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221.
LI Zhang-jun CHAI Xu-chao GAN Wei-jun HAO Ming WANG Qing-liang ZHUANG Wen-quan YANG Fan 《地震地质》1979,42(2):316-332
Located among the South China block, Tibetan plateau, Alxa block and Yinshan orogenic belt, the Ordos block is famous for its significant kinematic features with stable tectonics of its interior but frequent large earthquakes surrounding it. After the destruction of the North China Craton, the integrity, rotation movement and kinematic relations with its margins are hotly debated. With the accumulation of active tectonics data, and paleomagnetic and GPS observations, some kinematic models have emerged to describe rotation movement of the Ordos block since the 1970's, including clockwise rotation, anticlockwise rotation, clockwise-anticlockwise-alternate rotation, and sub-block rotation, etc. All of these models are not enough to reflect the whole movement of the Ordos block, because the data used are limited to local areas.
In this study, based on denser geophysical observations, such as GPS and SKS splitting data, we analyzed present-day crustal and mantle deformation characteristics in the Ordos block and its surrounding areas. GPS baselines, strain rates, and strain time series are calculated to describe the intrablock deformation and kinematic relationship between Ordos block and its margins. SKS observations are used to study the kinematic relationship between crust and deeper mantle and their dynamic mechanisms, combined with the absolute plate motion(APM)and kinematic vorticity parameters. Our results show that the Ordos block behaves rigidly and rotates anticlockwise relative to the stable Eurasia plate(Euler pole: (50.942±1.935)°N, (115.692±0.303)°E, (0.195±0.006)°/Ma). The block interior sees a weak deformation of~5 nano/a and a velocity difference of smaller than 2mm/a, which can be totally covered by the uncertainties of GPS data. Therefore, the Ordos block is moving as a whole without clear differential movement under the effective range of resolution of the available GPS datasets. Its western and eastern margins are characterized by two strong right-lateral shearing belts, where 0.2°~0.4°/Ma of rotation is measured by the GPS baseline pairs. However, its northern and southern margins are weakly deformed with left-lateral shearing, where only 0.1°/Ma of rotation is measured. Kinematics in the northeastern Tibetan plateau and western margin of the Ordos block can be described with vertical coherence model with strong coupling between the crust and deeper mantle induced by the strong extrusion of the Tibetan plateau. The consistency between SKS fast wave direction and absolute plate motion suggests the existence of mantle flow along the Qinling orogenic belt, which may extend to the interior of the Ordos block. SKS fast wave directions are consistent with the direction of the asthenosphere flow in Shanxi Rift and Taihang Mountains, indicating that the crustal deformation of these areas is controlled by subduction of the Pacific plate to North China. The week anisotropy on SKS in the interior of Ordos block is from fossil anisotropy in the craton interior. After comparing with the absolute plate motion direction and deformation model, we deem that anisotropy in the interior of Ordos block comes from anisotropy of fossils frozen in the lithosphere. In conclusion, the Ordos block is rotating anticlockwise relative to its margins, which may comes from positive movement of its margins driven by lithospheric extrusion or mantle flow beneath, and its self-rotation is slight. This study can provide useful information for discussion of kinematics between the Ordos block and its surrounding tectonic units. 相似文献
In this study, based on denser geophysical observations, such as GPS and SKS splitting data, we analyzed present-day crustal and mantle deformation characteristics in the Ordos block and its surrounding areas. GPS baselines, strain rates, and strain time series are calculated to describe the intrablock deformation and kinematic relationship between Ordos block and its margins. SKS observations are used to study the kinematic relationship between crust and deeper mantle and their dynamic mechanisms, combined with the absolute plate motion(APM)and kinematic vorticity parameters. Our results show that the Ordos block behaves rigidly and rotates anticlockwise relative to the stable Eurasia plate(Euler pole: (50.942±1.935)°N, (115.692±0.303)°E, (0.195±0.006)°/Ma). The block interior sees a weak deformation of~5 nano/a and a velocity difference of smaller than 2mm/a, which can be totally covered by the uncertainties of GPS data. Therefore, the Ordos block is moving as a whole without clear differential movement under the effective range of resolution of the available GPS datasets. Its western and eastern margins are characterized by two strong right-lateral shearing belts, where 0.2°~0.4°/Ma of rotation is measured by the GPS baseline pairs. However, its northern and southern margins are weakly deformed with left-lateral shearing, where only 0.1°/Ma of rotation is measured. Kinematics in the northeastern Tibetan plateau and western margin of the Ordos block can be described with vertical coherence model with strong coupling between the crust and deeper mantle induced by the strong extrusion of the Tibetan plateau. The consistency between SKS fast wave direction and absolute plate motion suggests the existence of mantle flow along the Qinling orogenic belt, which may extend to the interior of the Ordos block. SKS fast wave directions are consistent with the direction of the asthenosphere flow in Shanxi Rift and Taihang Mountains, indicating that the crustal deformation of these areas is controlled by subduction of the Pacific plate to North China. The week anisotropy on SKS in the interior of Ordos block is from fossil anisotropy in the craton interior. After comparing with the absolute plate motion direction and deformation model, we deem that anisotropy in the interior of Ordos block comes from anisotropy of fossils frozen in the lithosphere. In conclusion, the Ordos block is rotating anticlockwise relative to its margins, which may comes from positive movement of its margins driven by lithospheric extrusion or mantle flow beneath, and its self-rotation is slight. This study can provide useful information for discussion of kinematics between the Ordos block and its surrounding tectonic units. 相似文献
222.
澜沧江流域云南段景观格局分析 总被引:13,自引:3,他引:10
流域作为一个特殊的地理生态环境区域,流域景观空间格局状况是进行流域环境资源管理的基础依据。针对澜沧江-湄公河国际河流上游云南段,基于遥感监测所获得的土地覆盖斑块信息,就该地区景观格局进行分析研究。初步结果表明:研究区内景观类型丰富,不同景观类型斑块大小的平均水平,以及斑块密度差异明显;山区早地斑块景观,作为人类驱动影响的直观外在表现,它对本流域山区景观格局具有主导作用。 相似文献
223.
珠三角岭南文化与主要外省人原籍文化的比较 总被引:1,自引:0,他引:1
比较分析珠三角地区岭南文化与主要外省人原籍文化之间的共同性和差异性特征。研究表明:珠三角六大主要外省人文化与岭南文化具有共同的文化基石和文字表达方式,在文化传统和文化特征上也有一定程度的共同性;受地理环境、历史发展等因素的影响,中原文化具有浓厚的北方旱作农耕文化的特色,长江流域荆楚文化具有显著的稻作农耕文化的特色,而岭南文化则具有明显的南方海洋文化的特色;具体在饮食文化、服饰文化等物质形态文化领域也表现出明显的差异性。正确认识各种文化之间的异同点,能有助于实现文化的趋同和融合,发展有利于现代化的文化要素,逐步革除不利于现代化的文化要素,在文化互动中实现文化的现代化和文化大省的建设。 相似文献
224.
The causes and environmental effects of land use conversion during agricultural restructuring in Northeast China 总被引:1,自引:0,他引:1
1IntroductionLand use change has received lots of attention internationally (Turner etal., 1994). Understanding of the mechanism of land use change and its adverse effect on the environment is conducive to understanding of population, resources, environment and sustainable economic development on the global, national and regional scales. With the rapid rise in human population, human-induced changes in land use form an important component of regional environmental change. In China, to emphasi… 相似文献
225.
河北平原地下水氦氩同位素特征 总被引:1,自引:1,他引:1
通过对河北平原地下水氦同位素进行分析比较,根据过剩He(4He exc)、3He/4He比值、δ3He和36Ar/38Ar及40Ar/36Ar值分析认为,河北平源地下水氦氩同位素有7个特征;①地下水中过剩He浓度沿地下水的流向而增高;②地下水中过剩He浓度随着地下水埋深加大而增高;③满城-沧州剖面上过剩He浓度大于石家庄-衡水剖面上的过剩He浓度;④河北平原地下水主要是由大气隆重水补给的;⑤衡水热水过剩He浓度很高(>674.83×10-8cm3STPg-1水);⑥地下水的36Ar/38Ar比值平均值为5.37,非常接近地球大气的比值(5.35);⑦地下水的40Ar/36Ar比值从296-412,均比大气氩的40Ar/36Ar比值(295.6)大,这表明40Ar都是放射成因的,且具有“年代积累效应”。 相似文献
226.
227.
通过分析青藏高原东部的活动断裂资料和GPS速度场数据,试图阐述活动地块的几何学、运动学和形变特征。初步认为:(1)第四纪特别是晚更新世以来的活动地块边界带与早期的构造单元边界密切相关,但也具有明显的新生性;(2)根据两种资料推导出的各个活动地块的运动学特征基本上是吻合的,其中鲜水河-玉树-玛尼断裂带是一条重要的分界线,其南、北部活动地块的运动方式差异明显;(3)除了活动地块的边界带强烈活动外,各个地块内部也显示出很强的变形;(4)晚更新世以来,青藏高原地壳的运动学和形变特征表现为在印度板块挤压力作用下,活动地块在向NE方向的运动过程中遇到稳定地块阻挡,调节方式是地壳增厚以及南、北部地块分别向SE-SSE和NWW-W方向的构造软弱部位水平侧向迁移。 相似文献
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