Isotopic constraints on age and duration of fluid-assisted high-pressure eclogite-facies recrystallization during exhumation of deeply subducted continental crust in the Sulu orogen   总被引：13，自引：1，他引：13  

Z.-F. ZHAO  Y.-F. ZHENG  T.-S. GAO  Y.-B. WU  B. CHEN  F.-K. CHEN  F.-Y. WU 《Journal of Metamorphic Geology》2006,24(8):687-702

Fluid availability during high‐grade metamorphism is a critical factor in dictating petrological, geochemical and isotopic reequilibration between metamorphic minerals, with fluid‐absent metamorphism commonly resulting in neither zircon growth/recrystallization for U‐Pb dating nor Sm‐Nd isotopic resetting for isochron dating. While peak ultra‐high pressure (UHP) metamorphism is characterized by fluid immobility, high‐pressure (HP) eclogite‐facies recrystallization during exhumation is expected to take place in the presence of fluid. A multichronological study of UHP eclogite from the Sulu orogen of China indicates zircon growth at 216 ± 3 Ma as well as mineral Sm‐Nd and Rb‐Sr reequilibration at 216 ± 5 Ma, which are uniformly younger than UHP metamorphic ages of 231 ± 4 to 227 ± 2 Ma as dated by the SHRIMP U‐Pb method for coesite‐bearing domains of zircon. O isotope reequilibration was achieved between the Sm‐Nd and Rb‐Sr isochron minerals, but Hf isotopes were not homogenized between different grains of zircon. The HP eclogite‐facies recrystallization is also evident from petrography. Thus this process occurred during exhumation with fluid availability from decompression dehydration of hydrous minerals and the exsolution of hydroxyl from nominally anhydrous minerals. This provides significant amounts of internally derived fluid for extensive retrogression within the UHP metamorphosed slabs. Based on available experimental diffusion data, the consistent reequilibration of U‐Pb, Sm‐Nd, Rb‐Sr and O isotope systems in the eclogite minerals demonstrates that time‐scale for the HP eclogite‐facies recrystallization is c. 1.9–9.3 Myr or less. This provides a maximum estimate for duration of the fluid‐facilitated process in the HP eclogite‐facies regime during the exhumation of deeply subducted continental crust.  相似文献   

大别山苏家河地区榴辉岩和大理岩的地球化学研究   总被引：15，自引：3，他引：12  

傅斌  张四清 《地质学报》1998,72(4):323-339

对大别山西段苏家河地区熊店和杨冲低温榴辉岩及胡家湾榴闪岩进行了详细的氢、氧和锶、钕同位素以及稀土元素和矿物化学分析。熊店榴辉岩和胡家湾榴闪岩的全岩δ＾１８Ｏ值较高（８．８‰￣１１．２‰）,而杨冲榴辉岩的全岩δ＾１８Ｏ值较低（４．３‰）,它们的全岩δＤ值为－５５‰￣７５‰。结合锶、钕同位素和稀土元素组成特征,推测苏家河榴辉岩（榴闪岩）的原岩可能为岛弧玄武岩,变质前曾与海水在不同温度下进行过氢、氧同位  相似文献   

The Problem of Dating High-pressure Metamorphism: a U-Pb Isotope and Geochemical Study on Eclogites and Related Rocks of the Marianske Lazne Complex, Czech Republic     

TIMMERMANN  H.; STEDRA  V.; GERDES  A.; NOBLE  S. R.; PARRISH  R. R.; DORR  W. 《Journal of Petrology》2004,45(7):1311-1338

This study presents new geochemical (major and trace element,Nd–Sr isotope) and U–Pb zircon, monazite, titaniteand rutile data for various rock types (eclogite, high-pressuregranulite, amphibolite, orthogneiss, leucosome) of the high-grademetamorphic Mariánské Lázn  相似文献   

青龙山榴辉岩的退变质显微结构及相关的物质迁移——南苏鲁榴辉岩退变质过程中流体活动的证据   总被引：3，自引：0，他引：3  

杨天南徐文华  陈方远 《岩石矿物学杂志》2004,23(3):236-252

对南苏鲁青龙山榴辉岩的扫描电子显微镜及光学显微镜的详细观察表明，其峰期矿物组合为石榴石 绿辉石Ⅰ 蓝晶石 金红石( 柯石英)，基本无含水矿物，并被第二期矿物(或组合)逐步替代，形成后成合晶或冠状体假像，即：绿辉石Ⅰ→绿辉石Ⅱ 钠长石 铁氧化物后成合晶，金红石→金红石 钛铁矿，蓝晶石→钠云母。第二期矿物又被第三期矿物(组合)替代：绿辉石Ⅱ( 钠长石 铁氧化物)→角闪石( 斜长石 铁氧化物)，石榴石→韭闪石 铁氧化物。绿帘石与石英是最晚期流体沿微裂隙活动的产物。详细的矿物成分分析及成分迁移估算结果显示，早期后成合晶的形成过程产生多余的Fe、Mg、Na，但消耗部分Ca、Si。产生的Mg、Fe迁移到石榴石边部，引发石榴石内部的(Mg，Fe)／Ca交换，在石榴石颗粒中形成向边部Ca降低、Mg和Fe升高的成分环带。交代产生的Ca被后成合晶消耗，而后成合晶产生的Na被替代蓝晶石的钠云母消耗。在退变质作用晚期，更多流体进入榴辉岩，引发流体渗滤交代反应，无水的早期后成合晶被含水后成合晶(角闪石 斜长石 铁氧化物)替代，同时在石榴石边部形成角闪石 少量铁氧化物反应边。成分迁移估算显示，上述两个过程的成分变化具有一定程度的耦合性。矿物反应曲线、THERMOCALC计算确定的P-T轨迹显示，青龙山榴辉岩的退变质过程主要发生在高压条件(低地温梯度)下，明显不同于北苏鲁地区榴辉岩。这种热演化特点的差异暗示南北苏鲁超高压变质块体可能具有不同的回返历史。  相似文献   

U–Pb zircon ages and Sr-Nd-Pb isotopic compositions for Permian–Jurassic plutons in the Ogcheon belt and Ryeongnam massif, Korea: Tectonic implications and correlation with the China Qinling–Dabie belt and the Japan Hida belt     

Cheong-Bin Kim  Ho-Wan Chang  Andrew Turek 《Island Arc》2003,12(4):366-382

Abstract The Ogcheon fold belt and the Ryeongnam massif in the Korean Peninsula are made up of Precambrian igneous and sedimentary rocks that have been metamorphosed, tectonically deformed and extensively intruded by mafic to felsic plutonic rocks of Permian to Jurassic age. In the present study, we report seven new U–Pb zircon ages and Sr‐Nd‐Pb isotopic data for Permian to Jurassic plutons in the Ogcheon belt and the Ryeongnam massif. In the Ogcheon belt, these are: the Cheongsan porphyritic granite (217 ± 3.1 My), the Baegrog foliated granodiorite (206.4 ± 3.6 My), the Sani granite (178.8 ± 2.9 My) and the Yeonggwang foliated granite (173.0 ± 1.7 My). For the Ryeongnam massif, we report on the Yeongdeog foliated granodiorite (252.2 ± 2.9 My), the Sancheong gabbro (203.8 ± 3.3 My) and the Baegseogri foliated granodiorite (177.8 ± 2.4 My). All of these ages are lower concordia intercepts; the upper concordia intercepts indicate derivation from a Precambrian protolith. Sr, Nd and Pb isotopes also reveal that much of the Permian–Jurassic (252–173 Ma) plutonism in Korea was generated by recycling of Precambrian rocks. These new ages, together with other published zircon ages indicate that the plutonism in the Ogcheon fold belt is coeval with that in the Ryeongnam massif, but based on the Sr‐Nd‐Pb isotopic evidence, they are not cogenetic. In addition, zircon ages provide information on the movement along the Honam shear zone, which cuts across the whole Korean Peninsula and along most of its length provides the boundary between the Ogcheon fold belt and the Ryeongnam massif. It has a prolonged history of movement and deformation and appears to have been active from the Precambrian through to the Mesozoic, from before 1924 Ma to at least 180 Ma. The Permian–Jurassic igneous and tectonic activity in Korea is a manifestation of the more extensive orogenic activities that affected the East Asian continent at that time. In China, ultra high‐pressure rocks of the Qinling–Dabie belt formed between 210 and 230 Ma as result of the collision between the South China block and the North China block. In central Japan, corresponding plutonic activity is dated as 175 to 231 Ma. The absence of ultra high‐pressure rocks in Korea and Japan precludes a simple extension of the Qinling–Dabie belt eastwards; however, the effects of the continental collision eastwards are apparent from the igneous and tectonic activity.  相似文献   

苏鲁地体超高压和退变质时代的厘定:来自片麻岩锆石微区SHRIMP U-Pb定年的证据   总被引：31，自引：16，他引：31       下载免费PDF全文

刘福来  许志琴  宋彪 《地质学报》2003,77(2):229-237

锆石微区矿物包体的激光拉曼和阴极发光测试以及相应的SHRIMP U-Pb定年结果表明,苏鲁地体片麻岩锆石微区记录了十分复杂的年代学信息。其中副片麻岩锆石核部记录了345～743 Ma的继承性锆石年龄,标志着原岩碎屑锆石来源的复杂性;含柯石英的锆石微区记录了220～234 Ma的超高压变质年龄;而含石英包体的边部则记录了202～219 Ma的退变质年龄。正片麻岩继承性锆石核部所记录的年龄为574～680 Ma,表明原岩锆石曾经历了部分Pb丢失,原岩的形成年龄应大于680 Ma;含柯石英锆石微区所记录的超高压变质年龄为224～242 Ma;而锆石边部所记录的退变质年龄为209～219 Ma。两类片麻岩锆石微区所隐藏的超高压变质和退变质年龄信息十分相近,平均值分别为229±4Ma和211±4Ma,标志着苏鲁地体超高压变质时代应为印支期,相应的构造抬升速率约5.6 km/Ma。该项成果不仅确定了苏鲁地体超高压变质和退变质时代,而且对于深入探讨苏鲁地体快速折返过程中的动力学机制有着重要的科学意义。  相似文献   

桐柏-大别-苏鲁UHP和HP变质带的结构及流变学演化   总被引：8，自引：0，他引：8  

索书田  钟增球等 《地球科学》2002,27(5):548-557

在岩石圈流变学基本原理指导下，运用现代构造解析学方法，在不同尺度上差别和分析了桐柏－大别－苏鲁UHP和HP变质带内深俯冲，同碰撞构造及UHP和HP岩石折返过程中的变形特征，重点讨论同碰撞形成的高角度网结状榴辉岩切带阵列，高角闪岩相剪切及有关变形组合以及碰撞期后伸展韧性薄化变形样式，强调指出不同地壳层次和物理条件下变形分解作用的重要性，而且，在UHP和HP变质带内最有效的应变体制是剪切作用，并在三维空间上形成不同格式的剪切带网状系统，以构造学记录为主线，结合已有可利用的岩石学，变质作用pT轨迹和同位素年代学资料，提出一个UHP和HP变质带尺度上的流变学演化模式，其中，UHP和HP变质岩石由地幔深度折返到地壳表层，经历了楔状挤出，碰撞期后地壳韧性薄化及晚造山伸展塌陷，揭顶作用等多个阶段的动力学过程。  相似文献   

Investigation of Curie Point Depth in Sulu Ultrahigh-Pressure Metamorphic Belt,Eastern China     

乔庆庆  刘庆生  邱宁  付媛媛  赵素涛  吴耀  杨涛  金振民 《中国地质大学学报(英文版)》2008,19(3)

The Curie point depth of continental crust can reflect the regional tectonic pattern and geothermal structures. Analysis of magnetism is an efficient way to obtain the Curie point depth on a regional scale. This study systematically investigated the Curie point depth of Sulu (苏鲁) ultrahigh pressure (UHP) metamorphic belt (33°40'N to 36°20'N and 118°E to 120°E, ca. 60 000 km2), eastern China using aeromagnetic data. The results show that the Curie point depth of the Sniu region varies from 18.5 to 27 kin. The shallowest Curie point depth (ca. 18.5 km) is located in Subei (苏北) subsidence, where the estimated temperature gradient value is about 31.35℃/kin, which is comparable with the measured value of 30℃/krn. In addition, a two-dimensional numerical solution of the heat conduction was used to calculate the temperature field to a depth of 30 km along the profile from Tancheng (郯城) to Lianshui (涟水) with a length of 139 km. The steady state model solved using the finite element method shows that the temperature around the Curie point depth is about 585.36℃, which is close to the Curie temperature (580 ℃) of magnetite at atmospheric pressure. These results provide new insights into the tectonic and continuous thermal structures of the Sulu UHP metamorphic belt.  相似文献   

SHRIMP U–Pb dating of coesite-bearing zircon from the ultrahigh-pressure metamorphic rocks, Sulu terrane, east China     

J. S. Yang  J. L. Wooden  C. L. Wu  F. L. Liu  Z. Q. Xu  R. D. Shi  I. Katayama  J. G. Liou  S. Maruyama 《Journal of Metamorphic Geology》2003,21(6):551-560

This paper provides further evidence for the ongoing discussion as to whether the Dabie UHPM belt formed in Triassic or Palaeozoic time, and whether the Sulu UHPM belt formed in Triassic or Neoproterozoic time. Combined use of laser Raman spectrometer (LR), cathodoluminescence imaging (CL), and ion probe U–Pb in‐situ dating (SHRIMP) provided accurate ages of UHPM from rocks collected from Weihai, NE Sulu UHPM belt. LR was used to identify coesite and other UHP minerals as inclusions in zircon separates from an amphibolized peridotite and an eclogite. CL was used to examine the zoning structure of these zircon, and SHRIMP dating was performed on specific spots on zircon to obtain ages of different geological events. An age of 221 ± 12 Ma was obtained for coesite‐bearing zircon from the amphibolized peridotite; an age of 228 ± 29 Ma for eclogite was obtained from the lower intercept of a concordia plot. These ages are interpreted as the time of UHPM in the Weihai region. Ultramafic rocks to the east of Weihai yield a magmatic age at 581 ± 44 Ma. The zircon in the ultramafic rocks possibly also records a thermal event at c. 400 Ma, but no independent geological evidence for this event has been found. The eclogite protolith formed in the Middle Proterozoic (1821 ± 19 Ma), which is similar to the age of country rock gneisses of 1847–1744 Ma. The new geochronological data confirm that UHPM occurred in the Triassic in the Sulu area when subduction took the ultramafic body and the eclogite protolith, together with the adjacent supracrustal rocks, to mantle depths.  相似文献   

Formation and exhumation of blueschists and eclogites from NE Oman: new perspectives from Rb–Sr and 40Ar/39Ar dating     

A. K. El‐Shazly  M. Brcker  B. Hacker  A. Calvert 《Journal of Metamorphic Geology》2001,19(3):233-248

Seven eclogite facies samples from lithologically different units which structurally underlie the Semail ophiolite were dated by the ⁴⁰Ar/³⁹Ar and Rb–Sr methods. Despite extensive efforts, phengite dated by the ⁴⁰Ar/³⁹Ar method yielded saddle, hump or irregularly shaped spectra with uninterpretable isochrons. The total gas ages for the phengite ranged from 136 to 85 Ma. Clinopyroxene–phengite, epidote–phengite and whole‐rock–phengite Rb–Sr isochrons for the same samples yielded ages of 78 ± 2 Ma. We therefore conclude that the eclogite facies rocks cooled through 500 °C at c. 78 ± 2 Ma, and that the ⁴⁰Ar/³⁹Ar dates can only constrain maximum ages due to the occurrence of excess Ar inhomogeneously distributed in different sites. Our new results lead us to conclude that high‐pressure metamorphism of the Oman margin took place in the Late Cretaceous, contemporaneous with ophiolite emplacement. Previously published structural and petrological data lead us to suggest that this metamorphism resulted from intracontinental subduction and crustal thickening along a NE‐dipping zone. Choking of this subduction zone followed by ductile thinning of a crustal mass wedged between deeply subducted continental material and overthrust shelf and slope units facilitated the exhumation of the eclogite facies rocks from depths of c. 50 km to 10–15 km within c. 10 Ma, and led to their juxtaposition against overlying lower grade rocks. Final exhumation of all high‐pressure rocks was driven primarily by erosion and assisted by normal faulting in the upper plate.  相似文献