共查询到20条相似文献,搜索用时 125 毫秒
1.
南海重力异常特征及其显著的构造意义 总被引:1,自引:0,他引:1
在南海地区地震测深数据有限的情况下,利用重力异常可以研究南海大范围的深部地壳结构及地质构造展布特征。基于空间重力异常,结合最新的地形、沉积物厚度及地震测深等数据,分别从地震约束的莫霍面反演和无约束的三维相关成像两个视角研究南海的地壳结构,利用壳幔界面起伏、地壳厚度及三维等效密度分布来探讨地壳结构的纵横向变化。同时,联合采用延拓、水平梯度及线性构造增强滤波方法聚焦重力异常中的区域线性特征,突出显示了反映地壳横向变化的深断裂、洋陆转换边界、海盆扩张轴等线性构造的展布。重力解释与贯穿南海南北的广州-巴拉望地学断面对比表明,重力异常反演及异常的区域线性特征,较好地揭示了南海海域大范围的地壳结构与区域构造展布。 相似文献
2.
南海北部陆缘地壳结构特征及其构造过程 总被引:5,自引:0,他引:5
根据“北部湾大陆缘地壳结构PS转换波测深”等地球物理测量结果,本文研究了南海北部陆缘的地壳结构特征,讨论了其白垩纪以来的构造过程。地球物理测量表明,由陆向海,南海北部陆缘地壳由陆壳、过渡壳变为洋壳,厚度由34km减薄至8km左右。垂向上地壳为3层结构模式。陆壳、过渡壳和洋壳的下地壳P波速度普遍较高。地壳伸展系数的计算表明南海北部陆缘伸展主要发育于陆坡地区。结合区域地质研究,本文认为:南海北部陆缘及 相似文献
3.
The newly acquired long-cable multi-channel seismic (MCS) lines were used to study the crustal structure and extension in an NW-SE elongated 150 km by 260 Van strip from the slope to the deepsea basin in the northern South China Sea (SCS).These profdes are of good penetration that Moho is recognizable in ~70% length of the lines.Seismostrattgraphic interpretation and time-depth conversion were conducted.A power function D = atb+ c was used in the time-depth conversion,which avoided the under-or over-estimation of the depths of deep-seated interfaces by cubic or quadratic polynomial functions.Contour maps of basement depth,Moho depth,crustal thickness,and crustal stretching factor were obtained for the study area.In the dip direction,the Moho depth decreases stepwisely from 28 km in the outer shelf southwards to 19,15,and 12 km in the deepsea basin,with ramps at the shelf break,lower slope,and the continent ocean boundary (COB),respectively.Accordingly,the crustal thickness decreased southwards from 3,and 7 km spectively.Under the center of the Balynn (白云) sag,the crust thins significantly to < 7 kin.The crustal stretching factor βc was calculated by assuming the original crust thickness of 30 km.In the centers of the Baiyun sag,βc exceeds 5.Tertiary and Quaternary volcanic activities show a general trend of intensifying towards the COB.An important finding of this study is the along-strike variation of the crustal structure.A Moho rise extends from the COB NW-ward until the shelf break,about 170 km long and 50-100 km wide,with Moho depth < 20 kin.This is called the Balyun Moho Nose,which is bounded to the east,west,and north by belts of high Moho gradients indicative of crustal or even lithospheric faults.The doming of Moho in the nose area might he the cause of the W-E segmentation of the crustal and geological structures along the slope of the northern South China Sea,and the cause of the strong crustal stretching in the Baiyun and Liwan (荔湾) sags. 相似文献
4.
对南海南部地壳结构研究有助于揭示南海完整的演化历史。本研究对南海南部获取的两条多道地震剖面进行了地震 解释,并对重力数据进行了壳幔密度反演。其中 NH973-1 测线始于南海西南次海盆,覆盖了南沙中部的北段;NH973-2 测 线始于南海东部次海盆,穿越礼乐滩东侧。反演结果显示,莫霍面埋深在海盆区 10~11 km,陆缘区 15~21 km 左右,洋壳向 陆壳莫霍面深度迅速增加。海盆区厚度在 6~7 km,为典型的洋壳;陆缘区地壳厚度在 15~19 km,为减薄型地壳。进一步研 究表明(1)在西南次海盆残余扩张脊之下,莫霍面比两侧略深;(2)在礼乐滩外侧海盆区有高值重力异常体,推测为洋壳与深 部岩浆混合的块体;(3)南沙区域上地壳存在高密度带,且横向上岩性可能变化。南海南部陆缘未发现有下地壳高速层,有 比较一致的构造属性和拉张样式,为非火山型陆缘。我们对两条测线陆缘的伸展因子进行了计算,发现上地壳脆性拉伸因 子与全地壳拉伸因子存在差异,其陆缘的拉张模式在纵向上是不均匀一的。 相似文献
5.
南海东北部深部地壳结构蕴含着南海陆缘伸展张裂过程的重要信息。在南海东北陆缘布设的一条广角地震测线(DP13)沿NW-SE方向依次穿过东沙隆起和台西南盆地。本文利用射线追踪和正演走时拟合软件RayInvr构建地壳纵波速度结构,模型表明:沉积层速度1.6~4.6 km/s,厚度0.5~3.8 km,横向分布不均匀,沉积基底起伏剧烈;莫霍面埋藏深度由陆架区的25.5 km急剧减小到陆坡下方的13 km,随后向下陆坡远端增深至16 km;陆架处东沙隆起下方地壳厚度从~25 km减薄到~21 km,下陆坡远端地壳厚约10~13 km,地壳拉张因子分别为1.3~1.5和2.6~3.1,表现为轻微和中等减薄;陆坡区台西南盆地内地壳厚度从17 km急剧减薄至7~8 km,地壳拉张因子高达4.6,呈超伸展减薄;地壳厚度由陆向海非单调减薄,地壳伸展具有明显的空间差异性;陆架-上陆坡和下陆坡下地壳底部发现两个相对孤立的不连续高速体,速度分别为7.0~7.5 km/s和7.0~7.3 km/s,厚度分别3~5 km和1~3 km,前者位于古太平洋俯冲带前缘,几乎与南海东北部高磁异常重叠,推测由中生代古太平洋板... 相似文献
6.
东海磁场特征的初步研究 总被引:2,自引:0,他引:2
东海磁场区域上呈现“东西分带、南北分块”的格局,根据磁场特征,自西向东可分为六个磁场区,为东海区域构造分区提供了地球物理场依据。东海磁场特征主要反映了上地壳的构造特征。本文结合东海断面重磁曲线的拟合成果,讨论了东海地壳结构、块体对接等问题。我们认为东海基底是晚中生代后由不同块体在不同时代对接而成,由西向东基底年代越来越新,地壳结构也由典型的陆壳过渡到典型的洋壳。 相似文献
7.
Fan Zhang Xubo Zhang Weiwei Ding Tingting Wang Jian Zhu 《International Geology Review》2020,62(7-8):840-858
ABSTRACT We investigated the oceanic crustal structure and lithospheric dynamics of the South China Sea (SCS) basin through a comprehensive analysis of residual gravity anomaly and bathymetry combined with seismic constraints and interpretation from geodynamic modelling. We first calculated the residual mantle Bouguer anomaly (RMBA) of the oceanic crustal regions of the SCS by removing from free-air gravity anomaly the predicted gravitational attractions of water-sediment, sediment-crust, and crust-mantle interfaces, as well as the effects of lithospheric plate cooling, using the latest crustal age constraints including IODP Expedition 349 and recent deep-tow magnetic surveys. We then calculated models of the gravity-derived crustal thickness and calibrated them using the available seismic refraction profiles of the SCS. The gravity-derived crustal thickness models correlate positively with seismically determined crustal thickness values. Our analysis revealed that the isochron-averaged RMBA are consistently more negative over the northern flank of the SCS basin than the southern conjugate for magnetic anomaly chrons C8n (~25.18 Ma) to C5Dn (~17.38 Ma), implying warmer mantle and/or thicker crust over much of the northern flank. Computational geodynamic modelling yielded the following interpretations: (1) Models of asymmetric and variable spreading rates based on the relatively high-resolution deep-tow magnetic analysis would predict alternating thicker and thinner crust at the northern flank than the southern conjugate, which is inconsistent with the observed systematically thicker crust on the northern flank. (2) Models of episodic southward ridge jumps could reproduce the observed N-S asymmetry, but only for crustal age of 23.6–20 Ma. (3) Southward migration of the SCS ridge axis would predict slightly thinner crust at the northern flank, which is inconsistent with the observations. (4) Models of higher mantle temperatures of up to 25–50°C or >2% less depleted mantle sources on the northern flank could produce large enough anomalies to explain the observed N-S asymmetries. 相似文献
8.
利用面波层析技术分析了该区地壳上地幔的三维构造。地壳上层的速度分布具有以海域中心为轴,东西两侧对称的特点,总体呈NE向展布,同结晶基底的构造对应良好。东海与黄海的构造差异主要表现在下地壳与上地幔,分别与华北和华南的速度结构相同。从杭州湾到吐噶喇海峡(大约沿30°N纬线)存在一条近EW走向的上地幔高速带。东海与黄海在地貌与地质、地震活动、大地热流、品质因数和重磁异常等方面存在系统性的差异,这与早第四纪从杭州湾到吐噶喇海峡出现的左旋剪切破裂以及贝尼奥失带的右旋撕裂有关。作者推断:东海是新生代弧后扩张作用而形成的;大巴-大别山南麓-杭州湾-吐噶喇海峡是华北与华南地壳块体的分界线,琉球海沟的消减带是华南地壳块体的东界;东亚的现代构造运动,主要与太平洋板块、印度板块和上地幔的运动有关,而菲律宾板块的俯冲对中国大陆的作用较小。 相似文献
9.
西沙地块是南海岩石圈地壳拉伸减薄过程中发育于深水区的陆块,其保存了陆缘演化的重要信息。文章研究以西沙地块作为研究对象,基于研究区地质和地球物理资料,开展了地壳结构、盆地构造—地层分析和断层活动特征等研究。研究发现,西沙地块与其周缘的凹陷地壳结构具有显著的差异,西沙地块地壳厚度较大,发育了高角度断层控制的小型断陷盆地,基底断层活动一直可持续到T60地震界面发育时(~23 Ma);而西沙地块周缘发育的是规模较大的拆离断层及其控制的强烈减薄陆壳。结合区域动力学事件,研究认为渐新世早期拆离断层在南海西北次海盆的活动导致了西沙地块北部的岩石圈地壳的减薄,而中新世早期拆离断层在南海西南次海盆构造位置的活动使西沙地块与南沙地块分离。文章研究成果不仅深化了西沙地块裂解规律的认识,而且对该区的油气勘探具有启示意义。 相似文献
10.
渤海海底地震仪探测试验及初步成果 总被引:4,自引:0,他引:4
利用大容量气枪枪阵震源和海底地震仪在渤海首次开展人工地震深部地球物理探测试验。本次试验布设一条NWW-SEE向垂直构造走向的勘测线,共投放海底地震仪51台,回收成功50台。试验结果和数据分析表明,所使用的枪阵有足够的能量输出,海底地震仪记录震相丰富,可识别到Ps,Pg,PmP,Pn等多种震相。初至波层析成像结果表明,9 km以上地层速度结构存在明显的横向不均匀性,渤中地区新生代沉积基底埋深5~6 km,结晶基底埋深约9 km,郯庐断裂带内存在"U"型下凹的相对低速体并有向下切割的趋势。此次试验是我国在渤海深部探测中的成功示范,有效填补了渤海海域深地震测深数据的空白,为渤海深部地壳结构研究及含油气盆地形成演化研究提供了重要的基础资料。 相似文献
11.
12.
Refraction data taken from ocean bottom seismograph recordings in the western Arafura Sea indicate a continental‐type structure for the region. This structure is characterised by a thin column (2 km) of sediments, with velocities ranging from about to 2 to 4 km s‐1, overlying an essentially two layer crust. The compressional wave velocities in the upper and lower crust are 5.97 and 6.52 km s‐1, respectively, with the boundary between the layers at a depth of 11 km. Very weak mantle‐refracted arrivals with a velocity of about 8.0 km s‐1 were recorded. Large‐amplitude, later arrivals, beginning at distances near 100 and 150 km, have been interpreted to be part of the retrograde branches from the 8.0 and 7.33 km s‐1 layers, respectively. Model studies indicate that a small positive velocity gradient is required between 17 and 30 km, and that the Moho is at a depth of 34 km. A third set of large amplitude, later arrivals starting at a distance near 250 km has been interpreted as most probably multiple refraction‐reflection arrivals from the 5.97 and 6.52 km s‐1 layers. Correlation of this structure with the stratigraphic logs from exploratory oil wells in the Arafura Sea using layer velocities indicates that rocks younger than Jurassic appear to thin towards the east. 相似文献
13.
ABSTRACT A typical diachronous breakup developed in the South China Sea (SCS); the breakup has been unequivocally identified, and gradually decreases in age from NE to SW. To illustrate the influence of a diachronous breakup on hydrocarbon accumulation, we used seismic profiles from CNOOC, and analysed crustal extension characteristics, sedimentary style and source rock accumulation. The main conclusions are as follows: (1) Because of the diachronous breakup in the SCS, various tectonic units developed in different positions on the northern continental margin with different degrees of extension. The Pearl River Mouth Basin (PRMB) is closer to the central sea basin of the SCS and has been affected by regional tension stress for a longer time. Tectonic units of proximal domain, necking zone, and distal margin types developed, and the crust structure thinned from the land towards the sea. The Qiongdongnan Basin (QB) is closer to the Southwest Sub-basin. There are symmetrical proximal domains on the southern and northern sides of the QB, with a necking zone in the central part. It presents as an abandoned passive continental margin. (2) The PRMB exhibited rifted cells first, followed by canyon type extensional faulting and horizontal axial transportation, and then by a longitudinal shelf-slope sedimentary style. But the QB has only rifted cells and canyon type faulting stages, no longitudinal shelf-slope sedimentary stage. The major source rocks in the northern SCS become younger from east to west, and the sedimentary facies change from lacustrine facies to marine-continental transitional facies. (3) The diachronous breakup process ultimately affecting oil and gas migration and accumulation process. The PRMB is dominated by deep-water shelf break accumulation with deep-water fan reservoir bodies. The QB is dominated by canyon type accumulation with channels. 相似文献
14.
Litian Hu Peizhen Zhang Tianyao Hao Yuntao Tian Dongli Zhang 《International Geology Review》2020,62(7-8):1081-1093
ABSTRACT The relationships in ocean depth and heat flow with crustal age place valuable constraints on the thermal evolution of the oceanic lithosphere. This work aims to establish the relationships for the V-shaped Southwest Subbasin, the southwestern end of the South China Sea formed during 23.6–16 Ma. Using high-resolution multichannel seismic profiles and heat flow measurements, we calculate sediment-corrected topography and heat flow, which are then plotted against crustal age to establish their relationships. The results show that the post-spreading volcanism in the South China Sea influences less on the present-day heat flow than topography. In addition, the topography data are evidently deeper and heat flow data are much lower in the Southeast Asian marginal seas than other oceans. Previous explanation suggested that the abnormal features resulted from lateral heat loss, which would predict a deeper lithosphere–asthenosphere boundary and a high slope in topography and heat flow with age, contrary to the observations. Possible explanations for the abnormal features of the Southeast Asian marginal seas include (1) lack of long-time upwelling magma at the onset of spreading, and (2) reduced magma supply during the seafloor spreading. 相似文献
15.
Haibo Huang Enyuan He Xuelin Qiu Jianke Fan Xunhua Zhang 《International Geology Review》2020,62(7-8):1070-1080
ABSTRACT We construct a complete density transection based on the velocity structures across the Zhongsha Bank in the South China Sea. Gravity modelling of the lateral density contrasts between tectonic units helps us to determine the structural attributes and boundaries between continental blocks and deep basins. The configuration of the continent–ocean boundary (COB) around the Zhongsha Bank is mapped based on the gravity/magnetic anomaly and crustal structures. A low-density mantle is found beneath the Zhongsha Bank and the oceanic basins, and this mantle is associated with the high heat-flow background. The COB orientation is northeast-east in the north of the bank, with faulted linear structures. In further southeast, where there is a more intact crust, the COB orientation changed to north-northeast. The reconstructed density model and gravity/magnetic map indicate that the Zhongsha Bank is conjugated with the Liyue Bank by a rifted basin, where the crust had experienced localized deformation before the seafloor spreading. Because of the insufficient magmatism in the oceanic basin, the spreading ridge propagates into the weakened continental lithosphere between the two continental blocks, thus completely separating the Zhongsha Bank from the Liyue Bank. Seafloor spreading ridge jumps within the South China Sea may also be affected by the heterogeneous lithosphere beneath the continental blocks and oceanic basins. 相似文献
16.
黑潮与毗邻陆架海域的碳交换 总被引:2,自引:0,他引:2
作为沟通陆架边缘海与开放大洋的北太平洋西边界流,黑潮对毗邻中国陆架海域碳循环有着不可忽视的影响。分析总结了黑潮与毗邻陆架海域海水中溶解有机碳(DOC)、颗粒有机碳(POC)、溶解无机碳(DIC)和颗粒无机碳(PIC)分布与交换的现有研究成果。分析表明,黑潮通过表层水涡旋、入侵以及次表层以下水体上涌等形式携碳进入毗邻陆架海域。在黑潮与毗邻陆架海域,DOC和POC的分布受生物活动、水团混合以及沉积物—水界面相互作用的共同影响,表层与陆架水中含量较高,DIC受海水碳酸盐体系平衡影响,表层含量低于底层,在陆架海域与上升流区有高值,PIC含量较低。在台湾东北海域,DOC,POC和DIC由东海陆架海域向黑潮有净输出,输出量分别为2 431×109,1 051×109和21 733×109mol C/a,PIC通过陆架源悬浮颗粒物向黑潮主流输送,通量为1 852×109mol C/a。DOC,POC和PIC由南海经吕宋海峡向黑潮有净输出,输出量分别为2 652×109,1 009×109和230×109mol C/a,但DIC由黑潮向南海有净输出,通量为13 005×109mol C/a。台湾海峡碳循环受黑潮输运的影响,但影响机制及过程至今并不清楚。因此,黑潮与毗邻陆架海域的碳交换过程研究还有若干重大科学问题亟待解决,尚需深入系统的研究。 相似文献
17.
目前的勘探成果表明,南海北部到东海南部的广阔海域普遍发育中生代地层,但是除了在台西南盆地发现工业油气藏之外,其他地区的中生界尚未有大的勘探突破。本次研究将中生代南海北部—东海南部作为一个整体,开展大地构造背景分析,厘清各构造时期盆地的性质及其形成演化机制,探讨油气资源潜力。结果表明:南海北部—东海南部从晚三叠世到白垩纪整体为一个大型盆地,盆地的演化受其周围板块相互运动所控制;晚三叠世(T3)主要受特提斯构造域控制,发育被动陆缘边缘海沉积盆地;从早侏罗世(J1)到早白垩世均受古太平洋板块(伊泽奈崎板块)向欧亚板块俯冲机制的控制,其中早—中侏罗世(J1-2)发育弧前坳陷盆地,晚侏罗—早白垩世(J3—K1)盆地性质为弧后断陷盆地;晚白垩世(K2)受太平洋板块、欧亚板块和印度板块的联合控制,性质依然为弧后断陷盆地,与前期相比,裂陷强度加大;海水由东南方向侵入,地层垂向上由海相向陆相逐渐过渡,由东南向西北和东北方向,水体逐渐变浅,亦由海相向陆相逐渐演变;中生界在南海北部潮汕坳陷等地区发育深海相和海湾相泥岩,在东海南部基隆坳陷也发育良好的海湾相泥岩,生烃潜力大,具有形成大型油气藏的物质基础和地质条件,勘探潜力巨大。本次研究结果可以为南海北部—东海南部中生界的油气资源勘探提供依据。 相似文献
18.
为了进一步理解南海地区前新生代的构造演化过程,明确古南海构造属性及其与特提斯和古太平洋构造域的关系,通过对古南海遗迹(蛇绿岩、蛇绿混杂岩以及俯冲增生带)的研究,结合周围陆区地质及古生物资料,将古南海的演化划分为4个阶段。①古特提斯残留海阶段(T1-T2):古南海是在早-中三叠世的古特提斯残余海基础上发展而来,与古特提斯残余海是一个连续的演化过程。②古太平洋边缘海阶段(T3):晚三叠世,由于古特提斯洋的全面关闭,古南海主要受古太平洋的影响。③中特提斯与古太平洋叠加影响阶段(J-K1):早侏罗世,古南海开始扩张,并受中特提斯和古太平洋叠加影响;晚侏罗世,南沙地块向华南大陆开始漂移,古南海进一步强烈扩张。④俯冲消亡阶段(K2末期-E):晚白垩世,南沙地块开始裂离华南大陆,古南海开始向南俯冲;至始新世,伴随着新南海的扩张,古南海加速消亡于巽他地块之下,并在南海南部地区形成了卢帕尔线蛇绿岩带以及一系列的俯冲增生带。 相似文献
19.
南海北部中生界是南海海域进一步油气勘探的新领域和新层系。对于中生界的形成演化背景与分布特征一直广受关注,南海北部的地质地球物理调查研究成果揭示, 该区与华南东部陆区分块明确,其边界是珠外-台湾海峡断裂带和丽水-海丰-琼东南断裂带。由此划分的南海北缘-台湾地块与南华活动区有亲缘关系,即可视为南华活动区的组成部分,其形成演化过程与华南加里东构造旋回密切相关。南海北部陆缘区与华南东部陆区在加里东造山期所遗留的古缝合带和地壳分块性仍不同程度影响区内中、新生界的发育特征,南海东北部出现大套海相海陆交互相上三叠统-下侏罗统、上侏罗统-下白垩统和上白垩统-始新统见证了这一现象。 相似文献
20.
尽管南海已进行深入的调查与研究,提出多种成因模型,包括挤出模型、弧后扩张模型、古南海俯冲拖曳模型等,但因其所处构造位置特殊,周边构造环境经历了复杂的改造,所有成因模式均未能得到广泛的认可。本文从三大板块相互作用入手,结合南海实测数据,提出南海形成的弧后扩张—左旋剪切模型。认为南海是古南海往北俯冲的弧后盆地,菲律宾海板块往北漂移形成的大规模左旋走滑是南海扩张的触发因素。印度—欧亚碰撞产生中南半岛挤出主要影响西南海盆扩张方向,使得扩张轴从近东西向转为北东向。南海及邻区晚中生代以来的演化可以分为以下阶段:1)早白垩世开始澳大利亚板块往北漂移,新特提斯洋往北俯冲消亡,导致弧后扩张,形成古南海;2)晚白垩世末—始新世,古南海往北俯冲,导致弧后拉张形成陆缘裂谷;3)早渐新世,受菲律宾海板块西缘大型左旋走滑影响,在原有裂谷的基础上从东往西海底扩张,形成南海;4)渐新世末,受俯冲后撤的影响,扩张中心往南跃迁,同时受西缘断裂左旋活动的影响,扩张轴从近东西西逐步转为北东向;5)早中新世晚期,南沙地块—北巴拉望地块与卡加延脊碰撞,南海扩张停止。 相似文献