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综合利用7条地学断面(GGT)资料研究了大兴安岭重力梯级带附近的壳幔地球物理特征模式.分析了形成上述地球物理特征的3种因素:东亚大陆边缘周边三大板块运动、地幔流运动和地幔热柱。对大兴安岭重力梯级带的重力异常的正演拟合结果表明,壳幔物质密度不均匀和莫霍界面超伏造成该带的重力异常,地应力场的综合作用产生了该重力梯级系列地球物理特征。最后,探讨了大兴安岭重力梯级带成因机制,提出了以“挤”、“涌”为动力的“三结点模型”。 相似文献
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依据大地电磁测深所发现的上地幔高导层顶面深度可以给出大陆岩石圈-软流圈界面(LAB)的空间发育特征,为认识岩石圈结构及壳幔相互作用等提供重要信息.本文在1996年编制的中国大陆上地幔高导层顶面深度图的基础上,补充了1995—2010年大地电磁测深结果和大地热流数据,以1°×1°网度编制了新的中国大陆上地幔高导层顶面深度图.我国上地幔高导层顶面深度变化很大,具有南北分带,东西分块的特征,呈东浅、西深、北浅、南深的格局,从最浅的50~60km到最深的230km,平均深度为100~120km.据上地幔高导层顶面分布形态,全国共可划分出27个隆起区.通过与中国已知内生金属矿产和油气田的分布对比,发现我国大陆80%以上中生代内生金属矿床分布在上地幔高导层隆起带或其梯度带上方.中国大陆东部含油气盆地主体对应上地幔隆起区,油气田多位于隆起区上方或其边部的过渡带上;西部主体位于幔坳区,主要油气田对应盆地中心的幔坳向周边幔隆过渡的梯度带上;中部表现为仅盆地腹地对应幔坳,盆地周边对应规模较大的上地幔隆起带,主要油气田位于隆起带.总的来看内生金属矿床一般分布在上地幔隆起区靠近造山带一侧,而油气田一般分布在上地幔隆起区靠近盆地一侧.软流圈的不断上隆,造成岩石圈减薄、拉张,张性断裂的出现成为地球深部物质和热量向地壳上部运移的有利通道,为内生金属矿产的形成提供了成矿物质和能量保障,也为含油气盆地带来了生烃催化剂、热能和无机成因的石油与天然气.地球深部超临界流体的存在对上地幔高导层的形成、成矿物质运移可能发挥了重要作用. 相似文献
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板块运动是地壳和上地幔变形的主要动力来源之一。因为只有地壳变形能被直接观测到,所以将上地壳变形场与下地壳和上地幔变形场比较是研究壳幔运动耦合作用的主要方法之一。利用中国大陆GPS观测结果,结合第四纪活动断层和由20世纪以来发生的地震资料反演获得的地球表层的水平应变率场,并将相关结果与Pn波各向异性及剪切波分裂的快波方向相比较,探讨中国大陆壳幔运动耦合作用。结果发现,总体来看活动性强的构造单元,其深部上地幔塑性剪切带的展布与上地壳脆性剪切带的方位有较大的差异;反之,活动性弱的构造单元,差异较小。活动构造单元其上地壳与下地壳—上地幔之间构造变形活动差异较大的原因,可能是在这个部位上、下地壳之间构造活动有一定程度的解耦,使下地壳以上部分的活动与其下“大地幔流”的运动趋势发生差异,从而产生构造应变能积累 相似文献
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根据我国11平均布格重力异常图,采用Parker-Oldenbug位场反演方法,做了全国范围的三维重力反演。Parker的位场理论公式不仅数学上严密,而且运算速度甚高。本文将近些年大量的地震测深资料做为三维模型的控制点输入,并对反演计算采取了多种措施,以改善结果的合理性。本研究不仅得到了中国地区地壳厚度的分布,还首次给出了至120公里深处上地幔的密度分布。 结果表明,地壳厚度自东部沿海地区30——40公里逐渐增至青藏高原大部分地区的68公里,东部变化平缓,西部复杂,与大地构造有一定对应性。青藏高原及西部地区的上地幔密度总体偏高,一般3.40——3.65克/厘米3。东部广大区域在3.23——3.30克/厘米3。东部重力梯度带反映着下地壳与上地幔中一条深层构造带的存在,它不仅是地壳厚度陡变带,也是上地幔中的高密度带(3.29——3.35克/厘米3),具有大区域性的控制作用。重力的均衡调整是青藏高原隆起的重要因素之一。 作者初步推断,中国地区的上地幔可大体分为青藏高原区、中部过渡区和东部正常区等三个大区,反映着上地幔结构的横向不均匀性。据此,本文解释了某些地球物理现象。 相似文献
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《中国科学:地球科学》2015,(7)
板块俯冲作用是实现地壳与地幔之间物质和能量转换的重要机制,俯冲带岩浆岩是研究地壳物质再循环及其壳幔相互作用的重要载体.本文通过对红安-大别-苏鲁造山带和华北东南缘碰撞后镁铁质岩浆岩的同位素年代学和地球化学的系统总结,概括出两种类型的大陆俯冲带壳幔相互作用,对应于两类地球化学性质截然不同的镁铁质火成岩.第一类岩石显示弧型微量元素分布特征(富集LILE,LREE和Pb,亏损HFSE)和相对富集的放射成因Sr-Nd同位素组成,而第二类具有OIB型微量元素分布特征(富集LILE和LREE,HFSE不亏损)和相对亏损的放射成因Sr-Nd同位素组成.它们都具有变化的且不同于正常地幔的锆石O同位素组成,含有残留的地壳锆石.这些地球化学特征表明,这两类镁铁质火成岩来源于不同地球化学性质的地幔源区,其中第二类岩石的地幔源区是先前俯冲古洋壳来源的熔体与上覆新生岩石圈地幔反应形成的,而第一类岩石的地幔源区是随后俯冲的华南陆壳来源的长英质熔体与上覆华北古老岩石圈地幔反应形成的.因此,在大陆俯冲带存在两种类型的壳幔相互作用,碰撞后镁铁质岩浆岩为大陆碰撞造山带不同类型的板片-地幔相互作用提供了岩石学和地球化学记录. 相似文献
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大别山俯冲陆壳的再循环——地球化学证据 总被引:20,自引:0,他引:20
大别山超高压榴辉岩与邻区新生代大陆玄武岩的地球化学对比研究表明,碰撞造山带俯冲陆壳可以再循环进入软流圈地幔,并形成上地幔的EM Ⅰ富集端元它与交代富集不相容元素的岩石圈地幔不同,具有低Rb/Ba和La/Yb的特征.位于大别山和苏-鲁超高压变质带之间的嘉山具有EM Ⅰ特征的新生代大陆玄武岩可能就与大别造山带俯冲陆壳再循环有关. 相似文献
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陈伊翔 《中国科学:地球科学》2024,(2):654-658
<正>1俯冲带流体交代作用俯冲带是连接地球表生圈层和深部圈层的关键纽带(Zheng和Chen,2016).俯冲带中发生的流体活动与很多关键地质过程密切相关,如火山与地震活动、元素迁移富集成矿、物质迁移与壳幔物质循环,以及地球的表层环境变化.因此,对俯冲带流体来源、性质和地球化学效应的研究具有重要意义(Zheng,2019). 相似文献
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A. A. Spivak 《Izvestiya Physics of the Solid Earth》2010,46(4):327-338
Instrumental measurements of geophysical fields in several regions of the Earth’s crust with a complex structure and tectonics
are analyzed. The observed geophysical fields include the electric field in the boundary layer of the atmosphere and in the
subsurface crust, the ground magnetic field, and the fields formed by microseismic vibrations and natural radon emanation.
It is shown that the fault zones are characterized by noticeably higher (compared to the middle segments of crustal blocks)
variations in the geophysical fields, a stronger response to the faint external impacts in the form of lunisolar tides, and
baric variations in the atmosphere, as well as by higher intensity relaxation processes. Energy transformations between the
geophysical fields of different origins are observed predominantly in the fault regions. 相似文献
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The main properties of conducting zones in the lithosphere are examined. They are compared with data of the gravitational field, seismology, seismic tomography, and some other geological and geophysical studies. The possible origin of the conducting zones is considered. Their high conductivity is connected with the presence of mineralized solutions and magmatic melts. A rough estimate is given for the concentration of mineralized solutions in these zones. Regions of conducting zones correlating with anomalies of lower P wave velocities are associated with the presence of magmatic melts. An approximate estimate is obtained for the concentration of magmatic melts in the lithospheric zone beneath the Klyuchevskaya group of volcanoes. 相似文献
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Tamer Y. Duman Tolga Çan Ömer Emre F. Tuba Kadirioğlu Nilay Başarır Baştürk Tuğbay Kılıç Selim Arslan Selim Özalp Recai F. Kartal Doğan Kalafat Ferdane Karakaya Tuba Eroğlu Azak Nurcan M. Özel Semih Ergintav Sinan Akkar Yıldız Altınok Senem Tekin Ayhan Cingöz A. İhsan Kurt 《Bulletin of Earthquake Engineering》2018,16(8):3277-3316
Turkey is located in one of the most seismically active regions in the world. Characterizing seismic source zones in this region requires evaluation and integration of geological, geophysical, seismological and geodetical data. This first seismotectonic database for Turkey presented herein was prepared, under the framework of the National Earthquake Strategy and Action Plan—2023. The geographic information system (GIS)-based database includes maps of active faults, catalogues of instrumental and historical earthquakes, moment tensor solutions and data on crustal thickness. On the basis of these data, 18 major seismotectonic zones were delineated for Turkey and the surrounding region. The compilation and storage of the seismotectonic data sets in a digital GIS will allow analyses and systematic updates as new data accrete over time. 相似文献
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在利用不同的地球物理勘探方法对地下复杂介质成像时,因观测系统的非完备性及数据本身对某些岩石物性的不敏感性,单独成像的结果存在较大的不确定性和不一致性.对于地震体波走时成像与直流电阻率成像,均面临着成像阴影区问题.对于地震走时成像,地震射线对低速区域覆盖较差形成阴影区,造成低速区域分辨率降低.对于电阻率成像,电场线在高阻区域分布较少,造成高阻区域分辨率较低.为了提高地下介质成像的精度,Gallado和Meju(2003)提出了基于交叉梯度结构约束的联合地球物理成像方法.在要求不同的物性模型拟合各自对应的数据同时,模型之间的结构要求一致,即交叉梯度趋于零.为了更有效地实现基于交叉梯度的结构约束,我们提出了一种新的交替结构约束的联合反演流程,即交替反演不同的数据而且在反演一种数据时要求对应的模型与另一个模型结构一致.新的算法能够更容易地把单独的反演系统耦合在一起,而且也更容易建立结构约束和数据拟合之间的平衡.基于新的联合反演流程,我们测试了基于交叉梯度结构约束的二维跨孔地震走时和直流电阻率联合成像.合成数据测试表明,我们提出的交替结构约束流程能够很好地实现基于交叉梯度结构约束的联合成像.与单独成像结果相比,地震走时和全通道电阻率联合成像更可靠地确定了速度和电阻率异常. 相似文献
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George Vargemezis Panayiotis Tsourlos Alexandros Stampolidis Ilias Fikos Dimitrios Ballas Nikolaos Papadopoulos 《Studia Geophysica et Geodaetica》2012,56(4):1063-1078
In this paper the main results from the implementation and interpretation of a geophysical survey carried out in Chalkidiki (Northern Greece) are presented. The objective of the geophysical survey was to study the general geological conditions of the area (stratigraphy and tectonism) and to focus on the hydrogeological behaviour of the geological formations in the area. The ultimate target was to point out the most promising locations for the successful construction of hydro wells. Since direct hydrogeological information was not available, three different geophysical techniques were applied in order to follow a step by step approach to the exploration of the study area. Firstly, the Very Low Frequency (VLF) electromagnetic method was applied since the majority of the area was dominated by the formation of ophiolites and water flow was possibly expected only in fractured zones at a relatively small depth. Secondly, at the locations of the conductive zones detected by the VLF survey additional Electrical Resistivity Tomography (ERT) sections at different scales were measured to provide more detailed information about the geometrical characteristics of them. Finally, Self-Potential (SP) measurements along the same profiles were conducted in order to provide supplementary information concerning the nature of the conductive zones such as the possible relation with electrokinetic sources. The combined interpretation of the geophysical data proved very efficient for deciding the most promising locations for the construction of hydro wells. 相似文献
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Structural Properties and Deformation Patterns of Evolving Strike-slip Faults: Numerical Simulations Incorporating Damage Rheology 总被引:1,自引:0,他引:1
Yaron Finzi Elizabeth H. Hearn Yehuda Ben-Zion Vladimir Lyakhovsky 《Pure and Applied Geophysics》2009,166(10-11):1537-1573
We present results on evolving geometrical and material properties of large strike-slip fault zones and associated deformation fields, using 3-D numerical simulations in a rheologically-layered model with a seismogenic upper crust governed by a continuum brittle damage framework over a viscoelastic substrate. The damage healing parameters we employ are constrained using results of test models and geophysical observations of healing along active faults. The model simulations exhibit several results that are likely to have general applicability. The fault zones form initially as complex segmented structures and evolve overall with continuing deformation toward contiguous, simpler structures. Along relatively-straight mature segments, the models produce flower structures with depth consisting of a broad damage zone in the top few kilometers of the crust and highly localized damage at depth. The flower structures form during an early evolutionary stage of the fault system (before a total offset of about 0.05 to 0.1 km has accumulated), and persist as continued deformation localizes further along narrow slip zones. The tectonic strain at seismogenic depths is concentrated along the highly damaged cores of the main fault zones, although at shallow depths a small portion of the strain is accommodated over a broader region. This broader domain corresponds to shallow damage (or compliant) zones which have been identified in several seismic and geodetic studies of active faults. The models produce releasing stepovers between fault zone segments that are locations of ongoing interseismic deformation. Material within the fault stepovers remains damaged during the entire earthquake cycle (with significantly reduced rigidity and shear-wave velocity) to depths of 10 to 15 km. These persistent damage zones should be detectable by geophysical imaging studies and could have important implications for earthquake dynamics and seismic hazard. 相似文献
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S. O. Feofilaktov S. N. Rychagov Yu. Yu. Bukatov I. A. Nuzhdaev A. A. Nuzhdaev 《Journal of Volcanology and Seismology》2017,11(5):353-366
This paper is concerned with a discussion of a fundamental problem in geothermal research, that of reaching an understanding of the structure and physical nature of zones of thermal discharges, taking the Pauzhetka hydrothermal system as an example along with the eponymous geothermal field situated at the southern tip of Kamchatka. We combined geological and geophysical results from magnetic surveying, electrical surveying, gravity surveying, soil thermometry, pitting and well drilling in hydrothermal clay, to carry out a detailed study of a large zone of hydrothermal discharges in the structure of this hydrothermal system, that is, the East Pauzhetka thermal field. We identified a system of blocks that control aquifers, mineralization zones at the base of the sequence of hydrothermal clay, steam-charged and water-saturated volumes, and volumes where ascending hydrothermal brines circulate via fissures and pores. We hypothesize the existence of a shallow (a few tens of meters) top of a subintrusive body of an intermediate or basic composition. The intrusion of that body may have given rise to the formation of a tectono-magmatic uplift in the East Pauzhetka thermal field. The resulting geological and geophysical data stimulate multidisciplinary surveys of other areas in the Pauzhetka geothermal field and make their contribution to the solution of a major scientific and applied problem, which is to determine the source of heat for the field. 相似文献
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Abstract The resolution of the freshwater and saline water aquifers in a coastal terrain (Mahanadi Basin, India) is updated. We analysed electrical borehole log data at four sites and compared the water resistivity regime of the freshwater and saline water zones obtained from electrical borehole logging, with the resistivity regime obtained by interpreting vertical electrical sounding (VES) data. The multilayer VES data interpretation is modified to a simple model, containing only the freshwater zone and the saline water zone. The composite geophysical parameters of the freshwater and saline water zones, in particular the resistivity and longitudinal unit conductance regime, are identified. The resolution obtained from the composite geophysical data analyses is very clear and convincing. The composite longitudinal unit conductance regime of the saline water zones is very high compared to that of the freshwater zones. This makes the identification of the two aquifers easy and increases its reliability. A technique which enables analysis of composite geophysical data of freshwater and saline water zones at VES sites in the vicinity of the borehole log sites is proposed. The significance of longitudinal unit conductance in resolving the freshwater and saline water aquifers is illustrated graphically. The proposed technique is validated by correlating the longitudinal unit conductance and resistivity with the total dissolved solids. The efficiency of the technique is validated by carrying out discriminant function analysis. Citation Hodlur, G. K., Dhakate, R., Sirisha, T. & Panaskar, D. B. (2010) Resolution of freshwater and saline water aquifers by composite geophysical data analysis methods. Hydrol. Sci. J. 55(3), 414–434. 相似文献
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Some results are presented from an experimental study of the natural microtremor field on an active landslide-prone slope using a KMV seismometer. Anomalous zones of increased microtremor amplitude have been identified within this landslide feature corresponding to zones of density deficit. It is shown that the velocity characteristics in the upper portion of the cross section can be estimated from spectral ratios of horizontal and vertical signal components in three-compont records. The present microtremor mapping results were compared with those derived via other geophysical techniques, in particular, directional surveys and differentazimuth multiwave seismic prospecting. 相似文献
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浙皖地区地壳-上地幔结构和华南与扬子块体边界 总被引:12,自引:0,他引:12
基于屯溪-温州剖面宽角反射地震资料,拟合反演了地壳浅层和深部结构,并利用非纵剖面记录构制了上幔顶部结构图象。结果表明,江绍断裂带是本区最明显的构造分界,其西北一侧的扬子块体和东南侧的华南块体地壳和上地幔顶部结构以及地球物理特征明显不同。金(华)衢(州)盆地下方地幔上隆,上地幔岩石层中有低速体,可能是一个复杂的岩浆房构造。地幔岩石层呈现出由SE至NW向仰冲的叠瓦式片状构造,提示该区明显受水剂压应力控制。 相似文献