The Lanshantou Kyanite-bearing Eclogite with Coesite Inclusions in the Sulu Ultrahigh-Pressure Metamorphic Belt and Its PTt Path

Coesite inclusions are found in kyanite from the Lanshantou eclogite in the Sulu ultrahigh-pressure (UHP) metamorphic belt. This discovery extends the stable region of kyanite to over 2.4 GPa. As an important UHP metamorphic belt in China, the Sulu eclogite belt is the product of A-subduction induced by strong compression of the Yellow Sea terrane to the Jiaodong-northereastern Jiangsu terrane during the interaction of the Eurasian plate and Palaeo-Pacific plate in the Indosinian. It stretches about 350 km and contains over 1000 eclogite bodies. Most eclogites in this belt belong to Groups B and C in the classification of Coleman et al., and commonly contain kyanite, while the Lanshantou eclogite belongs to Group A and contains coesite. The MgO, CaO and FeO contents in garnet and pyroxene show regular variation from the core to the rim, which reveals the PTt paths of progressive metamorphism during the Early Mesozoic (240-200 Ma) and retrogressive metamorphism during the Late Mesozoic and Cenozoic exhumation.

Calculation of the Model of Coesite Inclusions and Analysis of Their Retrometamorphic Paths

The process and path of retrometamorphism of coesite have great significance to our understanding of the P-T tracks of the exhumation of ultrahigh-pressure metamorphic rocks. Most of the coesites in the eclogite from Shima, Anhui Province, the Dabie Mountains, China, are found degraded to quartz partly or wholly, with ruptures occurring in the shells, outside which include the coesite and quartz. According to the microscopic observation, the sample of coesite inclusion is composed of garnet, quartz and coesite, based on which we have built a three-shelled composite sphere model to compute the transition of coesite. Based on the crystal growth formulas and pressure conditions of the ruptures in the garnet, we have calculated the radius of the quartz sphere, which depends on temperature, and eventually drawn the different retrometamorphic paths for different retrometamorphism rates.

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。

胶北平度大金埠含石墨麻粒岩变质演化和石墨结晶形成的研究

具有孔兹岩系特征的荆山群主要出露于胶-辽-吉带南段的胶北地体,且普遍经历了高角闪岩相-麻粒岩相变质作用。平度大金埠地区处于平度-莱西石墨成矿带,石墨矿赋存于古元古界荆山群陡崖组徐村段。通过对平度大金埠晶质石墨矿区含石墨泥质麻粒岩进行岩相学、矿物岩石学与地球化学、激光拉曼光谱、年代学等研究,发现大金埠含石墨泥质麻粒岩经历了三个变质演化阶段(M_(1)-M_(3)),且峰期达到高压-超高温变质作用条件。因受超高温变质作用影响,早期进变质阶段(M_(1))矿物信息保留不完整;峰期阶段(M_(2))以黑云母的消失为标志,矿物组合为Grt+Kfs+Pl+Rt+Qz+Liq,该阶段的温压范围为1010~1050℃、1.09~1.20GPa;峰后退变质阶段(M_(3)),黑云母重新出现,矿物组合为Bt+Grt+Kfs+Pl+Rt+Qz,该阶段的温压范围为810~843℃、0.68~0.74GPa,变质演化P-T轨迹具有顺时针特点。拉曼光谱分析显示样品中石墨的结晶程度普遍较高,其拉曼光谱特征与麻粒岩相变质条件下形成的石墨一致,高晶度石墨多结晶于峰期M_(2)向峰后M_(3)退变质作用阶段转变过程中。显然,平度大金埠晶质石墨矿区含石墨麻粒岩中石墨的结晶程度与其结晶时寄主麻粒岩的变质温度密切相关。年代学研究获得变质锆石1830±18Ma的加权平均年龄,与胶-辽-吉带及胶北地体区域上的深熔作用时代一致,代表了大金埠地区高结晶度石墨结晶形成的年龄。本次对石墨结晶形成与寄主变质岩及变质作用的关系探究,对优质晶质石墨矿资源的探矿、找矿具有重要指示意义。

Lower Continental Crusts Involved in the Alpine Orogeny:New Insight from the Santa Lucia Nappe Metasediments(Corsica,France)

In the Alpine Corsica(France),the Santa Lucia Nappe represents a peculiar unit preserving the unique relicts of Paleozoic lower to medium continental crust.It consists of composite basement affected by Permian granulite facies metamorphic conditions unconformably covered by a Late Cretaceous clastic sequence(Tomboni Conglomerate and Tralonca Flysch)affected by polyphase deformation and low-grade-metamorphism.In this work,we present a new reconstruction of the deformation events registered by the Tralonca Flysch during the Alpine orogeny.The D1 phase was testified by rare isoclinal folds.The D2 phase produced a continuous foliation and a map-scale sheath-fold with a top-to-W sense of shear.The D3 phase produced E-verging non-cylindrical folds and S3 crenulation cleavage that is not associated to metamorphic blastesis.We present the first temperature-pressure-deformation(P-T-d)path for the Tralonca Flysch,demonstrating that the Santa Lucia Nappe underwent accretion and then first stage exhumation in the Alpine wedge during the D1 phase with pressure and temperature peaks both occurred under blueschist metamorphic conditions.The D2 phase occurred at lower pressure-temperature conditions during a second stage exhumation.This pressure-temperaturedeformation path is comparable with those of the Lower Units(i.e.,the subducted continental units of Alpine Corsica)suggesting a common geodynamic history.

Application of General Shear Theory to the Study of Formation Mechanism of the Metamorphic Core Complex:A Case Study of Xiaoqinling in Central China

: The kinematic vorticity number and strain of the mylonitic zone related to the detachment fault increase from ESE to WNW along the moving direction of the upper plate of the Xiaoqinling metamorphic core complex (XMCC) and the geometry of quartz c-axis fabrics changes progressively from crossed girdles to single girdles in the same direction. Therefore, pure shear is dominant in the ESE part of the XMCC while simple shear becomes increasingly important towards WNW. However, the shear type does not change with the strain across the shear zone, thus the variation of shear type is of significance in indicating the formation mechanism. The granitic plutons within the XMCC came from the deep source and their emplacement was an active and forceful upwelling prior to the detachment faulting. The PTt path demonstrates that magmatism is an important cause for the formation of the XMCC. The formation mechanism of the XMCC is supposed to be active plutonism and passive detachment. Crustal thickening and magmatic doming caused necking extension with pure shear, and magmatic heating and doming resulted in detachment extension with simple shear and formed the XMCC.

Metamorphic petrology and geology in China:A review

The development of metamorphic petrology to metamorphic geology in China has a long history.Ancient basement metamorphic rocks are distributed primarily in the North China Craton,the Yangtze Block and Tarim Craton.They are mainly made up of plutonic gneiss and metamorphosed supercrust rock,transformed to granulite facies through Archean Paleoproterozoic.Many of the Paleoproterozoic metamorphic rocks have undergone high-pressure granulite facies metamorphism with a clockwise metamorphic evolution path.The ultrahigh temperature (UHT)granulites from the Late Paleoproterozoic are found in North China Craton.Many high-precision chronological data have allowed preliminary construction of the formation and evolutionary framework of different metamorphic basements.Primarily there are low-temperature and high-pressure blue schist,high-temperature and high-pressure granulite and ultrahigh-pressure (UHP)eclogite facies metamorphic rocks in the Phanerozoic orogenic belt.The discovery of eclogite in the Sulu orogen and a large quantity of coesite in its country rocks show that there was a deep subduction of voluminous continental materials during the collision process between the Yangtze block and the North China Craton in the Early Mesozoic phase.From the studies of,for instance,organic matter vitrinite reflectance,illite crystallinity,illite (muscovite)polytype and illite (muscovite)b dimension,the Late Paleozoic strata in the eastern region of Inner Mongolia and the north-central region of NE China have only experienced diagenesis to an extremely low-grade metamorphism.The discovery of impact-metamorphosed rocks in Xiuyan area of Liaoning province has enriched the type and category of metamorphic rocks in China.The phase equilibrium method has been widely used in the study of metamorphism of middle and high-grade metamorphic rocks.On the basis of existing geologic surveys and monographic study results, different scholars have respectively compiled 1:1500000 Metamorphic Geological Map and Specifications of Qinghai Tibet Plateau and its Adjacent Areas,1:2500000 Metamorphic Tectonic Map of China, and the 1:5000000 Metamorphic Geological Map and Specifications of China,among others repectively, which have systematically summarized the research results of metamorphic petrology and metamorphic geology in China.

Metamorphic gradient modification in the Early Cretaceous Northern Andes subduction zone:A record from thermally overprinted high-pressure rocks

New field observations and petrological data from Early Cretaceous metamorphic rocks in the Central Cordillera of the Colombian Andes allowed the recognition of thermally overprinted high-pressure rocks derived from oceanic crust protoliths.The obtained metamorphic path suggests that the rocks evolved from blueschist to eclogite facies towards upper amphibolite to high-pressure granulite facies transitional conditions.Eclogite facies conditions,better recorded in mafic protoliths,are revealed by relic lawsonite and phengite,bleb-to worm-like diopside-albite symplectites,as well as garnet core composition.Upper amphibolite to high pressure granulite facies overprinting is supported by coarse-grained brown-colored Ti-rich amphibole,augite,and oligoclase recrystallization,as well as the record of partial melting leucosomes.Phase equilibria and pressure-temperature(P-T)path modeling suggest initial high-pressure metamorphic conditions M1 yielding 18.2-24.5 kbar and 465-580℃,followed by upper amphibolite to high pressure granulite facies overprinting stage M2 yielding 6.5-14.2 kbar and 580-720℃.Retrograde conditions M3 obtained through chlorite thermometry yield temperatures ranging around 286-400℃at pressures below 6.5-11 kbar.The obtained clockwise P-T path,the garnet zonation pattern revealing a decrease in X_(grs)/X_(prp)related to Mg#increment from core to rim,the presence of partial melting veins,as well as regional constraints,document the modification of the thermal structure of the active subduction zone in Northern Andes during the Early Cretaceous.Such increment of the metamorphic gradient within the subduction interface is associated with slab roll-back geodynamics where hot mantle inflow was triggered.This scenario is also argued by the reported trench-ward magmatic arc migration and multiple extensional basin formation during this period.The presented example constitutes the first report of Cretaceous roll-back-related metamorphism in the Caribbean and Andean realms,representing an additional piece of evidence for a margin-scale extensional event that modified the northwestern border of South America during the Early Cretaceous.

Thermal history of a Late Mesoproterozoic paired metamorphic belt(?)during Rodinia assembly:New insight from medium-pressure granulites from the Aravalli-Delhi Mobile Belt, Northwestern India

In this study, we investigate the possible record of a Late Mesoproterozoic paired metamorphic belt in the Aravalli-Delhi Mobile Belt(ADMB), NW India using a suite of supracrustal and metaigneous granulites from the Pilwa-Chinwali granulite terrain at the north-western margin of the ADMB. Using metamorphic reaction textures, mineral chemistry, metamorphic reaction history, geothermobarometric computations and electron microprobe dating of monazite in 5 samples of pelitic granulite, leptynite gneiss, enderbite and charnockite, we have deduced a medium-pressure granulite facies metamorphism(P between 4.9 and 6.8 kbar, T> 760-815℃) along a heating-cooling, counterclockwise P-T path between 1.09 and 1.01 Ga. When collated with published metamorphic and chronological constraints and geological settings of the adjoining crustal domains of the ADMB, these findings provide new insights into the developments of two tectonic domains of contrasting thermal gradients at ca. 1.0 Ga, consistent with metamorphic transformations in tectonically thickened middle-lower crustal sections during continental collision to continental subduction and in the root zones of spatially adjacent island arc, as part of the Rodinia supercontinent assembly event.

The Metamorphic and Deformational History of a Continental Collision Zone and its Geodynamic Process——as Evidenced by Qinling Complex,Western Henan,China

The Qinling orogenic belt is a collision zone between the North China and Yangtze cratons. The Qinling Complex is a Precambrian metamorphic complex, developed in the inner zone of the orogenic belt , which records the metamorphic and deformational history and PTt path of the regional meta-morphism of the collision zone . The present paper studies the metamorphic and deformational history and the PTt path of various tectono-metamorphic cycles in order to describe the geodynamic processes prevailing in that part of the Qinling orogenic belt since Proterozoic.The tectonometamorphic history and evolution of the Qinling Complex is divided into two stages: the stage of formation and the stage of modification During the stage of formation dated as Proterozoic,three deformational sequences are recognized. The amphibolite facies regional metamorphism is earlier than or synchronous with the first or second phase of folding. Three metamorphic zones, i.e. And-Ms ,Sil- Ms, Sil Kfs are delimited. During the stage of modification , the emplacement of Caledonian granite , superimposed thermal aureole (garnet K feldspar zone )and the development of ductile shear zones are major events.Metamorphic reactions are reconstructed in terms of analysis of re-equilibrium textures. Geothermobarometric calculations are conducted to calibrate the PT conditions of metamorphism .The metamorphic PTt paths have been estabh'shed. The PTt path of the Proterozoic tectonometamorphic cycle shows a clockwise pattern and is characterized by prominent decompression. The PTt path of the Caledonian tectonometamorphic cycle is characterized first by PT rising ,then isothermal decompression (rapid uplift), and finally by isobaric cooling The PTt path of the two tectonometamorphic cycles evidence the geodynamic processes: two major stages of collision and uplift in the Proterozoic and Caledonian Hercynian periods, respectively, during the evolution of Qinling orogenic belt.

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.

The early Proterozoic metamorphic geodynamics of the Jiao-Liao Massif, east China

Considering the mineral evolution and tectonic deformational history of the early Proterozoic metamorphic sequences in the Jiao Liao Massif, very similar CCW PTt D paths were established in east Liaoning and east Shandong district within this massif. Their style displays the process of developing and closing of some rifted depression belts within the rather stable continental crust of the Jiao Liao Massif during early Proterozoic, and they may be treated as a common kind of metamorphic geodynamic model.

内蒙古中部乌拉山地区泥质片麻岩矿物学特征及其变质演化

乌拉山新太古代泥质片麻岩出露于内蒙古中部乌拉山岩群榴云片麻岩岩组中,是乌拉山岩组中分布最广的深成变质岩,主要岩性为黑云石榴二长片麻岩。本文通过详细的岩石学观察,对典型变质矿物进行系统矿物化学分析,研究其变质演化特征及构造意义。结果表明:乌拉山岩群榴云片麻岩岩组中泥质片麻岩经历了四个变质演化阶段,并通过变质矿物温压计反演限定其变质条件:早期进变质阶段(M1),其矿物组合特征为核部石榴子石+黑云母+斜长石+石英±夕线石;峰期变质阶段(M_(2))的矿物组合特征为石榴子石+夕线石+黑云母+斜长石+石英+钾长石,该阶段的温压条件为T=771~870℃,p=7.5~11.2 Kb;峰后近等温减压阶段(M_(3))以石榴子石边部大量出现堇青石的冠状结构为特征,其矿物组合为石榴子石+堇青石+黑云母+斜长石+石英±夕线石,该阶段的温压条件为T=750~800℃,p=6.1~7.0 Kb;晚期降温阶段(M_(4))的矿物组合特征为石榴子石+黑云母+斜长石+石英+磁铁矿±钾长石,该阶段的温压条件为T=650~659℃,p=4.3~4.8 Kb,泥质片麻岩的变质演化P-T轨迹具有近等温降压的顺时针型式,表明乌拉山地区新太古代晚期乌拉山岩群曾经历了地壳俯冲加厚随后折返隆升的动力学过程。

华北克拉通辽北清原地体新太古代基性麻粒岩变质作用演化

对华北克拉通新太古代的构造演化模式有多种不同的认识,需要进行更加深入的变质作用研究。通过对辽北清原地体基性麻粒岩进行系统的岩相学观察、矿物化学分析、相平衡模拟和锆石定年研究,以阐明其变质演化过程和大地构造意义。研究选择的基性麻粒岩样品分为含石榴石域(19DJ07-GD)和不含石榴石域(19DJ07-NGD)两类,含石榴石的区域呈条带状且分布不均匀。两种区域都发育两期麻粒岩相组合。在含石榴石域,第一期变质矿物组合为石榴石+单斜辉石+斜方辉石+角闪石+黑云母+斜长石+石英。其中,第一期斜长石(Pl_(1))发育复杂成分环带,钙长石摩尔分数(x_(An))从核部到幔部升高,然后再向边部降低;第一期角闪石(Amp_(1))的Ti成分环带同样为从核部到幔部升高再向边部降低。通过矿物组合和相应的成分环带推测第一期麻粒岩相变质作用具有逆时针型P-T轨迹,包含峰期前升温升压阶段以及峰后降温降压阶段。通过相平衡模拟约束峰期温压条件为0.8~0.9 GPa/900~950℃,达到高温—超高温(high-ultrahigh temperature)变质条件。锆石定年结果表明变质作用峰后冷却时间为2498±6.9 Ma(MSWD=0.39)。综合区域上的“穹隆-龙骨”构造、逆时针的变质轨迹以及和TTG岩浆活动晚期脉冲几乎一致的表壳岩变质时间,表壳岩超高温麻粒岩相变质作用被认为受太古宙特有的垂向构造/沉落(sagduction)构造体制控制。第二期变质组合以局部生长的石榴石+石英±单斜辉石的后成合晶/冠状体为特征,代表一期与古元古代造山事件有关的高压麻粒岩相变质作用。

扬子克拉通古元古代变质演化--来自黄陵穹窿石榴斜长角闪岩的证据

为探讨扬子克拉通古元古代变质作用特征及其形成的构造背景,对黄陵穹窿北部石榴斜长角闪岩开展了岩相学、地球化学和年代学研究。结果表明,石榴斜长角闪岩中主要矿物有石榴子石、斜长石、角闪石、单斜辉石、石英、钛铁矿等,其中保留有3个阶段的不同变质期次的矿物组合,进变质矿物组合为角闪石+斜长石+石英+钛铁矿,峰期矿物组合为石榴子石+角闪石+斜长石+单斜辉石+石英+钛铁矿,退变质矿物组合为石榴子石+角闪石+斜长石+石英+钛铁矿。石榴斜长角闪岩原岩为亚碱性玄武岩,属于拉斑系列,Mg#较低,表明其原岩经历了一定程度的分异作用。使用传统地质温压计计算不同变质阶段的温压条件分别为:进变质阶段,t=596~625℃,p=0.70~0.82 GPa;峰期变质阶段,t≈760℃,p≈1.35 GPa;退变质阶段,t=692~738℃,p=0.68~0.74 GPa,并建立了一条顺时针的p-t轨迹,显示出先升温升压至峰期阶段,随后发生近等温减压的过程。这一p-t轨迹体现了汇聚板块边缘俯冲-碰撞的构造背景,对石榴斜长角闪岩中的锆石进行U-Pb定年,获得了2 008±11 Ma的谐和年龄,并结合该地区已有的变质年龄,共同揭示了扬子克拉通在古元古代参与了微陆块的拼接,是Columbia超大陆聚合的响应。

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。

攀枝花大田地区康定群咱里组变质杂岩P—T—t轨迹及其构造意义

扬子板块西缘的康定杂岩为一套由侵入岩和变质岩共同组成的岩浆—变质混合杂岩,是研究罗迪尼亚超大陆裂解的重要窗口。长期以来对康定杂岩中的岩浆杂岩研究较多,但对变质杂岩研究较为薄弱。为全面了解康定杂岩形成的构造背景及成因机制,笔者等对扬子板块西缘的攀枝花大田地区康定群咱里组石榴夕线黑云斜长片麻岩进行了详细的岩相学、矿物地球化学、变质P—T条件估算研究,同时对同一层位的石榴二云片岩进行了锆石LA-ICP-MS U-Pb年代学分析。结果表明:石榴夕线黑云斜长片麻岩可识别出三期变质矿物组合:进变质阶段矿物组合(M1)为石榴子石变斑晶核部及其核部包裹体(石榴子石核部+第一期黑云母+第一期夕线石+钛铁矿+石英),P—T条件为609~690℃—0.2~0.3 GPa;峰期变质阶段矿物组合(M2)为石榴子石变斑晶幔部及变基质矿物(石榴子石幔部+第二期黑云母+第二期夕线石+斜长石+石英),P—T条件为643~732℃—0.20~0.51 GPa;退变质阶段矿物组合(M3)为石榴子石变斑晶边部及变基质矿物(石榴子石边部+第二期黑云母+第二期夕线石+斜长石+石英),P—T条件为602~687℃—0.27~0.39 GPa。石榴夕线黑云斜长片麻岩记录了具近等压冷却型(IBC)的逆时针P—T演化轨迹;石榴二云片岩锆石U-Pb定年结果表明区内的变质时代为842±10 Ma,综合分析表明:扬子板块西缘的变质杂岩形成于拉张环境,结合区内的同期岩浆活动特征,认为区内新元古代变质事件可能与超级地幔柱引发的岩浆活动有关。

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。

东昆仑大格勒一带基性二辉麻粒岩的变质演化及地质意义

基性麻粒岩作为高温变质作用产物,其矿物组合能够较好地记录区域地壳热流的峰值范围,是揭示造山带演化历史的重要窗口。本文报道了在东昆仑造山带东段大格勒地区金水口岩群副片麻岩中发现的基性二辉麻粒岩露头,它们呈块状-片麻状构造,斑状变晶-细粒变晶结构,主要矿物为斜长石、斜方辉石、单斜辉石、黑云母和普通角闪石。斜方辉石与单斜辉石和高钙斜长石(An=74~81)的平衡结构以及斜方辉石中包裹残余普通角闪石和黑云母的结构表明这些岩石经历了较充分的麻粒岩相结晶作用。填隙状生长的普通角闪石和黑云母可能代表了冷却至固相线附近矿物-残余熔体发生反应的产物。根据二辉石温度计和相平衡模拟计算,获得在0.4~0.7GPa压力条件下的麻粒岩相变质温度为840~910℃。详细的变斑晶斜长石和钛铁矿包体研究表明,麻粒岩相变质之前可能存在一期低温高压变质作用,形成的矿物组合为斜黝帘石+金红石+榍石+普通角闪石±阳起石+黑云母+石英,相平衡模拟确定该阶段的温压条件为0.85~1.2GPa、500~640℃。斜黝帘石在减压阶段的早期转变为低钙斜长石(An=46-51),同时角闪石转变为单斜辉石,可能代表了低压角闪岩相阶段。通过LA-ICPMS锆石U-Pb测年以及锆石包体分析,确定麻粒岩相变质年龄为411.4±2.9Ma(MSWD=1.05)。这些二辉麻粒岩是在金水口以外的东昆仑地区发现的首例晚古生代低压高温变基性岩,其与围岩片麻岩构成一个麻粒岩地体。它们反映了泥盆纪早期东昆仑造山带的异常高温事件,与后碰撞伸展阶段软流圈地幔上涌带来的区域高温热流有关。本研究对解析东昆仑造山带高级变质地体的精细结构以及古特提斯洋形成过程的深部动力学机制具有重要意义。

滇西南景洪大勐龙地区蓝片岩岩石学、变质作用及其对古特提斯构造响应

【研究目的】蓝片岩为古洋壳的俯冲及洋-陆和陆-陆碰撞拼贴的产物,对深入探索洋壳或陆壳俯冲变质过程以及造山带的形成演化具有十分重要的意义。本文选择以滇西景洪大勐龙地区新发现的蓝片岩为研究对象,探讨其对昌宁—孟连古特提斯洋俯冲-造山背景的制约。【研究方法】通过岩相学与矿物化学分析,根据矿物组合的不同,识别出研究区内两种不同类型的蓝片岩,初步建立变质演化P-T轨迹,并结合区域地质资料分析蓝片岩的成因机制与就位的动力学背景,约束昌宁—孟连古特提斯洋俯冲-造山演化。【研究结果】获得白云母石榴蓝闪石英片岩峰期变质温压条件为T=450~490℃,P=0.90~1.45 GPa,绿泥绿帘阳起蓝闪片岩具有较低的峰期变质温压条件为T=430~470℃,P=0.69~0.73 GPa,并初步建立了两种不同类型蓝片岩变质演化P-T轨迹。【结论】两类峰期变质条件的差异可能为俯冲隧道中不同俯冲深度的蓝片岩,这一研究成果为进一步探索昌宁—孟连古特提斯洋的俯冲消减-闭合的构造演化过程提供重要依据。