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121.
太行山中北段中-深变质岩区的褶皱构造变形复杂,不同期次间叠加改造强烈,构造置换作用明显,作者采用变质岩区构造解析方法,在观察,测量,分析了大量构造面,线组构的基础上,划分出5期褶皱构造,建立了本区的构造变形序列,并认为构造变形经历了从强塑性变表到韧脆性变形的演化过程,反映出地壳从纵向增厚作用转变为变质核杂岩隆升的演化过程。 相似文献
122.
龙门山前陆盆地形成与演化 总被引:23,自引:1,他引:23
本文将龙门山前陆盆地和龙门山冲断带作为一个地质整体进行了研究,并将构造地层学和层序地层学相结合的综合地层学的分析方法作为分析龙门山前陆盆地沉积的基础,以不整合面和其对应面将盆地充填序列分割为构造层序和层序,对应于不同成盆期和同一成盆期不同演化阶段,阐明龙门山前陆盆地充填序列和沉积体积三维空间配置形式及其在时间上的演化,初步建立了龙门山前陆盆地地层格架,进而研究龙门山冲断带逆部推覆作用对龙门山前陆盆 相似文献
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应用牙形石色变指标(CAI)对塔里木盆地孔雀河斜坡东北段南雅尔当山剖面奥陶系有机质成熟度进行了研究,得出的结果是南雅尔当山却尔却克组产出的牙形石色变指标CAI值为2~2.5,有机质处于成熟阶段.综合研究认为,本区奥陶系烃源岩在中奥陶世逐渐进入生烃门限并快速成熟;在奥陶纪末达到经历的最大古地温,顶部为80℃,底部为180℃,之后遭受抬升剥蚀,区域剥蚀量在2 300 m左右.本区奥陶系烃源岩存在3种生烃类型:第Ⅰ种为南雅尔当山型,为非有效烃源岩;第Ⅱ种为群克1井部分生烃型,奥陶纪末抬升剥蚀后埋深在2 500 m以上的烃源岩(Ⅱ-1型)停止生烃,埋深在2 500 m以下的烃源岩(Ⅱ-2型)持续生烃;第Ⅲ种为二次生烃型,当中新生代的快速沉积使Ⅱ-1型烃源岩顶部埋深达到3 200 m时,相同层位的烃源岩达到经历的最大古地温,开始二次生烃,生烃潜力最大. 相似文献
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基于实测值分段线性内插模型的InSAR视线向同震位错分解-以青藏高原昆仑山MemSsub8.1地震为例x,auto,auto,415px);}stylehf=httprztl.com business week launch 总被引:4,自引:0,他引:4 下载免费PDF全文
利用现场GPS定位的实测值,在尝试过最小二乘拟合并取得初步成果的基础上,进而采用更符合破裂带形态的线性立方插值函数,在破裂带主断面上,建立起一种理论与实测相结合的InSAR视线向(LOS)变化量的分解方程,得到了InSAR视线向位移分解的具有唯一性的解析解. 本文的解析法吸纳了GPS定点实测值的精度优势,利用InSAR全天候、准实时获取连续形变场的技术特点,通过数学近似,最终获得了主破裂带上连续变化的水平位错及垂直位错同震形变曲线. 相似文献
128.
Coseismic stress-triggering is becoming a new hot spot of research. Coseismic strain steps recorded by borehole strainmeters are particularly valuable in studying coseismic stress-triggered fault slips. Based on the theory of dis location, one can invert the triggered fault slips with such data if he/she has a well understanding about the local faults. Genetic algorithm can be applied to significantly raise the efficiency of searching a best solution among all possibilities in this kind of inversion. A testifying check of the program and analyses of each parameter's influence may further enhance the reliability of inversion results. Taking complexity of geological structure into account, the inversion results should be regarded as the predominant property or a comprehensive effect of triggered local faults' activities. As an attempt, we inverted the assumingly active faults' slips triggered by the Ms=8.1 Kunlun Mountain earthquake over Beijing area. 相似文献
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The effect of mountainous topography on moisture exchange between the “surface” and the free atmosphere 总被引:1,自引:0,他引:1
Typical numerical weather and climate prediction models apply parameterizations to describe the subgrid-scale exchange of
moisture, heat and momentum between the surface and the free atmosphere. To a large degree, the underlying assumptions are
based on empirical knowledge obtained from measurements in the atmospheric boundary layer over flat and homogeneous topography.
It is, however, still unclear what happens if the topography is complex and steep. Not only is the applicability of classical
turbulence schemes questionable in principle over such terrain, but mountains additionally induce vertical fluxes on the meso-γ
scale. Examples are thermally or mechanically driven valley winds, which are neither resolved nor parameterized by climate
models but nevertheless contribute to vertical exchange. Attempts to quantify these processes and to evaluate their impact
on climate simulations have so far been scarce. Here, results from a case study in the Riviera Valley in southern Switzerland
are presented. In previous work, measurements from the MAP-Riviera field campaign have been used to evaluate and configure
a high-resolution large-eddy simulation code (ARPS). This model is here applied with a horizontal grid spacing of 350 m to
detect and quantify the relevant exchange processes between the valley atmosphere (i.e. the ground “surface” in a coarse model)
and the free atmosphere aloft. As an example, vertical export of moisture is evaluated for three fair-weather summer days.
The simulations show that moisture exchange with the free atmosphere is indeed no longer governed by turbulent motions alone.
Other mechanisms become important, such as mass export due to topographic narrowing or the interaction of thermally driven
cross-valley circulations. Under certain atmospheric conditions, these topographical-related mechanisms exceed the “classical”
turbulent contributions a coarse model would see by several times. The study shows that conventional subgrid-scale parameterizations
can indeed be far off from reality if applied over complex topography, and that large-eddy simulations could provide a helpful
tool for their improvement. 相似文献