Spinel + quartz-bearing ultrahigh-temperature granulites from Xumayao,Inner Mongolia Suture Zone,North China Craton:Petrology,phase equilibria and counterclockwise p-T path

The Khondalite Belt within the Inner Mongolia Suture Zone （IMSZ） in the North China Craton is a classic example for Paleoproterozoic ultrahigh-temperature （UHT） metamorphism. Here we report new spinel-bearing metapelitic granulites from a new locality at Xumayao within the southern domain of the IMSZ. Petrological studies and thermodynamic modeling of the spinel -- quartz-bearing assemblage shows that these rocks experienced extreme metamorphism at UHT conditions. Spinel occurs in two textural settings：（1） high Xzn（Zn/（Mg ＋ FeH -- Zn） = 0.071--0.232） spinel with perthitic K-feld- spar, sillimanite and quartz in the rock matrix; and （2）low Xzn （0.045-0.070） spinel as inclusions within garnet porphyroblasts in association with quartz and sillimanite. Our phase equilibria modeling indicates two main stages during the metamorphic evolution of these rocks：（l） near-isobaric cooling from 975 ℃ to 875 ℃ around 8 kbar, represented by the formation of garnet porphyroblasts from spinel and quartz; and（2）cooling and decompression from 850 ℃, 8 kbar to below 750 ℃- 6.5 kbar, represented by the break-down of garnet. The spinel ＋ quartz assemblage is considered to have been stable at peak metamorphism, formed through the break-down of cordierite, indi- caring a near isothermal compression process. Our study confirms the regional extent of UHT metamor- phism within the IMSZ associated with the Paleoproterozoic subduction-collision process.

Integrated P-T Paths of the High-Pressure Rocks and Their Tectonic Implications for the Mountain-Building of the North Qilian, China

After the integration of petrographic study, geothermobarometry and Gibbs method, the synthetic P-T paths for the rocks from different geological profiles in the North Qilian, China, have been derived. The composite P-T paths from different methods indicate that all the high-pressure rocks in the Qilian area recorded P-T paths with clockwise loops starting at the blueschist facies, later reaching peak metamorphism at the blueschist facies, eclogite fades or epidote-amphibolite facies and ending up with the greenschist facies. The incremental Ar-Ar dating shows that the plateau ages for the high-pressure rocks range from 410 to 443 Ma. The plateau ages could be used as a minimum age constraint for the subduction that resulted in the formation of these high-pressure rocks in the Qilian area. It is proposed that the late-stage decompressional and cooling P-T paths with ends at the greenschist facies for these high-pressure rocks probably reflect the uplift process which could occur after shifting the arc-trench tectonic system to the system of continental orogenic belts. The retrograde paths for the high-pressure rocks in the North Qilian tectonic belt are characterized by dramatic decompression with slight cooling, which suggests very rapid exhumation. Petrography supports that the mountain-building for the Qilian mountain range could undergo a very fast process which caused rapid uplift and denudation.

P-T path of metamorphism and U-Pb monazite and zircon age of the Kitoy terrane: Implication for Neoarchean collision in SW Siberian Craton

The first data on P-T metamorphic conditions coupled with U-Pb monazite and zircon age obtained for the Neoarchean Kitoy granulite-gneiss terrane(SW Siberian Craton).Alumina gneisses of the Kitoy terrane indicate two-staged metamorphic evolution.The first stage of regional metamorphism(M1)occurred at high-amphibolite facies conditions at T=780-800℃ and P=8-9 kbar.The second stage(M2)belongs to MT-HT/LP type of metamorphism with the wide temperature interval 600-750℃ and pressure 2-4 kbar.Two age peaks were established on the basis of U-Pb monazite and zircon dating in garnet-anthophyllite gneisses.Both of them correspond to the Neoarchean age:the age of M1 falls into the interval of ca.2489-2496 Ma,the age of M2-ca.2446-2456 Ma.The high-temperature metamorphism of the Kitoy block and nearly coeval granitoid magmatism can be an evidence for the Neoarchean collision in SW Siberian craton.

Anticlockwise P-T Path and Zircon U-Pb Dating of HP Mafic Granulites in Yushugou Granulite-Peridotite Complex, Southern Tianshan Mountains, China

The Yushugou HP granulite-peridotite complex is located at east of northern margin of southern Tianshan mountains,China,which consists of granulite unit and peridotite unit mainly.Because of the rare association of

喂子坪秦岭杂岩麻粒岩相变沉积岩的变质作用p-T演化及其构造意义

秦岭杂岩位于秦岭造山带北秦岭构造带,是研究秦岭造山带早古生代构造演化的重要岩石构造单元。喂子坪地区发育有典型的秦岭杂岩,其中的混合岩是由变沉积岩经历了强烈的深熔作用形成的。本研究对其进行了岩相学、变质相平衡模拟和LA-ICP-MS锆石U-Pb年代学研究,以深入揭示它们的变质温压演化特征,进而阐明它们指示的构造意义。混合岩的中色体由含石榴子石角闪黑云斜长片麻岩和含石榴子石黑云角闪斜长片麻岩组成。含石榴子石角闪黑云斜长片麻岩只记录了峰期变质矿物组合,为镁铁闪石+石榴子石+斜长石+石英+黑云母+钛铁矿+熔体,而含石榴子石黑云角闪斜长片麻岩记录了3个变质演化阶段,分别是早期进变质阶段(M1):黑云母+斜长石+石英;峰期变质阶段(M2):镁铁闪石+石榴子石+斜长石+石英+黑云母+钛铁矿+熔体;退变质阶段(M3):普通角闪石+斜长石+黑云母+石英+熔体。全岩成分视剖面图模拟计算显示含石榴子石角闪黑云斜长片麻岩和含石榴子石黑云角闪斜长片麻岩压力峰期的变质温压条件分别为790~810℃/990~1040 MPa和840~862℃/1000~1190 MPa。含石榴子石黑云角闪斜长片麻岩3组局部矿物组合域成分视剖面图模拟计算得到压力峰期后变质阶段的温压条件为735~814℃/400~810 MPa、721~794℃/430~700 MPa、740~810℃/470~780 MPa。因此,本研究揭示了喂子坪地区秦岭杂岩片麻岩记录了近等温降压的p-T轨迹。LA-ICP-MS锆石U-Pb定年得到含石榴子石角闪黑云斜长片麻岩和2个浅色体样品中的变质锆石206Pb/238U加权平均年龄分别为383.2±7.0 Ma、400±3.6 Ma和406.7±7.8 Ma。结合已发表的数据,喂子坪地区变沉积岩麻粒岩相峰期变质作用和强烈的混合岩化作用的时代约为410~390 Ma,而约380 Ma的年龄可能代表退变质冷却到固相线的时代。片麻岩近等温降压的变质演化轨迹指示喂子坪地区秦岭杂岩的变沉积岩在下地壳经历了麻粒岩相变质作用和随后的快速抬升,与碰撞造山引起的地壳增厚和随后的地壳伸展有关。

P-T Paths Derived from Garnet Growth Zoning in Danba Domal Metamorphic Terrain, Sichuan Province, West China

Danba （丹巴） domal metamorphic terrain belongs to Songpan （松潘）-Ganze （甘孜） orogenic belt, where typical Barrovian and Buchan metamorphic zones are preserved. The former included chlorite, biotite, garnet, staurolite, kyanite and sillimanite zones, while the latter only developed silimanite＋muscovite and sillimanite＋K-feldspar zones. Integrated study has been carried on metamorphic reactions of garnet production and consumption, P-T paths and P-T-X-M phase relation and thermal tectonic model for Danba metamorphic zones. Petrological textures in thin sections show that garnet production and consumption in kyanite-sillimanite zone is mainly attributed to ChI＋Ms＋PI＋Q= Grt＋Bt＋H20 and kyanite=sillimanite respectively. Based on mineral compositions, the geothermo- barometry gives an average P, T condition of （4.9±0.3）×10^8 Pa, 543±30 ℃ for the first growth stage of the garnet and （5.8±0.3）×10^8 Pa, 534±29 ℃ for the second stage of garnet growth respectively. Anti-counter clockwise P-T paths were drawn using Gibbs method by NCMnKFMASH system for sample G98686 in the kyanite zone. The P-T-X-M modeling for the first mineral assemblages shows that the prediction is similar to the measured values in gossular, almandine and spessartine but mole fraction of pyrope and Fe/（Fe＋Mg） deviated far from the contours; while that for the second mineral assemblages exhibits that the prediction is consistent with the measured value of pyrope, grossular content and Fe/（Fe＋Mg） of garnet. A thermal tectonic model that there are at least three structure levels across the thrust-decollement zones is presented according to the P-T paths, metamorphic grades and deformation styles for the staurolite-kyanite zone of the Barrovian type metamorphism, which will provide some constraints for the evolution of the nappe complex.

A huge oceanic-type UHP metamorphic belt in southwestern Tianshan, China: Peak metamorphic age and P-T path

Recent progress in the study of the UHP metamorphic belt in southwestern Tianshan,China,is summarized in this paper.This about 80-km-long and over 10-km-wide UHP belt has been recognized by the discovery of coesite,coesite pseudomorphs and other UHP minerals.It is the largest oceanic-type UHP metamorphic belt reported so far.It has formed due to northward subduction of the Tianshan Paleo-Ocean.U-Pb dating of metamorphic rims of zircons from a coesite-bearing garnet-phengite schist yields a peak UHP metamorphic ages of 320±3.7 Ma.Combined with ages of 233–226 Ma obtained from rims of zircons from retrograded eclogites,a long retrograde metamorphic evolution(>70 Ma)has been revealed.According to phase equilibria modeling,the P-T paths of both coesite-bearing eclogites and garnet-phengite schists are characterized by thermal relaxation,i.e.,the metamorphic temperature peak lags behind the pressure peak,indicating that the UHP rocks experienced slow and long heating and decompression during exhumation in the subduction channel.On the basis of the field observation that a small amount of eclogite lenses is wrapped in large volumes of metapelites,and the similar P-T paths of both rock types,we propose that the exhumation of the UHP eclogites from southwestern Tianshan,China,may have resulted from the exhumation of large volumes of low-density metapelites,which carried the denser eclogites to the Earth’s surface.

Petrology and Metamorphic P-T Paths of Metamorphic Zones in the Huangyuan Group,Central Qilian Block,NW China

The Central Qilian Block is a Precambrian block in the Qilian Orogen,which has long drawn international attention for the study of orogeny and continental dynamics.The Huangyuan Group in the Datong area is one of the Precambrian metamorphic basement units in the Central Qilian Block and reflects metamorphism in the Barrovian garnet zone and sillimanite zone from south to north.Based on detailed fieldwork,this study presents a systematic study of petrography,mineral chemistry and phase equilibria of schists and gneisses from the two metamorphic zones.The garnet metamorphic zone is composed of micaschist,garnet-bearing micaschist and felsic leptynite,with interlayered plagioclase amphibolite.The sillimanite metamorphic zone consists of garnet-bearing biotite micaschist,sillimanite-bearing biotite-plagioclase gneiss and felsic leptynite.Garnet from the garnet metamorphic zone shows growth zoning with increasing almandine and pyrope and decreasing spessartine from core to rim.Garnet from the sillimanite metamorphic zone is almost homogeneous.Towards the outer rim,the contents of almandine and pyrope slightly decrease and grossular slightly increase.Biotite in both metamorphic zones is ferro-biotite.Plagioclase is oligoclase in garnet metamorphic zone and andesine in sillimanite metamorphic zone.Phase equilibrium modeling of a sample from garnet metamorphic zone resulted in a clockwise P-T path with a prograde stage(4.5–5.0 kbar,520–530℃),a peak P stage(9.8–10.2 kbar,560–570℃),a stage of thermal relaxation(8.0–8.5 kbar,580–590℃)and finally a retrograde stage(6.8–7.0 kbar,560–580℃).Thermodynamic modeling of a sample from the sillimanite metamorphic zone indicates a prograde stage(5.5–6.0 kbar,540–550℃)and a peak stage(7.8–8.5 kbar,660–690℃).The results indicate that the Huangyuan Group experienced medium-pressure amphibolite-facies metamorphism,which resulted from continental-continental collision between the Qaidam Block and the Central Qilian Block.

P-T-t Path of Mafic Granulite Metamorphism in Northern Tibet and Its Geodynamical Implications

Mafic granulites have been found as structural lenses within the huge thrust system outcropping about 10 km west of Nam Co of the northern Lhasa Terrane, Tibetan Plateau. Petrological evidence from these rocks indicates four distinct metamorphic assemblages. The early metamorphic assemblage (M1) is preserved only in the granulites and represented by plagioclase+hornblende inclusions within the cores of garnet porphyroblasts. The peak assemblage (M2) consists of garnet+clinopyroxene+hornblende+plagioclase in the mafic granulites. The peak metamorphism was followed by near-isothermal decompression (M3), which resulted in the development of hornblende+plagioclase symplectites surrounding embayed garnet porphyroblasts, and decompression-cooling (M4) is represented by minerals of hornblende+plagioclase recrystallized during mylonization. The peak (M2) P-T conditions of garnet+ clinopyroxene+plagioclase+hornblende were estimated at 769-905℃ and 0.86-1.02 GPa based on the geothermometers and geobarometers. The P-T conditions of plagioclase+hornblende symplectites (M3) were estimated at 720-800℃ and 0.55-0.68 GPa, and recrystallized hornblende+plagioclase (M4) at 594-708℃ and 0.26-0.47 GPa. It is impossible to estimate the P-T conditions of the early metamorphic assemblage (M1) because of the absence of modal minerals. The combination of petrographic textures, metamorphic reaction history, thermobarometric data and corresponding isotopic ages defines a clockwise near-isothermal decompression metamorphic path, suggesting that the mafic granulites had undergone initial crustal thickening, subsequent exhumation, and cooling and retrogression. This tectonothermal path is considered to record two major phases of collision which resulted in both the assemblage of Gondwanaland during the Pan-African orogeny at 531 Ma and the collision of the Qiangtang and Lhasa Terranes at 174 Ma, respectively.

造山带榴辉岩的变质作用P-T-t轨迹研究进展

板块俯冲和折返是板块构造理论的重要组成部分,也是固体地球科学研究的一个前沿方向。俯冲/碰撞造山带内的高压-超高压变质岩经历了俯冲至地球深部而后折返至地壳浅部的复杂地质过程,反演它们的P-T-t轨迹是高压-超高压变质作用研究的重要课题,也是揭示造山带构造演化的一个重要途径。造山带榴辉岩作为高压-超高压变质岩中的一类典型代表,常保留多个变质阶段的矿物组合,较完整地记录了造山带演化的关键信息,是反演P-T-t轨迹的理想样品。根据详细的岩相学观察和矿物成分分析,能识别出榴辉岩不同变质阶段的矿物组合。在此基础上,选取合适的地质温压计或采用相平衡模拟,可获得岩石相应变质阶段的温压条件(P-T)。如何获得多阶段变质年龄(t)和如何匹配变质作用的温压条件和年龄信息,是反演榴辉岩P-T-t轨迹的两个关键问题。本文针对榴辉岩中的锆石、金红石、榍石和褐帘石这四个适用于U-Pb定年的副矿物,从结晶条件和封闭温度等角度评估它们可能记录的年龄信息。结果表明,受限于结晶的温压条件或结晶后的改造作用,单种矿物定年难以获得多阶段年龄,一些实际研究中需要采用多种矿物或多个同位素体系实施定年分析。对于将副矿物从岩石中分选出来再实施原位微区定年的方法,测定微量元素和包裹体矿物组合并不总能准确限定这些定年副矿物结晶于哪个变质阶段,这将影响副矿物年龄意义的解析。观察分析定年副矿物在榴辉岩中的结构,能够厘清它们与岩石主要组成矿物之间的成因联系,进而可通过主要组成矿物限定副矿物的结晶温压条件和年龄意义。因此,具有岩相学结构制约的副矿物原位定年分析(“岩石年代学”方法)是耦合变质岩石学(P-T)和地质年代学(t)结果的重要手段,应在今后的变质作用研究中得到更多的重视和运用。与此同时,进一步研究变质分解/重结晶、熔/流体交代、脆/韧性变形等地质作用对副矿物定年同位素体系的影响。变质作用的时间信息不仅包括通过同位素定年获得的绝对年龄,也包括变质作用所持续的时间。受制于定年测试的精度,一些短时间尺度(≤1Myr)的变质作用难以通过同位素年代学方法进行限制。基于矿物的成分扩散、结构演变、力学性质转变等模拟方法,可用于揭示和限定这类变质事件的时间尺度,以此精细刻画岩石的变质P-T-t轨迹,有助于深入理解造山带榴辉岩的形成过程和机制。

华北南缘舞钢太华杂岩变泥质岩变质作用:变质P-T轨迹与锆石U-Pb年龄

太华杂岩在华北中部造山带南缘舞钢地区存在出露,本文选取该地3个变泥质片麻岩为研究对象,对其进行了岩石学、相平衡模拟和锆石U-Pb年龄分析等综合研究。结果显示其普遍保留了三个变质阶段的矿物组合:进变质阶段(M1)矿物组合主要以矿物包裹体保存在石榴子石变斑晶之中,峰期变质阶段(M2)矿物组合主要保存在基质中,退变质阶段(M3)矿物组合以石榴子石变斑晶周围的后成合晶矿物组合为代表。石榴镁铁闪石黑云二长片麻岩M1矿物组合为Bt1+Pl1+Ilm1+Qz1±Amp1,M2矿物组合为Grt2+Bt2+Pl2+Amp2+Qz2+Mt2±Ilm2,其P-T条件为810~855℃、0.8~1.0GPa,M3矿物组合为:Bt3+Pl3+Qz3+Amp3±Ilm3±Mt3。2个石榴夕线黑云片麻岩M1矿物组合为Bt1+Sil1+Mt1+Ilm1+Qz1±Pl1±Rt1,M2矿物组合为Grt2+Bt2+Sil2+Qz2±Pl2±Ilm2±Mt2,其P-T条件为795~850℃、0.7~0.9GPa,M3矿物组合为Bt3+Sil3+Qz3±Pl3±Ilm3±Mt3±Rt3。结果表明舞钢变泥质片麻岩记录了近等温降压(TTD)的顺时针P-T轨迹,这样的P-T轨迹反映了一个碰撞造山的过程。锆石U-Pb年龄结果指示这些片麻岩源区时代为~2.86Ga,原岩形成年龄为~2.36Ga,在约1.96~1.84Ga期间经历了高级变质作用,而约1.84~1.80Ga可能代表了其退变质作用时间。这表明中部造山带的南部可能经历了一期拉长的构造-热事件(约1.96~1.80Ga),持续时间长达~160Myr之久,可能代表华北克拉通东部陆块和西部陆块在古元古代沿着中部造山带的俯冲-碰撞造山过程。

The Microarea Composition of Garnet and Biotite from the Ji'an Group in Tonghua District and Its Significance as an Indicator of Metamorphic P-T-t Path

The garnet (Grt) and biotite (Bt) from gneisses of the Ji’ an Group are characterized by diffusion zoning at the rim, but equilibrium composition of metamorphic peak is usually remained in extensive interior area. Garnet with growth zoning is also found in the kyanite zone.In the light of microarea compositional variation of Grt and Bt, the temperatuIe and pressuIe at the progressive, peak and post peak metamorphic stages are determined by correctly using GrtBt thermometer and GASP barometer. On this basis, a counterclockwise P-T-t path can be constructed, which reflects the closing process of an ensialic rift belt in this region during the Early Proterozoic.

Syn-deformation P-T paths of Xiaoqinling metamorphic core complex

The \%P_T\% paths of the Xiaoqinling metamorphic core complex (XMCC) have been investigated with the Gibbs method by researching the compositional changing of zoned epidotes which formed during syn_deformation metamorphism. These \%P_T\% paths indicate that the XMCC had experienced the following thermodynamics processes: firstly, near isobaric falling slightly in temperature in lower crust; secondly, fast decompression and rising in temperature during extensional uplifting to middle crust level; and finally, isobaric falling in temperature in middle crust. The upwelling and emplacement of the deep magma may be a major factor during the uplifting processes of the metamorphic core complex.

黄陵背斜核北部黄凉河组混合岩化作用及泥质变质岩P-T轨迹对石墨成矿的启示

黄陵背斜核北部黄凉河组产出大鳞片晶质石墨矿,现有研究认为石墨片度分布与混合岩化作用有关,但这些研究多侧重于经验判断和特定样品的对比,缺乏统计学证据。以蔡家冲矿区的石墨矿为研究对象,根据不同层位样品中石墨片度的统计结果,分析混合岩化作用对石墨成矿的影响;对黄凉河组代表性样品进行相平衡模拟,探讨P-T轨迹对石墨成矿的启示。结果表明,蔡家冲地区的混合岩造成距离其0~20 m范围内的石墨片度增大,≥50目的石墨鳞片含量相较于蔡家冲地区整体平均值提高了5.77%~19.55%,因此石墨片度受石墨矿体与混合岩距离的影响,石墨矿体距混合岩越近,其大鳞片石墨含量越高;同时混合岩影响距离的远近与混合岩规模有关,混合岩规模越大,受其影响的距离越远。采用黄凉河组含石墨红柱石十字石二云片岩样品进行相平衡模拟,得到其峰期变质条件为640~660℃、0.31~0.38 GPa;结合该样品变质矿物世代变化和对应的变质反应,在P-T视剖面图中得到升压升温+减压升温的两阶段P-T轨迹,升压升温阶段对应碰撞造山过程,石墨矿的主体形成于该时期;减压升温阶段指示造山后伸展之前的热松弛期,混合岩化作用发生于该时期,并造成部分石墨矿体的石墨片度明显增大。

东喜马拉雅构造结高压基性麻粒岩成因与构造意义

东喜马拉雅构造结南迦巴瓦杂岩中存在典型的泥质、长英质和基性高压麻粒岩。但是,高压麻粒岩在南迦巴瓦杂岩中的分布范围、变质条件和变质时间是否存在空间上的变化并不明确。本文对南迦巴瓦杂岩西南部巴嘎地区的高压基性麻粒岩进行了岩石学和年代学研究。研究表明,巴嘎高压基性麻粒岩由石榴子石、单斜辉石、角闪石、斜长石、黑云母和石英组成,石榴子石变斑晶发育生长成分环带。识别出三期矿物组合:进变质矿物组合M1为石榴子石变斑晶核部及其矿物包裹体,包括石榴子石、石英、榍石和磷灰石;峰期矿物组合M2为变斑晶石榴子石边部和基质矿物,即石榴子石+单斜辉石+斜长石+角闪石+石英+金红石+熔体;退变质矿物组合M3呈冠状体或基质产出,其组合为角闪石+斜长石+单斜辉石+黑云母+石英+榍石。高压基性麻粒岩的峰期变质条件约为1.5 GPa和915℃,具有顺时针P-T轨迹,退变质的早期和晚期分别为近等温降压和降温降压过程。高压基性麻粒岩在峰期条件下发生了明显的部分熔融,含~26%(体积)的熔体,其退变质和熔体结晶作用很可能发生在26~14 Ma。本文和研究区现有研究成果表明,东喜马拉雅构造结南迦巴瓦杂岩中的高压麻粒岩广泛分布,从东北部的加拉、直白和派乡延伸到西南部的巴嘎沟,形成了一条长度超过80 km的高压麻粒岩带。整个带中的高压麻粒岩具有类似的变质条件和持续时间,是印度大陆地壳平缓俯冲并经历了高温和高压变质与部分熔融的产物,构成了喜马拉雅造山带的加厚下地壳。大量高压麻粒岩强烈部分熔融产生的熔体可能为喜马拉雅淡色花岗岩提供了源区。

阿尔金淡水泉早古生代泥质高压麻粒岩及其P-T演化轨迹

南阿尔金构造带淡水泉一带出露的含石榴石蓝晶石黑云母片麻岩是一套典型的泥质高压麻粒岩,其峰期特征矿物组合为石榴子石+蓝晶石+钾长石+金红石+石英。根据矿物内部一致性热力学数据和Thermocalc 3.23程序计算,确定其峰期变质温压条件为T>850℃和P>11kbar。结合岩相学研究和P-T视剖面图计算,可识别出该岩石经历了4个阶段的变质演化,构成了一个早期快速等温降压,后期近等压降温的顺时针型的退变质P-T演化轨迹,为与陆壳俯冲碰撞有关的高压变质事件的产物。该岩石锆石阴极发光图像显示其内部具有明显的核-边结构,核部为残留的原岩碎屑锆石,边部则表现为面状或扇状生长的变质锆石的特征。微区原位LA-ICP-Ms微量元素分析表明,核部测点的重稀土含量较高,对应Th/U接近于0.4,具有岩浆锆石的特征;边部测点的重稀土相对亏损,重稀土配分曲线平坦,对应Th/U比值均小于0.1,显示与石榴子石平衡共生的变质锆石特征。LA-ICP-MS微区定年获得其变质年龄为486±5Ma,该年龄值与阿尔金江尕勒萨依和英格利萨依两地超高压变质岩石的变质年龄相近,进一步证明沿阿尔金构造带南缘断续存在一条早古生代的高压-超高压变质岩带。另外,本次研究在获得该泥质高压麻粒岩峰期变质时代的同时,还获得该岩石原岩的形成时代上限值约为719Ma,从而限定阿尔金构造带南缘阿尔金群的形成时代可能不属古元古代,而应属新元古代。

河南洛宁太华变质杂岩区早元古代变质作用P-T-t轨迹及其大地构造意义

太华变质杂岩广泛出露于华北克拉通南缘,总体呈SW-NE向展布。在河南洛宁地区,太华变质杂岩以TTG片麻岩、斜长角闪片麻岩和变泥质片麻岩为主。斜长角闪片麻岩中可识别出三个阶段的变质矿物组合:进变质阶段矿物组合(M1)为石榴子石变斑晶内部的包裹体矿物组合(Amp1+Pl1+Qtz),变质高峰期矿物组合(M2)为石榴子石变斑晶边部和基质矿物组合(Grt2+Amp2+Pl2+Qtz),退变质阶段矿物组合(M3)为"白眼圈"状后成合晶组合(Amp3+Pl3+Qtz)。运用矿物温度计与压力计估算三个阶段的P-T条件分别为:进变质阶段约600～680℃/7.0～7.6kbar,变质高峰期为680～790℃/9.5～10.7kbar,退变质阶段为580～720℃/6.5～7.6kbar。变泥质片麻岩中保留了进变质阶段(M1)包裹体矿物组合(Bt1+Pl1+Qtz)和峰期变质阶段(M2)矿物组合(Grt2+Bt2+Pl2+Qtz)两个阶段。其中未发现后期退变质反应结构,石榴子石中也未发现成分环带。P-T条件估算结果分别为:M1阶段620～710℃/4.9～5.6kbar,M2阶段710～760℃/7.3～8.3kbar。洛宁地区太华变质杂岩记录了顺时针的近等温降压型的P-T轨迹,可能经历了与华北中部造山带其它杂岩类似的变质演化过程,推测其形成于华北克拉通东部陆块和西部陆块沿中部造山带的拼合过程中。SIMS与ICP-MS锆石U-Pb定年表明,斜长角闪片麻岩记录了1938～1967Ma的变质事件,比华北中部造山带其它变质杂岩区所广泛记录的～1850Ma变质事件早了约100Ma,暗示中部造山带的拼合可能是一个长期的、复杂的过程。

青岛榴辉岩相蛇绿混杂岩的岩石学证据及退变质P-T轨迹

青岛榴辉岩相蛇绿混杂岩发育在胶南隆起北缘地缝合线附近,构造侵位于胶南群云母斜长片麻岩中。它主要由斜方辉橄岩、玄武质和玄武安山质火山岩及少量杂砂岩和硅质岩组成。它与一般仰冲蛇绿岩的主要区别是:玄武质和玄武安山质岩石普遍遭受了榴辉岩相变质作用并发生强烈的糜棱岩化和退变质作用。强烈的退变质作用使大部分榴辉岩变为含石榴石石英斜长角闪岩,但仍保留有少量榴辉岩透镜体。它们可能是俯冲陆壳前缘岛弧地壳或岛弧型蛇绿岩残片的推覆体。它的退变质P-T轨迹表明,在其上升过程中热传导速率较高,这可能与该岩石强烈糜棱岩化和含水有关。

东南极米洛半岛尖晶石-堇青石麻粒岩变质作用与年代学研究

东南极普里兹构造带被认为受到格林维尔期及泛非期两期构造热事件的影响,分别与罗迪尼亚和冈瓦纳超大陆的演化密切相关,但对两期构造热事件的性质还存在争议。为了进一步完善该构造带的演化历史,从矿物学、岩石学、相平衡模拟、锆石年代学等角度对普里兹构造带米洛半岛尖晶石-堇青石麻粒岩进行了研究。结果表明其主期矿物组合为尖晶石+堇青石+黑云母+矽线石+少量石榴子石+钾长石+钛铁矿,温压条件为870~910℃、0.64~0.69 GPa,晚期退变至810~820℃、0.49~0.53 GPa,并暗示了更高的峰期变质条件(T>910℃,P>0.69 GPa)。CL图像显示锆石具有明显的核-幔-边结构,LA-ICP-MS锆石U–Pb年代学分析显示核部年龄主要集中在613±7 Ma到877±9 Ma,最大值916±11 Ma,比典型的格林维尔期年龄年轻。锆石边部加权平均年龄为526±8 Ma,其Th/U比值范围较大(0.06~1.23),多数Th/U比值较高(>0.1),应代表峰后冷却结晶阶段。尖晶石-堇青石麻粒岩记录了中低压/高温—超高温的变质条件,结合区域已有资料,可能具有顺时针轨迹,其变质演化历史可能反映了碰撞造山之后的伸展阶段,推测与冈瓦纳超大陆的聚合过程有关。

新疆西南天山哈布腾苏一带榴辉岩的岩石学特征及变质作用P-T轨迹

西南天山哈布腾苏河沿岸的含石墨的石榴石多硅白云母石英片岩中出露一套若干大小不等的布丁状变基性岩块,产状与区域面理一致。本文对其中保存完好的榴辉岩体进行了较为细致的岩石学研究和温压演化条件计算。根据主要矿物的含量,将该套榴辉岩大致分为两类—角闪榴辉岩和钠云母榴辉岩,二者的主要矿物均为 Grt+Omp+Na-Ca-Amp+Pg+Dol/Cal+Rt±Qtz。石榴石变斑晶两阶段生长明显,从核部到边部 X_(Mn)和X_(Fe)降低,X_(Mg)和 X_(Ca)升高,指示了升温降压的变质过程。根据石榴石核部和边部的包体组合特征,确立了两期榴辉岩相变质作用:前一阶段经历了高压但较低温的硬柱石-硬绿泥石(仅见假象)榴辉岩相,变质温度为400～500℃,压力不低于1.8～1.9GPa,表明早期经历了快速俯冲过程;后一阶段的变质温度为570±30℃,压力为2.0～2.5GPa。在退变质绿帘角闪岩相阶段,形成低压脉体(矿物组合为 Ab+Di+Na-Ca-Amp+Ep/Czo+Cal)和一系列退变质反应结构,如 Dol 的 Cal 增生边,Omp 的 Di+Ab 后成合晶结构。利用 Dol-Cal 分溶温度计和 Di的 Jd 分子含量得到该阶段的温度约500～530℃,压力小于0.9～1.1GPa,表明其退变质经历的是降温降压过程。这与利用Thermocalc 3.1在 NCFMASH 体系下计算的 PT 视剖面图是一致的。