豫南——鄂北大别山北部高压角闪石榴辉岩的研究   总被引：6，自引：0，他引：6       下载免费PDF全文

刘景波  国连杰 《地质科学》1997,32(4):409-422

一个高压角闪石榴辉岩带出现在豫南——鄂北大别山高压超高压变质单元的最北部。榴辉岩的矿物组合为石榴石+绿辉石+角闪石+绿帘石+多硅白云母+石英+金红石。采用Powell等(1994)的Thermocalc估计的温压条件:压力为1.8-2.4GPa,温度为490-592℃。这个带的榴辉岩在矿物组合,矿物成分和温压条件上明显不同于该高压变质单元中其它带的榴辉岩。  相似文献   

Ages of peak HP-UHP metamorphism of eclogites from Chinese southwestern Tianshan: Evidence from Lu-Hf geochronologySCIEI北大核心CSCD     

龚庭楠  杜瑾雪  张立飞  沈晓洁 《岩石学报》2023,(3):689-700

新疆西南天山蓝片岩-榴辉岩带是全球少有的几个经历超高压变质作用的洋壳俯冲带之一,近年来的同位素年代学研究表明其变质作用主要发生于石炭纪。然而,该蓝片岩-榴辉岩带峰期变质作用,特别是超高压变质作用的时代还未精确限定。本文选取来自该带的典型钠云母黝帘石榴辉岩(样品211-3和H76-10),在详细的岩石学和相平衡研究基础上,开展了Lu-Hf同位素年代学研究,以期获得其峰期变质作用时代。相平衡模拟结果表明两榴辉岩中石榴石均记录了升温降压型折返P-T(温度-压力)轨迹。其中,样品211-3经历了超高压变质作用,其压力峰期P-T条件为~540℃、~2.9GPa,石榴石-绿辉石-全岩Lu-Hf等时线年龄为326.9±1.3Ma;样品H76-10仅经历了高压变质作用,其压力峰期P-T条件为~490℃、~2.4GPa,石榴石-绿辉石-全岩Lu-Hf等时线年龄为306±11Ma。结合前人年代学数据,获得新疆西南天山超高压榴辉岩峰期变质作用时代为327~326Ma,高压榴辉岩峰期变质作用时代为316-306Ma。本文获得的超高压变质作用确切年龄326.9±1.3Ma,对于揭示古南天山洋深俯冲和闭合的时间具有重要意义。  相似文献   

华北克拉通丰镇碳酸岩中榴辉岩捕虏体岩石学研究:现今板块体制古元古代开始启动证据     

李韵秀  张立飞  许成  KYNICK&#; Jind&#;ich  FEI YingWei 《岩石学报》2021,37(2):391-416

关于现今板块构造体制何时启动是目前地球科学研究的焦点问题。本文在原报道的古元古代丰镇火成碳酸岩中发现的榴辉岩捕虏体基础上,开展了详细的岩石学研究。该榴辉岩捕虏体分为两种类型:即相对富石榴石的Fz-2和贫石榴石的Fz-16,它们产于同一地点,且具有相同的矿物成分和结构构造特征。Xu et al.(2018)的研究表明该捕虏体具有1839±26Ma和1766±7Ma的独居石U-Th-Pb年龄且具有大洋辉长岩原岩的全岩成分特征。本文通过进一步的岩相学研究发现该榴辉岩至少经历了两期变质阶段:M1,角闪石/绿帘石-榴辉岩阶段;M2,硬柱石-榴辉岩阶段。具有放射状裂纹包裹特征的柯英石假象在石榴石变斑晶和基质绿辉石中以包体形式出现。以蓝晶石与黝帘石共存为特征的柱状硬柱石假象,也偶尔以包体形式存在于石榴石中。变斑晶石榴石分为富含包体的核部和比较干净的边部。石榴石从中心到边部具有明显的镁铝榴石含量增加和钙铝榴石含量降低的环带特征,通过相平衡模拟和等值线投图得到其温压范围为2.6~3.7GPa和655~670℃,记录了从M1到M2的近等温增压的进变质过程。通过石榴石边部-绿辉石-蓝晶石-石英的地质温压计计算得到温压条件为3.0GPa、734℃。金红石中的锆含量温度计也给出了相似的温度条件,即在2.6~3.7GPa压力时为601~685℃。石榴石边部的柯石英假象和硬柱石假象支持了M2硬柱石-榴辉岩阶段的存在,这表明丰镇古元古代榴辉岩可能是目前发现的世界上最古老的低温超高压变质岩。同时,我们得到该榴辉岩代表的进变质过程中的地温梯度为216±35℃/GPa,证明至少在~1.8Ga以来代表现今板块构造体制的板块冷俯冲作用就开始启动了。  相似文献   

中国大陆科学钻探(CCSD)主孔岩芯榴辉岩中的重晶石副矿物研究     

杨红  张立飞  刘福来 《岩石学报》2010,26(7):2073-2082

中国大陆科学钻探主孔岩芯190～320m榴辉岩中的富锶重晶石作为副矿物存在于超高压变质和退变质阶段,其中大部分的重晶石发现于绿辉石的退变质后成合晶中。具有不同Sr含量的重晶石在榴辉岩中至少具有3种产出状态,形成于3个变质阶段:Ⅰ超高压榴辉岩相阶段,存于石榴石包裹体中,SrSO4含量约在45mol%;Ⅱ早期退变质阶段,存于后成合晶(单斜辉石+钠长石)中,SrSO4含量变化范围很大,在0mol%～21mol%之间;Ⅲ晚期角闪岩相阶段,作为黄铁矿的氧化边存在,SrSO4占2mol%～5mol%。重晶石的形成与流体作用相关,富锶重晶石能反映原赋存流体的Sr/Ba值比较高。重晶石与其伴生矿物尤其硫化物的结构关系对岩体的相对氧化还原环境具有重要指示意义。本文通过榴辉岩中重晶石副矿物学研究,确定了榴辉岩曾经历超高压变质阶段的氧化环境、早期退变质阶段的还原环境和角闪岩相阶段的氧化环境。  相似文献   

大别山石马地区石榴黑云片麻岩的Sm-Nd、K-Ar年龄及冷却速率   总被引：8，自引：0，他引：8       下载免费PDF全文

李曙光  肖益林  刘德良 《地质科学》1995,30(2):174-182

南大别地体中榴辉岩的围岩──石榴黑云片麻岩具有角闪岩相变质矿物组合,其变质温度为525℃,Sm-Nd矿物等时线年龄为(229±3)Ma.黑云母的K-Ar封闭温度为300℃,相应K-Ar年龄为(231±5)Ma.因此该片麻岩在230Ma左右从525℃迅速冷却到300℃以下。然而该区榴辉岩在印支期(221Ma)变质温度为700℃左右,直到134Ma才降至400-450℃。说明该区榴辉岩与该片麻岩具有不同的冷却史。它不支持榴辉岩是原地(in situ)成因的。  相似文献   

苏北榴辉岩中金红石矿床的形成机制探索   总被引：1，自引：0，他引：1  

郑大中  郑若锋 《江苏地质》2006,30(2):81-86

通过对钛的迁移形式和条件的研讨,结合苏北地区的地质背景、有关矿物流体包裹体的化学成分、榴辉岩中有关矿物的化学成分、金红石的赋存状态、含金红石榴辉岩主要矿物组合等情况,认为该类金红石矿床的形成机制可描述为:华北、扬子两大板块碰撞、俯冲,将苏北地区地壳浅部的基性岩等带入上地幔的高温、高压、强还原富氢环境,岩石中部分钛呈氢化物活化。此后,由于地壳运动,榴辉岩折返、抬升,地幔深部的钛氢化物与岩石中活化的钛氢化物随榴辉岩一同迁移至地壳浅部,由于氧逸度大增,压力、温度大降,还原性气体逃逸、氧化,逐渐演化为相对氧化性的环境,钛氢化物被氧化成金红石、沉淀富集成矿。  相似文献   

造山带构造年代学基本问题——论同位素体系与变质作用的关系   总被引：4，自引：0，他引：4  

简平  杨巍然 《地球科学进展》1998,13(5):452-457

造山带构造年代学以研究造山带重大地质事件时代,建立时空格架为目的。其实质是研究同位素体系与变质作用的关系,包括变质过程中同位素体系扰动、同位素平衡、同位素均匀化以及锆石增生和放射性成因铅丢失等方面。并以大别山黄土岭麻粒岩和熊店榴辉岩为例阐述了构造年代学的研究方法和步骤,论证大别古陆老于2 814 Ma,大别山早前寒武纪基底变质事件发生在约20亿年前;大别熊店榴辉岩峰变质年龄为468 Ma。  相似文献   

High-pressure metamorphism and deep-crustal seismicity: evidence from contemporaneous formation of pseudotachylytes and eclogite facies coronas   总被引：1，自引：0，他引：1  

Mats G. Lund  Hkon Austrheim 《Tectonophysics》2003,372(1-2):59-83

The metamorphic complex of the Western Gneiss Region (WGR), Norway, constitutes the root of the Caledonian mountain belt and experienced temperatures of 700–800 °C and pressures in excess of 20 kbar during peak metamorphism. Mafic bodies surrounded by strongly banded felsic gneisses commonly exhibit variable reequilibration to granulite and eclogite facies conditions and locally preserve igneous minerals and textures. The Kråkeneset gabbro, located on the island of Vågsøy in the mixed HP/UHP zone of the western WGR, display evidence for extensive metastability through the entire prograde and retrograde P, T histories. Eclogite constitutes less than a few percent of the total volume of the body and high-pressure assemblages typically form thin coronas around magmatic phases or occur along localized zones of brittle deformation and fluid infiltration. The gabbro displays pseudotachylyte vein networks that define subparallel brittle fault zones, <50 cm wide, transecting the gabbro body. The pseudotachylytes contain μm- to mm-scale amoeboid and dendrite-like textures of garnet and plagioclase with inclusions of the eclogite facies minerals orthopyroxene, omphacite, amphibole, and dolomite, suggesting rapid disequilibrium growth of minerals during high-pressure conditions. Textural and petrological evidence from pseudotachylytes and corona structures show that the growth of these unusual textures occurred shortly after pseudotachylyte crystallization by a process of rapid solid-state alteration of a microcrystalline pseudotachylyte matrix. The pseudotachylyte-lined fault zones are in close spatial association with numerous amphibole±carbonate-filled hydrofractures with conspicuous fracture-parallel alteration zones defined by hydrous eclogite facies assemblages. These eclogite facies hydrofractures testify to the existence of high fluid pressures and to fluid infiltration following brittle failure during high-grade metamorphic conditions. Geothermobarometric estimates (ca. T=650–700 °C, P=20 kbar) and petrological data imply that hydrofracturing, pseudotachylyte crystallization, and the subsequent pseudotachylyte alteration process must have occurred during high-pressure metamorphism. Our observations are suggestive of a deep-crustal earthquake scenario where a high-pressurized fluid phase plays a double role by causing both seismic failure through the embrittlement effect and facilitating eclogitization of the metastable anhydrous gabbro. Metamorphic reaction along hydrofractures and fault planes led to the development of eclogite facies foliation fabrics and illustrate the rheological change from brittle to plastic behavior associated with the gabbro to eclogite transition. The formation of weak deep-crustal shear zones following brittle failure represents an arrested initiation of the physical breakup and metamorphic reequilibration of the Kråkeneset gabbro during its residence deep in the former Caledonian collision zone.  相似文献   

Conditions and timing of high-pressure Variscan metamorphism in the South Carpathians, Romania   总被引：2，自引：0，他引：2  

Gordon Medaris Jr.  Mihai Ducea  Ed Ghent  Viorica Iancu 《Lithos》2003,70(3-4):141-161

High-pressure (HP) metamorphic rocks, including garnet peridotite, eclogite, HP granulite, and HP amphibolite, are important constituents of several tectonostratigraphic units in the pre-Alpine nappe stack of the Getic–Supragetic (GS) basement in the South Carpathians. A Variscan age for HP metamorphism is firmly established by Sm–Nd mineral–whole-rock isochrons for garnet amphibolite, 358±10 Ma, two samples of eclogite, 341±8 and 344±7 Ma, and garnet peridotite, 316±4 Ma.

A prograde history for many HP metamorphic rocks is documented by the presence of lower pressure mineral inclusions and compositional zoning in garnet. Application of commonly accepted thermobarometers to eclogite (grt+cpx±ky±phn±pg±zo) yields a range in “peak” pressures and temperatures of 10.8–22.3 kbar and 545–745 °C, depending on tectonostratigraphic unit and locality. Zoisite equilibria indicate that activity of H₂O in some samples was substantially reduced, ca. 0.1–0.4. HP granulite (grt+cpx+hb+pl) and HP amphibolite (grt+hbl+pl) may have formed by retrogression of eclogites during high-temperature decompression. Two types of garnet peridotite have been recognized, one forming from spinel peridotite at ca. 1150–1300 °C, 25.8–29.0 kbar, and another from plagioclase peridotite at 560 °C, 16.1 kbar.

The Variscan evolution of the pre-Mesozoic basement in the South Carpathians is similar to that in other segments of the European Variscides, including widespread HP metamorphism, in which P–T–t characteristics are specific to individual tectonostratigraphic units, the presence of diverse types of garnet peridotite, diachronous subduction and accretion, nappe assembly in pre-Westphalian time due to collision of Laurussia, Gondwana, and amalgamated terranes, and finally, rapid exhumation, cooling, and deposition of eroded debris in Westphalian to Permian sedimentary basins.  相似文献   

Petrogenesis of the Maowu pyroxenite–eclogite body from the UHP metamorphic terrane of Dabieshan: chemical and isotopic constraints     

Bor-ming Jahn  Qicheng Fan  Jian-Jun Yang  O Henin 《Lithos》2003,70(3-4):243-267

The Maowu eclogite–pyroxenite body is a small (250×50 m) layered intrusion that occurs in the ultra-high-pressure (UHP) metamorphic terrane of Dabieshan, China. Like the adjacent Bixiling complex, the Maowu intrusion was initially emplaced at a crustal level, then subducted along with the country gneisses to mantle depths and underwent UHP metamorphism during the collision of the North and South China Blocks in the Triassic. This paper presents the results of a geochemical and isotopic investigation on the metamorphosed Maowu body. The Maowu intrusion has undergone open system chemical and isotopic behavior three times. Early crustal contamination during magmatic differentiation is manifested by high initial ⁸⁷Sr/⁸⁶Sr ratios (0.707–0.708) and inhomogeneous negative _Nd(T) values of −3 to −10 at 500 Ma (probable protolith age). Post-magmatic and pre-UHP metamorphic metasomatism is indicated by sinusoidal REE patterns of garnet orthopyroxenites, lack of whole-rock (WR) Sm–Nd isochronal relationship, low δ¹⁸O values and an extreme enrichment of Th and REE in a clinopyroxenite. Finally, K and Rb depletion during UHP metamorphism is deduced from the high initial ⁸⁷Sr/⁸⁶Sr ratios unsupported by in situ Rb/Sr ratios. Laser ICP-MS spot analyses on mineral grains show that (1) Grt and Cpx attained chemical equilibrium during UHP metamorphism, (2) Cpx/Grt partition coefficients for REE correlate with Ca, and (3) LREE abundances in whole rocks are not balanced by that of the principal phases (Grt and Cpx), implying that the presence of LREE-rich accessory phases, such as monazite and apatite, is required to account for the REE budget.

Sm–Nd isotope analyses of minerals yielded three internal isochrons with ages of 221±5 Ma and (T)=−5.4 for an eclogite, 231±16 Ma and (T)=−6.2 for a garnet websterite, and 236±19 Ma and (T)=−6.9 for a garnet clinopyroxenite. The Cpx/Grt chemical equilibrium and the consistent mineral isochron ages indicate that the metasomatic processes mentioned above must have occurred prior to the UHP metamorphism. These Sm–Nd ages agree with published zircon and monazite U–Pb ages and constrain the time of UHP metamorphism to 220–236 Ma. The Maowu and Bixiling layered intrusions are similar in their in situ tectonic relationship with their country gneisses, but the two bodies are distinguished by their magma-chamber processes. The Bixiling magmas were contaminated by the lower crust, whereas the Maowu magmas were contaminated by the upper crustal rocks during their emplacement and differentiation. The two complexes represent two distinct suites of magmatic rocks, which have resided in the continental crust for about 300–400 Ma before their ultimate subduction to mantle depths, UHP metamorphism and return to the crustal level.  相似文献