冲绳海槽中段线性磁条带异常及其构造发育

通过对磁场分析发现,冲绳海槽中段存在线性磁异常,说明海槽轴部地壳已经发生破裂,新鲜洋壳已经生成,目前已进入扩张阶段.通过对磁条带和地震地层的研究得出如下结论:冲绳海槽的张裂具有Ⅲ幕模式,即中到晚中新世的开裂幕(Ⅰ幕)、上新世—早更新世的拉张幕(Ⅱ幕)以及近代的扩张幕(Ⅲ幕).冲绳海槽中段的地磁场特征和已发生扩张的红海中段的磁场非常相似,说明冲绳海槽可能正向着“红海阶段”过渡发展.     

冲绳海槽中段地球物理场及对其新生洋壳的认识

通过对冲绳海槽中的磁场进行分析，在海槽轴部追踪到了线性磁条带异常。另外，在扩张轴附近也拖到了新鲜拉斑玄武岩。重力自由空气异常值较低。根据这是由于深部地幔大幅上升所致。地震剖面及磁力资料显示在海槽轴部有强磁性浅层侵入体及海底山，这些侵入体很可能来自于深部地幔。高温地幔物质上涌在海槽轴部形成高热流、强磁异常、多火山以及热液活动。上述现象说明冲绳海槽中段张裂轴部大陆岩石圈已经破裂，并可能已有新生洋壳形成。     

Petrologic perspectives on tectonic evolution of a nascent basin (Okinawa Trough) behind Ryukyu Arc：A review

Okinawa Trough is a back-arc, initial marginal sea basin, located behind the Ryukyu Arc–Trench System. The formation and evolution of the Okinawa Trough is intimately related to the subduction process of the Philippine Sea Plate beneath the Eurasian Plate since the late Miocene. The tectonic evolution of the trough is similar to other active back-arcs, such as the Mariana Trough and southern Lau Basin, all of which are experiencing the initial rifting and subsequent spreading process. This study reviews all petrologic and geochemical data of mafic volcanic lavas from the Okinawa Trough, Ryukyu Arc, and Philippine Sea Plate, combined with geophysical data to indicate the relationship between the subduction sources(input) and arc or back-arc magmas(output) in the Philippine Sea Plate–Ryukyu Arc–Okinawa Trough system(PROS). The results obtained showed that several components were variably involved in the petrogenesis of the Okinawa Trough lavas: sub-continental lithospheric mantle underlying the Eurasian Plate, Indian mid-oceanic ridge basalt(MORB)-type mantle, and Pacific MORB-type mantle. The addition of shallow aqueous fluids and deep hydrous melts from subducted components with the characteristics of Indian MORB-type mantle into the mantle source of lavas variably modifies the primitive mantle wedge beneath the Ryukyu and subcontinental lithospheric mantle(SCLM) beneath the Okinawa Trough. In the northeastern end of the trough and arc, instead of Indian MORB-type mantle, Pacific MORB-type mantle dominates the magma source. Along the strike of the Ryukyu Arc and Okinawa Trough, the systematic variations in trace element ratios and isotopic compositions reflect the first-order effect of variable subduction input on the magma source. In general, petrologic data, combined with geophysical data, imply that the Okinawa Trough is experiencing the "seafloor spreading" process in the southwest segment, "rift propagation" process in the middle segment, and "crustal extension" process in the northeast segment, and a nascent ocean basin occurs in the southwest segment.     

冲绳海槽--弧后背景下大陆张裂的最高阶段

高热流、强地震活动、火山活动、张性断层作用以及快速沉降等特征表明部绳海槽的演化已经达到了大陆张裂的最高阶段。根据地震折射和重力资料的计算表明冲绳海槽底下存在低密度的异常地幔，冲绳海槽的莫霍面介于15．4－23．8km之间。在我们提出的边缘海盆地演化旋回中，冲绳海槽处于胚胎期，即处在大陆张裂的最高阶段和弧后海底扩张的过滤阶段。冲绳海槽也可视为是威尔逊旋回中连接东非裂谷和红海阶段的一个重要的中间环节。     

冲绳海槽现代张裂的地球物理特征

位于东海陆架与琉球岛弧之间的冲绳海槽为板块俯冲作用形成的弧后断陷盆地,具有独特的构造地貌特征。自中新世末以来历经了4个强烈拉张的演化时期,目前已达到张裂的高级阶段。地球物理资料显示,海槽中的现代拉张作用仍在进行,表现在海槽轴部快速沉降形成地堑槽,对称分布的张性断裂,晚更新世—全新世以来的岩浆活动,从老至新排列的磁异常务带以及高地热流、频繁的地震活动等,充分体现了冲绳海槽的现代扩张特点。     

冲绳海槽海底地形的补偿模式初步研究

从区域补偿模式和实验均衡理论出发,利用重力和地形资料计算了冲绳海槽的均衡响应函数,结果表明：冲绳海槽南段弹性板有效厚度和补偿深度明显大于中段,结合其它地质地球物理资料解释认为,产生这种差异的原因主要是南,中两段岩石圈温度和补偿机制的不同所致。     

Geochemical and isotopic characteristics of volcanic rocks from the northern East China Sea shelf margin and the Okinawa Trough

Volcanic rocks both from the northern East China Sea (NECS) shelf margin and the northern Okinawa Trough are subalkaline less aluminous,and lower in High Field Strength Elements (HFSE).These rocks are higher in Large Ion Lithophile Elements (LILE),thorium and uranium contents,positive lead anomalies,negative Nb-Ta anomalies,and enrichment in Light Rare Earth Elements (LREE).Basalts from the NECS shelf margin are akin to Indian Ocean Mid-Ocean Ridge Basalt (MORB),and rhyolites from the northern Okinawa Trough have the highest 207 Pb/ 204 Pb and 208 Pb/ 204 Pb ratios.The NECS shelf margin basalts have lower 87 Sr/ 86 Sr ratios,ε N d and σ 18 O than the northern Okinawa Trough silicic rocks.According to 40 K– 40 Ar isotopic ages of basalts from the NECS shelf margin,rifting of the Okinawa Trough may have been active since at least 3.65–3.86 Ma.The origin of the NECS shelf margin basalt can be explained by the interaction of melt derived from Indian Ocean MORB-like mantle with enriched subcontinental lithosphere.The basalts from both sides of the Okinawa Trough may have a similar origin during the initial rifting of the Okinawa Trough,and the formation of basaltic magmas closely relates to the thinning of continental crust.The source of the formation of the northern Okinawa Trough silicic rocks was different from that of the middle Okinawa Trough,which could have been generated by the interaction of basaltic melt with an enriched crustal component.From the Ryukyu island arc to East China,the Cenozoic basalts have apparently increasing trends of MgO contents and ratios of LREE to Heavy Rare Earth Elements (HREE),suggesting that the trace element variabilities of basalts may have been influenced by the subduction of the Philippine Sea plate,and that the effects of subduction of the Philippine Sea plate on the chemical composition of basaltic melts have had a decreasing effect from the Ryukyu island arc to East China.     

论冲绳海槽的张裂运动

琉球岛弧系向海沟方向的旋张掀斜运动和岛弧-弧后地区地幔流的波动运动是冲绳海槽张裂运动的动力源.在张应力场作用下,自早第三纪以来,冲绳海槽长期为一负向构造.现代海槽是老海槽的继承性、阶段性发展的产物,晚中新世以来冲绳海槽的张裂运动增强与菲律宾海板块的俯冲作用增强密切相关,但它不可能形成大规模的扩张.     

冲绳海槽构造活动的差异性及其非同步发展

冲绳海槽的地质和地球物理特征,特别是其构造活动性表明,海槽轴部存在一个扩张应力场,是弧后扩张形成的边缘盆地。其基本特征和构造活动性从东北至西南差别明显,具有南北分段的特点。据此作者把海槽分为扩张作用非同步发展的三段;东北段处在扩张前以裂陷为主的地堑或半地堑阶段;中段处于初始扩张过程的裂谷阶段;西南段则处于相对高级扩张的弧后盆地阶段。这种非同步发展可能是由于菲律宾海板块向亚洲大陆俯冲过程中,其速度在时间和空间上的差异性所致。     

东海莫霍面起伏与地壳减薄特征初步分析

收集、整理大量由地震剖面提供的沉积层厚度资料,得到东海沉积层等厚图。对完全布格重力异常进行沉积层重力效应改正后,得到剩余重力异常,利用地震资料揭示的莫霍面深度值来约束界面反演得到东海莫霍面埋深。结果表明,东海陆架盆地莫霍面深度在25～28 km之间平缓变化,地壳厚度为14～26 km,西厚东薄;冲绳海槽盆地莫霍面深度为16～26 km,地壳厚度为12～22 km,北厚南薄。东海陆架盆地东部与冲绳海槽盆地南部地壳减薄明显,拉张因子分别达到2.6和3。初步分析认为冲绳海槽地壳以过渡壳为主,并未形成洋壳。     

冲绳海槽火山岩地球化学特征及岩浆源区地幔性质探讨

冲绳海槽是因菲律宾海板块俯冲于欧亚板块之下,在陆壳上发育起来的一个初始的弧后盆地,是研究弧后扩张作用早期盆地演化、岩浆作用和壳幔过程的天然实验室。尽管迄今对冲绳海槽已经做了大量的调查研究工作,但仍存在一些颇有争议或亟待解决的科学问题,如:冲绳海槽酸性浮岩与基性玄武岩之间的成因联系,冲绳海槽不同区段构造背景对岩浆作用的控制,冲绳海槽岩浆源区地幔的特征,俯冲板块组分(流体+熔体)对地幔楔部分熔融的贡献等。本文在系统收集和整理(剔除了一些存疑数据)了迄今已有冲绳海槽火山岩主量元素、微量元素(包括稀土元素)与Sr-Nd-Pb同位素数据的基础上,通过对资料的系统分析,进一步确认了酸性浮岩与基性玄武岩的岩浆同源性;认为在冲绳海槽北段与中段主要分布有酸性浮岩和中性安山岩,应该是两段区域目前正处于裂谷阶段的反映,而南段广泛分布的基性玄武岩说明在构造性质上已接近成熟性弧后盆地;冲绳海槽的火山岩岩浆源区具有II型富集地幔（EMII型）Dupal异常特征,岩浆源于流行地幔（PREMA）和EMII型地幔端元混合的源区地幔,其中EMII约占比15%,PREMA贡献率在85%左右;源于俯冲的菲律宾海板块(俯冲洋壳或沉积物)的流/熔体的加入是导致冲绳海槽下伏地幔具有EMII型特征的原因,这一点不同于Dupal异常源于壳幔相互作用的观点。     

The Crustal Structure Character of East China Sea

This paper presents actuality of investigation and study of the crustal structure characters of East China Sea at home and abroad. Based on lots of investigation and study achievements and the difference of the crustal velocity structure from west to east, the East China Sea is divided into three parts - East China Sea shelf zone, Okinawa Trough zone and Ryukyu arc-trench zone. The East China Sea shelf zone mostly has three velocity layers, i.e., the sediment blanket layer （the velocity is 5.8-5.9 km/s）, the basement layer （the velocity is 6.0-6.3 km/s）, and the lower crustal layer （the velocity is 6.8-7.6 km/s）. So the East China Sea shelf zone belongs to the typical continental crust. The Okinawa Trough zone is located at the transitional belt between the continental crust and the oceanic crust. It still has the structural characters of the continental crust, and no formation of the oceanic crust, but the crust of the central trough has become to thinning down. The Ryukyu arc-trench zone belongs to the transitional type crust as a whole, but the ocean side of the trench already belongs to the oceanic crust. And the northwest Philippine Basin to the east of the Ryukyu Trench absolutely belongs to the typical oceanic crust.     

冲绳海槽成因的初步探讨

冲绳海槽是一个正在扩张的年轻弧后海盆。对这个海盆的研究在地层学、古海洋学、构造学、地震学及海底资源勘探等方面均具重要意义。这个海槽处在大陆地壳向大洋地壳转化的过渡性地壳域,许多人试图从冲绳海槽的研究中,获得关于洋盆早期演化的知识。本文根据反射地震资料(图1)就该海槽成因进行初步探讨。     

东海磁场及磁性基底特征

利用东海及邻域最新的磁力异常数据,分析东海的磁场特征,并利用该磁力数据计算东海的磁性基底界面,分析解释磁性界面的特征及地质特征。研究表明,从陆区、陆架盆地到冲绳海槽中部,磁力异常呈正负相间变化,最大值出现在福建沿海地区;磁性基底深度在4～11km之间变化。从冲绳海槽中部到琉球群岛,磁异常从正磁异常变为负磁异常;磁性基底深度为7～12km之间变化。从琉球弧前盆地到琉球海沟,磁力异常为正负相间变化,中部磁异常为负值,两侧异常为正值;磁性基底深度为7.5～11km之间变化。     

冲绳海槽宫古段中央地堑中的火山分布及地质意义

采用中国科学院海洋研究所“科学1号”调查船及国家海洋局“向阳红9号”调查船,于20世纪90年代以来在冲绳海槽宫古段进行海底地形及反射地震调查,所取得的数据,首次详细展示了冲绳海槽宫古段南北长约200km区域内海底火山的形态及其空间分布特征。在本段冲绳海槽发育的中轴火山和岛弧火山,分别位于中央地堑和海槽盆地东部边缘紧靠琉球岛弧的西侧。岛弧火山连续性强,总体上自东北而西南都有分布;中轴火山不如岛弧火山的连续性强,只在崂山段、黄岛段、胶南段、莱西段、城阳段和李沧段分布。中轴火山是在中央地堑之后发育的。中轴火山的发育不仅改变了原来中央地堑的位置,也改变了原来中央地堑的形态。中央地堑的左旋雁行排列,以及其形态的改变都是由于中轴火山发育的结果。中央地堑的右旋展布以及海底火山对中央地堑的改造,标志着冲绳海槽的演化已经在拉张和沉降的基础上进入到一个更高级的演化阶段(海底扩张),在岩浆供应不太充足的条件下,海底火山活动是冲绳海槽低速扩张的一种形式,海底扩张沿中央地堑正在进行。     

冲绳海槽的形成与发展

冲绳海槽是位于东海大陆架外缘、东海陆架边缘隆褶带与琉球岛弧之间的一个狭长带状弧间盆地.关于它的成因,已有古琉球弧直接张裂和断裂下陷两种观点,而笔者认为,它是由于菲律宾海板块从早中新世末以来,向欧亚大陆板块下俯冲所形成的沟-弧-盆系列的一个组成部分,在其生成和发展过程中,先后经历了拗陷、断陷和扩张三个阶段.然而,扩张刚刚开始.今后它将进一步裂开,琉球弧将更加向菲律宾海方向推进.因受调查程度的限制,本文将以冲绳海槽北半部的资料为主要依据.     

Origin and model of transform faults in the Okinawa Trough

Transform faults in back-arc basins are the key to revealing the opening and development of marginal seas. The Okinawa Trough (OT) represents an incipient and active back-arc or marginal sea basin oriented in a general NE-SW direction. To determine the strikes and spatial distribution of transform faults in the OT, this paper dissects the NW- and NNE-SN-trending fault patterns on the basis of seismic profiles, gravity anomalies and region geological data. There are three main NW-trending transpressional faults in the OT, which are the seaward propagation of NW-trending faults in the East China Continent. The NNE-SN-trending faults with right-stepping distribution behave as right-lateral shearing. The strike-slip pull-apart process or transtensional faulting triggered the back-arc rifting or extension, and these faults evolved into transform faults with the emergence of oceanic crust. Thus, the transform fault patterns are inherited from pre-existing oblique transtensional faults at the offsets between rifting segments. Therefore, the OT performs the oblique spreading mechanism similar to nascent oceans such as the Red Sea and Gulf of Aden.     

The morphology and structure of the West O’Gorman Fracture Zone

The West O’Gorman Fracture Zone is an unusual feature that lies between the Mathematician Ridge and the East Pacific Rise on crust generated on the East Pacific Rise between 4 and 9 million years ago. We made a reconnaissance gravity, magnetic and Sea Beam study of the zone with particular emphasis on its eastern (youngest) portion. That region is characterized by an elongate main trough, a prominent median ridge and other, smaller ridges and troughs. The structure has the appearance of large-offset fracture zone, possibly in a slow spreading environment. However, magnetic anomalies indicate that the offset, if any, is quite small, and the spreading rate during formation was fast. In addition, the magnetic profiles do not support earlier models for a difference in spreading rate north and south of the fracture. The morphology of the fracture zone suggests that flexure may be responsible for some of the topography; but gravity studies indicate some of the most prominent features of the fracture zone are at least partially compensated. The main trough is underlain by a thin crust (or high density body), similar to large-offset fracture zones in the Atlantic, while the median ridge is underlain by a thickened crust. Sea Beam data does not unambiguously resolve between volcanism or serpentinization of the upper mantle as a mechanism for isostatic compensation. Why the West O’Gorman exists remains enigmatic, but we speculate that the topographic expression of a fracture zone does not require a transform offset during formation. Perhaps the spreading ridge was magma starved for some reason, resulting in a thin crust that allowed water to penetrate and serpentinize portions of the upper mantle.     

东海陆架外缘区构造特征及其成因机制

东海陆架边缘的构造特征记录了有关冲绳海槽张裂过程的关键信息,对于进一步理解海槽的形成演化以及弧后张裂与弧-陆碰撞之间的相互作用至关重要。本文基于多道地震和重磁资料,分析了东海陆架边缘的地形和构造特征,并对冲绳海槽早期张裂过程、北西向断裂带的分隔控制作用、钓鱼岛隆起带南北构造差异和冲绳海槽的向西前展等问题进行了探讨。结果表明,冲绳海槽西侧陆坡存在的分段性,各分段在地形地貌、地层展布和构造特征等方面的不同,体现了其构造演化和现今构造活动性的差异。冲绳海槽中—北段的张裂始于陆架前缘坳陷,在晚中新世向东扩展至整个海槽,晚中新世至今以分散式张裂为主。北西向断裂带对东海陆架边缘不同分段的构造特征和构造活动起到了分隔控制和转换协调作用,控制了不同类型陆坡的形成和发育。受冲绳海槽在全宽度上向西前展的影响,钓鱼岛隆起带南段的基底隆起及其支撑的陆架边缘发生了破坏和沉降,形成基底起伏较大、地形崎岖不平的陆坡。     

Back-arc rifting in the Okinawa Trough

Geological and geophysical data reveal that the Okinawa Trough shows incipient continental rifting, and crustal separation started from about 2 Ma. The early extensional movements in the trough are probably of Miocene age. In addition to the Miocene phase, two main periods of extension are recognized: a Pleistocene phase between 1.9 and 0.5 Ma and the present day phase. During the stage short central rifts (Central Grabens) were formed. The opening however, may have occurred only in the southern part of the trough basin having an average half spreading rate of 2 cm yr^?1 since Early Pleistocene time, producing its present width of several tens of kilometres. These activities were well represented by igneous intrusions, sedimentary facies and sedimentary structures in and around the Okinawa Trough. The width of the zone affected by back-arc extension (defined as Greater Okinawa Trough) is larger than the present Okinawa Trough, whose width is 200–250 km. The present form of the Greater Okinawa Trough started to form at the same time as that of the Okinawa Trough.