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1.
新疆阿尔泰冲乎尔地区蓝晶石-夕线石型变质带独居石CHIME二叠纪年龄及其地质意义 总被引:3,自引:0,他引:3
新疆冲乎尔地区的蓝晶石-夕线石型递增变质带由绿泥石-黑云母带、黑云母-石榴石带、石榴石-十字石带、十字石-蓝晶石带和夕线石带组成;递增变质作用峰期温度、压力分别为T=520~640℃,p=(4.5~5.8)×108Pa;十字石-蓝晶石带和夕线石带变质岩中含有丰富的独居石,而且Th-U-Pb含量比较高,适合电子探针独居石CHIME法定年,独居石CHIME法确定的变质时代为268±10~261±20Ma,与阿勒泰地区发育的红柱石-夕线石型(低压型)变质带形成时代(262±10~264±22Ma)一致,说明阿尔泰造山带蓝晶石-夕线石型和红柱石-夕线石型递增变质带是同一次大规模的构造热事件的产物,时代为二叠纪中期。 相似文献
2.
闽北麻源群变质流体对变质反应温度缓冲作用研究 总被引:4,自引:0,他引:4
闽北麻源群在空间上表现为巴罗式递增变质带:绿泥石带→黑云母带→石榴石带→十字石带→蓝晶石带→夕线石带。变质温度计算结果表明,区内蓝晶石带变质温度(470℃~500℃)明显低于石榴石带和十字石带变质温度(500℃~550℃),即蓝晶石带在石榴石带和十字石带之前出现。这显然与传统的递增变质带理论相悖。流体组成化学平衡计算和变质反应热力学分析研究表明,蓝晶石带较低的变质温度并非是压力或退化变质作用所致,而是低XH2O流体对形成蓝晶石的脱水变质反应温度缓冲的结果,缓冲温度值高达100℃~200℃。本文从热力学理论上解释了缓冲作用的机制并估算了缓冲的温度范围,据此讨论了变质流体在变质相带研究方面的重要意义。 相似文献
3.
新疆阿尔泰造山带位于西伯利亚板块西南缘,该区递增变质带十分典型,可分为两种类型:蓝晶石型和红柱石型[1].前者从低向高出现黑云母带→石榴子石带→十字石带→十字石-蓝晶石带→矽线石带;后者出现黑云母带→石榴子石带→十字石带→十字石-红柱石带→矽线石带,在高温地段发育石榴子石-堇青石带(泥质麻粒岩). 相似文献
4.
长英质高级片麻岩中夕线石的形成与变形-变质-深熔作用的关系 —— 以南极拉斯曼丘陵区为例 总被引:6,自引:3,他引:3
南极拉斯曼丘陵高级长英质片麻岩的夕线片麻岩中可有两类结构和变质矿物组合均有所不同的两种域,一种含夕线石部分对应于片理组合,另一种对应无夕线石的非片理化组合.岩石的变形尤其是破裂性裂隙的率先出现对于富夕线石部分的形成是必要的.在非破裂性片麻理岩石域中,中-低压/高温条件下黑云斜长片麻岩进变质发展的结果往往是形成Grt+Qtz±Opx组合.这两种不同的变质域的组合与应变分解造成的强应变带和弱应变域相一致.而且,夕线石的形成不是简单的变质早期矿物固相反应的结果,而是反应链上的一部分.其出现是由开放体系中组分的差异迁移造成的,这种差异迁移实际上是碱土金属迁出(淋滤)的过程,与变形相伴的流体活动使得SiO2发生强烈淋滤,残留组分中SiO2活度大为降低,并使长英质组分和镁铁质组分分凝,主要组分大都可以单独富集(集中)、形成复杂的矿物演化和分布.这种演化还可从MgO等碱(土)金属组分的外迁程度差异来理解.随着碱(土)金属丢失程度的减小,依次出现夕线石、石榴子石、斜方辉石和堇青石,或者说,不同的变质或分异阶段形成不同的矿物(组合):变形-变质起始阶段,碱(土)金属组分迁移初期残留形成夕线石,之后为镁(铁)质组分迁移,初期残留不透明钛铁氧化物,晚期残留组分形成堇青石.石榴子石-长英质组合为体系基本封闭情况下的结晶.此外,夕线石的形成往往标志着深熔作用的开始,一旦深熔作用发展完善,夕线石呈准稳定状态或趋于消失.拉斯曼丘陵与夕线石有关的长英质岩石经历了复杂的变形、变质和流体活动变化. 相似文献
5.
滇西石鼓变质带基本特征 总被引:4,自引:1,他引:4
石鼓变质带延伸约100多公里,可划分为绿泥石带、黑云母带、铁铝榴石带、十字石带、蓝晶石带及夕线石带。红柱石-蓝晶石稳定共生,属低—中压变质相系的区域变质带。主要变质时期为海西晚期(K-Ar年龄为258Ma)。 相似文献
6.
中国阿尔泰造山带变质作用PTSt演化和热-构造-片麻岩穹窿形成机制 总被引:11,自引:2,他引:11
中国阿尔泰造山带中发育了一系列热-构造-片麻岩穹窿(简称 TSG穹窿)。由低级变质区向TSG穹窿中心,发育了绢云母-绿泥 石带、黑云母带、石榴石带、十字石带、蓝晶石(红柱石)带、夕线石- 堇青石(夕线石-石榴石)带、混合岩带、混合花岗片麻岩岩田。递增 变质带、混合岩带、混合花岗片麻岩的形成演化顺序与其由外部向 TSG穹窿中心在空间上的排布序列一致。由黑云母带至混合花岗片 麻岩,变质作用及花岗岩化作用的高峰温度由400℃递增至800℃, 而压力由1.05GPa递减至0.10GPa。造山带变质作用过程可以 用压力-温度-空间-时间模式(PTSt)描述。TSG穹窿是主期造山幕中,沿造山带中一系列区域热动力异常中心,深部热流、构造流上涌,发生递增变质作用、花岗岩化作用以及差异性隆起的过程中形成的。 相似文献
7.
赣中变质岩带变质带的重新划分及变质作用P-T条件的确定 总被引:1,自引:0,他引:1
根据随变质作用增强而出现的特征变质矿物及矿物组合,对赣中变质岩带重新划分出五个变质带,由低到高依次为绢云母一绿泥石带、黑云母带、铁铝榴石带、十字石带、夕线石带。在对各变质带变质矿物进行详细研究的基础上,采用石榴石-黑云母(Gt-Bi)、斜长石-角闪石(Pl-Hb)、石榴石-十字石(Gt-St)、石榴石-角闪石(Gt-Hb)、石榴石-斜长石-夕线石-石英(Gt-Pl-Sil-Q)、石榴石-斜长石-黑云母-白云母(Gt-Pl-Bi-Mu)等多种地质温压计确定了各变质带的形成温度、压力,绢云母-绿泥石带的形成温度为250-350℃,压力为0.25-0.35GPa;黑云母带的形成温度为350-450℃±,压力为0.25-0.40GPa±;铁铝榴石带的形成温度为450-550℃±,压力为0.40~0.60GPa±;十字石带的形成温度为550-600℃±,压力为0.50-0.60GPa±;夕线石带的形成温度为600-650℃±,压力为0.55-0.65GPa±,赣中变质岩带峰期变质作用已达到角闪岩相。 相似文献
8.
晋北娄烦吕梁群由一套经受过两期不同性质变质作用的泥砂质岩、基性火山岩和酸性流纹岩组成。早期为吕梁期变质作用,其结果使该区地层构造形迹总体上呈NE走向;晚期为西川河韧性剪切断裂所产生的区域变质作用,其结果使该区地层走向由早期的NE向扭转为近SN向,且使地层层序发生倒转,并与递增变质带的形成关系密切。选取该区中对变质温度和压力变化反映较敏感的原岩为泥砂质岩石的袁家村组和裴家庄组地层为研究对象,采用电子探针微区分析(EPMA)对沿地层走向上连续分布的特征变质矿物及矿物共生组合特征进行研究,并利用矿物对地质温度计估算该区不同采样点的变质温度和压力条件,对研究区进行变质相带的划分,确定各变质相带的变质温、压条件,并探讨其成因。研究结果表明,袁家村组和裴家庄组为等化学系列地层。沿该地层走向上:西川河断裂以北地区,从北向南,特征变质矿物绿泥石、黑云母、石榴石、十字石和蓝晶石依次规律出现;西川河断裂以南地区,红柱石和夕线石依次规律出现。根据特征变质矿物的空间分布规律、首次出现的地点及矿物共生组合特征,划分出5个变质带:绿泥石带、黑云母带、石榴石带、十字石-蓝晶石带和红柱石-夕线石带。这一完整的递增变质带可与苏格兰高地的巴罗型相媲美。矿物对地质温度计估算结果。 相似文献
9.
东南极拉斯曼丘陵高级变质长英质岩石中铁钛氧化物的局部聚集与高级变质作用过程中的深熔作用有关,并非原岩富集这些组分。深熔作用造成惰性组分如铁钛氧化物滞留原地或略有聚集及活动性组分的迁移,而流体挥发组分优先聚集于熔体之中。当体系中水含量较低、处于不饱和状态时,深熔作用过程中形成局部"熔体",其结晶所成的浅色体不具低共结组分,没有熔体结晶结构,不是真正的熔体,可能是(准)熔体。较粗粒的浅色体或伟晶岩也是与深熔作用有关的产物,其形成早于花岗岩脉或岩体,而与花岗质岩浆分异无关。伴随(准)熔体的出现,体系中组分的萃取、分异效果较为明显,即可造成组分分异,形成截然不同的异地、二相分异结构,分别形成固相残留物(组成可以不固定)和(准)熔体相。固相残留体中富铝、铁组分,形成矽线石和铁钛氧化物团块,其中少或无挥发分;与此对应,短距离迁移浅色体中往往贫铁钛组分,可见石榴子石、偶见铁钛氧化物矿物。这种挥发分不饱和状态下的深熔作用基本属于封闭体系,整体失水不显著,高级变质岩中的一些特征矿物如矽线石、石榴子石、堇青石、尖晶石的形成也与这种分异作用有关,但组分迁移范围有限,并可保存组分分异各阶段的产物。拉斯曼丘陵长英质岩系中大量铁钛氧化物和矽线石类矿物组合的形成,反映了临界状态下的局部或差异抬升,变形作用的非均匀性及相伴随的组分分异作用,很可能相当于早期格林维尔期构造的泛非期再活动。 相似文献
10.
赣中变质岩带的组成及构造变质变形特征 总被引:1,自引:0,他引:1
赣中变质岩带不是简单的一套震旦纪地层 ,而是由结晶基底中元古界中深变质岩系 (斜长角闪岩的Sm Nd全岩等时线年龄为 1113± 4 9Ma)和褶皱基底变质较浅的震旦系组成。两者之间以具热流体参与的混合岩化、韧性剪切带和递进变质三位一体组成的动热变质带接触。结晶基底经历了4期构造变质变形的叠加改造 ,每期构造变形都在变质岩石构造单元内留下各种变形形迹 ,变质作用表现为时间上的递进和空间上的叠加演化系列 ,是一套以众多的不平衡结构和多相共生混存的矿物组合 ,热变质带为一套动热变质塑性变形带 ,空间上依次形成绢云母—绿泥石带、黑云母带、石榴石带、十字石带以及夕线石带 相似文献
11.
丹巴地区位于松潘—甘孜造山带中部。区域动热变质作用主要发生于印支晚期—喜马拉雅早期,与深层滑脱-逆冲作用有关。根据特征矿物组合.丹巴地区变质岩可划分出六个变质带:绢云母—绿泥石带、黑云母带、石榴子石带、十字石带、蓝晶石带和夕线石带。石榴子石生长环带代表每段时间矿物晶体边部的平衡,可用于推测石榴子石生长时的P-t轨迹。利用石榴子石—黑云母温度计和石榴子石—斜长石—Al2SiO5-石英压力计得到石榴子石的参考温度、压力,根据环带定量计算得到的变质作用p-t轨迹为顺时外形式,与其所处的构造背景为大陆碰撞造山带是一致的。 相似文献
12.
John A. Percival 《Contributions to Mineralogy and Petrology》1979,69(2):177-184
The increase in metamorphic grade toward the Hackett River gneiss dome indicates that the structural dome is also a metamorphic culmination. In pelitic rocks east of the dome, the prograde sequence is chlorite, biotite, staurolite-cordierite, sillimanite. To the southwest the sequence is andalusite-staurolite-cordierite, sillimanite. In quartzofeldspathic gneisses which are closer to the dome than the sillimanite isograd, kyanite occurs as corroded relics, cross-cut by sillimanite and rimmed by cordierite and plagioclase.The pelites were metamorphosed under regional low-pressure conditions at the same time the quartzo-feldspathic rocks underwent higher-pressure metamorphism. A lateral variation in geothermal gradient during metamorphism is postulated to account for the change in facies-series. High heat flow beneath oceanic crust produced the low-pressure assemblages in the pelites; higher-pressure assemblages formed in a region of suppressed isotherms around a relatively cool, proto-continental trondhjemitic body. Low-pressure conditions were imposed on the kyanite-bearing gneisses during continuing metamorphism and diapiric uplift.Spatial association of late Archean kyanite-bearing rocks with early Archean sodic proto-cratons has also been noted in the Churchill and Superior Provinces of Canada as well as the Rhodesian Craton. 相似文献
13.
Crustal thickening and ductile extension in the NE Greenland Caledonides: a metamorphic record from anatectic pelites 总被引:1,自引:0,他引:1
Caledonian orogenesis in NE Greenland resulted from the collision of Laurentia and Baltica during the Ordovician–Silurian. Anatectic pelites within the metasedimentary Smallefjord Sequence record a clockwise P – T path, the result of early crustal thickening at c . 445–440 Ma and subsequent exhumation of the high-grade metamorphic core by a combination of ductile extension and tectonic denudation. The early prograde segment of the path followed a shallow, near-isothermal trajectory and attained a metamorphic peak of c . 9.0–10.0 kbar at >790 and <850 °C. Prograde metamorphism initiated anatexis of pelites in the kyanite stability field and continued with sillimanite stable. Inclusion trails in the garnet cores are textural remnants of early deformation, which occurred either before or during prograde metamorphism. The peak metamorphic conditions are anomalously high in the context of thermal models and P – T paths for continental collision zones. The additional heat input required to promote migmatization may have been provided by advection as lower crustal high-pressure rocks and the uppermost mantle were uplifted following lithospheric thinning at an early stage in the orogeny. The prograde path was interrupted by the development of retrograde extensional shear fabrics defined by biotite+sillimanite and associated with garnet breakdown. Field observations indicate that ductile extension was accompanied by melt extraction, transport and emplacement of intracrustal granites dated at c . 430 Ma. Regional ductile extension and exhumation probably resulted from the development of gravitational instabilities within the overthickened crust during continental collision. 相似文献
14.
The metamorphism in the Central Himalaya 总被引:10,自引:0,他引:10
A. PECHER 《Journal of Metamorphic Geology》1989,7(1):31-41
ABSTRACT All along the Himalayan chain an axis of crystalline rocks has been preserved, made of the Higher Himalaya crystalline and the crystalline nappes of the Lesser Himalaya. The salient points of the metamorphism, as deduced from data collected in central Himalaya (central Nepal and Kumaun), are:
- 1 The Higher Himalaya crystalline, also called the Tibetan Slab, displays a polymetamorphic history with a first stage of Barrovian type overprinted by a lower pressure and/or higher temperature type metamorphism. The metamorphism is due to quick and quasi-adiabatic uplift of the Tibetan Slab by transport along an MCT ramp, accompanied by thermal refraction effects in the contact zone between the gneisses and their sedimentary cover. The resulting metamorphic pattern is an apparent (diachronic) inverse zonation, with the sillimanite zone above the kyanite zone.
- 2 Conversely, the famous inverted zonation of the Lesser Himalaya is basically a primary pattern, acquired during a one-stage prograde metamorphism. Its origin must be related to the thrusting along the MCT, with heat supplied from the overlying hot Tibetan Slab, as shown by synmetamorphic microstructures and the close geometrical relationships between the metamorphic isograds and the thrust.
- 3 Thermal equilibrium is reached between units above and below the MCT. Far behind the thrust tip there is good agreement between the maximum temperature attained in the hanging wall and the temperature of the Tibetan Slab during the second metamorphic stage; but closer to the MCT front, the thermal accordance between both sides of the thrust is due to a retrogressive metamorphic episode in the basal part of the Tibetan Slab.
15.
16.
豫西秦岭杂岩变质带的分布及主期变质时代的限定 总被引:2,自引:1,他引:1
豫西秦岭杂岩中变质分级可呈与造山带大致平行的带状分布,从两侧向中心变质级别升高,尤其南侧分带明显:由南向北,依次为黑云母带-石榴子石带-蓝晶石带-夕线石带,直至斜方辉石带,而不是整体上经历了麻粒岩相变质作用。局部发生的麻粒岩相变质未见明显向角闪岩相变质转化的退变结构。通过几种岩石的锆石LA-MC-ICPMS测年研究,多数样品中的锆石经受了后期强烈的改造,同位素体系或多或少被重置。尽管如此,侵位花岗岩和伟晶岩年龄限定了主期变质作用的时代应老于484±3Ma,并可能与早期的榴辉岩相变质作用在演化上有联系。主期变质(不包括榴辉岩相变质)性质与经典的巴罗式变质带可以对比;此外,研究区未经历明显的地壳增厚,与高喜马拉雅结晶岩系类似,秦岭杂岩可能经历了中、下地壳物质沿隧道流上升过程。 相似文献
17.
Geothermobarometry and development of inverted metamorphism in the Darjeeling-Sikkim region of the eastern Himalayan 总被引:2,自引:0,他引:2
ABSTRACT The Darjeeling-Sikkim region provides a classic example of inverted Himalayan metamorphism. The different parageneses of pelitic rocks containing chlorite, biotite, garnet, staurolite, kyanite, sillimanite, plagioclase and K-feldspar are documented by a variety of textures resulting from continuous and discontinuous reactions in the different zones. Microprobe data of coexisting minerals show that XMg varies in the order: garnet < staurolite < biotite < chlorite. White mica is a solid solution between muscovite and phengite. Garnet is mostly almandine-rich and shows normal growth zoning in the lower part of the Main Central Thrust (MCT) zone, and reverse zoning in the upper part of the zone. Chemographical relations and inferred reactions for different zones are portrayed in AFM space. In the low-grade zones oriented chlorites and micas and rolled garnets grew syntectonically, and were succeeded by cross-cutting chlorites and micas and garnet rims. In the upper zones sillimanite, kyanite and staurolite crystallized during a static inter-kinematic phase. P-T contitions of metamorphism, estimated through different models of geothermobarometry, are estimated to have been 580°c for the garnet zone to a maximum of 770°c for the sillimanite zone. The preferred values of pressure range from 5.0 kbar to 7.7 kbar. Models to explain the inverted metamorphism include overthrusting of a hot high Himalayan slab along a c. 5 km wide ductile MCT zone and the syn- or post-metamorphic folding of isograds. 相似文献
18.
喜马拉雅造山带的部分熔融与淡色花岗岩成因机制 总被引:1,自引:0,他引:1
喜马拉雅造山带核部由高级变质岩和淡色花岗岩组成,是研究大陆碰撞造山带部分熔融与花岗岩成因的天然实验室.基于最新研究成果,探讨了喜马拉雅造山带核部变质作用的条件、类型以及P-T轨迹、部分熔融的方式与程度及熔体成分以及变质作用与部分熔融的时间和持续过程.相关证据表明,造山带核部经历了高压麻粒岩相至榴辉岩相变质作用,具有以增温增压进变质和近等温降压退变质为特征的顺时针型P-T轨迹.这些高压变质岩石发生了长期持续的高温变质与部分熔融.在泥质岩石的进变质过程中白云母和黑云母脱水熔融可以形成不同成分的熔体.同时,总结了淡色花岗岩的形成时间、地球化学特征和源区熔融方式,结果表明碰撞造山过程中加厚下地壳的脱水熔融形成了喜马拉雅造山带的淡色花岗岩. 相似文献
19.
D. L. WHITNEY T. A. MECHUM S. M. KUEHNER & Y. R. DILEK 《Journal of Metamorphic Geology》1996,14(2):163-181
A complete Barrovian sequence ranging from unmetamorphosed shales to sillimanite–K-feldspar zone metapelitic gneisses crops out in a region extending from the Hudson River in south-eastern New York state, USA, to the high-grade core of the Taconic range in western Connecticut. NNE-trending subparallel biotite, garnet, staurolite, kyanite, sillimanite and sillimanite–K-feldspar isograds have been identified, although the assignment of Barrovian zones in the high-grade rocks is complicated by the appearance of fibrolitic sillimanite at the kyanite isograd. Thermobarometric results and reaction textures are used to characterize the metamorphic history of the sequence. Pressure–temperature estimates indicate maximum metamorphic conditions of 475 °C, c. 3–4 kbar in the garnet zone to >720 °C, c. 5–6 kbar in the highest grade rocks exposed. Some samples in the kyanite zone record anomalous (low) peak conditions because garnet composition has been modified by fluid-assisted reactions. There is abundant petrographic and mineral chemical information indicating that the sequence (with the possible exception of the granulite facies zone) was infiltrated by a water-rich fluid after garnet growth was nearly completed. The truncation of fluid inclusion trails in garnet by rim growth or recrystallization, however, indicates that metamorphic reactions involving garnet continued subsequent to initial infiltration. The presence of these textures in some zones of a well-constrained Barrovian sequence allows determination of the timing of fluid infiltration relative to the P–T paths. Thermobarometric results obtained using garnet compositions at the boundary between fluid–inclusion-rich and inclusion-free regions of the garnet are interpreted to represent peak metamorphic conditions, whereas rim compositions record slightly lower pressures and temperatures. Assuming that garnet grew during a single metamorphic event, infiltration must have occurred at or slightly after the peak of metamorphism, i.e. 4–5 kbar and a temperature of c. 525–550 °C for staurolite and kyanite zone rocks. 相似文献
20.
Thermal model for the Zanskar Himalaya 总被引:8,自引:0,他引:8
ABSTRACT Crustal thickening along the northern margin of the Indian plate, following the 50 Ma collision along the Indus Suture Zone in Ladakh, caused widespread high-temperature, medium-pressure Barrovian facies series metamorphism and anatexis. In the Zanskar Himalaya metamorphic isograds are inverted and structurally telescoped along the Main Central Thrust (MCT) Zone at the base of the High Himalayan slab. Along the Zanskar valley at the top of the slab, isograds are the right way-up and are also telescoped along northeast-dipping normal faults of the Zanskar Shear Zone (ZSZ), which are related to culmination collapse behind the Miocene Himalayan thrust front. Between the MCT and the ZSZ a metamorphic-anatectic core within sillimanite grade rocks contains abundant leucogranite-granite crustal melts of probable Himalayan age. A thermal model based on a crustal-scale cross-section across the Zanskar Himalaya suggests that M1 isograds, developed during early Himalayan Barrovian metamorphism, were overprinted during high-grade MCT-related anatexis and folded around a large-scale recumbent fold developed in the hanging wall of the MCT. 相似文献