冲绳海槽地区地壳结构与岩石层性质研究

用冲绳海槽地区地质、地球物理、地球化学数据与资料，对横跨大陆边缘—大洋板块的中国东部—冲绳海槽—琉球岛弧地区进行综合研究. 根据地震体波、面波成像结果，空间与布格重力异常及磁力异常的综合解释等结果，利用调和系数法对该研究区的地壳厚度进行了计算，并对地壳属性进行分析. 同时，选择中国东部东北地区的宽甸、华北地区的汉诺坝、华南的闵溪和台湾海峡的澎湖列岛与冲绳海槽和日本岛弧的新生代玄武岩开展元素—同位素对比研究. 结果认为冲绳海槽岩石层明显减薄，上地幔低速层已达到莫霍面，在地幔中已形成交代软流层. 元素—同位素研究表明：它不同于中国东部，与琉球岛弧地区的特点也不相同. 综合分析认为：冲绳海槽地壳属于过渡型地壳，与大洋地壳的许多特点颇为相似.     

应用重力资料估算东海冲绳海槽地壳厚度

利用东海地区的重力资料,并参考在该地区进行的地震测深结果,应用线性公式估算了研究区的地壳厚度,分析了研究区地壳结构特征,根据与中国东部地球物理场、地壳结构的对比,指出东海大陆架地区应是中国大陆的自然延伸.对冲绳海槽的地壳性质进行了探讨,指出冲绳海槽应该为东海大陆架的自然终结.     

应用重力资源估算东海冲绳海槽地壳厚度

利用东海地区的重力资源，并参考在该地区进行的地震测深结果，应用线性公式估算了研究区的地壳厚度，分析了研究区地壳结构特征，根据与中国东部地球物理场、地壳结构的对比，指出东海大陆架地区应是中国大陆的自然延伸，对冲绳海槽的地壳性质进行了探讨，指出冲绳海槽应该为东海大陆架的自然终结。     

巧家地区区域地球物理场与深部构造

本文根据巧家所属川滇交界地区的重大、航磁、爆破地震及大地电磁测深资料，对该地区深部断裂构造的空间展布及其相互关系和地壳结构进行了较详细的分析研究，为地震工程和地震的预测预报，提供了重要的深部地质构造资料。     

东北地区重磁场与地壳结构特征

分析了东北地区的重、磁场特征,同时对研究区的布格重力异常和航磁异常据进行了小波分析计算.根据分析与计算可知,东北地区重力场以北东走向为主,表现出该地区重力场的主要趋势.根据磁场的分布特征,可将研究区分为六个区域:呼和浩特以北磁场相对平静区;赤峰一带正负磁场交互变化区;海拉尔以南磁场缓变区;齐齐哈尔—依春磁场剧烈变化区;长春—沈阳负磁场平缓区;牡丹江—丹东磁场区.利用重力资料,应用调和级数法对研究区的莫霍界面进行了反演计算,得到了该地区莫霍界面深度分布.根据磁力资料采用遗传算法反演计算了研究区居里界面的深度分布.同时对研究区的地壳结构特征进行了探讨.     

冲绳海槽海底结构的地球物理调查

冲绳海槽位于东中国海的东部,琉球群岛之西,NE—NEE弧形走向,是西太平洋内弧盆体系中一个典型的弧后盆地。据作者计算,冲绳海槽莫霍面深度在15—23公里深处,属过渡型地壳。海槽的南、北段,在地壳结构、海底热流和火山作用等方面都有差异。南段地壳薄不超过17公里,热流值高一般大于3HFU,火山作用显著,构造破坏和地形起伏都较大。严格说来,冲绳海槽的南段才是构造定义的海槽(即弧后盆     

东海冲绳海槽地质地球物理调查回顾与研究现状

系统介绍了国内外对东海海域的地质地球物理调查历程与研究状况，并对国内外学者的有关东海冲绳海槽地壳性质的主要观点及结论进行了分析对比和归纳，希望能对今后东海及邻近地区的地质地球物理研究工作起到借鉴作用。     

冲绳海槽中段火山岩系Sr和Nd同位素地球化学特征及其地质意义

冲绳海槽中段广泛发育基性至酸性火山岩岩石系列 .各类火山岩的平均Sr同位素87Sr/86Sr分别为 0 70 4749,0 70 5 0 6 2 ,0 70 8771,0 70 4840和 0 72 0 30 1;平均Nd同位素比值143 Nd/144 Nd分别为 0 5 12 82 0 ,0 5 12 6 73,0 5 12 413,0 5 12 72 9和0 5 12 0 34 .Sr,Nd同位素比值完全落在MORB岩浆和流纹质岩浆二端员混合的理论双曲线上 .推断冲绳海槽中段不同类型的火山岩是在海槽地壳形成和演化的不同阶段 ,MORB岩浆同化了早已存在的壳源物质而产生的流纹质部分熔体以不同比例与MORB混合而后喷发的产物 ,揭示了冲绳海槽正从大陆裂谷进入海底扩张阶段     

第二届中韩黄海及邻域地质与地球物理场特征研讨会简评

由中国科学院地质与地球物理研究所和韩国公州大学联合承办的第2届中韩黄海及邻域地质与地球物理场特征研讨会于2004年9月15—16日在中国北京圆山大酒店举行．约30名中外代表(其中韩方代表9人)共聚一堂,对黄海及邻域地质与地球物理场特征进行了多方面的探讨,会议气氛热烈友好,取得了共识。     

由反射和广角地震数据得到的冲绳海槽最南端的地质构造

在冲绳海槽进行的天然地震实验期间,用海底地震仪记录到了两条反射剖面的数据。这两条剖面上均用3台海底地震仪,长度都约为65km,位于冲绳海槽轴线的西南部。对这些反射地震数据的处理反映了沉积单元的最新改变。两条剖面的广角地震数据的正演模拟揭示出有1～2km厚的沉积层上覆在声学基底之上,其特征是地震波速在3.2km/s～3.5km/s之间。只有一个剖面可以模拟地壳厚度,并确定为10km左右,向着南部的琉球岛弧方向增厚。使用重力模拟对两条剖面都进行了附加的约束,特别是对剖面1的深部构造进行了约束。     

Seismicity and stress field in Okinawa Trough and Ryukyu regions

（黄培华）（苏维加）（陈金波）ＳｅｉｓｍｉｃｉｔｙａｎｄｓｔｒｅｓｓｆｉｅｌｄｉｎＯｋｉｎａｗａＴｒｏｕｇｈａｎｄＲｙｕｋｙｕｒｅｇｉｏｎｓ￥Ｐｅｉ－ＨｕａＨＵＡＮＧ；Ｗｅｉ－ｊｉａＳＵａｎｄＪｉｎ－ＢｏＣＨＥＮ（ＤｅｐａｒｔｍｅｎｔｏｆＥａｒｔｈａ...     

Variations in late Quaternary upper ocean structure of Okinawa Trough: A nannofossil approach

The relative abundance ofFlorisphueru profunda, a calcareous nannofossil species in lower euphotic zone, affords an opportunity to study variations in upper ocean structure such as thickness of mixed layer. As revealed by the nannofossil analysis in sediments since 20 ka B. P. from three Okinawa Trough cores, the percentage ofF. profunda increased significantly from glacial to Holocene, with a declining event ca 4 ka B. P. in its southern part. Its downcore trend is similar to that ofPulleniatina obliquiloculuta, a tropical planktonic foraminifera1 species which lives in subsurface water below thermocline in the modern ocean. Their similar variations imply an eastward shift of the Kuroshio Current, a reduction in thickness of the mixed layer, a shallowing of thermocline and a possible increase of turbidity in the upper ocean during the glaciation. The eastward shift of the Kuroshio might be repeated again about 4 ka B.P. Project supported by the National Natural Science Foundation of China (Grant Nos. 49776289 and 49406067)     

冲绳海槽地震海啸的数值试验研究

在分析东海水深与地震情况基础上,我们认为冲绳海槽地震具有引发海啸的条件,并对该区海啸传播过程采用单侧破裂方式的有限移动源模型和高阶Boussinesq方程做了一维有限差分法数值模拟,给出了海啸传播过程波形和速度变化图.我们从模拟结果得到初步结论:冲绳海槽特大地震海啸传播到上海近海在5小时后,近海波高在几十厘米范围内.     

Benthic foraminifera and bottom water evolution in the middle-southern Okinawa Trough during the last 18 ka

Changes of the deep-water circulation and chemicalcompositions in related water masses in the oceanshave played a significant role in the evolution of theglobal climate system[1].Many studies have shownthat the characteristics of the deep-water during theglaciations were distinctly different from that of to-day[2,3].In the northern Pacific,Duplessy et al.[4]foundthat the ventilation of the deep-water(at water depthbetween700―2600m)during the last glaciation wasstronger than that of today,and …     

Sr, Nd isotope geochemistry of volcanic rock series and its geological significance in the middle Okinawa Trough

There exists extensive basic-acidic volcanic rock series in the middle section of the Okinawa Trough. Different types of these volcanic rocks have their own average strontium ratios of 0.704 749, 0.705 062, 0.708 771, 0.704 840 and 0.720 301 with average¹⁴³Nd/¹⁴⁴Nd ratios of 0.512 820, 0.512 673, 0.512 413, 0.512 729 and 0.512 034. These ratios of Sr and Nd isotopes all fall on a theoretic hyperbolic curve of mixing between two end-members of MORB and rhyolitic magma. So we infer that these different kinds of volcanic rocks in the middle Okinawa Trough are the erupted product in different stages of formation and evolution of the trough crust. MORB magma, which had suffered assimilation, mixed with the early-formed crust-derived rhyolitic partial melt mass at different ratios; then, these mixed magma erupted and formed volcanic rock types of the trough. This study indicates that the Okinawa Trough is coming into a stage of submarine spreading from the stage of continental rift.     

Isotopic feature and uranium dating of the volcanic rocks in the Okinawa Trough

1 Introduction The Okinawa Trough(OT) extends for ~1200 km between Taiwan and Kyushu, and is an incipient back-arc basin bounded by the Ryukyu Arc to the south and east, and by Diaoyudao Uplift Belt[1,2] (Tai- wan-Sinzi Belt[3]) to the north and west. Drastic faults and volcanic activities are the typical features in the OT. Generally, the OT is divided into three segments (north, middle and south) by the Tokara Strait and Kerama Gap[4]. The geological features, such as tec- tonics, m…     

Element enrichment and U-series isotopic characteristics of the hydrothermal sulfides at Jade site in the Okinawa Trough

The geochemical and U-series isotopic characteristics of hydrothermal sulfide samples from the Jade site (127°04.5′E, 27°15′N, water depth 1300–1450 m) at Jade site in the Okinawa Trough were analyzed. In the hydrothermal sulfide samples bearing sulfate (samples HOK1 and HOK2), the LREEs are relatively enriched. All the hydrothermal sulfide samples except HOK1 belong to Zn-rich hydrothermal sulfide. In comparison with Zn-rich hydrothermal sulfides from other fields, the contents of Zn, Pb, Ag, Cd, Au and Hg are higher, the contents of Fe, Al, Cr, Co, Ni, Sr, Te, Cs, Ti and U lower, and the ²¹⁰Pb radioactivity ratios and ²¹⁰Pb/Pb ratios very low. In the hydrothermal sulfide mainly composed of sphalerite, the correlations between rare elements Hf and U, and Hf and Mn as well as that between dispersive elements Ga and Zn, are strongly positive; also the contents of Au and Ag are related to Fe-sulfide, because the low temperature promotes enrichment of Au and Ag. Meanwhile, the positive correlations between Fe and Bi and between Zn and Cd are not affected by the change of mineral assemblage. Based on the ²¹⁰Pb/Pb ratios of hydrothermal sulfide samples (3.99×10⁻⁵-5.42×10⁻⁵), their U isotopic composition (²³⁸U content 1.15–2.53 ppm, ²³⁸U activity 1.07–1.87 dpm/g, ²³⁴U activity 1.15–2.09 dpm/g and ²³⁴U/²³⁸U ratio 1.07–1.14) and their ²³²Th and ²³⁰Th contents are at base level, and the chronological age of hydrothermal sulfide at Jade site in the Okinawa Trough is between 200 and 2000 yr. Supported by the Pilot Project of Knowledge Innovation Project, Chinese Academy of Sciences (Grant No. KZCX2-YW-211), National Natural Science Foundation of China (Grant Nos. 40830849, 40176020), and Special Foundation for the Eleventh Five Plan of COMRA (Grant No. DYXM-115-02-1-03)     

喜马拉雅“东构造结”地区的特异重力场与深部地壳结构

跨越中、印、缅三国交界的喜马拉雅“东构造结”地区（92°E～97°E，26°N～30°N）有一半以上的面积尚没有重力测点，是重力数据空白区,故无法直接研究其重力场特征与深部地壳结构（构造）.本文应用卫星重力异常资料作为近似空间重力异常，经计算给出的布格重力异常，其特征与该地区的地形高程呈很好的镜像相关.据此得到该区不同方位的3个地壳深部结构剖面.重力异常反演求得青藏高原地壳厚度>70 km；喜马拉雅造山带为55 km左右；布拉马普特拉河谷盆地为33～35 km；那加山山脉地区为40～45 km，即呈现出3个不同构造单元的展布.同时求得“东构造结"区由高密度的刚性物质构成，在印度洋板块的碰撞、挤压作用下呈向北运移，并插入青藏高原东缘.基于这样的构造格局和深层动力过程，导致了青藏高原东南缘和东北缘的强烈构造运动，大、小地震的频频发生和矿产资源的聚集.