conducted on the uplift rate of southern QM. Accordingly, we aim to obtain the uplift rate of southern QM by using the cosmogenic ^26A1/^10 Be burial dating method to determine the age of the highest river terrace on the southern slope of QM.

Correlations between Shortening Rate,Uplift Rate,and Inversion Rate in Central Inversion Zone of Xihu Depression,East China Sea Basin

Late Miocene shortening rate, uplift rate, and inversion rate in the central inversion zone of the Xihu （西湖） depression, East China Sea basin, were independently determined from a large number of 2D reflection seismic data and methods. Shortening rate was estimated from the 2DMOVE balanced cross-section technology, uplift rate was calculated after absolute erosions were determined from seismic data during the uplifting time, and inversion rate was measured using the improved calculation method by Song （1997）. The cross correlations among shortening rate, uplift rate, and inversion rate show a good positive relationship, with some differences existing in local areas. This article analyzes the cross correlation between these structural rates and discusses the dynamics of mechanisms for basin inversion and their influence on hydrocarbon accumulation.

Spatial differences in rock uplift rates inferred from channel steepness indices along the northern flank of the Qilian Mountain,northeast Tibetan Plateau

The rate and distribution of deformation along the Qilian Mountain,on the northeastern Tibetan Plateau,is needed to understand the evolution of high topography associated with the plateau.Recently,a number of empirical studies have provided support for the contention,common to most models of fluvial incision,that rock uplift rate exerts a first-order control on the gradient of longitudinal river profiles.Along the northern Qilian Mountain,this method is used to extract information about the spatial patterns of differential rock uplift.Analysis of the longitudinal profiles of bedrock channels reveals systematic differences in the channel steepness index along the trend of the frontal ranges.Local comparisons of channel steepness reveal that lithology and precipitation have limited influence on channel steepness.Similarly,there is little evidence suggesting that channel steepness is influenced by differences in the sediment loads.We argue that the distribution of channel steepness in the Qilian Mountain is mostly the result of differential rates of rock uplift.Thus,channel steepness indices reveal a lower rock uplift rate in the eastern portion of the Qilian Mountain and a higher rate in the middle and west.The highest rates appear to occur in the middle-west portions of the range,just to the west of the Yumu Shan.

北京平谷山前河流阶地发育序列、形成时代及地质意义

河流阶地是研究河流演化、构造运动的良好载体,虽然北京地区第四纪地质研究程度较高,但北京东部地区对河流阶地的相关研究资料较少。笔者等以北京平谷燕山山前发育的泃河、黄松峪石河、将军关石河为研究对象,通过野外地质调查、光释光测年技术(OSL)详细划分了上述河流阶地的发育序列,在此基础上讨论了部分河流阶地的形成时代、阶地成因及河流阶地对燕山隆升的响应等地质问题,认为泃河南岸发育有3级阶地,北岸发育2级阶地;黄松峪石河最多发育有6级阶地;将军关石河发育有5级阶地。将军关石河至晚形成于中更新世晚期(161.7±7.7 ka BP),黄松峪石河至晚形成于晚更新世早期(121.2±5.4~100.3±4.1 ka BP),泃河至晚形成于晚更新世中期(79.4±3.3~70.8±3.4 ka BP)。泃河、黄松峪石河、将军关石河各级阶地的形成受到了古气候变化和燕山隆升的双重影响,平谷地区燕山在中更新世晚期以来,一直处于隆升的状态,晚更新世早期时隆升速率达到最大,可达0.24~0.34 mm/a,晚更新世中期时隆升速率降低,0.18~0.24 mm/a。以上成果对研究北京东部河流阶地发育特征、形成时代具有重要参考价值,也为中更新世晚期以来燕山的隆升提供了新的证据。

Application of River Longitudinal Profile Morphometrics to Reveal the Uplift of Lushan Mountain

The stream power model was applied to Lushan Mt. in South China in order to verify its capability of interpreting the uplift of a small block mountain. On a log-log plot, the longitudinal profiles of 9 rivers derived from a 30 m DEM exhibit primary characteristics similar to those derived from a 5 m DEM; however, the 5 m DEM clearly reveals more minor knickpoints, and the positions of knickpoints are pinpointed more accurately. All of the studied rivers on the block mountain are in a transient state due to geological perturbations. Some of them exhibit two segments in steady state separated by a slopebreak knickpoint. Such rivers generally develop in a longitudinal valley, which are less perturbed by substrate inhomogeneities. The similar heights of the slope-break knickpoints and the similar uplift rate indicated by the k_（sn） values demonstrate an almost simultaneous headward erosion induced by the fall in base level. This modelling result is consistent with the mode of formation of this particular block mountain. Our study demonstrates that the stream power model is applicable to a small tectonicallyactive massif only if the channel segments are in a steady state.

河西走廊文殊山隆起西缘发现活动断层

文殊山隆起位于河西走廊西端,分割了酒西盆地和酒东盆地,是河西走廊内部三大隆起带之一。基于高分辨率卫星影像解译及野外考察,发现文殊山隆起西缘存在多条断层陡坎,长度约3 km,陡坎保存比较连续,并表现出正、反向陡坎交替出现的复杂组合特征。通过无人机摄影测量以及光释光方法测年,对该断层陡坎开展了综合研究。结果表明,断层陡坎发育于不同期次山前洪积扇之上,根据较早期洪积扇上累积陡坎高度4.9~5.6 m及相应年代(37.3±1.7)ka,确定其晚更新世以来垂直滑动速率约为0.15 mm/a。断层最新一次活动发生在全新世,为全新世活动断层,形成的断层陡坎高度为0.5~0.7 m。根据资料分析,该断层陡坎的形成与文殊山背斜隆起、扩展的活动有关。

构造活动与地表作用耦合下的河流演化过程及动力学机制——以青海湖和倒淌河为例

新生代以来,青海湖在河流侵蚀与构造活动耦合下由外流湖泊转化为内流湖泊,但其动力学成因一直悬而未决。倒淌河作为青海湖由外流转换为内流的关键通道,其动力学演化历史记录着这一重要的构造与地貌转变地质事件。基于最新开发的地貌演化有限体积法数值计算程序,模拟山脉隆升与河流下切共同作用下的河流倒淌形成与演化过程,定量分析隆升速率和河流下切系数对不同的流域演化模式的影响,探讨倒淌河演化的动力学机制,为认识倒淌河流域形成过程与青海湖形成成因提供支撑。结果表明,倒淌河流域的水系重组和倒淌河流向的转变主要受到由日月山断层活化引起的山脉快速隆升与河流下切影响;日月山隆升速率是影响倒淌河流域能否发生水系重组的控制因素;当河流被隆升的山脉阻挡而倒淌时,河流下切系数是控制流域重组速率的因素。

晚第四纪以来巴曲河填充-下切及驱动机制

晚第四纪以来青藏高原东南缘的构造隆升加剧,导致该区域河流大幅下切并在河谷两侧形成了多层叠置的阶地地貌,这些地貌面是定量化认识高原隆升过程及气候变化的关键。巴曲河巴塘段地处金沙江中游纵谷地带,谷底开阔,河床平缓,钻探及浅层地震勘探揭示河谷内第四纪地层最厚处为108m,且至少经历了2次重要的加积阶段,2次加积事件分别起始于距今318ka和143ka,对应于MIS 10~9及MIS 6~5的冰川消融阶段。河谷内部发育4级河流阶地,其中T1—T3为堆积阶地,T4为基座阶地。结合光释光、^(14)C和宇宙成因核素等年代学方法,确定T1—T3形成于距今1~5ka之间,T4约形成于距今62ka,与古气候资料进行对比后发现,T1—T3的下切时间分别与气候由冷向暖的转换有关。而基于阶地的年代和拔河高度计算,在晚更新世—全新世中期,巴曲河的下切速率为(1.5±0.3)mm/a;全新世中期至今,下切速率增加至(5.5±0.8)mm/a,增强的下切速率与现今的地壳垂向形变速率匹配,表明全新世以来地壳隆升的加剧可能是驱动河流快速下切的主要因素。

Cenozoic Evolution of Sediments and Climate Change and Response to Tectonic Uplift of the Northeastern Tibetan Plateau

Through a comprehensive study of magnetostratigraphy and sedimentology of several basins in the northeastern Tibetan Plateau,we reveal that the study area mainly experienced six tectonic uplift stages at approximately 52 Ma,34-30 Ma,24-20 Ma,16-12 Ma,8-6 Ma,and 3.6-2.6 Ma.Comprehensive analyses of pollen assemblages from the Qaidam,Linxia,Xining,and West Jiuquan Basins show that the northeastern Tibetan Plateau has undergone six major changes in vegetation types and climate：50-40 Ma for the warm-humid forest vegetation,40-23 Ma for the warm-arid and temperate-arid forest steppe vegetation,23-18.6 Ma for the warm-humid and temperate-humid forest vegetation,18.6-8.5 Ma for the warm-humid and cool-humid forest steppe vegetation,8.6-5 Ma for the temperate sub-humid savanna steppe vegetation,and 5-1.8 Ma for the cold-arid steppe vegetation.Comprehensive comparisons of tectonic uplift events inferred from sedimentary records,climatic changes inferred from pollen,and global climate changes show that in the northeastern Tibetan Plateau the climate in the Paleogene at low altitude was mainly controlled by the global climate change,while that in the Neogene interval with high altitude landscapes of mountains and basins is more controlled by altitude and morphology.

基于大地测量和MT技术分析吉林龙岗火山区现今地壳运动特征及其机理

位于吉林长白山西麓龙岗山脉中段的龙岗火山群是中国近代主要火山活动区之一.通过对火山区2010—2020年多期GNSS(Global Navigation Satallite System)观测资料及1970—2010年多个时段的一、二等水准资料进行解算,获取现今三维地壳运动速度场.GNSS获取的水平运动速率从西向东增大,东部主要以拉张运动为主,连续面应变率场结果反映火山区位于膨胀区;一等水准路线长抚线和丹抚线资料显示火山区以垂直上升运动为主,主要速率为0.55~1.83 mm/a,其中抚松—仙人桥—老山队一带为主要隆升区,速率多大于1.0 mm/a;该区域分布丰富的地热资源,也是地震多发地区.邻近区域的二等水准路线梅通线速率相对较小,为0.23~0.77 mm/a.结合对99个测点大地电磁数据三维反演得到的火山区深部电性结构:与隆升区对应的中下地壳赋存相对较浅的岩浆系统,电性边界带推测的浑江断裂北向延伸.断裂附近的低阻体规模最大,向下延伸至地幔尺度.最浅的低阻体位于最年轻的金龙顶子火山大约10 km以下位置,以上的高阻结构认为是岩浆溢流结束后的后撤和固结.综合分析认为现今火山区地壳的膨胀隆升、地震活动与幔源物质的上涌、间断性的运移引起断层活动有关.

THE NUMERICAL SIMULATE OF THE UPLIFT PROCESS OF THE QINGHAI—TIBET PLATEAU

The quantitative analysis of uplift process of the Qinghai—Tibet plateau is a key to deepen the study of uplift mechanism and dynamic model, for this, numerical simulate was done to the whole process of uplift of the Qinghai—Tibet plateau.1 Geological model According to the tectonic evolution and lithospheric structure, continental crust in the Qinghai—Tibet plateau in profile is divided into sedimentary cover, crystalline rock formation and lower crust and composed of Kunlun, Bayan Har, Qiangtang, Gangdise and Himalaya blocks on the plane. Layer or block is bounded the detachment layer or large fault. On the basis of the uplift characteristics, the calculated time limit is in the Cenozoic since 65Ma, roughly four stages, i.e., 65 to 40Ma, 40 to 20Ma, 20 to 3Ma and 3Ma to now. Mesh profile used Yadong—Golmud Geoscience transect.

考虑土应变软化和率效应的桶形基础上拔模拟

研究桶形基础上拔承载特性对海上张力腿油气平台和多腿风机等构筑物安全服役性能具有重要意义.基于ABAQUS二次开发,建立考虑软黏土应变软化和率效应的桶形基础上拔数值分析模型,并将上拔数值模拟结果和理论值、试验值进行对比,验证了数值模型的有效性.模拟分析发现,软黏土应变软化参数对桶形基础上拔峰值荷载的影响在5%以内,而率效应对上拔荷载影响明显,率效应参数变化引起的上拔峰值荷载差异达40%以上;上拔峰值荷载随桶外壁粗糙度线性增加,桶外壁粗糙度引起的应变软化和率效应变化对上拔荷载影响可以忽略;对于群桶基础,桶间距越小,极限承载力群桶效应越明显,承载力降低最多可达10%,桶间距超过1.5倍桶径后,群桶效应可以忽略.

青藏高原西北缘祁漫塔格山中新世快速抬升的磷灰石裂变径迹证据

对祁漫塔格山体不同海拔高度所取的9个磷灰石样品的裂变径迹分析结果表明,东昆仑西段中新世早中期为主要的隆升期且隆升速率较高,早期隆升速率为111m/Ma,晚期隆升速率为98m/Ma,总体隆升速率为100m/Ma。样品显示出磷灰石裂变径迹长度大致分2类,一类磷灰石裂变径迹长度为(12.21±0.20)～(13.75±0.30)μm,径迹长度分布图基本上为窄而对称的正态分布,反映具有快的剥露冷却速率,未受到后期热事件的干扰。另一类磷灰石裂变径迹长度为(11.88±0.33)～(13.32±0.27)μm,较前一类具有稍慢的剥露冷却速率,并且受到了后期热事件的干扰。

华山岩体中、新生代抬升的裂变径迹证据

对采自华山岩体不同高度的磷灰石样品进行裂变径迹分析 ,所得结果结合相关地质资料认为 :(1)华山岩体抬升至少始于渐新世或始新世 ;(2 )华山主峰及北峰间可能发育一条对应于华山山前断裂的次级正断层 ,断距约 340m ;(3)据华山北峰样品研究 ,其各时段的平均抬升速率依次为2 9 2 6～ 2 5 0 5Ma ,V =0 183mm/a ;2 5 0 5～ 2 3 2 7Ma ,V =0 152mm/a ;2 3 2 7～ 2 0 59Ma ,V =0 0 19mm/a。

四川盆地西南缘雅安-名山地区青衣江古河道的变迁及蒙顶山背斜的隆起

晚新生代以来,由于青藏高原的隆起,四川盆地周边及盆地内部,发育众多的褶皱变形及逆冲断裂。四川盆地西南缘的雅安-名山地区也发育系列褶皱变形如蒙顶山背斜。根据野外实地调查、DEM及卫星遥感影像的解译,古青衣江的一条古代主干河道在蒙顶山背斜被识别出来,该古河流控制了名邛台地的冲-洪积沉积。伴随古青衣江上游发生河流改道事件,名邛台地也停止发育,一段废弃河道在蒙顶山中被保留下来,并在蒙顶山背斜持续褶皱过程中,河流纵剖面遭受变形。根据名邛台地的ESR测年,可确定古青衣江被袭夺事件发生在312±3.0ka,结合河流纵剖面变形的几何计算,获得背斜开始发育的时间为3.2～3.8Ma,蒙顶山背斜相对于下里向斜的隆升速率为0.46mm/a。研究结果可以限定该地区褶皱构造活动的起始时间、变形速率以及山体的剥蚀速率。

黄河中上游阶地对青藏高原东北部第四纪构造活动的反映

黄河中上游河段是横贯整个“柴达木 -祁连山活动地块”的贯流水系。通过对青海共和至宁夏石嘴山段长约 180 0km的黄河中上游阶地的系统考察、阶地剖面实测和年代测定 ,绘制了该河段的阶地纵剖面图。综合分析各段的阶地级数、高度、年代及变形特征得到以下认识 :该流域可划分为若干个次级活动地块 ,表现在不同地块之间的阶地抬升幅度和速率存在较大差别 ;活动地块内部在较大程度上具刚性特征 ,表现在块体内部阶地级数、高度和形成年代基本相当 ;阶地纵剖面反映的本区活动地块自 1.6MaB .P .以来的抬升量大于 3.6～ 1.6MaB .P .的抬升量 ;柴达木 -祁连山活动地块距今 1万年以来和 15～ 2 0万年间存在 2次强烈的构造抬升运动。

青藏高原东缘数字高程剖面及其对晚新生代河流下切深度和下切速率的约束

文章利用数字高程剖面将青藏高原东缘分为4个大尺度地貌单元,即青藏高原地貌区、龙门山高山地貌区、山前冲积平原区(成都盆地)和四川盆地东部隆起区。根据数字高程剖面中的最高海拔高程点剖面与最低海拔高程点剖面之间的高差,定量计算了该地区河流下切深度;结合成都盆地岷江最古老冲积扇沉积物提供的青藏高原东缘河流形成的时间(3.6M aB.P.),定量计算了河流下切速率为1.29mm/a;在约束局部侵蚀基准面和气候变化对河流下切速率控制作用的基础上,建立了青藏高原东缘河流下切速率与表面隆升速率之间的定量关系,结果表明河流下切速率约为表面隆升速率的4倍。基于龙门山在表面隆升速率和下切速率等方面均大于青藏高原内部,认为青藏高原东缘的边缘山脉是剥蚀隆升和构造隆升两者叠加的产物。

四川盆地北缘大巴山前陆构造中—新生代构造隆升史

大巴山前陆构造的抬升剥蚀与保存条件对其矿床和油气藏勘探潜力评价极为重要。应用磷灰石裂变径迹热年代学方法，通过研究大巴山前陆构造热演化史，恢复构造隆升过程，确定其中-新生代构造抬升剥蚀量，探讨大巴山前陆晚期构造隆升对矿床和油气资源的影响。结果表明：大巴山前陆构造在152 Ma以前快速沉降，沉降速率平均高达150·Ma^-1，此后便长期处于隆升过程；136～152 Ma时期为快速隆升阶段，隆升速率平均为56．3 m·Ma^-1，隆升量约为900 m，是燕山运动导致秦岭造山期后的一次陆内挤压；70～136 Ma时期为较缓慢隆升阶段，隆升速率平均为39．4 m·Ma^-1，隆升量约为2600 m，是秦岭造山晚期挤压的结果；0～70 Ma时期的隆升速率为42．8 m·Ma^-1，持续时间较长，隆升幅度约3000 m，是喜马拉雅构造运动的结果。中生代构造隆升对本区低温热液矿体和油气保存极为不利；上新统以来（8 Ma或5 Ma），青藏高原快速隆升向东扩展的远程效应对大巴山前陆构造的影响不明显。

祁连山北缘晚新生代构造活动的低温热年代学证据

晚新生代祁连山开始隆升的时间是制约青藏高原隆升动力学以及高原隆升与气候变化之间相互关系的重要参数。本文通过磷灰石裂变径迹和(U-Th)/He低温热年代学方法研究,获得祁连山北缘开始隆升的时间为约9.5Ma,隆升的速率为(0.5±0.1)mm/a,晚新生代以来与祁连山北缘断裂相关的缩短速率为(1.4±0.2)mm/a。本文得到的祁连山隆升的时间与"下地壳流动模型"和"地幔对流剥离模型"预测的高原向东北方向扩展时间基本一致,也与中国大陆北方季风加强的时间基本一致。支持高原与约5～12Ma隆升并向周边扩展,引起西北季风加强的假说,但是不支持"陆陆斜向深俯冲消减模型"预测的祁连山南缘约11Ma隆升,北缘隆升时间晚于5Ma的预测。

边界层对流对示踪物抬升和传输影响的大涡模拟研究

利用"西北干旱区陆气相互作用野外观测实验"加密观测期间敦煌站的实测资料以及大涡模式,通过一系列改变地表热通量和风切变的敏感性数值试验,分析了地表热通量和风切变对边界层对流的强度、形式,以及对对流边界层结构和发展的影响。模拟结果显示风切变一定,增大地表热通量时,由于近地层湍流运动增强,向上输送的热量也较多,使对流边界层变暖增厚,而且边界层对流的强度明显增强,对流泡发展的高度也较高。当地表热通量一定,增大风切变时,由于风切变使夹卷作用增强,将逆温层中的暖空气向下卷入混合层中,使对流边界层增暖增厚,但是对流泡容易破碎,对流的强度也较弱。另外通过在模式近地层释放绝对浓度为100的被动示踪物方法,用最小二乘法定量地分析了地表热通量和风切变分别与示踪物抬升效率和传输高度的关系。分析结果表明,风切变小于10.5×10-3 s-1时,增大地表热通量加强了上层动量的下传,使示踪物的抬升效率也线性增大;地表热通量小于462.5 W m-2时,增大风切变减弱了边界层对流的强度,从而使示踪物的抬升效率减弱。当风切变一定时,示踪物的平均传输高度随地表热通量增加而增大,而地表热通量一定,只有风切变大于临界值时,示踪物平均传输高度才随风切变的增加而增大,而临界风速的大小由地表热通量决定。