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青藏高原地壳结构的重力学研究主要集中于莫霍面深度反演及单个剖面的重力正演,但是,在亚东-格尔木与下察隅-共和之间没有地震测线的区域,地壳结构的研究受到限制.为了探讨从青藏高原中部到东部的地壳结构特征,本文采用三维重力正演的方法,对青藏高原三维地壳结构进行了重力正演模拟.研究结果显示,地壳各层界面起伏较大,表明高原地壳变形强烈.研究区域中,藏南喜马拉雅地体界面相对较浅,处于界面陡变带,往北进入拉萨地体,界面相对变深.正演剖面中,大的界面起伏与大的断裂构造有关,莫霍面的陡变也暗示着莫霍面存在错断现象.东构造结莫霍面有抬升现象,在玛多附近莫霍面有下凹现象.地壳分层正演显示,32 km以下地壳产生的重力异常占总异常的80%以上,低速层及高速体产生的重力异常最大可占到总异常的10%左右. 相似文献
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研究华北地块及邻区重力异常特征、地质结构和断裂构造,对该区地震风险研判和矿产资源远景规划具有重要意义。文章基于小波多尺度分解法、Parker-Oldenburg迭代反演法和重力异常导数法,利用华北地块及邻区布格重力异常数据,获得布格重力异常小波分解逼近场和细节场、莫霍面深度和重力异常导数。结果表明:(1)逼近场和细节场揭示出华北地块可分为西部的鄂尔多斯克拉通块体和东部的华北似环状裂谷盆地两个子单元。(2)莫霍面深度范围在28~52 km之间,呈NNE走向,由西向东逐渐变浅,具有显著的“东西分带”特征。尤为显著的是鄂尔多斯克拉通块体和华北似环状裂谷盆地,块体内部莫霍面变化较平缓,块体边界莫霍面变化剧烈。(3)根据重力异常导数结果识别并校正出研究区13条块体边界及主要断裂带。 相似文献
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莫霍面是地壳和上地幔的分界面,是个重要的密度界面,东海莫霍面的展布特征,对于研究东海深部构造具有重要意义.利用最新重力异常数据反演莫霍面深度,结合前人的莫霍面深度结果,分析东海及其邻域的壳-幔结构与展布特征.从莫霍面深度图可见东海及其邻域莫霍面起伏变化很大,深度在12~34 km之间变化,东海及其邻域地壳厚度为6~34km,东海陆架地区地壳厚度变化与大陆地区相比并不明显,显著减薄开始于冲绳海槽地区,琉球岛弧处地壳厚度明显再度增加,莫霍面呈现两凹两凸形态,认为东海及其邻域地壳自西而东从陆壳-过渡壳-洋壳逐渐过渡的. 相似文献
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V字型密度界面是一类常见的密度界面,如海沟、半地堑以及俯冲带之下的莫霍面,利用重力数据刻画此类密度界面形态对于区域构造研究、油气勘探以及物理海洋学等都具有重要意义.本文首先建立了Lp-范数形式的模型约束函数,并利用正则化原理将其与重力数据误差函数和已知深度约束函数结合形成V字型密度界面反演的目标函数,推导了目标函数的梯度表达式,并以非线性共轭梯度法为核心给出了反演流程.二维简单模型试算结果表明p=5时该方法能准确地刻画V字型密度界面起伏特征,且亦能准确地应用于二维复杂密度界面和三维界面的反演.最后将反演方法应用于挑战者深渊及邻区的实际资料处理之中,利用研究区海底地形数据和沉积层厚度数据对自由空间重力异常逐层剥离而得到莫霍面引起的重力异常,用本文方法对此重力异常进行反演,结果呈现了板块俯冲作用引起的V字型莫霍面起伏特征. 相似文献
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针对地壳构造形成的动力学机制,在广泛收集区域地质、地质构造和地球物理等资料的基础上,着重对重力数据进行了数字化、坐标、重力公式、投影方式和比例尺的统一化处理,进而进行了网格化处理.为将区域异常和局部异常分离开来,以便以对深部构造的系统研究,笔者选取趋势分析法分别对研究区内预处理后的布格重力异常数据(Δg)进行了三维多项式迭代拟合计算,得到了区域布格重力异常二阶、五阶、十阶趋势分析结果.继而,利用二级近似公式迭代法对布格重力异常五阶趋势分析区域异常数据进行了三维运算处理,得到了黄海及周边地区的莫霍面埋深值.分析了黄海及邻区莫霍面起伏特征,并进行了深部构造区划,探讨了深部断裂构造与莫霍面起伏间的成因联系,为深部构造和活动断裂演化的地球动力学研究提供了依据. 相似文献
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本文根据塔里木盆地布格重力异常的功率谱特征,决定重力异常分解成3个层次,即反映沉积盆地基底的异常、反映沉积盆地深层的异常和反映沉积盆地浅层的异常.然后,探讨将小波变换多尺度分析和密度反演方法应用于塔里木盆地布格重力异常的分解和盆地三维结构密度研究,并根据钻探了解每个层次对应着的地质含义.通过塔里木盆地的重力异常的多尺度... 相似文献
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裂陷盆地基底的起伏表现为非光滑的几何形态,传统的重力反演结果并不能很好地反映这种特点.此外,大多数情况下,重力观测面并不位于盆地上界面,应为单独的起伏观测面,盆地应为上界面和基底组成的双界面模式.基于此,本文研究了起伏观测面上裂陷盆地基底双界面模式二维重力反演方法.研究中假设沉积盆地的沉积层与基底的密度差随深度按双曲线规律变化.将沉积盆地的沉积层剖分成相邻的垂直柱体,其水平尺寸是已知的,顶面与沉积层上界面重合,底面深度代表基底的深度,即为要反演的参数.反演中引入全变差函数作为盆地模型的约束,使得反演结果呈现非光滑形态,符合裂陷盆地基底特征.为减小反演多解性,引入已知深度点作为约束.建立由重力数据拟合、已知深度约束及全变差函数组成的目标函数,采用非线性共轭梯度算法使目标函数最小化.模型试算结果表明该方法可反演裂陷盆地基底起伏,并通过调整正则化参数的值可反演坳陷盆地基底起伏.将该反演方法用于珠江口盆地惠州凹陷和运城-临汾裂陷盆地实际资料处理,其结果较好地反映了裂陷盆地基底起伏特征,为研究盆地构造、油气勘探等提供重要参考. 相似文献
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DEEP STRUCTURE OF NORTHERN HENAN PROVINCE AND ADJACENT AREAS DERIVED FROM GRAVITY AND SEISMIC SOUNDING DATA IN RELATION TO DISTRIBUTION OF EARTHQUAKES 
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下载免费PDF全文 We conduct the wave field separation of the gravity field for northern Henan Province and adjacent areas by the wavelet multi-scale decomposition method, and obtain multi-order gravity wavelet details and regional gravity field information. Then the Parker density surface inversion is used to invert the Moho interface. Based on the analysis of wavelet details in different orders and results of three seismic sounding profiles available in this area, we attempt to reveal the deep crustal structure of the study area. Research results show that the crustal structure is dominated by uneven density distribution accompanied by uplifts and depressions in the region with obvious heterogeneities of the density in horizontal and vertical directions. The gravity field characteristics in the middle-upper crust correspond to the surface topography, the lower crust is dominated by the large-scale high-low gravity anomalies, and several major depression basins show the characteristics of low velocity and low density. At the same time, the depth of the Moho interface changes greatly, which forms the block structure pattern of the regional crustal thickness. Among these features, the area with relatively large variations of the Moho is located in the transition zone of the basin to the Taihang Mountains, or exactly the Moho mutation belt. The Moho interface of the basin area as a whole is dominated by the uplift intertwined with local variations, of which the least and largest depths are 31km and 37km, respectively. Due to the gravity isostasy, the crustal thickness is larger(about 41km)in the northwest of the Taihang Mountains, with less average crustal density. In the study area, earthquakes tend to occur around the transition zone with density changes where the Moho is locally convex. The seismogenic mechanism may be associated with upwelling of upper mantle materials, low-velocity and low-density structures in the middle-lower crust and connection of deep large faults. Moreover, the deep large faults play a controlling role in the distribution of regional earthquakes. 相似文献
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四川盆地是中上扬子克拉通的主要组成部分.作为我国三大稳定克拉通之一,扬子克拉通经历了自太古代以来的长期演化,直到新元古代晚期与华夏板块发生碰撞拼合前,一直被认为是一个稳定的统一陆块.基底包括了新太古宙-新元古代岩层,其上广泛被新元古代晚期至显生宙地层覆盖,仅有~2.9—2.95Ga基底岩石零星出露于四川盆地的西缘、西南缘和三峡地区,使得对于沉积盖层之下的中下地壳的性质和分布规模的认识十分有限.重力异常则能够宏观揭示区域结构特征.本文通过刨除沉积盖层和莫霍面起伏引起的重力异常而获得了中下地壳的重力异常,反映了四川盆地东西陆块中下地壳存在结构差异,结合深地震反射资料、航磁异常和地球化学资料,证实了该分界线位于重庆—华蓥一线,故而推测中上扬子克拉通在太古宙-古元古代可能存在东西两个陆核. 相似文献
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基于EGM2008重力场模型计算获得了渭河盆地及邻区布格重力异常。采用小波多尺度分解方法对布格重力异常进行了4阶小波逼近和小波细节分解,同时基于平均径向对数功率谱方法定量化地计算出1~4阶小波细节和小波逼近所对应的场源平均埋深。结合区域地质和地震资料,对获得的重力场结果进行分析,得到如下结论:①鄂尔多斯地块、渭河盆地、秦岭造山带3个一级构造单元的布格重力异常之间存在明显差异;构造区内部重力异常也存在横向的显著差异。布格重力异常的走向、规模、分布特征与二级构造区及主要的断裂具有一定的对应关系。②渭河盆地及邻区布格重力异常1~4阶细节对应4~23 km不同深度的场源信息,鄂尔多斯地块南缘东、西部的地壳结构存在明显的差异;渭河盆地凹陷、凸起构造区边界清晰,断裂边界与重力异常边界具有较好的一致性;秦岭造山带重力异常连贯性不好,东、西部重力异常变化特征表现出明显的差异。③渭河盆地及邻区布格重力异常分布与莫霍面埋深具有非常明显的镜像关系。渭河盆地及邻区地震主要分布在六盘山—陇县—宝鸡断裂带、渭河断裂与渭南塬前断裂交汇处、韩城断裂与双泉—临猗断裂交汇处。渭河盆地及邻区重力异常主要由中上地壳剩余密度体所影响,这可能是该区地震以浅源地震为主的主要原因。 相似文献
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Christopher Stadtler Christine Fichler Ketil Hokstad Eva Andrea Myrlund Susann Wienecke Bente Fotland 《Geophysical Prospecting》2014,62(3):615-630
The seismic imaging of salt diapirs in the Nordkapp Basin gave rise to considerable problems in defining their shape and volume. Independent information was added by integrating the interpretation with high resolution gravity and magnetic data. We developed a novel, iterative workflow, separated into sub‐categories: sediments, salt structures, basement and Moho. Distinctions between the sources of the anomalies from different depths was achieved by utilizing the different decay characteristics of gravity, gravity gradiometry and high resolution magnetic anomalies. The workflow was applied to the southern part of the Nordkapp Basin. It started with the sedimentary model derived from seismics, populated with measured densities and magnetic susceptibilities and a starting model for the base salt. The residual after the removal of this model was interpreted in terms of a crustal model, including flexural isostatic calculations for the Moho with the sedimentary load. The residual after the removal of crustal and early sedimentary model was used to tune the salt model. As these major and minor modelling steps depend on each other, an iterative process was applied to stepwise improve the density and magnetic susceptibility model. The first vertical gradient of gravity and the magnetic field were found to give most information about the cap rock of the diapirs. The improvement in salt imaging, integrated with results from controlled‐source electromagnetic and magneto‐telluric modelling is shown for the salt diapir Uranus, where a well, terminated in the salt, constrains the minimum of the depth to base salt. 相似文献
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WAVELET TRANSFORM ANALYSES OF FAULTS DETECTION ON ISOSTATIC GRAVITY ANOMALIES: A CASE STUDY FROM THE QAIDAM BASIN AND ITS ADJACENT AREAS 下载免费PDF全文
下载免费PDF全文 Isostasy is used to describe a condition to which the Earth's crust and mantle tend, in the absence of disturbing forces. Eliminating the gravity effect of crust, isostatic gravity anomalies contain abundant geological structure information, which can be extracted by edge detection methods of gravity or magnetic anomalies. In order to accurately obtain the edge information, a great variety of methods, such as analytical signal amplitude, tilt angle, theta map θ, etc., have been proposed by domestic and international scholars, and many significant advances have been made in recent days. However, each method has its advantages and disadvantages. Wavelet transform is an effective method developed in recent years. It has the enhanced noise resistance and a feature of multi-scale decomposition, and can be used to identify more detailed information of edge. Here with the aim of demonstrating its effectiveness in faults detection, we established a theoretical geological model, which consists of five geological bodies. The geological bodies with different density present a fault zone and the areas on its sides, as well as two geological bodies with different geological properties. We calculated the gravity anomalies caused by this model, in addition, we added 5% Gaussian noise to the gravity anomalies for a comparative analysis to analyze the effects of wavelet transform on edge detection. Finally, we applied wavelet transform method to the decomposition of isostatic gravity anomalies, obtained 1st to 5th order wavelet transform details of the gravity anomalies, and compared with the well-studied faults in the Qaidam Basin and its adjacent areas. The results obtained by wavelet transform matched well with the known faults, the anomalies of different order denote the location of different fault zone(e.g. the Tanan Fault is nearly invisible on the original and the first order isostasy gravity anomalies map, but is well expressed on the second order isostasy gravity anomalies map; The apparent details of the 4th and 5th indicate that faults in front of the Saishiteng-Xitieshan Shan are deep faults and they are likely to distribute continuously in the deep underground). Besides, we calculated the estimated depth of isostasy gravity anomalies of different order through power spectrum analysis as well, finding that different faults extend to different depth. For example, the Danghe-Nanshan Fault and the Southern Fault in the middle Qilian Shan are 10km in depth approximately, but the faults in front of the Saishiteng-Xitieshan Shan are more than 70km in depth. In addition, we made two comparative studies, the first one is comparing the results mentioned above with the result through wavelet transform of Bouguer gravity anomalies. The second one is comparing with the results through other edge detection methods of isostatic gravity anomalies. In spite of the inconformity between anomalies and the faults to some extent, which is likely caused by the change of lithology or faults distribution in the deep underground, we finally found that:more subtle details induced from faults can be detected from isostatic gravity anomalies by using wavelet transform because of its feature of multi-scale decomposition. The wavelet transform method is proved to be more accurate and reliable(at least in the Qaidam Basin and its adjacent areas)comparing with other methods. 相似文献
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普里兹湾位于南极洲东部大陆边缘,其深部地壳结构特征对认识白垩纪冈瓦纳古陆裂解和新生代大陆边缘形成具有重要意义.本文利用重磁、多道反射地震、声纳浮标折射地震和ODP钻井数据对普里兹湾海域的深部地壳结构进行了研究.研究结果显示,普里兹凹陷表现为典型的盆地负重力异常特征,其沉积基底较深,而在四夫人浅滩为高幅重力正异常,其沉积基底普遍抬升.在大陆架中部存在SW-NE向条带状基底的抬升,且呈朝NE向逐渐变深的趋势.在中大陆架外侧,均衡残余重力异常呈V字形负异常条带状分布,其两翼分别与四夫人浅滩和弗拉姆浅滩外的大陆坡相连.该异常带在大陆架中部向陆的偏移可能是由于古大陆架边缘的地形影响,推测其与普里兹冲积扇同属于洋陆过渡带向陆的部分,在重力模拟剖面表现为地壳向海逐渐减薄.普里兹冲积扇的地壳厚度较薄,平均为6 km,最薄处可达4.6 km,并且根据洋陆过渡带向海端的位置,推测可能属于接近洋壳厚度的过渡壳.重力异常分区的走向与兰伯特地堑在普里兹湾的构造走向基本一致,可能主要反映了二叠纪-三叠纪超级地幔柱对普里兹湾的裂谷作用的影响.该区域的自由空间重力异常和均衡残余异常均表现为超过100×10-5m/s2的高幅正异常特征,可能由位于大陆架边缘的巨厚沉积体负载在高强度岩石圈之上的区域挠曲均衡作用所导致,可能与该区域第二期裂谷期之后的沉积间断以及快速进积加厚的演化过程有关.普里兹湾磁力异常的走向与重力异常明显不同,大致可分为东北高幅正异常区和西南低幅异常区.重磁异常在走向上的差异反映高磁异常主要来源于岩浆作用形成的铁镁质火成岩的影响,并且岩浆作用的时代不同于基底隆升的时代,而可能形成于前寒武纪或者南极洲和印度板块裂谷期间(白垩纪). 相似文献
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利用新疆地区北疆测网2015~2017年观测的共4期流动重力资料,分析研究区半年、1年尺度重力变化特征,并采用小波分解方法,对2017年8月9日精河MS6.6地震前重力变化异常进行分解,分离了不同深度的重力异常。结果表明,震中附近的精河地区从2015年开始一直处于重力负值变化,同时,震中周围的重力正值变化集中区逐步向震中地区迁移,地震发生前震中以南60km处出现重力变化零值线,并且零值线两侧的重力累积变化量达到70μGal。小波分解后,4阶细节图较好地反映了精河地震前的重力异常,其与地震孕育发生有较好的对应性。 相似文献
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黄骅坳陷盆地结构及构造单元展布受深断裂及盆地基底的控制与影响,利用重磁异常可以较大范围地揭示出控制盆地构造格局的深断裂及基底结构特征.本文综合考虑研究区盆地基底的宏观磁性差异以及存在的剩磁影响,采用对磁化方向依赖性小的磁异常模量数据,研究了黄骅盆地区域横向构造转换带的展布与磁性基底结构.识别出五条NW向与优势构造走向高角度相交的区域横向构造转换带和两条呈“T” 型展布的隐伏深断裂;研究区基底具有三分性结构特征,隐伏深断裂可能为三分基底的拼合线;基底结构差异及区域横向构造转换带共同控制了黄骅盆地“南北分区,东西分带”的宏观构造格局及沉积构造单元的展布. 相似文献
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利用北天山地区2016~2019年观测的4期流动重力观测资料,分析研究一年尺度的重力场动态变化特征,并利用小波分析方法,将不同场源深度的重力异常进行分离。通过功率谱分析,获取各阶小波重力细节对应的场源深度。研究结果表明,2017年8月9日精河MS6.6地震前,震中位于负值集中区,四阶小波重力细节显示震中附近出现明显的四象限分布;2020年1月16日库车MS5.6地震前,震中位于负值区,小波重力细节整体量值较小;功率谱估算的场源近似深度与2次地震的震源深度相近。 相似文献
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The Moho depth, crustal thickness and fault systems of the East Vietnam Sea (EVS) are determined by 3D interpretation of satellite gravity. The Moho depth is calculated by 3D Parker inversion from residual gravity anomaly that is obtained by removing the gravity effects of seafloor and Pre-Cenozoic sediment basement topographies from the free air anomaly. The 3D inversion solution is constrained by power density spectrum of gravity anomaly and seismic data. The calculated Moho depths in the EVS vary from 30–31 km near the coast to 9 km in the Central Basin. A map of the lithosphere extension factor in the Cenozoic is constructed from Moho and Pre-Cenozoic sediment basement depths. The fault systems constructed by the maximum horizontal gradient approach include NE-SW, NW-SE, and N-S oriented faults. Based on the interpretation results, the EVS is sub-divided into five structural zones which demonstrated the different characteristics of the crustal structure. 相似文献