基于重力资料的南海及邻区断裂分布特征研究

断裂构造作为重力异常一个非常重要的解释成果,它与能源和矿产资源勘查、构造单元划分和大地构造分区有着密切的联系.有些地质界线以断裂为界,有些能源或矿产资源与断裂伴生.本文利用重力异常,采用归一化总水平导数垂向导数（NVDR-THDR）断裂识别方法推断了南海及邻区主要断裂平面分布位置,首次采用重力异常曲率属性方法反演了南海及邻区主要断裂视深度.在南海及邻区推断断裂57条,其中一级断裂14条,二级断裂43条;断裂走向以NE和NW向为主,其次为NEE、NWW和NNE向以及NNW、EW和近SN向;一级断裂长度大部分为600~1400 km,二级断裂长度大部分为400~900 km;断裂视深度约为2~10 km,其中一级断裂视深度大部分为2~10 km,二级断裂视深度大部分为2~8 km.该研究成果可以为南海及邻区油气勘探、矿产资源勘探以及基础地质研究提供依据.

     

南海磁性基底分布特征的地球物理研究

利用南海最新的磁力资料,在岩石物性分析基础上,选择南海一条典型剖面拟合反演其密度与磁性结构并以拟合结果作为约束,反演全海域磁性基底的宏观分布.对南海磁力数据进行了低纬度化极处理,利用Halo小波基对化极磁异常进行了多尺度分析并依据磁力异常特征进行了磁场分区.根据剖面与全海域磁性基底反演结果认为：南海北部陆缘更倾向于非火山型的构造属性.磁性基底对浅部沉积作用的控制关系在莺歌海一带表现得非常明显.中—西沙和南沙块体的磁性基底特征十分相似,推测在海盆拉张之前,二者为同一块体.     

南海地球物理场特征及基底断裂体系研究

南海海域主体可划分为南海北缘、中西沙、南沙南海海盆四块，各块具有明显不同的重磁场特征。反演得到的莫霍面总体趋势由陆向洋抬升，反映陆壳、拉伸陆壳、过渡壳、洋壳的分布。东沙高磁异常含一定的高频成份，与新生代玄武岩及中生代岩浆岩有关，而其低频成份可能反映了发育的下地壳高速层，南海海域断裂极为发育，可分为北东向断裂组、东西向断裂组、北西向断裂组和南北向断裂组，南海北缘、南缘均以北东向张性断裂与北西向张剪性、剪性断裂为主要格架，形成了、南北分带、东西分块”构造格局。     

黄海及邻区莫霍面起伏特征

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.     

南海及邻区地壳上地幔三维S波速度结构的面波波形反演>.

对南海及邻区中国数字地震台网４个台站接收到的328条长周期地震记录的面波波形进行分块波形反演．分块波形反演把大尺度的优化问题转化为小尺度的优化问题，采用非线性优化方法求解，从而得到南海及邻区22网格划分、从地表深至430ｋｍ 的地壳上地幔三维S波速度结构，并用检验板法进行了分辨率分析．结果表明，海域、岛弧和大陆在速度分布、岩石圈和软流圈存在明显的结构差异．      

南海地球物理场特征与基底断裂体系研究

南海海域主体可划分为南海北缘、中西沙、南沙、南海海盆四块,各块具有明显不同的重磁场特征.反演得到的莫霍面总体趋势由陆向洋抬升,反映陆壳、拉伸陆壳、过渡壳、洋壳的分布.东沙高磁异常含一定的高频成份,与新生代玄武岩及中生代岩浆岩有关,而其低频成份可能反映了发育的下地壳高速层.南海海域断裂极为发育,可分为北东向断裂组、东西向断裂组、北西向断裂组和南北向断裂组.南海北缘、南缘均以北东向张性断裂与北西向张剪性、剪性断裂为主要格架,形成了"南北分带、东西分块"构造格局.     

南海西沙海槽盆地重磁资料综合研究

本文综合利用广州海洋地质调查局历年来在中国南海西沙海域采集的重、磁、震资料,结合前人研究成果.采用了场源边缘识别、磁性体顶面埋深欧拉反演以及重、磁、震剖面联合反演等技术.针对西沙海槽盆地岩浆岩分布、重大断裂、深部构造等进行了综合研究.研究结果表明,盆地内岩浆岩主要形成于印支期和燕山期,大部分分布于盆地断阶带上;识剐出了NE向和EW向两组断裂.二者分别从北部和中部横贯盆地;盆地磁性基底埋深在6.0~12.6km之间。整体上呈"中部深、南北浅"的特征;西沙海槽盆地的莫霍面埋深在19~26 km之间,呈现出"南北深中部浅"的拉张裂谷特征.本文研究获取了西沙海槽盆地的基础地质构造特征.可深化盆地地质构造背景的认识,为该盆地下一步的油气工作提供基础研究资料.     

渭河盆地及邻区现今地壳形变及构造特征研究

基于2009—2014年渭河盆地及邻区GPS资料,利用Shen提出的连续形变场与应变场计算方法,获得渭河盆地及邻区的水平形变场及应变率场,结合构造地质、地震目录等资料对渭河盆地及邻区的现今地壳形变及构造特征进行研究,并得到如下结论:(1)鄂尔多斯地块南缘西段和东段GPS形变场变化差异明显,六盘山—陇县—宝鸡断裂带形变场...     

基于背景噪声的宁夏及邻区瑞利波层析成像

In this article,the vertical components of the continuous waveform data of 90 seismic stations in Ningxia and its adjacent regions recorded from January 2012 to December 2013 are used to obtain the Rayleigh surface wave group velocity dispersion images in the study area( 101°- 112°E,31°-42°N) according to the method of noise imaging,with period between 6s - 50s and resolution of 0.5°. The Yinchuan basin in the 6s - 26 s period obviously shows a low velocity anomaly,which is not uniform and has a tendency to gradually weaken; the Guanzhong Basin in 6 s-22s shows a strip of low velocity anomaly and demonstrates a transverse inhomogeneity,where velocity in the southeast is slightly faster than that in the northwest. In the 30s - 50s period it shows that in the Yinchuan graben basin and its southern area,there is a large low velocity anomaly area,which moves from northeast to southwest. It shows that between the main active tectonic zones,like mountains and basins,there are obvious geomorphologic boundaries. For example,the deep fault near Liupan Mountain is the dividing line between two large tectonic units of eastern and western of China. The inversion results have good correlation with the geological structure and the stratigraphic landform. The results are consistent with the results of artificial seismic section tomography across the basin. It provides an important basis for the dynamics of active tectonic zones and the mechanism of earthquake occurrence in this area.     

江西北部及邻区地震活动特征

利用不同时间尺度、不同震级下限的资料,分析了江西北部及邻区的地震活动时空分布特点。结果显示：本区地震活动成组现象明显．中强地震前中短期阶段的地震学异常特征主要表现为地震空区、地震条带或中等地震集中增强区。未来数年内本区还有可能发生中强地震,目前应当高度重视区域的震情发展趋势。     

南海深部构造特征及其地质意义:来自重磁位场反演的认识

莫霍面和居里面是认识深部过程重要的地质与地球物理界面.为了进一步理解南海深部构造活动与洋盆扩张的关系,本文以OBS剖面和深反射地震剖面作为约束,对卫星测高重力异常进行海水、沉积层影响校正,采用最小曲率位场分离方法消除局部密度体的重力影响,获取了反映莫霍面起伏的重力异常,并利用双界面模型重力场快速反演方法计算得到了南海地区莫霍面深度值.通过与居里面起伏的对比研究,发现南海莫霍面和居里面整体均表现为"洋盆浅、周缘深"的菱形特征,两者在洋陆转换区呈现明显的窄梯级带特征,反映了南海扩张期岩石圈的强烈伸展减薄、南北向构造拉张作用等深部构造过程.洋盆莫霍面和居里面的西南向楔形形态是对南海由东向西渐进式扩张的深部构造响应.洋盆南部莫霍面浅于北部,这与扩张中心逐渐向南迁移的特征一致,而洋盆居里面南深北浅的特征则可能与洋盆的简单剪切扩张方式以及洋盆北部的岩浆活动更活跃有关.南海地区莫霍面和居里面呈现交错叠置关系,南、北陆缘表现为明显的深部构造差异,说明南海为非对称式扩张.北部陆缘区居里面深度浅于莫霍面,而洋盆区和南部陆缘区居里面深于莫霍面,这与南、北陆缘性质的差异和南部陆缘复杂的中-新生代俯冲碰撞等构造演化相关,而洋盆区居里面深于莫霍面的现象推测与大洋上地幔橄榄岩蛇纹石化导致的岩石磁性增强有关.     

Texture and tectonic attribute of Cenozoic basin basement in the northern South China Sea

Based on the drilling data,the geological characteristics of the coast in South China,and the interpretation of the long seismic profiles covering the Pearl River Mouth Basin and southeastern Hainan Basin,the basin basement in the northern South China Sea is divided into four structural layers,namely,Pre-Sinian crystalline basement,Sinian-lower Paleozoic,upper Paleozoic,and Mesozoic structural layers.This paper discusses the distribution range and law and reveals the tectonic attribute of each structural layer.The Pre-Sinian crystalline basement is distributed in the northern South China Sea,which is linked to the Pre-Sinian crystalline basement of the Cathaysian Block and together they constitute a larger-scale continental block—the Cathaysian-northern South China Sea continental block.The Sinian-lower Paleozoic structural layer is distributed in the northern South China Sea,which is the natural extension of the Caledonian fold belt in South China to the sea area.The sediments are derived from southern East China Sea-Taiwan,Zhongsha-Xisha islands and Yunkai ancient uplifts,and some small basement uplifts.The Caledonian fold belt in the northern South China Sea is linked with that in South China and they constitute the wider fold belt.The upper Paleozoic structural layer is unevenly distributed in the northern South China.In the basement of Beibu Gulf Basin and southwestern Taiwan Basin,the structural layer is composed of the stable epicontinental sea deposit.The distribution areas in the Pearl River Mouth Basin and the southeastern Hainan Basin belong to ancient uplifts in the late Paleozoic,lacking the upper Paleozoic structural layers.The stratigraphic distribution and sedimentary environment in Middle-Late Jurassic to Cretaceous are characteristic of differentiation in the east and the west.The marine,paralic deposit is well developed in the basin basement of southwestern Taiwan but the volcanic activity is not obvious.The marine and paralic facies deposit is distributed in the eastern Pearl River Mouth Basin basement and the volcanic activity is stronger.The continental facies volcano-sediment in the Early Cretaceous is distributed in the basement of the western Pearl River Mouth Basin and Southeastern Hainan Basin.The Upper Cretaceous red continental facies clastic rocks are distributed in the Beibu Gulf Basin and Yinggehai Basin.The NE direction granitic volcanic-intrusive complex,volcano-sedimentary basin,fold and fault in Mesozoic basement have the similar temporal and spatial distribution,geological feature,and tectonic attribute with the coastal land in South China,and they belong to the same magma-deposition-tectonic system,which demonstrates that the late Mesozoic structural layer was formed in the background of active continental margin.Based on the analysis of basement structure and the study on tectonic attribute,the paleogeographic map of the basin basement in different periods in the northern South China Sea is compiled.     

南海前新生代残留盆地分布综合地球物理研究

为了对南海海域的前新生代残留盆地分布有个整体而全面的认识,本文开展了南海残留盆地宏观分布的综合地球物理研究.通过岩石物性分析,综合重、磁、震等地球物理方法,利用正演与反演方法,分区计算并求取了南海的重力基底和磁性基底埋深,得到了中生界及前中生界残余厚度,给出了整个南海前新生代残留盆地的宏观格架与残余厚度分布特征并讨论了前新生代油气前景.研究结果表明南海东北部的东沙隆起和潮汕坳陷、台西南盆地和北港隆起、南部的礼乐滩地区等应具有较好的前新生代油气资源潜力.     

Source and distribution of lead in the surface sediments from the South China Sea as derived from Pb isotopes

Rapid economic development in East Asian countries has inevitably resulted in environmental degradation in the surrounding seas, and concern for the environment and its protection against pollutants is increasing. Identification of sources of contaminants and evaluation of current environmental status are essential to environmental pollution management, but relatively little has been done in the South China Sea (SCS). In order to investigate the abundance, distribution, and sources of Pb within the SCS, stable Pb isotopes and their ratios were employed to assess the contamination status and to differentiate between natural and anthropogenic origins of Pb in the surface sediments. The total Pb concentrations in sediments varied from 4.18 to 58.7 mg kg⁻¹, with an average concentration of 23.6 ± 8.9 mg kg⁻¹. The observed Pb isotope ratios varied from 18.039 to 19.211 for ²⁰⁶Pb/²⁰⁴Pb, 15.228 to 16.080 for ²⁰⁷Pb/²⁰⁴Pb, 37.786 to 39.951 for ²⁰⁸Pb/²⁰⁴Pb, 1.176 to 1.235 for ²⁰⁶Pb/²⁰⁷Pb, and 2.468 to 2.521 for ²⁰⁸Pb/²⁰⁷Pb. The majority of these ratios are similar to those reported for natural detrital materials. Combined with Pb enrichment factor values, our results show that Pb found within most of the SCS sediments was mainly derived from natural sources, and that there was not significant Pb pollution from anthropogenic sources before 1998. Further studies are needed to reconstruct deposition history and for trend analysis.     

菲律宾海板块与南海协同构造演化探讨

菲律宾海板块(Philippine Sea Plate,PSP)与南海(South China Sea,SCS)处于欧亚板块、太平洋板块和澳大利亚板块的交汇区域,其构造演化对东南亚、西太平洋乃至全球板块构造重建具有重要意义.虽然PSP和SCS的构造演化模型已经分别建立,但二者之间的协同演化关系还不明确.本文综述了PSP和SCS的古地磁数据、海底磁异常条带资料,并结合地震层析成像以及其他地质结果的约束,对二者的演化关系进行了探讨.PSP四国盆地与SCS在渐新世开始时,受控于统一的地球动力学系统,两者具有地质意义上的亲缘性.早中新世,澳大利亚板块与东南亚地块碰撞,致使PSP发生旋转,四国盆地开始与SCS发生分离,并逐渐向北运动和顺时针旋转,直至演化至现今位置.本文最后提出了这种协同构造演化模式有待解决的问题以及未来的研究展望.

     

南海夏季风爆发与南大洋海温变化之间的联系

利用1979-2009年NCEP第二套大气再分析资料和ERSST海温资料,分析南海夏季风爆发时间的年际和年代际变化特征,考察南海夏季风爆发早晚与南大洋海温之间的联系.主要结果为:(1)南海夏季风爆发时间年际和年代际变化明显,1979-1993年与1994-2009年前后两个阶段爆发时间存在阶段性突变;(2)南海夏季风爆发时间与前期冬季(12-1月)印度洋-南大洋(0-80°E,75°S-50°S)海温、春季(2-3月)太平洋-南大洋(170°E -80°W,75°S-50°S)海温都存在正相关关系,当前期冬、春季南大洋海温偏低(高)时,南海夏季风爆发偏早(晚).南大洋海温信号,无论是年际还是年代际变化,都对南海夏季风爆发具有一定的预测指示作用;(3)南大洋海温异常通过海气相互作用和大气遥相关影响南海夏季风爆发的迟早.当南大洋海温异常偏低(偏高)时,冬季南极涛动偏强(偏弱),同时通过遥相关作用使热带印度洋-西太平洋地区位势高度偏低(偏高)、纬向风加强(减弱),热带大气这种环流异常一直维持到春季4、5月份,位势高度和纬向风异常范围逐步向北扩展并伴随索马里越赤道气流的加强(减弱),从而为南海夏季风爆发偏早(偏晚)提供有利的环流条件.初步分析认为,热带大气环流对南大洋海气相互作用的遥响应与半球际大气质量重新分布引起的南北涛动有关.     

Tectono-thermal modeling of the Yinggehai Basin,South China Sea

Based on the observed data, the average value of surface heat flow in the Yinggehai Basin is calculated and it turns out to be 84.1 mW/m². The thermal evolution of the basin since the Cenozoic era has been attempted by tectono-thermal modeling. Three-phase extension made the basin become hotter and hotter, reaching its climax in paleo-temperature history since 5.2 Ma. And nowadays, the basin is in the heat flow decreasing period. During the Cenozoic era, the basement heat flow remained at 50–70 mW/m² all the time. This is related to the degree of each extension phase, stretching rate mode and also the limited basin scale. Modeling results also show that, the surface heat flow is controlled mainly by the basement heat flow, and less than 20% comes from radiogenic heat production in the sediments of the basin     

利用反射地震和多波束资料研究南海西北部麻坑的结构特征与成因

麻坑通常是由海底流体逸散形成的一种海底表面的残留地貌.本文所研究的区域主要位于南海的西北部,包括琼东南盆地的西南部和中建南盆地的中北部.该区域海底表面主要覆盖细粒沉积物,并且底流活动强烈,底流水道发育,为麻坑的形成和发育提供了有利条件.麻坑发育的主要因素是流体逸散系统,本文通过反射地震资料在本区发现了断层、气烟囱、泥火山、泥底辟、声空白/声混浊、强反射等多种与流体逸散相关的指示特征.麻坑的几何特征随着区域的不同会有较大变化.首先本区麻坑的尺寸跨度较大,与底流水道伴生的麻坑和广乐隆起的麻坑表面宽度通常是几十米到数百米,其他区域麻坑的表面宽度通常可达数千米,被称为巨型麻坑.其次本区麻坑的表面形态复杂多样,有圆形、椭圆形、新月形、环形等.各种不同的形态有可能指示了麻坑的不同发育阶段,新月形麻坑可能发育程度较低,其次是环形,圆形则相对较为成熟.据此推断发育程度较低的新月形麻坑有可能是活动麻坑,而地震海洋学的资料也倾向于证实这一点.