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1.
Gennady F.Ufimtsev 《地学前缘》1999,6(3):67-73
地球体的一般几何形态及其表面的地势起伏,都与地球地形的全球对称以及与由全球地震层析X射线摄影法推导出的深部构造相关联。在西太平洋中,星球地势起伏的对称受到破坏,那里的地球体表面受到抬升。这一区域表现有特殊的岩石圈构造,而且显而易见地是,在后冈瓦纳地球各向异性膨胀一收缩的背景下,自晚中生代以来,这里的构造圈已发生了一些最为重要的变化。 相似文献
2.
本文利用地球陆壳和洋壳的简单模型,分析地壳均衡的一般表达式,并讨论区内地震活动,推覆体构造以及金属矿产分布等,与深部地壳结构的对应关系. 一观测表明,大地水准面的形状与大陆和海洋无关,而且与旋转椭球形状的偏差很小,约小于椭率的千分之几或更小.由此说明,深部的质量补偿了表面形状对大地水准面的影响.根据板块学说,地壳和地幔的最上部分,可分为少数几块薄的、刚性的球面顶盖或板块(岩石圈),覆于上 相似文献
3.
龙门山晚新生代均衡反弹隆升的定量研究 总被引:1,自引:0,他引:1
龙门山位于青藏高原东缘与四川盆地的交接部位,是青藏高原周边山脉中地形梯度变化最大的山脉,其隆升过程和机制一直是国际地学界关注的焦点。晚新生代经过大量的滑坡、泥石流等快速剥蚀作用,龙门山的高程却不断升高。讨论了龙门山构造隆升的3种地球动力学机制,即下地壳通道流机制、地壳挤压缩短变形机制、地壳均衡反弹机制。晚新生代龙门山的隆升与剥蚀引起的均衡反弹作用相关,剥蚀作用使得地壳岩石逐步被移去,剥蚀区重力损失,岩石圈或地壳卸载作用导致山脉顶峰的隆升。结合数字高程模型数据研究表明,巨大地震的长期同震构造变形以及滑坡、泥石流等引起的快速剥蚀所导致的地壳均衡反弹,可能是龙门山晚新生代构造隆升的地球动力学新机制。龙门山地区现今高程受构造作用与剥蚀引起的均衡反弹作用的共同影响,其中剥蚀引起的均衡反弹作用对龙门山隆升的影响贡献率约占30%。 相似文献
4.
地壳均衡是地球科学的一个基本概念,其理论基础为“轻地壳(密度较小)漂浮在重地幔(较稠密)之上”。均衡理论(如冲压假说、弹性板理论等)和模型(如Airy模型、Pratt模型及弹性板模型等)的产生及发展对研究岩石圈流变学性质、圈层相互作用及造山作用等地球动力学过程有着重要意义。本文总结了相关均衡理论、模型及计算方法,并结合其在不同空间尺度构造地貌现象研究中的运用,包括:① 冰川均衡调整研究中不同模型的优化及其对全球海平面变化的指示意义、② 阐明海山洋岛发育过程及其制约因素、③ 利用弹性板模型重建山脉隆升和盆地挠曲沉降史并进一步探讨二者之间的相互作用、④ 通过研究变形湖滨线有效地约束地球的相关物理参数、⑤ 建立河流三角洲发育特征模型并服务于现代社会经济、⑥ 揭示水库蓄水导致的地壳挠曲变形与浅部地质灾害发育的关系及 ⑦ 同震滑坡对局部地貌改造的影响,讨论并展望了未来地壳均衡在构造地貌学领域的发展方向,即结合高精度大地测量技术与地质年代学方法,定量地解决构造地貌研究中的关键问题,更全面、系统地了解地表过程、地球深部过程与动力学和地球圈层之间的相互作用。 相似文献
5.
地壳均衡是地球科学的一个基本概念,其理论基础为“轻地壳(密度较小)漂浮在重地幔(较稠密)之上”。均衡理论(如冲压假说、弹性板理论等)和模型(如Airy模型、Pratt模型及弹性板模型等)的产生及发展对研究岩石圈流变学性质、圈层相互作用及造山作用等地球动力学过程有着重要意义。本文总结了相关均衡理论、模型及计算方法,并结合其在不同空间尺度构造地貌现象研究中的运用,包括:① 冰川均衡调整研究中不同模型的优化及其对全球海平面变化的指示意义、② 阐明海山洋岛发育过程及其制约因素、③ 利用弹性板模型重建山脉隆升和盆地挠曲沉降史并进一步探讨二者之间的相互作用、④ 通过研究变形湖滨线有效地约束地球的相关物理参数、⑤ 建立河流三角洲发育特征模型并服务于现代社会经济、⑥ 揭示水库蓄水导致的地壳挠曲变形与浅部地质灾害发育的关系及 ⑦ 同震滑坡对局部地貌改造的影响,讨论并展望了未来地壳均衡在构造地貌学领域的发展方向,即结合高精度大地测量技术与地质年代学方法,定量地解决构造地貌研究中的关键问题,更全面、系统地了解地表过程、地球深部过程与动力学和地球圈层之间的相互作用。 相似文献
6.
张保民 《吉林大学学报(地球科学版)》1982,(4)
宇宙间是个大的引力场,在地球上来源于地心的引力,就是重力。“它使地壳类似穹形,因之这个地球体本身就是大地构造研究的起点。在研究构造运动的驱动力以及重力与构造的关系方面,马杏垣教授近期发表了精辟的论述。 我们居住的这个天体还具有一个大的应力场,李四光教授在他青年的时候曾经将他的论证建立在假没地球转速的变化上,他所创建的构造体系在组合分析时,对受力机制 相似文献
7.
最近五六年,对地球内部构造的了解取得了重大进展,这主要归功于高质量的地震数据资料.利用地球体波、面波和自由振动进行多方面的研究,弄清了不同深度上的三维空间构造.然而,任何构造研究手段,其分辨率都因探测构造所利用的波的波长而受到限制.在这方面,比如,通过体波获得的模式,其尺度同由面波或自由振动得到的平均尺度不同,其结果应该更为精细.然而,常常发现各种结果的解释,好象对地球三维空间的地震速率给了点值估计.在这篇文章中,我们评述了每种类型资料如何向我们提供地球构造的信息,对其分辨率和误差又应作何种解释. 相似文献
8.
9.
最近5-6年主要由于高质数字地震资料而使得对地球内部构造的了解有了很大的进展。应用地球体波、面波及自由振荡的各种研究阐明了不同深度上的三维构造。然而,任何构造研究都受到对用于探测构造的波长分辨力问题的限制。在这方面,比如由体波得到的模式代表着由面波或自由振荡获得的那些不同尺度的平均值,它应包括了更详细的结果。不过我们经常发现对于各种结果的解释就象它们给出的是对三维地球中地震速度进行的点估计。本文中我们回顾每种类型资料是如何提供给我们有关地球构造的信息以及如何依据其分辨力与误差进行解释。三维构造研究中出现的最明显的特点之一即为与地表地质相对应的近地表速度的变 相似文献
10.
开合构造总体上可以表述为:地球膨胀为开,收缩为合;垂向上地球物质离心(地心)运动为开,向心运动为合;水平方向上地球物质相背运动为开,相向运动为合。从驱动机制角度,我们把以热力(热能)为主体驱动的上浮物质运动定义为开;将重力(势能)为主体驱动的下沉物质运动定义为合。因此,开与合是一个高度综合的概念,具有广阔的内涵,开合运动是联系一切地质运动和地质科学的纽带。开合运动具有同步统一性,即垂向的开在水平方向也表现为开;垂向开得强烈,水平方向同样开得强烈,反之亦然。地球刚形成时诸多开合构造是无序的,地球的旋转运动统领地球上所有物质、能量、运动和大大小小的各种开合构造于旋转运动中,并将它们调剂到有序状态。简言之开合构造体系是开合旋运动长期作用下形成的不同时期、不同层次、不同级别的开合旋回组成的动态平衡构造体系。本文总结了地球开合旋构造体系物质组成、结构构造特征和规律,建立了开合旋复杂构造体系简要模型。提出平衡体系的形成机制是开合旋运动遵循地球重力均衡准则、最小内能原理(结晶化)、几何淘汰生长(垂直地心生长)和物质均匀化四条自然演化规律,其中重力均衡准则是主导的。由于地质事件(构造运动)在破坏开合旋平衡体系的同时,经常直接或间接向体系内输入新能量,往往使新的旋回比老旋回的结构构造更符合地质演化的自然规律,于是使地球显得更强大而有活力。这一次又一次的地质事件(构造运动)是开合旋构造体系螺旋式向前发展的动因。本文最后用开合构造观点探讨了地球的形成和演化,分析了板块构造运动的动力学过程。 相似文献
11.
地壳均衡与海平面变化 总被引:6,自引:0,他引:6
提要:在全球海面变化的近期研究中,无论是均衡模式、还是重力模式,写考虑到冰川均衡作用和水力均衡作用。本文认为,绝对均衡表示地壳均街的最终结果,相对均衡表示地壳均衡中一系列中间过程。这两种均衡之间的差别,往往被人们所忽视。
定量计算的结果表明,冰盖的吸引不仅使周围的海面升高,而且使内核在外核中产生定向运动。由于参加相对均衡的大陆壳数量不同、宕石圈的强度不同,陆壳与陆充、陆克与洋壳之间将产生不同幅度的垂直运动。这为解释全球海面变化不一致性提供了另一个新思路。
相似文献
定量计算的结果表明,冰盖的吸引不仅使周围的海面升高,而且使内核在外核中产生定向运动。由于参加相对均衡的大陆壳数量不同、宕石圈的强度不同,陆壳与陆充、陆克与洋壳之间将产生不同幅度的垂直运动。这为解释全球海面变化不一致性提供了另一个新思路。
相似文献
12.
V. Corchete 《地学学报》2008,20(6):489-493
The gravimetric geoid computed in the northern part of Iberia, is presented in this paper. This computation has been performed considering two study windows fitted to the areas with higher density of gravity data, to reduce the computation errors associated to the scarcity of gravity data, as much as possible. The bad influence of a bathymetry with poorer resolution than the topography is also reduced considering the smallest marine area possible. Moreover, the computation of this gravimetric model is based on the most recent geopotential model: EIGEN‐GL04C (obtained in 2006). The method used in the computation of the new gravimetric geoid has been the Stokes integral in convolution form. The terrain correction has been applied to the gridded gravity anomalies, to obtain the corresponding reduced anomalies. Also the indirect effect has been taken into account. Thus, a new geoid model has been calculated and it is provided as a data grid in the Geodetic Reference System of 1980, distributed for the northern part of Iberia from 40 to 44 degrees of latitude and ?10 to 4 degrees of longitude, on a 161 × 561 regular grid with a mesh size of 1.5′ × 1.5′. This new geoid and the previous geoid Iberian Gravimetric Geoid 2005, are compared with the geoid undulations measured for eight points of the European Vertical Reference Network (EUVN) on Iberia. The new geoid shows an improvement in precision and reliability, fitting the geoidal heights of these EUVN points with more accuracy than the previous geoid. Moreover, this new geoid has a smaller standard deviation (12.6 cm) than that obtained by any previous geoid developed for the Iberian area up to date. This geoid obtained for the northern part of Iberia will complement the previously obtained geoid for South Spain and the Gibraltar Strait area; both geoids jointly will give a complete picture of the geoid for Spain and the Gibraltar Strait area. This new model will be useful for orthometric height determination by GPS over this study area, because it will allow orthometric height determination in the mountains and remote areas, in which levelling has many logistic problems. This new model contributes to our knowledge of the geoid, but the surrounding areas must be better known to constrain the lithospheric and mantle models. 相似文献
13.
This is a preliminary report of our on-going research on a global topographic-isostatic model. The model comes from a completely new idea — the geoid undulation is the responses of an elastic earth to the topographic mass load. Assuming the topography as a condensed surface mass load, we derive expressions for calculating the vertical displacement, potential and equipotential surface changes, based on the load theory proposed in Sun and Sjöberg (1996). The modeled geoid is composed of three parts: loading potential, surface displacement and mass redistribution. The mass redistribution of the earth compensates to some extent the topography. We mainly calculate and discuss the vertical displacements and equipotential surface changes for three depths: the earth's surface, d = 36 km and the core-mantle boundary. Numerical results show that the displacements at depth 36 km and the earth's surface have the same distribution pattern and magnitude, while the vertical movement of the core-mantle boundary appears much smoother and smaller. The modeled geoid undulations vary between −352 and +555 m. The comparison between the modeled and observed geoid undulations shows that there are strong positive correlations between them, but a compensation only by elastic deformations is not sufficient to explain the observed undulations because of the big difference in magnitude between the two geoids. More geodynamic effects should be considered to better explain the long-wavelength geoid features. 相似文献
14.
区域大地水准面的确定是GPS测量常需解决的问题。目前确定大地水准面的方法主要包括重力法、GPS水准几何法及组合法,其中组合法因其精度和可靠性都较高,常用于计算高精度区域大地水准面。高精度的大地水准面模型是组合法确定区域大地水准面的关键。在我国,EGM2008全球重力场模型精度和分辨率均高于此前的所有模型,研究基于该模型的组合法大地水准面精化具有重要的实践意义。笔者以吉林大学兴城教学实习基地物探实验区为例,基于实测重力数据、EGM2008重力场模型和GPS水准数据,采用组合法精化了区域大地水准面,比较了组合法大地水准面模型和无重力实测数据的几何法大地水准面模型的精度差异,分析了该方法在物探测量中的适用性。结果表明,实验区组合法大地水准面模型精度最高达到1.2 cm,并且误差分布区间较小,总体上精度和可靠性高于对比的几何方法,并且组合法和几何法获取的两种大地水准面模型均能满足大比例尺物探测量要求。EGM2008模型精度较高,故平坦地区使用组合法时,高密度的实测重力数据可能带来高频扰动,有可能降低EGM2008重力场模型本身的精度,所以重力数据采集过程中要顾及重力点的密度和空间分布。本文方法更适用于地形复杂的地区。 相似文献
15.
V. Corchete M. Chourak D. Khattach E.H. Benaïm 《Journal of African Earth Sciences》2008,51(3):145-150
A new gravimetric geoid is computed for South Spain and the Gibraltar Strait area. This geoid is located just in the junction between two tectonic plates (Euro-Asiatic and African plates) and in the junction of two gravimetric geoids: IGG2005 (the Iberian Gravimetric Geoid obtained in 2005) and MORGEO (the MORoccan GEOid). IGG2005 is the Iberian geoid and MORGEO is the Moroccan geoid, both geoids have been previously obtained. The new geoid is the gravimetric geoid solution that connects the two above-mentioned geoids, getting a more accurate and reliable picture of this area than the other previous geoids. The method used is the Stokes integral in convolution form, which shows to be an efficient method to reach the proposed objective. The terrain correction and the indirect effect have been taken into account. The new geoid is obtained as a regular grid (with a mesh size of 1.5′ × 1.5′) in the GRS80 reference system, covering the study area from 34° to 40° of latitude and from −8° to 0° of longitude. This gravimetric geoid and the previous geoids: IGG2005 and MORGEO; are compared to the geoid undulations derived at the validation points located on the study area (four GPS/levelling points measured on Morocco and five points of the European vertical reference network (EUVN) measured on Iberia). As it is expected, the new geoid is a more precise and reliable model, fitting the geoidal heights of these validation points with more accuracy than the other previous geoids. This new model will be useful for orthometric height determination by GPS in the mountains and remote areas, where levelling has many logistic problems. Also, it can be interesting for other geophysical purposes different to the height measurements, because it can provide a constraint for the density distribution, the thermal state of Lithosphere and the viscosity in the mantle. Such details can be inferred from a geoid model and the seismic velocity structure. 相似文献
16.
We present a method based on the combination of elevation and geoid anomaly data together with thermal field to map crustal and lithospheric thickness. The main assumptions are local isostasy and a four-layered model composed of crust, lithospheric mantle, sea water and the asthenosphere. We consider a linear density gradient for the crust and a temperature dependent density for the lithospheric mantle. We perform sensitivity tests to evaluate the effect of the variation of the model parameters and the influence of RMS error of elevation and geoid anomaly databases. The application of this method to the Gibraltar Arc System, Atlas Mountains and adjacent zones reveals the presence of a lithospheric thinning zone, SW–NE oriented. This zone affects the High and Middle Atlas and extends from the Canary Islands to the eastern Alboran Basin and is probably linked with a similarly trending zone of thick lithosphere constituting the western Betics, eastern Rif, Rharb Basin, and Gulf of Cadiz. A number of different, even mutually opposite, geodynamic models have been proposed to explain the origin and evolution of the study area. Our results suggest that a plausible slab-retreating model should incorporate tear and asymmetric roll-back of the subducting slab to fit the present-day observed lithosphere geometry. In this context, the lithospheric thinning would be caused by lateral asthenospheric flow. An alternative mechanism responsible for lithospheric thinning is the presence of a hot magmatic reservoir derived from a deep ancient plume centred in the Canary Island, and extending as far as Central Europe. 相似文献
17.
近年来人们往往利用GPS数据来确定大地高,但大地高不同于正常高,为此,利用多项式拟合与地球重力场模型相结合的数学方法,使GPS所测大地高通过这些数学模型直接转换为具有厘米精度的正常高,将该方法得到的正常高与单独利用多项式拟合和地球重力场模型得到的结果进行了比较,其差值的标准差为±38 cm。 相似文献
18.
Ghadi Younis 《Arabian Journal of Geosciences》2015,8(10):8681-8685
In Geodesy, the heights of points are normally orthometric heights measured above the geoid (an equipotential surface created by the earth masses and rotation which approximately coincides with the mean sea level) or the normal heights. It is necessary to transform the GNSS/GPS measured ellipsoidal heights (h) to classical physical heights (orthometric H/Normal H). The total gravity potential of the earth (W) is the summation of two components; gravitational potential (V) by earth masses and the centrifugal potential (Ω). The centrifugal potential is directly calculated, while the gravitational potential (V) needs to be modeled globally or locally using given measurements. The global models of the earth gravitational potential/gravity models (or so-called geoid models) are mostly given using spherical harmonics (SH). A modified approach of SH was defined to fit the use of SH for regional gravity/potential modeling called spherical cap harmonics (SCH). Due to the numerical difficulties of SCH, a simplified approach of SCH is selected to be used for a combined modeling of the earth potential using a variety of observations. This approach is called the Adjusted Spherical Cap harmonics. 相似文献
19.
地震作用下挡土墙主动土压力及转动位移分析 总被引:2,自引:0,他引:2
分析地震引起的挡土墙位移及墙后土压力,对于评估挡土墙可靠性具有重要意义。基于拟动力法,考虑时效、地震波传播的相位差、超载、墙背摩擦角、填土黏聚力以及填土开裂等影响,建立地震作用下挡土墙主动土压力计算模型,获得挡土墙绕墙趾转动模式下主动土压力大小、分布形式及作用点高度。同时,考虑挡土墙本身受地震荷载作用的影响,求出挡土墙绕墙趾的转动位移。通过与Mononobe-Okabe法对比可知,文中获得的主动土压力值与Mononobe-Okabe法接近,但Mononobe-Okabe法低估了主动土压力作用点高度,表明采用Mononobe-Okabe法设计存在风险。通过算例分析了地震系数、墙背摩擦系数、超载大小、时间、填土黏聚力和内摩擦角对挡土墙转动位移的影响。 相似文献
20.
We use Fast Fourier Transform (FFT) and least-squares modification (LSM) of Stokes formula to compute the geoid over Khartoum State in Sudan. The two methods (FFT and LSM) have been utilised to test their efficiency with respect to EGM08 and the local GPS-levelling data. The FFT method has many advantages, it is fast and it reduces the computational complexity. The modification of Stokes formula is widely used in geoid modelling; however, its implementation based on point-wise summation requires a considerable amount of time. In FFT, we combine the terrestrial gravity data and the global geopotential model (GGM) by means of a remove-compute-restore procedure and we successfully apply the modification of the Stokes formula in the least-squares sense. FFT and LSM geoid solutions are evaluated against EGM2008 and the GPS-levelling data. The analysis of the undulation differences shows that the LSM solution is more compatible with EGM08 and GPS-levelling data. The discrepancies of the differences are removed using a 4-parameter model, the standard deviation (STD) of the undulation differences of LSM decreased from 0.41 to 0.37 m and from 0.48 to 0.39 m for FFT solution. There is no significant impact to the LSM geoid when adding the additive corrections, while the FFT geoid solution is slightly improved when terrain correction is applied. 相似文献