Some new trends have occurred in the present research into global tectonics.
当今全球构造研究出现若干新的趋势。
The major progresses of the global tectonics and structural geology in the last 10 years are reviewed.
对近十年来全球构造学和构造地质学的重要进展进行了简要评述。
The highest peaks in the seven continents in the world occupy an important place in the study of global tectonics.
世界七大洲最高峰均位于全球或巨型经向或纬向构造带中 ,暗示山脉形成和地球自转之间有内在联系。
Such a pattern of global tectonics and motion can be used as the surface boundary constraint for analysis of mantle movement and dynamics.
此全球构造格局和运动,可作为启发和约束地幔运动和动力学分析的表层边界条件。
The geodynamic study of global tectonics has developed from a single dynamic driving mechanism to the geodynamic system consisting of many dynamic factors.
在全球构造驱动力源与驱动机制研究方面,开始由单一动力驱动机制研究转入多种动力因子所构成地球动力系统的综合研究。
Landscape evolution is an important aspect of global change; it spans the same time-scale as global tectonics, biological evolution, and major climatic change.
景观演化与全球构造、生物演变和主要气候变化具有相同的时间尺度,是长期全球变化的一个重要方面。
The current New Global Tectonics is proved to be partly true and partly false. It has already brought about puzzles and difficulties in the study of Chins' s continental geology.
目前流行的半真实、半虚假的新全球构造学说已经给中国大陆地质研究带来一定的困惑和困难。
With the new algorithms, the scientists were able tosimulate global mantle flow and how it manifests as plate tectonics and themotion of individual faults.
使用新算法,科学家们能够模拟全球地幔流动以及它是如何显明板块构造和断层移动的。
The relation between global density anomalies and plate tectonics is discussed. And the action of density anomalies to plate moving is analyzed also.
分析了全球密度异常与板块构造的关系,探讨了全球密度异常分布对板块运动的作用。
It is an unheeded power of tectonics for a long time that largest matters are moving by global climatic changing.
构造运动改变了陆海分布的类型,又会引起全球气候类型的强烈变化。
Global plate tectonics and the dynamic conditions of the decision issued by the earthquake in China is a country.
全球的板块构造和动力条件决定了我国是一个地震颁发的国家。
Cyclic deposition on a global scale is the product of the changes in sea-level, tectonics, climate, geography and depositional features of the global or the combination of these.
全球性旋回沉积是全球海平面变化、全球气候条件、全球构造演化、全球古地理背景及沉积特征综合作用的产物。
Geophysical studies of the earth's crust and upper mantle in China are important in the understanding of the global plate tectonics and its dynamical system of the whole region.
中国地壳与上地幔的地球物理探测对于全球板块构造和其动力系统的研究有着重要意义。
The interaction of tectonics, change of global sea level and climate controlled the sediment supply and the scale of filled accommodation.
构造运动、全球海平面变化和气候的相互作用控制了沉积物供给量以及可容空间被充填的规模。
Geochemistry is an indispensable means of solving great geological tasks (including tectonics) on a global scale, and tectonics is a driving force finishing some geochemical processes.
地球化学是解决全球性重大地学理论课题(其中包括构造在内)必不可少的手段,而构造是完成某些地球化学作用的驱动力。
We deem that the depositional sequences, though often influenced variably by local tectonics and other factors, are primarily global and periodic in nature.
沉积层序虽不同程度地受区域性构造运动和其他因素的影响,但具有明显的全球性和周期性。
We deem that the depositional sequences, though often influenced variably by local tectonics and other factors, are primarily global and periodic in nature.
沉积层序虽不同程度地受区域性构造运动和其他因素的影响,但具有明显的全球性和周期性。
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