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1.
Chile is a very important country that forms part of the Andean metallogenic belts. The Atacama and Domeyko fault systems in northern Chile control the tectonic–magmatic activities that migrate eastward and the types of mineral resources. In this paper, we processed and interpreted aeromagnetic data from northern Chile using reduction to pole, upward field continuation, the second derivative calculation in the vertical direction, inclination angle calculation, and analytical signal amplitude analysis. We revealed the locations and planar distribution characteristics of the regional deep faults along the NNE and NS directions. Furthermore, we observed that the major reasons for the formation of the tectonic–magmatic rocks belts were the nearly parallel deep faults distributed from west to east and multiple magmatic activities along these faults. We ascertained the locations of volcanic mechanisms and the relationships between them using these regional deep faults. We deduced the spatial distributions of the basic–intermediate, basic, and acidic igneous rocks, intrusive rocks, and sedimentary sequences. We showed the linear positive magnetic anomalies and magnetic anomaly gradient zones by slowly varying the background, negative magnetic anomaly field, which indicated the presence of strong magmatic activities in these regional deep faults; it also revealed the favorable areas of copper and polymetallic mineralization. This study provides some basic information for further research on the geology, structural characteristics, and mineral resource prospecting in northern Chile. 相似文献
2.
Deep crustal structures of eastern China and adjacent seas revealed by magnetic data 总被引:5,自引:0,他引:5
Through reduction to the North Pole and upward continuation of the total field magnetic anomalies, we analyze magnetic patterns
and spatial distributions of different tectonic blocks and crustal faults in eastern China and adjacent seas. Depths to the
Curie isotherms are further estimated from radially averaged amplitude spectra of magnetic data reduced to the pole. Data
reductions effectively enhance boundaries of regional tectonic belts, such as the Dabie ultra-high metamorphic belt, the Tanlu
Fault, and the Diaoyudao Uplift. Curie depths are estimated at between 19.6 and 48.9 km, with a mean of 31.7 km. The Subei
Basin and the south Yellow Sea Basin in the lower Yangtze block show relatively deep Curie isotherms, up to about 35 km in
depth, whereas in the surrounding areas Curie depths are averaged at about 25 km. This implies that the lower Yangtze Block
has experienced a unique tectonic evolution and/or has unique basement lithology and structures. From a regional perspective,
sedimentary basins, such as the Subei Basin, the south Yellow Sea Basin, and the East China Sea Basin, normally show deeper
Curie isotherms than surrounding uplifts such as the Diaoyudao Uplift and the Zhemin Uplifts. Curie isotherms also upwell
significantly in volcanically active areas such as the Ryukyu Arc and the Cheju Island, confirming strong magmatic and geothermal
activities at depth.
Supported by National Natural Science Foundation of China (Grant Nos. 40776026 and 40876022) and National Basic Research Program
of China (Grant No. 2007CB411702) 相似文献
3.
通过对东海陆架盆地西部地震和重磁资料的综合地球物理解释,对雁荡低凸起展布形态进行了细致刻画,凸起呈NE方向不连续展布于瓯江凹陷和闽江凹陷之间,长约170 km、宽约15~50 km.地震资料揭示雁荡低凸起上广泛发育了侏罗纪与白垩纪地层,厚度约为500~1500 m,展布面积约5000 km2,局部缺失中生界地层.凸起两侧中生代盆地结构差异明显,西侧瓯江凹陷为典型的断陷盆地,东断西超、断裂发育,半地堑、掀斜断块等中生界构造样式发育;东侧闽江凹陷为坳陷型盆地,断裂、火成岩不发育,挤压背斜、断背斜、反转构造等中生界构造样式发育.自由空间重力异常图与剩余重力异常图上,凸起表现为一系列NE向团块状重力高值区,而磁力异常ΔT图上则表现为深部磁场强度低的特征,火成岩影响部位可见磁力高值异常.综合凸起及邻域重磁震、莫霍面深度等地质地球物理资料,认为雁荡低凸起为一元古界组成的古隆起,区别于东部的台北低凸起.同时,结合区域构造演化及沉积特征,推测侏罗纪时期雁荡低凸起与浙闽隆起区可能连为一体,晚白垩世近东西向伸展作用下浙闽隆起发生裂陷进而形成了雁荡低凸起. 相似文献
4.
根据美国地球物理数据中心的地磁场模型(NGDC-720),研究云南地区地壳磁异常的空间变化,包括磁异常及其梯度的分布、磁异常随高度的衰减、不同波长成分对总体磁异常的贡献.比较磁异常与重力异常、大地热流、地震活动等地球物理信息的异同特征,探讨地壳磁异常与地质构造的关系.研究结果表明:丽江—小金河、红河断裂带以西的三江、滇西造山带的异常较弱,菱形地块的异常相对较强.研究区域的地壳磁异常主要是弱磁性基底背景下叠加的浅源磁性体产生.卫星磁异常显示滇中坳陷区具有清晰的偶极场特征.沿红河断裂带分布的正负磁异常带与断裂构造走向一致.围限菱形地块的丽江—小金河断裂、红河断裂、康定—奕良—水城断裂和弥勒—师宗—水城断裂带是磁异常的强弱过渡带.强烈地震发生的地点、大地热流值高的地区,地壳磁异常为负值或相对较弱. 相似文献
5.
为满足中国海岸带海陆统筹调查的需求,基于最新编制的中国北部海岸带(台州以北)1:50万航磁图件,利用逐点化极、延拓、垂向导数等数据位场转化处理,结合地质背景、物性资料和已有航空物探解释成果,对研究区磁场特征进行分析,分区探讨航磁异常成因,并编制北部海岸带(台州以北)断裂分布图。结果表明,海岸带地区磁性较强的岩石广泛发育,以NE—NNE向为主的线性磁异常带是大量中新生代中酸性岩浆岩的反映,而区域性团块状磁异常或宽缓正负磁异常则为区域变质岩系的反映。研究区断裂发育,断裂展布方向基本以NE向、NNE向为主,NW向次之,其中深大断裂对区域构造、岩浆活动等有明显的控制作用。本研究编制的北部海岸带航磁"一张图"作为质量可靠的基础数据,可为解决海岸带基础环境和地质问题提供丰富的地球物理信息。依据航磁资料划分的断裂,解决了特殊地理环境下海陆断裂不衔接的问题,实现了断裂海陆统筹的目标,可为海陆交互区重大工程规划提供安全性评价依据。 相似文献
6.
D.I. Gough 《Physics of the Earth and Planetary Interiors》1973,7(3):379-388
Analytic procedures in classical geomagnetic deep sounding and in two-dimensional magnetometer array studies are outlined. Three types of magnetic variation anomaly are considered, and anomalies of one geographical area. Continental-edge anomalies remain somewhat ambiguous as to the contribution of structure in the upper mantle; the geophysical significance in geothermal terms is understood, if the effect exists. Subduction-zone anomalies in the Peruvian Andes and in central Japan are considered in relation to the ascent of an andesitic melt fraction from the lithosphere slab, a process which accounts also for uplift and support of the mountains. In western North America anomalies are closely related to heat flow and indicate complex tectonic activity with considerable fine structure in general agreement with seismological parameters. The Basin and Range Province has a highly conductive upper mantle and still higher conductivities are found under the Wasatch fault belt and under the southern Rockies. Under the northern Rockies the evidence is for only a thin conductive layer in the upper mantle and in general for much lower heating than in mid-latitudes of the United States. Crustal anomalies are discussed in relation to the current concentration effect. It is suggested that some of them may mark metamorphic belts in crystalline basement rocks. This association has been demonstrated for the North American Central Plains anomaly. 相似文献
7.
Tectonic evolution of the ultrahigh-pressure (UHP) and high-pressure (HP) metamorphic belts from central China 总被引:28,自引:0,他引:28
Abstract In the Triassic suture between the Sino-Korean and Yangtze cratons, the Dabie metamorphic Complex in central China includes three tectonic units: the northern Dabie migmatitic terrane, the central ultrahigh-P coesite- and diamond-bearing eclogite belt, and the southern high-P blueschist-eclogite belt. This complex is bounded to the north by a north-dipping normal fault with a Paleozoic accretionary complex and to the south by a north-dipping reverse fault with Yangtze basement plus its foreland fold-and-thrust sequence. Great differences in metamorphic pressure suggests that these units reached different depths during metamorphism and their juxtaposition occurred by wedge extrusion of subducted old continental fragments. These units were subsequently subjected to (i) Barrovian type regional metamorphism and deformation at shallow depths; (ii) intrusion of Cretaceous granitic plutons; and (iii) doming and segmentation into several blocks by normal and strike-slip faults. A new speculative model of tectonic exhumation of UHP rocks is proposed. 相似文献
8.
Abstract Several linear magnetic anomalies over continental crust have been identified in and around the Japanese Islands. The anomalies are probably related to island arc tectonic structures, but identifying specific sources has been difficult. Several deep holes were drilled in and around Aso caldera, where a linear anomaly occurs along an active fault. One drillhole located on the linear anomaly encountered a zone of highly magnetized and altered basement rocks at least 100 m thick at a depth of ∼1000 m. The other hole was located away from the anomaly and did not encounter any high-magnetic zones. Rocks from the zone have exceptionally strong remanent magnetization (several tens of A/m) sub-parallel to the present field. AF demagnetization experiments indicated that the magnetization is hard and stable. Magnetic modeling indicates that the linear anomaly is caused mainly by this layer. Microscopic examination of core samples shows that the highly magnetized zone includes secondary magnetic minerals and abundant hydrothermal alterations. Temperatures determined by fluid inclusions and down-hole temperatures show that the temperature of the highly magnetized zone was elevated in the past relative to surrounding rocks. The high temperature could destroy primary magnetic minerals and replace them with secondary magnetic minerals. Thus, the past hydrothermal system may have enhanced thermo-chemical remanent magnetization. The results can produce a model indicating that there was a past hydrothermal system related to the tectonic structure. 相似文献
9.
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
10.
— Large seafloor relief, shallow metamorphic basement, and seismic activity in the California Continental Borderland combine to produce major submarine slides capable of generating local tsunamis. The Catalina Schist basement complex of the Borderland contains melange units, faults between metamorphic facies, and foliation derived from a history of deep subduction underthrusting and subsequent tectonic exhumation along regional low-angle fault systems. Neogene volcanic and sedimentary rocks covered the exhumed metamorphic basement forming an interface with a strong contrast in material properties. Neogene transtensional block-faulting formed steep escarpments that cut through and elevated the low-angle detachment surface, providing slip surfaces with free faces susceptible to failure along the rheological boundary. Two basement-involved slope failure examples west of San Diego are described, including large block-glides and progressive rotational slumps along the steep northeast-facing Thirtymile Bank escarpment and along the southwest flank of Fortymile Bank. 相似文献
11.
The Median Tectonic Line (MTL) is a first‐order tectonic boundary that separates the Sanbagawa and Ryoke metamorphic belts. Documented large‐scale top‐to‐the‐north normal displacements along this fault zone have the potential to contribute to the exhumation of the Sanbagawa high‐pressure metamorphic belt. Fluid inclusion analyses of vein material formed associated with secondary faults within the Sanbagawa belt affected by movement on the MTL show normal movement was initially induced under temperatures greater than around 250°C. Microstructures of quartz and K‐feldspar comprising the vein material suggest a deformation temperature of around 300°C, supporting the results of fluid inclusion analyses and suggesting deformation at depths of around 10 km. The retrograde P–T path of the Sanbagawa metamorphic rocks and the estimated isochore of the fluid inclusions do not intersect. The semi‐ductile structures of surrounding rocks and lack of evidence for hydrothermal metamorphism around the veins imply the temperature of the rocks was similar to that of the fluid. These observations suggest fluid pressure of the veins was lower than lithostatic pressure close to the MTL. 相似文献
12.
华北克拉通中东部基底构造单元的重磁特征 总被引:10,自引:2,他引:8
系统收集并重新处理了华北克拉通中东部的重磁资料,利用处理结果,结合近年来华北克拉通前寒武纪结晶基底构造研究的进展,重新将华北克拉通中东部划分为2个一级重磁异常单元和7个二级重磁异常单元;重点描述了7条分划性断裂的重磁特征,特别指出中国东部重力梯度带正是华北克拉通中部带的集中表现,而郯庐断裂带和兰考~聊城~盐山~台安-大洼断裂带是燕山期陆内不同刚性块体调整的重要边界,所以也是重磁特征的变异带.据此,对华北克拉通断裂与构造单元的重磁异常特征赋予了新的地质意义.研究表明,华北克拉通现今的地球物理特征能够反映结晶基底构造,其原因是华北克拉通现今构造格局是中新生代构造继承结晶基底构造的结果. 相似文献
13.
Pedro Del Río Antonio Casas Juan J. Villalaín Tania Mochales Ruth Soto Belén Oliva-Urcia 《Studia Geophysica et Geodaetica》2013,57(3):442-459
Outstanding potential field anomalies (gravimetric and magnetic) in the Cameros Basin (N Spain) follow a WNW-ESE trend, parallel to the geological structures resulting from Mesozoic extension and Tertiary basin inversion. The positive Bouguer gravity anomaly (15 mGal) is interpreted as the result of a strong contrast between the density of Tertiary rocks of the foreland basin and the Paleozoic and Mesozoic rocks, combined with crustal thickening in the Iberian Chain with respect to the Ebro Basin. The dipolar magnetic anomaly, slightly shifted to the south with respect to the relative maximum of the Bouguer anomaly, can be interpreted as related to volcanic rocks within the basement, which are linked to Triassic rifting as witnessed by outcrops of basalts along the basin margins. An exhaustive analysis of rock properties (density, magnetic susceptibility and remanence) and basin geometry from other sources (seismic reflection profiles) allow to constrain variations in crustal thickness and the location of large-scale basement faults. 相似文献
14.
南黄海盆地是在前古生代变质基底及中-古生代海相沉积基底之上发育起来的中-新生代陆相叠合盆地.本文基于南黄海深部地学探测的主动源地震数据(OBS2013测线),通过多尺度层析成像方法利用初至波走时反演得到测线下方沉积层的纵波速度结构,结合多道地震、重、磁等资料,综合分析南黄海盆地北部沉积地层的特征.结果表明,OBS2013测线下方的地层纵、横向上有多个速度分界面,纵向上以印支面为界,下部挤压与上部伸展地层速度分别呈现高、低速特征;横向上表现为众多断裂,断裂控制了盆地发育,个别断裂发生走滑.断裂将速度剖面划分为四个纵波低速区和五个高速区,6km深度以内纵波速度的低值区(<4.5km·s-1)是中-新生代沉积地层;而高值区(>5km·s-1)归属于不同的形成机制:北部高速区对应千里岩隆起区的变质岩,中部高速区是被挤压的海相沉积地层,南部高速区属于中部隆起,为埋藏较浅、但厚度较大的中、古生代海相地层,部分位置可能含有火成岩.北部坳陷的中、南部区域,在陆相中-新生代沉积盆地之下的海相地层中发育砂岩,该区域(埋深不超过6km)的砂岩沉积分布于约2km厚度的地层中. 相似文献
15.
Magnetic anomalies can help reveal the structure of the upper crust in regions with intermediate or basic igneous rocks, and their continuity is essential to determine the position of crustal faults. The southwestern Iberian Peninsula constitutes the foreland of the Betic Cordillera and is characterized by an elongated E-W dipole extending 200 km toward its external zones. The anomaly is related to the outcropping Monchique Alkaline Complex, characterized by rocks of moderate magnetic susceptibility (0.029 SI) intruding into the metapelitic host rock of the South Portuguese Zone. Analysis of aeromagnetic and field magnetic anomalies serves to constrain the geometry of this laccolith. Toward the east, the magnetic dipole has a 60 km long N-S sharp boundary that coincides with the southern part of the Guadiana River. Field magnetic and gravity anomalies confirm the presence of this structure. It is produced by a sharp step in the elongated anomalous body, with an E downthrown block, interpreted as the offset produced by a deep N-S crustal fault—the Guadiana Fault. Therefore, the Guadiana River has three long linear segments near its mouth, locally coinciding with a N-S trending joint set, that support the presence of this major fault. To date, no evidence of this tectonic discontinuity, coinciding with the Spanish-Portuguese border, has been reported. Magnetic research is essential for understanding the structure of wide regions intruded by intermediate and/or basic igneous rocks. 相似文献
16.
D.C. Mishra 《Earth and Planetary Science Letters》1977,36(2):301-308
Geophysical data contiguous with the Narmada-Son lineament suggests its possible extension westward into the Arabian Sea and eastward up to the Shillong Plateau. The airborne magnetic anomaly map of the north Arabian Sea delineates a linear trend of magnetic anomalies in line with the Narmada-Son lineament. This group of magnetic anomalies, spreading over 20°N to 22°N, starts near the west coast of India at 21°N, 69°30′E and extends to the Murray Ridge. The tectonic feature represented by this group of magnetic anomalies is buried by a thick layer of sediments. This westward extension of the lineament is also reflected in the average Bouguer gravity anomaly map of the Indian Ocean. Towards the east, the gravity and magnetic data delineate a subsurface linear tectonic feature which extends in line with this lineament to the eastern syntaxial bend. These various geophysical signatures further suggest the lineament to be a typical rift-like structure. The tectonic implications of the lineament, which extends from the western to the eastern margins of the Indian plate, is discussed. 相似文献
17.
Raj Kumar A.R. Bansal S.P. Anand V.K. Rao Upendra K. Singh 《Geophysical Prospecting》2018,66(1):226-239
The Central Indian region has a complex geology covering the Godavari Graben, the Bastar Craton (including the Chhattisgarh Basin), the Eastern Ghat Mobile Belt, the Mahanadi Graben and some part of the Deccan Trap, the northern Singhbhum Orogen and the eastern Dharwar Craton. The region is well covered by reconnaissance‐scale aeromagnetic data, analysed for the estimation of basement and shallow anomalous magnetic sources depth using scaling spectral method. The shallow magnetic anomalies are found to vary from 1 to 3 km, whereas magnetic basement depth values are found to vary from 2 to 7 km. The shallowest basement depth of 2 km corresponds to the Kanker granites, a part of the Bastar Craton, whereas the deepest basement depth of 7 km is for the Godavari Basin and the southeastern part of the Eastern Ghat Mobile Belt near the Parvatipuram Bobbili fault. The estimated basement depth values correlate well with the values found from earlier geophysical studies. The earlier geophysical studies are limited to few tectonic units, whereas our estimation provides detailed magnetic basement mapping in the region. The magnetic basement and shallow depth values in the region indicate complex tectonic, heterogeneity, and intrusive bodies at different depths, which can be attributed to different thermo‐tectonic processes since Precambrian. 相似文献
18.
S.W. Garrett R.G.B. Renner J.A. Jones K.J. McGibbon 《Earth and Planetary Science Letters》1987,81(2-3)
Linear belts 50–100 km in width of long-wavelength positive magnetic anomalies exceeding 500 nT are observed on continental blocks of the Scotia arc. The most developed is the West Coast Magnetic Anomaly which may be traced for more than 1300 km along the Antarctic Peninsula. Comparison of magnetic profile data after low-pass filtering and reduction to pole reveals a striking similarity between the individual anomaly belts. Correlation of the anomalies with positive gravity anomalies, seismic refraction data and geology indicates that the sources are linear batholiths intruded during Mesozoic/Cenozoic subduction. The anomaly belts are truncated at the block margins reflecting Cenozoic fragmentation of a cuspate convergent margin. An early Cenozoic reconstruction, based on the assumption that the batholiths once formed a continuous curvilinear feature, shows a good alignment of Mesozoic strato-tectonic terrains and is compatible with the known history of Scotia Sea opening. 相似文献
19.
Dabie Orogen has a series of special tectonic and geological features which make it important to the study of the tectonic evolution of mainland China and East Asia. The distribution of high pressure/ultra-high pressure metamorphic rocks discovered on the surface, the specific location of a series of deep and shallow sutures in the collisional convergence collage, and the seismogenic environment of shallow earthquakes attract many scientists continuously to study the interesting Dabie Orogen.
In this paper, we used waveform records of 200 broadband seismic stations deployed by China Digital Seismograph Network and vertical component records of 21 mobile seismic stations located in the Dabie-Tanlu orogenic zone and its surrounding areas. Based on seismic ambient noise tomography, we have obtained the phase velocity distributions of Rayleigh surface wave with the periods between 8~40s, with the resolution higher than 50km. The high velocity anomalies are observed on the Hong'an-Tongbo region in the images of 8~16s phase velocity, which decreases with increasing periods. These high velocity anomalies are in consistence with the ultra-high pressure(UHP)metamorphic rocks of the region. It leads us an estimation of the extension of UHP metamorphic rocks at various depths. The distribution of these anomalies found in phase velocity maps of 8s to 16s indicates that the estimated depth is up to~20km. The horizontal distribution forms a heart shape, which is narrower on western side and wider on the eastern side. It is very much consistent with the surface observations. The whole shape is similar to a cone that laterally extends its wings on the southwest. It indicates that the high-pressure/ultra-high pressure metamorphic rocks had experienced quick exhumation after they broke and formed a drag at the tail, and the residual area formed by the fast exhumation was likely to be invaded by magma. We agree that it has experienced complex structural history, such as stretching, magmatic emplacement and tectonic extrusion, resulting in the high-pressure/UHP metamorphic rocks finally exhuming on the surface with the structural pattern of narrower on the western margin and wider on the eastern margin in the Hong'an-Tongbo area.
The significant phase velocity difference from the period of 8s to 35s on both sides of the southern Tanlu fault zone enables us to infer that the Tanlu fault zone is a deep and huge fault, and the entire crust of the eastern zone of Dabie was cut by the Tanlu fault zone. It demonstrates that the Dabie block is separated from the northern Subei Basin and southern Yangtze blocks, which forms a seismogenic environment suitable for the generation of small-to-intermediate earthquakes in this region. Most of earthquakes in Anhui and adjacent provinces are distributed in those areas where the phase velocities changed dramatically, which are in consistence with the small faults of the upper crust in shallow layers of the Dabie-Tanlu orogenic belt. The shallow-source earthquakes mainly occur in velocity contrast regions, as demonstrated by the short period images. Earthquakes distribution and velocity maps show that the possible distribution of tiny faults of the upper crust can be roughly inferred from the geological structure. It helps to understand the seismogenic environment and seismic hazard in the Dabie areas. We conclude that the shallower faults with different velocity on either side of this region are still seismically active. These results have important significance for understanding the tectonic activity of the research areas.More detail work and further discussion are needed on the velocity structure of the Dabie orogen. 相似文献
20.
The continental crust is exposed in cross-section at numerous sites on the earth's surface. These exposures, which appear to have formed by obduction along great faults during continental collision, may be recognized by exposures of deep crustal rocks exhibiting asymmetric patterns of metamorphic grade and age across the faults and by distinctive Bouguer anomaly patterns reflecting dipping basement structure and an anomalously deep mantle. From an examination of five complexes which meet these criteria, it is concluded that the most prominent layering in the crust is not compositional but metamorphic. The lower crust consists of granulite facies rocks of mafic to intermediate composition while the intermediate and shallow levels consist predominantly of amphibolite facies gneisses and greenschist facies supracrustal rocks, respectively. Post-metamorphic granitic intrusions are common at intermediate to shallow levels. Position of discontinuities in refraction velocity, where present, commonly correspond to changes in composition or metamorphic grade with depth. The continental crust is characterized by lateral and vertical heterogeneities of varying scale which are the apparent cause of the complex seismic reflections recorded by COCORP. Field observations, coupled with geochemical data, indicate a complex evolution of the lower crust which can include anatexis, multiple deformation, polymetamorphism and reworking of older crustal material. The complexity of the crust is thus the result of continuous evolution by recycling and metamorphism through time in a variety of tectonic environments. 相似文献