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1.
利用卫星重力数据计算地球内部密度异常 总被引:5,自引:0,他引:5
地球外部重力场是由地球内部物质分布决定的。本文利用RAPP81180阶卫星重力位系数根据异常源埋深与重力位系数阶数的关系和重力场分离方法计算了经度为90°E的地球密度异常剖面,得到了地球内部不同深度的密度异常结果,并初步作了地球物理解释.计算结果得到的深度为65km处的低密度异常带与地球模型的LID层和C层较为接近。 相似文献
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利用141天GRACE卫星观测资料,包括K波段、星载加速度和卫星轨道数据,反演了80阶地球重力场模型IGGGRACE01S,该模型在半波长为500km的空间分辨率上,确定大地水准面的精度约为0012m,中长波(<80阶)精度优于重力卫星发射以前研制的重力场模型. 与EIGEN_GRACE02S、EIGEN_CHAMP03S和EGM96模型的位系数相比,该模型系数最接近于EIGEN_GRACE02S,与另两个模型差异较大. 比较几种模型确定的全球重力异常和大地水准面起伏,结果发现IGGGRACE01S与EIGEN_GRACE02S模型的计算结果比较接近,与EGM96模型结果差异较大,差别较大地区主要在南极等地区. 对于中国大陆,比较IGGGRACE01S模型(前72阶)计算的重力异常和NIMA重力异常数据(25°×25°网格),两者之间的标准偏差为48mGal. 相似文献
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本文扼要地讨论了重力测量当今所处的地位和它的发展方向。文章从动力学的角度出发重点论述了重力场时间变化的有关问题及其在地球动力学领域中的意义,文中以大量实例论证了重力测量在地震预报研究中的作用和价值。 文章比较系统地总结了我国重力测量在开展地震监测预报过程中所取得的成绩和存在的问题,阐述了观测重力场时间变化与地震预报研究的关系,明确指出了地震预报的深入研究大大推动了我国重力场时间变化的研究工作向纵深发展。文章最后从地震预报的要求和重力测量的特点出发,以建立统一的全国动态重力测量体系为核心,提出了当前我国重力测量亟待解决的问题和相应的措施。 相似文献
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本文通过分析陆地实测空间重力异常数据、海洋船载测量空间重力异常数据、卫星测高重力异常,布格重力异常数据、EGM2008地球重力模型数据等多种来源数据的性质和精度,并对相关数据进行对比,研究了编制1:500万中国海陆空间重力异常图的数据使用方案和技术方法.在地形较为平坦、实测数据分布均匀的陆区,使用实测数据,在地形复杂,实测数据稀少以及没有实测数据的陆区或岛屿,利用布格重力异常反推空间异常的方法合成平均空间重力数据,西藏地区的数据对比实验证明合成平均空间重力异常数据是一种有效的数据补充.利用三观测列方差分解法在南海地区对船载测量空间重力数据和美国SS系列及丹麦DNSC08GRA卫星重力数据进行了方差分解计算,结果表明不同来源的卫星测高重力数据具有很大的一致性,数据精度较以往有了很大的提高.海区空间重力数据使用原则是在船载重力测量数据校准下,全面使用卫星测高重力数据进行编图.海陆过渡区的异常处理应以EGM2008地球重力模型重力场为基准参考场,实现海陆异常平缓过渡,无缝连接.对中国海陆空间重力异常场进行了小波变换处理,对空间重力异常场进行了解读,勾画出三横四竖的一级重力梯级带及其所围限的8个一级重力异常区,并划分了二级重力异常区和梯级带,为块体构造学体系中大地构造格架的建立提供了地球物理证据. 相似文献
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基于地壳均衡及圆柱体受热模型原理,求出莫氏面起伏及上地幔异常密度分布,并推测了喜马拉雅的相对隆起及其动力机制;由残余大地水准面的分布及底层加温的热对流假设,探讨了青藏地区和我国中部地壳运动的力源问题;此外阐述了根据多期重复重力测量,可以检测出高原的隆起和断层活动 相似文献
7.
华北断块区均衡重力异常、构造特征及地震活动 总被引:1,自引:0,他引:1
均衡重力异常是地壳均衡状态的标志,地壳均衡状态与构造特征及地震活动密切相关。文中基于高阶地球重力场模型EGM2008自由空气异常,采用高精度数字地形模型(DEM)ASTER GDEM 2009和ETOPO1分别作为陆地和海底地形数据,通过基于DEM的严密地形-均衡改正方法计算得到华北断块区5'×5'网格分辨率的Airy均衡重力异常。根据计算结果讨论了华北断块区均衡重力异常分布特征,并探讨了区内均衡重力异常与构造特征、地震活动的关系。结果表明,华北断块区均衡重力异常空间分布极不均匀,表现出明显的断块差异性;区内均衡重力异常大小主要受新构造运动控制,是地壳表层物质密度横向变化和深部构造差异共同作用的结果,构造运动对均衡重力异常的显著影响说明华北断块区地壳均衡调整尚未完成;华北断块区地震活动和均衡重力异常之间有一定的联系,地震活动在显著的均衡重力异常高值区或低值区周围及正负均衡重力异常区过渡部位分布较为集中。 相似文献
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在四川盆地西部建立了一个由302个观测站组成的区域观测网,并进行了高精度流动重力与GPS观测,其目的是获取区域自由空气重力异常(简称重力异常)的分布特征,并对EGM2008模型在该区域的结果进行验证分析.研究区域实测的重力异常总体为负值,由西到东逐步从-160×10-5ms-2平缓变化到-60×10-5ms-2左右.EGM2008地球重力场模型揭示的模型重力异常较好地勾画出研究区域的总体地形分布形态,龙泉山脉以及四川盆地与青藏高原的边界皆存在明显的模型重力梯度带.研究区东南部的模型重力异常大约为-50×10-5ms-2左右,但在龙泉山西部成都平原地区,模型重力异常则达到-120×10-5ms-2左右.在区域观测网内绝大部分观测点上,模型与实测重力异常的差值几乎为一个常数(-10×10-5ms-2左右),说明EGM2008地球重力场模型可较好地反映实际重力场的空间分布形态.如果配以一定数量的地面观测数据进行整体调节,EGM2008地球重力场模型就可以较真实地反映实际地球重力场. 相似文献
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以龙羊峡附近的流动重力监测资料和精密水准复测资料为基础,分析了1996年12月-1997年3月龙羊峡震群前后该地区的重力场和地壳垂直变化特征。分析认为:震前重力场变化异常,临震前形成重力变化密集带,地震发生在重力变化密集带上,震后重力变化密集带消失,重力场变化平衡,垂直形变平缓。 相似文献
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Giovanna Berrino Gennaro Corrado Umberto Riccardi 《Journal of Volcanology and Geothermal Research》2008
Bathymetric and gravity surveys were carried out from 1988 to 1994, in the Gulf of Naples (Southern Italy) to offshore extend the already existing Bouguer anomaly map. In order to improve the knowledge of the structural setting beneath the active Neapolitan volcanoes (Vesuvio, Campi Flegrei and Ischia), 862 stations were surveyed within the isobath of 400 m; at the same time, and about 2000 on-land gravity values were also collected. A new Bouguer anomaly map spanning the whole volcanic region was drawn from the final data set. Gravity anomalies were referred to the new absolute gravity station in Naples and computed according to 1980 Geodetic Reference System. Finally, a density value of 2200 kg/m3 was used in the computation of the Bouguer and terrain effects. We carried out the inversion of the gravity anomalies adopting a 2.5-D modelling along selected profiles crossing the investigated area. The interpretative models were constrained to data obtained from deep wells and other geophysical investigations. 相似文献
12.
Carlos L. Aiken Mark E. Ander Mauricio F. de la Fuente 《Journal of Volcanology and Geothermal Research》1991,45(1-2)
Geophysical studies were carried out in Platanares in Western Honduras, as part of an investigation of the geothermal resource potential of Honduras by Los Alamos National Laboratory in cooperation with the Honduran government and the U.S. Geological Survey. Geological and geochemical studies later followed by exploratory bore-holes indicate this area of rugged topography has the best geothermal potential in Honduras. In order to better understand the geology of the area, gravity, audiomagnetotelluric and telluric surveys were carried out. The site is in a graben of Tertiary volcanics and Cretaceous red beds, with numerous hot springs along faults in the center of the graben. Gravity mapped the thickness of low-density tuffs and the position of associated normal faults. It also indicated the presence of persuasive, shallow, highly silicified, high-density tuffs and gravels. The electrical surveys mapped shallow, high-resistivity silicified zones and faults as low-resistivity zones. The red beds below the tuffs are considered to contain the geothermal reservoir, but their maximum thickness could not be determined by these surveys due to the lack of density contrast and the high surface electrical conductivities. Three geologic cross-sections constructed by others have been re-evaluated using gravity modeling and analysis of eletrical anomalies, showing general agreement but in detail significant differences. 相似文献
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21世纪重力与磁法勘探的展望 总被引:21,自引:18,他引:21
对21世纪重力与磁法勘探的仪器,数据处理技术,解释理论与方法,应用领域等方面的发展方向进行了分析与展望,发展航空标量,矢量,梯度重力测量和航空全梯度磁力测量,三分量磁力测量,提高综合信息采集能力;开展卫星重磁测量,综合卫星,航空,地面重磁测量资料研究地球结构与构造;发展高精度数据处理技术;重磁异常弱信号的提取,不同深度重磁异常的划分,低纬底变倾角化磁极以及位场面延拓;发展复杂条件下三维重磁场多参数综合反演可视化技术以及快速自动反演技术;探索磁性多参数的应用新领域,充分发挥磁法在环境污染调查中的作用并开拓应用新领域。 相似文献
14.
The use of the gravity method to predict rock bursts in mines is based on the relationship between the development of a dilatancy process in the exploited rock mass and the time-dependent gravity anomalies induced by this phenomenon. The differences between successive observations of anomalies and the time behaviour of their trend amplitudes as precursors of preceding changes of rock stability are interpreted. The centres of zones of induced rock density variation are determined by computing the position of singular points of the differences between anomalies. Two gravity surveys have been carried out in the Radbod coal mine (Germany). The first survey took place at the level of the Dickebank seam (depth 1030 m), the second in the Sonnenschein seam (depth 1090 m). The observations were made with Worden and LaCoste-Romberg (D-type) gravimeters. The differences between successive anomalies were less than 100 μGal. In the case of the Dickebank seam, the position of singular points demonstrates the effect of two approaching longwalls on a previously mined-out seam and on the gallery in which the gravity observations were made. In the case of the Sonnenschein seam, the trend amplitudes show distinct variations in the formation of the approaching longwall below the edges of all previously mined-out seams. In particular, the effect of a remnant pillar has caused the largest gravity gradients. This result corresponds to the existence of a zone of rock-burst hazard known from test drilling. The computed singular points are grouped together under the remnant pillar indicating two local hazard zones. Both results, the observed development of rock instability with time and the information about the position of the disturbed rock mass relative to the mine workings, are of importance, subsurface gravity surveying can therefore be a valuable tool for predicting rock-bursts. 相似文献
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Variations of gravity before and after the Haicheng earthquake, 1975, and the Tangshan earthquake, 1976 总被引:2,自引:0,他引:2
《Physics of the Earth and Planetary Interiors》1979,18(4):330-338
Before and after the Haicheng earthquake of magnitude 7.3 which occurred on February 4, 1975, five repeated gravimeter surveys were carried out, three before and two after the earthquake, along a northwest-southeast profile of about 250 km in length not far on the west of the epicenter. The mean-square error of the measurements of the gravity differences between two consecutive points on the profile is less than 40 μGal. From June, 1972 to May, 1973, within a period of about one year, the results of three surveys indicated a clear decrease of the gravity values at points on the southeastern portion of the profile, amounting to about 352 μGal. After the earthquake, the fourth survey, which was carried out in March, 1975, revealed that the gravity values had recovered to the levels of the first survey and continued to increase as was shown by a fifth survey carried out in July of the same year.Variations of gravity were also observed before and after the Tangshan earthquake of magnitude 7.8 which occurred on July 28, 1976, but in this case, gravity was increasing instead of decreasing before the earthquake. Along an east-west profile of about 270 km in length and not far on the north of the epicenter, two gravity surveys were made before and two after the earthquake. The results showed that after the main shock, the gravity values of the whole profile, especially at those points closer to Tangshan, tended to return gradually to their values of the first survey before the earthquake.From these results, there seems to be a close relationship between these gravity variations and the occurrences of earthquakes. Based on results of repeated levelling work done in these regions, the estimated amount of gravity change caused by the change of elevation of the ground surface is far too small to account for the observed value. Therefore we speculate that some large earthquakes might be associated with some sort of mass transfer under ground, within the crust or in the upper mantle. This transfer would cause a large part of the gravity variation observed. We have made a theoretical analysis of this effect and attempted to obtain some estimate of the magnitude of this mass transfer, even though we are not yet clear about the physics of it. 相似文献
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1975年2月4日海城7.3级地震前后在震中以西不远的一条长约250公里的北西—南东向剖面上进行了五次重力测量,震前三次,震后两次.剖面上相邻两个测点的重力差的测量均方误差小于40微伽.自1972年6月至1973年5月的一年期间的三次观测结果表明,剖面东南段重力值显著下降,最大达352微伽.地震以后,1975年3月的第四次重力测量发现,剖面东南段的重力值回升到第一次测量时的水平.1975年7月的第五次测量则表明剖面东南段的重力值继续上升.1976年7月28日唐山7.8级地震前后也观测到重力的变化,不过地震前重力是增加而不是减少.震前和震后,在震中以北不远的一条长约270公里的东西向剖面上各进行过两次重力测量.结果表明,主震后整个剖面,特别是靠近唐山的那些测点的重力也有逐渐恢复到震前第一次测量时的数值的趋势.由这些结果可以看到,重力的变化与地震的发生似有密切的关系.根据重复大地水准测量资料估计的地面高程变化所能引起的重力变化远比所观测到的变化为小.因此,我们推测某些大地震可能与地壳和上地幔内的质量迁移有关,认为所观测到的重力变化大部份是质量迁移引起的.我们对质量迁移的重力效应作了理论分析,但是,对迁移的物理过程我们还很不清楚. 相似文献
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格莱尼改正是重力改正的一种,是对球面半径约166.7 km以外地形和均衡造成的重力综合效应的改正,改正后所得格莱尼异常可对应研究区范围内地壳结构特征,具有重要的研究意义.但近年来国内的重力研究中,对格莱尼改正的认识和重要性还不是十分透彻,特别是在大区域研究中,忽略这一远区重力效应可能会对研究结果的解释造成误导.针对这一问题,本文介绍了格莱尼改正的含义、由来与研究历史,指出了在大区域研究中需要考虑格莱尼效应的重要性,以“扇形球壳块”法为例给出了格莱尼改正的计算原理,列举了格莱尼异常在地球物理中的常见应用,并通过重力改正与莫霍面深度反演实例,通过对反演结果的控制点检测与精度评价,指出格莱尼异常反演所得莫霍面埋深更接近地震方法结果,从而表明了格莱尼改正在地球物理研究中的不可忽视性,并指出完全布格改正与格莱尼改正在计算方法上可实现统一. 相似文献
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由于缺乏对地震孕育和发生机理的认识,地震前兆异常判别受到人们的认识水平、周围环境甚至心理因素的影响,带有很大的随意性,以致在地震预报中出现诸多的怪异现象:地震前兆多是事后总结出来的;绝大多数异常之后没有地震发生;多数地震之前测不到前兆异常;前兆测值对近处地震无反应,但其异常与远处地震对应较好;前兆异常缺乏重现性;异常数量与台站多寡、震情紧张程度密切相关,等等。这些都说明,在地震科学的研究中,我们仍应从最基础的工作做起,再逐步地实现地震预报。 相似文献
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We present an inversion technique based on the Marquardt algorithm to estimate the depth of a 2.5-D sedimentary basin in addition
to the regional gravity anomaly that is associated with the residual gravity anomaly, wherein the density contrast varies
parabolically with depth. Forward modeling is carried out through a derived analytical gravity expression of a 2.5-D vertical
prism. Inversion of a theoretical gravity anomaly with and without a regional gravity anomaly illustrates the procedure that
it is found to be insensitive to the regional gravity effect. Furthermore, the algorithm is exemplified with the gravity anomalies
of the derived density-depth model of the Godavari subbasin, India with a parabolic density profile resulting in a more consistent
geological model rather than a constant density profile. The main advantage of this method is that it works well even when
the profile of interpretation does not bisect the strike length of the sedimentary basin. 相似文献