西阿尔卑斯Zermatt-Saas洋壳深俯冲超高压变质带与我国新疆西南天山超高压变质带的比较

根据对西阿尔卑斯Zernatt-Saas带的野外地质考察及有关资料的总结,详细地介绍了西阿尔卑斯Zermatt-Saas洋壳深俯冲超高压变质带的地质概括、岩石组成和变质作用演化过程,并着重与我国新疆西南天山洋壳深俯冲超高压变质带进行了比较,探讨了这两个洋壳深俯冲超高压变质带在变质作用和地质演化方面的异同。在此基础上,总结了这两个目前世界上已知最典型的洋壳深俯冲超高压变质带的基本地质特征是都具有保存完好的洋壳岩石组合特征和较低的地热梯度。     

南阿尔金早古生代俯冲碰撞过程中的花岗质岩浆

南阿尔金俯冲碰撞杂岩带早古生代存在517、501~496、462~451和426~385 Ma 4个期次的花岗质岩浆岩。第一期岩浆岩早于区内蛇绿岩型镁铁质岩石的形成时间,第一期岩浆岩侵位于区内蛇绿岩型镁铁质岩石之中(≥500 Ma),后三期分别对应于该构造带高压—超高压岩石~500 Ma的峰期变质、及其~450 Ma和~420 Ma的两期退变质时间。结合区域地质背景、镁铁—超美铁质岩和高压—超高压变质作用研究成果综合分析,这四期花岗质岩浆作用的发生分别是南阿尔金早古生代板块俯冲碰撞过程中,先期俯冲洋壳在517 Ma部分熔融、之后陆壳深俯冲导致地壳加厚引发下地壳在~500 Ma部分熔融,以及深俯冲板片断离导致中上地壳在~450 Ma部分熔融和造山后伸展减薄阶段在~420 Ma的部分熔融作用的产物。其中,洋壳型埃达克岩的形成时代(517 Ma)为南阿尔金洋壳俯冲作用时限提供了直接约束,陆壳深俯冲引发的高压-超高压峰期变质时代(~500 Ma)作用滞后这一事件约10 myr,表明南阿尔金早古生代时期由洋壳俯冲转换为陆壳俯冲可能是一个连续的构造演化过程。这四期花岗质岩石与区内蛇绿岩型镁铁—超镁铁质岩石以及高压—超高压变质岩石的形成,共同记录了南阿尔金早古生代时期从大洋俯冲、之后的大陆深俯冲碰撞再到后来深俯冲陆壳折返抬升的完整构造演化过程。     

西南天山造山带超高压变质作用研究新进展

低温超高压变质岩具有极低的地热梯度,其变质演化对于认识板块间相互作用的动力学过程以及弧地壳的生长机制具有重要意义。西南天山造山带发育了世界上少有的经历过深俯冲作用且具有洋壳属性的典型低温超高压变质地质体。近几年来对该造山带中的超高压变质岩开展了大量深入细致的岩石学研究工作,取得了一系列新进展。变基性岩和变沉积岩系岩石中柯石英的普遍发现,直接证明西南天山变质蛇绿混杂岩曾经俯冲到上地幔深度,且具有极低的地热梯度,与热力学模拟结果一致。柯石英的稀少以及大量不同类型柯石英假像的存在,说明在折返过程中发生了强烈的退变质叠加,只有刚性较大且没有经历碎裂-愈合作用的矿物(如石榴石)才有可能保存柯石英。综合岩相学证据和相平衡计算结果,确定西南天山造山带北部的高压地质体(即哈布腾苏-科布尔特单元)整体经历过超高压变质作用,南部的高压地质体峰期压力未达到柯石英稳定域。超高压和高压变质地体的空间分布特点指示了古天山洋由南向北的俯冲极性。这些基础岩石学研究工作的开展对于揭示冷俯冲带的深部物理化学过程以及建立中亚南天山造山带演化的精细模型具有重要意义。     

俯冲带部分熔融

俯冲带是地幔对流环的下沉翼,是地球内部的重要物理与化学系统。俯冲带具有比周围地幔更低的温度,因此,一般认为俯冲板片并不会发生部分熔融,而是脱水导致上覆地幔楔发生部分熔融。但是,也有研究认为,在水化的洋壳俯冲过程中可以发生部分熔融。特别是在下列情况下,俯冲洋壳的部分熔融是俯冲带岩浆作用的重要方式。年轻的大洋岩石圈发生低角度缓慢俯冲时,洋壳物质可以发生饱和水或脱水熔融,基性岩部分熔融形成埃达克岩。太古代的俯冲带很可能具有与年轻大洋岩石圈俯冲带类似的热结构,俯冲的洋壳板片部分熔融可以形成英云闪长岩-奥长花岗岩-花岗闪长岩。平俯冲大洋高原中的基性岩可以发生部分熔融产生埃达克岩。扩张洋中脊俯冲可以导致板片窗边缘的洋壳部分熔融形成埃达克岩。与俯冲洋壳相比,俯冲的大陆地壳具有很低的水含量,较难发生部分熔融,但在超高压变质陆壳岩石的折返过程中可以经历广泛的脱水熔融。超高压变质岩在地幔深部熔融形成的熔体与地幔相互作用是碰撞造山带富钾岩浆岩的可能成因机制。碰撞造山带的加厚下地壳可经历长期的高温与高压变质和脱水熔融,形成S型花岗岩和埃达克质岩石。     

柴达木盆地北缘新元古代-早古生代大洋的形成、发展和消亡

柴达木盆地北缘构造带是一条典型的早古生代造山带,是由陆壳深俯冲形成的高压/超高压变质带,产于其中的高压/超高压变质岩石原岩形成时代普遍大于750Ma,原岩的性质为陆壳属性,但柴北缘东段都兰沙柳河地区出露的含柯石英榴辉岩原岩的形成时代为516Ma,原岩的性质为洋壳属性,证实柴北缘局部地段还存在洋壳深俯冲,柴北缘地区可能记录了从大洋俯冲到大陆俯冲再到碰撞造山这一完整的演化历史。本文主要从岩石学、年代学、地球化学以及同位素地球化学等方面对柴北缘地区陆壳深俯冲前新元古代-早古生代大洋发展与演化的岩石记录进行了系统总结,认为柴北缘地区在700~850Ma时受Rodinia超大陆裂解事件的影响发生了裂解;535~700Ma时在裂解事件的基础上形成了一个新元古代-早古生代的大洋,沿柴北缘连续分布的岩石记录表明该洋盆可能在早古生代已具有一定的规模;460~535Ma时该洋壳发生了俯冲消减作用;450~460Ma期间洋盆闭合消失。这一认识对全面深入了解柴北缘高压/超高压变质带早古生代构造演化历史具有重要意义。     

中国主要高压-超高压变质带的大地构造背景及俯冲/折返机制的探讨

造山带中发现超高压矿物柯石英和金刚石,被认为与洋壳或陆壳岩片的深俯冲(>100km)有关。但探讨这些岩片是如何俯冲和折返的？却是一个极具挑战的难题。目前,中国境内含榴辉岩的高压超高压（HP/UHP）变质带已经发现11条,此外,世界各地发现的高压超高压变质带还有至少20条。高压超高压变质带,特别是中国众多的HP-UHP变质带,在什么特定的大地构造条件中形成？又是在怎样的构造背景下折返而剥露地表？中国大陆上为什么出现众多规模可观的HP-UHP变质带？为什么出现洋壳（深）俯冲与陆壳（深）俯冲不同类型的HP-UHP带？这是本文试探讨的问题。根据中国境内的11条高压/超高压变质带形成时代和区域构造背景,将其分为4类：Ⅰ.始特提斯（早古生代）高压/超高压变质带,包括（1）柴北缘-南阿尔金超高压变质带,（2）北祁连-北阿尔金高压变质带,（3）东秦岭超高压变质带;Ⅱ.古特提斯高压/超高压变质带,包括（4）大别高压/超高压变质带,（5）苏鲁高压/超高压变质带,（6）西藏羌塘高压变质带;（7）西藏松多（超）高压变质带;Ⅲ.新特提斯高压/超高压变质带,包括（8）雅鲁藏布江东构造结南迦巴瓦（超）高压变质带;Ⅳ.古亚洲域南缘高压/超高压变质带,包括（9）新疆西南天山超高压变质带,（10）甘肃北山高压变质带,和（11）冀北高压变质带。中国高压/超高压变质带形成的大地构造背景有洋壳（深）俯冲和陆壳（深）俯冲两大成因类型,认为前者大都与始-古特提斯洋盆中微陆块之间的汇聚碰撞有关;后者为大陆块之间剪式碰撞和撕裂式岩石圈舌形板片深俯冲的产物。由于中国（邻区）大陆是三大陆块与许多小陆块聚集构成的巨大拼合体,小陆块在特提斯洋盆（特别是始、古特提斯洋盆）中的独特位置,使陆块之间的刚性洋盆岩石圈得以（深）俯冲插入小陆块之下。而大陆块之间特殊部位的碰撞为陆壳（深）俯冲创造条件。研究表明,高压/超高压变质岩石和蛇绿岩、混杂堆积、俯冲增生楔一起构成俯冲/折返杂岩带;认为代表印支造山带山根物质的大别-苏鲁高压/超高压俯冲/折返杂岩带,呈面形推覆岩片的构造样式叠置在扬子陆块之上,提出汇聚陆块边缘深部地幔物质折返的“斜向挤出”和“沿岩石圈板片的多层隧道的多重/分片挤出”的两种模式;认为走滑断裂在高压/超高压变质岩石的快速折返中起重要作用,即阿尔金走滑断裂、郯庐走滑断裂和喀喇昆仑走滑断裂,分别制约了阿尔金和祁连山中的南北两条早古生代高压/超高压变质带、大别-苏鲁印支期超高压变质带和喜马拉雅西构造结的喜山期超高压变质带的快速折返。     

超高压变质岩的塑性流变学

岩石流变作用是大陆造山作用的基本特征,超高压岩石的形成和折返过程也是大陆深俯冲带内物质的复杂流变过程。要深入理解大陆造山带的造山作用和大陆壳岩石的深俯冲和折返动力学过程,必须对大陆地壳及地幔岩石的流变学进行深入研究。岩石圈流变学的主要研究内容主要包括流变学分层性、变形分解和应变局部化及大陆壳岩石部分熔融作用的流变学效应等。应用岩石圈流变学的基本原理和方法,分析了大别-苏鲁超高压变质带中超高压变质岩的塑性流变特点,探讨了超高压变质岩形成和折返过程的塑性流变学。     

金属硫化物对俯冲洋壳高压变质作用的制约

<正>硫化物作为主要的金属元素赋存形式,是世界上主要矿产资源的开采矿物,因此在地质学研究中具有重要的经济学意义。大洋中脊玄武岩在形成过程中可含有少量的硫,另外,洋底热液蚀变过程中,硫会被带入到表层洋壳中形成金属硫化物(Alt et al.,1989)。俯冲带是全球最大的物质循环系统,洋壳可携带这些金属硫化物进入俯冲带并遭受高压—超高压变质作用。因此,在全球多个高压洋壳变质带中,金属硫化物都作为一个常见的副矿物产出于榴辉岩及相关岩石中,如在西Alps(Barnicoat and Fry,1986;     

榴辉岩部分熔融过程中的同位素分馏

本文对榴辉岩部分熔融过程中不同同位素体系是否存在分馏这一当前研究热点进行了综述.榴辉岩作为研究洋陆俯冲、超高压变质以及壳幔相互作用的主要岩石类型,其部分熔融与地壳增生、板片折返过程以及俯冲隧道中元素的迁移分配等具有紧密的联系.作为典型的高压-超高压变质岩石,榴辉岩可通过俯冲带将壳源信息携带至地幔深部,影响地慢的化学组成...     

桐柏—大别山高压超高压变质带

桐柏—大别山高压超高压变质带自南向北可划分为３个带：绿帘－蓝片岩相变质带，高压榴辉岩相变质和超高压榴辉岩相变质带，超高压变质带形成于加里东期洋壳俯冲作用过程中，而前两个高压变质带则是印支期陆－陆俯冲－碰撞作用的产物。     

An early Paleozoic Subduction Channel in the North Qilian Mountains,Northwestern China: Structural,Petrological and Chronological Constraints

Detailed geological mapping, structural, petrological and chronological investigation allow us to place new constraints on the tectono‐thermal evolution of the North Qilian high pressure/low temperature (HP/LT) metamorphic belt. The North Qilian HP/LT metamorphic belt manly consists of eclogite, blueschist, metasedimentary rocks and serpentinite. Most of eclogites and mafic blueschists occur as lenses within metasedimentary rocks, and minor eclogites within serpentinite. Petrological and geochemistical data indicate that the protoliths of eclogite and mafic blueschist includes E‐, N‐MORB, OIB and arc basalt. Geochronology and Lu‐Hf isotope of detrital zircons from metasedimentary rocks indicate the detritus materials are derived from Qilian block and likely deposit in continental margin or fore‐arc basin. Zircon U‐Pb datings show that the protolith ages of eclogites vary between 500 Ma and 530 Ma, and the metamorphic age of eclogite between 460 and 489 Ma. The detrital zircon ages of metasedimentary rocks distribute between 532 and 2700 Ma. The structural data show that the deformation related to the subduction during prograde is recorded in eclogite blocks. In contrast, the dominant deformation structures are characterized by tight fold, sheath fold and penetrative foliation and lineation, which are recorded in various rocks, reflecting a top‐to‐the‐south shear sense and representing the deformation related to the exhumation. The petrological data suggest that the different rocks in the North Qilian HP/LT metamorphic belt equilibrated at different peak metamorphic conditions and recorded different P‐T path. Synthesizing the structural, petrological, geochemical and geochronological data suggest a subduction channel model related to oceanic subduction during Paleozoic in the North Qilian Mountains. The different HP/LT metamorphic rocks formed in different settings with various protolith ages were carried by the subducted oceanic crust into different depth in subduction channel, and experienced independent tectono‐thermal evolution inside subduction channel. The North Qilian HP/LT mélange reflects a fossil oceanic subduction channel.     

Structural Seismology: Exploring the Correspondence between Surface Geological Features and Heterogeneities in the Earth’s Crust and Mantle

The North Qaidam is an Early Paleozoic UHP metamorphic belt located at the north margin of the Tibet plateau. Eclogites in this belt contain both continental‐and oceanic‐type ones. In which, the continental‐type eclogites have protolith ages of 750–850 Ma and WPB or CFB geochemical signatures and are believed to have formed in a continental rift or an incipient oceanic basin setting related to the breakup of the Rodinia supercontinent, their metamorphic ages (421–458 Ma) and P–T paths are comparable to their host gneisses; oceanic‐type eclogites have cumulate gabbro or E‐MORB geochemical signatures, their protolith and metamorphic ages are 510–516 Ma and 425–450 Ma, respectively(Zhang et al., 2008). Therefore, the North Qaidam UHP belt was thought to record the whole Neoprotoerozoic–Paleozoic Wilson cycle (Song et al., 2014). In this study, we reported three new kinds of eclogites: kyanite‐bearing eclogite, lawsonite pseudomorph‐bearing eclogite and double mineral eclogite. They occur as big lentoid blocks in regional granitic gneiss in the western part of the belt. Phase equilibrium modelling and zircon LA‐ICPMS U‐Pb dating show that all these three eclogites experienced a clockwise P–T path with peak metamorphic conditions close to or fall in the coesite stability field, and their peak metamorphic age were around 436‐439 Ma, similar to those continental‐type eclogites in this belt. But their protolith ages are between 1273 and 1070 Ma, and some of them recorded an amphibolite facies metamorphic age of 927 Ma, and geochemical data and zircon Lu‐Hf and O isotope analysis indicate these eclogites have features of present day N‐MORB. Combined with the existing results, we propose that the North Qaidam is a polycyclic composite orogenwhich recorded tectonic evolution of Mesoproterozoic ocean floor spreading, assembly and breakup of Rodinia supercontinent, Early Paleozoic oceanic deep subduction and subsequently continental deep subduction.     

大别地区的变质作用及与碰撞造山过程的关系

大别造山带从南到北可分为５个变质构造单元：扬子北缘蓝片岩带、突松变质杂岩带、南大虽碰撞杂岩带、北大别变质杂岩带和北淮阳变质带。各个变质构造单元中不同岩石的变质作用可划分为３种类型：（１）超高压型。以含柯石英（及金刚石）的榴辉岩为代表,仅见于南大别碰撞杂岩带中,这类岩石的ＰＴ轨迹反映洋壳Ｂ型俯冲的特点。（２）高压型。见于大别山南部的蓝片岩带、宿松变质杂岩带和南大别杂岩中的变质沉积岩及部分片麻岩中,与     

浅变质岩在示踪大别—苏鲁造山带大陆板块俯冲与折返过程中的意义

中国大别-苏鲁造山带为大陆板块俯冲形成的碰撞造山带,该带北缘和内部产有原岩时代为新元古代-晚古生代的浅变质岩。这些浅变质岩对应于扬子板块北缘前寒武变质基底和扬子板块北缘古生代大陆架沉积物,形成过程于印支期扬子板块向北俯冲过程中的刮削作用密切相关,与大洋板块俯冲过程中刮削形成的加积楔具有类似的动力学过程。对大别-苏鲁造山带浅变质岩的深入研究,不仅有助于揭示大陆板块俯冲过程中高压-超高压岩石形成与折返过程,而且确定了扬子板块与华北板块之间的缝合线位置位于大别造山带北淮阳带的北部和苏鲁造山带的五莲-蓬莱群的北侧。     

Archean Regional Metamorphism of the Isua Supracrustal Belt,Southern West Greenland: Implications for a Driving Force for Archean Plate Tectonics

The Isua supracrustal belt (～3.8 Ga) constitutes the oldest accretionary complex in the world. Petrochemical and geothermobarometric studies of more than 1500 rock samples of the Isua belt have enabled us to estimate the extent of regional metamorphism, the petrotectonic environment, and the subduction-zone geothermal gradient in the Archean. The following line of evidence indicates progressive, prograde metamorphism from greenschist (Zone A) through albite-epidote-amphibolite (Zone B) to amphibolite facies (Zones C and D) in the northeastern part of the Isua supracrustal belt: (1) the systematic change of mineral paragenesis in metabasites and metapelites; (2) progressive change of the composition of major metamorphic minerals, including plagioclase, amphibole, chlorite, epidote, and garnet; (3) normal zoning of amphibole and garnet; and (4) the absence of relict minerals of high-grade amphibolitic metamorphism even in the lowest metamorphic zone. Metabasites of the Isua belt vary extremely in Mg#, causing a complex mineral paragenesis throughout the area. For example, a high FeO content of metabasites expands the stability field of hornblende to both lower and higher grades. The compositional and mineralogical characteristics above also indicate that the Isua supracrustal belt underwent a single regional metamorphic event, involving minor contact metamorphism and mylonitization; however, weak ocean-floor metamorphism and low-grade regional metamorphism during accretion cannot be ruled out.

Metamorphic pressures and temperatures are estimated to be 5–7 kbar from garnet-hornblende-plagioclase-quartz geobarometry and 380–550°C from garnet-biotite geothermometry in Zones B to D. These P-T estimates indicate an intermediate P/T ratio metamorphic facies series. Geological investigations and chronological constraints of the Isua metamorphic belt indicate that the regional metamorphism was related to the subduction of Archean lithosphere, and records a geothermal gradient for the Archean subduction zone that is much higher than geotherms for Phanerozoic subduction zones. The high geothermal gradient may have resulted from the young age of subducted lithosphere and high potential temperature of the mantle. The Archean high geothermal gradient led to melting of thick oceanic crust in a thin, descending oceanic plate, creating many huge granitic (tonalite-trondhjemite-granodiorite [TTG]) batholiths. Slab melting changed the oceanic crust (density = 3.07) to denser garnet-bearing assemblages (density = 3.55), implying that TTG melt extraction provided a potential driving force for Archean plate tectonics.     

Petrology and geochronology of ultrahigh-pressure granitic gneiss from South Dulan,North Qaidam belt,NW China

abstract

An integrated study including petrography, mineral chemistry, metamorphic P–T path modelling, and zircon U–Pb dating was conducted on a granitic gneiss and enclosed eclogite from South Dulan, North Qaidam UHP (ultrahigh-pressure) belt. The result shows that the granitic gneiss underwent a clockwise P–T path with a peak-P stage at 655–745°C, 30–34 kbar, and a subsequent peak-T stage at 815–870°C, 14–18 kbar, which is similar to the P–T estimates reported for coesite-bearing continental-type eclogites in this region. The enclosed eclogite resembles an olivine–pyroxene-rich cumulate in Qaidam block. It has a similar prograde P–T path with the country gneiss and experienced a peak-P stage of 682–748°C at 27–34 kbar. Zircon U–Pb dating yields an eclogite-facies metamorphic age of 447 ± 2 Ma for the granitic gneiss and 445 ± 6 Ma for the enclosed eclogite. These ages agree with metamorphic ages obtained from paragneisses (427–439 Ma), coesite-bearing continental-type eclogites (430–451 Ma), and UHPM (ultrahigh-pressure metamorphic) oceanic crust–mantle sequence (440–445 Ma) from South Dulan, as well as UHP eclogites, garnet peridotite, and gneisses from other units (460–420 Ma) within this belt reported by others. Similar metamorphic ages as well as P–T evolution documented in gneisses and intercalated eclogites imply that both rocks experienced a coeval UHP event. Summarizing all the published geochronology data, we argue that the North Qaidam UHP belt was mainly formed by continental deep subduction at ~460 to ~420 Ma. The UHPM oceanic crust-mantle sequence in South Dulan may represent oceanic lithosphere in the transition zone between oceanic and continental crust, which was dragged upward by the exhumed continental rocks after break-off of the dense oceanic crust.     

Counterclockwise P-T-t trajectory from the metamorphic sole of a Neo-Tethyan ophiolite (Turkey)

The Kiziltepe ophiolitic thrust sheet in the Bolkar Mountains of Turkey occurs between two subparallel ophiolite belts bounding the Tauride carbonate platform and represents a remnant of the Cretaceous Neo-Tethyan oceanic lithosphere. It is underlain by foliated amphibolite that represents a metamorphic sole developed at the inception of an intra-oceanic subduction zone in the Neo-Tethys 92-90 Ma. Blueschist-facies overprinting of the amphibolite indicates that the metamorphic sole was dragged deeper into the subduction zone where it experienced increasing P/T with cooling. Regional tectonic constraints suggest a Maastrichtian age for the timing of this blueschist-facies metamorphism. Sodic amphibole-rich veins and crossite/Mg-riebeckite rims on hornblende suggest that growth of blueschist-facies minerals was facilitated by infiltration of fluid along fractures and grain boundaries. We infer a counterclockwise P-T-t trajectory during which metamorphism was accompanied/succeeded by rapid uplift along the northern edge of the Tauride belt in Late Cretaceous-early Tertiary time.     

柴北缘鱼卡含硬柱石假象榴辉岩的发现、P-T-t轨迹及控制硬柱石形成的主要因素

硬柱石是大洋冷俯冲带的代表性矿物之一,富含水和Sr、Pb及稀土等微量元素,其形成和分解对于俯冲带流体活动、壳幔水和微量元素循环、地幔楔交代和熔融及岛弧岩浆作用等具有重要影响.但由于硬柱石对温度和压力的改变非常敏感,在板片折返过程中很容易分解,因此目前全球出露的硬柱石榴辉岩极为稀少.总结了榴辉岩中早期硬柱石存在的识别标志,并据此确定柴北缘超高压带西段鱼卡地区的含蓝晶石榴辉岩和斜黝帘石榴辉岩是峰期硬柱石榴辉岩退变质改造的结果.该发现说明柴北缘成为继大别造山带之后全球第二例出露硬柱石榴辉岩的大陆俯冲型造山带.利用相平衡计算方法恢复了这两种榴辉岩的变质演化过程,其中含蓝晶石榴辉岩的P-T轨迹和峰期变质条件均与区内大陆俯冲型含柯石英多硅白云母榴辉岩相似,而斜黝帘石榴辉岩峰期变质温压则略低.锆石定年获得含蓝晶石榴辉岩和斜黝帘石榴辉岩的变质时代分别为437 Ma和436 Ma,与带内已有超高压榴辉岩相变质时代相同,同时获得含蓝晶石榴辉岩的原岩结晶时代为1 273 Ma.相似的变质P-T轨迹和变质时代表明含蓝晶石榴辉岩与同剖面含柯石英多硅白云母榴辉岩共同经历了大陆深俯冲作用.这一结果表明,硬柱石榴辉岩并非大洋冷俯冲带特有,决定榴辉岩中是否出现硬柱石的主要因素是原岩成分和变质条件.在鱼卡地区,榴辉岩的矿物组合中能否出现硬柱石的最主要控制因素是原岩中的Mg含量,由高Mg#的基性岩变质形成的榴辉岩峰期矿物组合中易出现硬柱石.      

Intracontinental subduction: a possible mechanism for the Early Palaeozoic Orogen of SE China

The Early Palaeozoic Orogen of SE China consists of three litho-tectonic elements, from top to bottom: a sedimentary Upper Unit, a metamorphic Lower Unit and a gneissic basement. The boundaries between these units are flat lying, south directed, ductile decollements. The lower one is coeval with an amphibolite facies metamorphism (M1). The belt is reworked by migmatite–granite domes, high-temperature metamorphism (M2) and granitic plutons related to post-orogenic crustal melting. We date here the syn-M1 ductile shearing at 453 ± 7 Ma by U-Th/Pb method on monazite. Previous ages and our new ⁴⁰Ar/³⁹Ar ages of biotites and muscovites show that the metamorphic rocks experienced syn-M2 exhumation from 440 to 400 Ma. The Early Palaeozoic Orogen of SE China is an intracontinental belt in which decollements accommodated the north-directed subduction of the Cathaysian continent. This orogen is an example of intracontinental subduction that was not preceded by oceanic subduction.     

柴北缘从大洋俯冲到陆陆碰撞:来自开屏沟造山带M型橄榄岩的证据

造山带幔源（M型）橄榄岩虽然在高压/超高压变质带分布不多,但由于其来自俯冲板块上覆的岩石圈地幔,因此是研究俯冲隧道内俯冲板片与地幔楔之间相互作用的重要对象,对于还原超高压变质带的演化有重要意义.柴北缘鱼卡榴辉岩-片麻岩区边部附近的开屏沟存在一套橄榄岩,其岩石类型、成因、时代等都缺乏研究.对开屏沟橄榄岩全岩的主量和微量元素及铂族元素、橄榄石主量元素、锆石U-Pb年龄和Hf同位素进行了研究.结果显示,其全岩具有高的Mg#、Mg/Si和Ni值,同时表现出亏损难溶的HFSE和HREE,轻微富集LILE和LREE中与流体活动性相关的元素;橄榄石具有较高的Fo值（90.11~92.77）与NiO含量（0.32%~0.45%）、低的CaO含量（< 0.02%）;PGEs的球粒陨石标准化配分模式与交代橄榄岩和残留橄榄岩近似;两组变质锆石年龄为459.5±3.6 Ma和417.5±2.7 Ma,对应的ε_Hf（t）值为-0.71~9.45和-11.96~-1.20,分别反映了洋壳流体（或早期大陆俯冲板片流体）和陆壳流体交代的性质和时限.开屏沟橄榄岩来源于俯冲带上覆地幔楔,遭受了不同来源流体不同程度的交代作用而获得地壳特征,同时为柴北缘大洋俯冲到陆陆碰撞的构造演化提供了新证据.