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1.
变质作用是地壳历史发展中的一种重要的地质作用,并随地壳的演化而表现为不同的变质作用类型。过去称为区域变质作用可根据其所处的大地构造环境而分为不同的变质作用类型,而大地构造环境的一个重要方面则是它的原岩建造的特性。 相似文献
2.
本文试图从与变质作用有关的地壳内部热流的变化历史来讨论甘肃地壳演化过程和大地构造环境变化。一、变质单元与大地构造环境的变化变质作用类型的划分是以反映热流变化的变质相及变质相系(图1)为基础,结合变质作用发生和发展期间的大地构造环境进行的。因此,变质作用类型在时空上的变化反映了一定的大地构造环境的变迁,并表明变质作用与地壳演化的联系。变质作用类型(图2)的时空分布在变质地质图上表现为变质地带。相邻的变质地带有规律的组合在一起构成一级变质单元(称变质地区)。它们代表了一定地区变质作用类型随 相似文献
3.
变质相系的概念把变质作用的物化条件与地壳演化的某些控制因素联系起来,强调了不同大地构造环境所具的变质作用类型及特征。都城秋穗将变质作用分为低压型、中压型及高压型三种。高压变质作用以硬玉、硬柱石和蓝闪石的出现为特征,特别是与石英共生的硬玉,是公认的高压矿物,并把钠长石分解为硬玉与石英这一变质反应作为确定高压相系的临界反应。 相似文献
4.
变质作用是一种重要的地质作用。它所形成的变质岩在地壳上分布很广,组成了各种类型的变质区,包括大陆的结晶基底,各个时期的变质活动带和一部分大洋地壳,甚至还包括了部分上地幔岩石。这些变质区往往由结晶片岩所组成,它们是由原有的地壳岩石经过温度的升高或压力的加大,或二者联合所产生的变化而形成的。通过分析和归纳不同变质区的特征,诸如结晶片岩的岩石组合、构造变形、区域分布、原岩建造及其所处的大地构造环境等方面的研究,变质作用可定义如下: 相似文献
5.
国际变质作用与地壳演化学术讨论会在长春召开,历时4天。会议期间,代表们就变质地质学的各方面课题广泛交流了研究成果和观点;讨论涉及变质图的编图原则和方法及变质作用类型与大地构造环境之间的关系;对前寒武纪变质地质和蓝片岩相变质作用的特征及大地构造环境进行了较集中的讨论。与会代表最感兴趣的问题是各时代造山带长期复杂的变质和变形作用的演化历史及彼此之间的复杂时间关系。对花岗质岩石学及与变质岩系有关的金和铀的成矿作用也引起了注意。 相似文献
6.
阿尔泰海西造山带区域变质作用类型与地壳演化 总被引:17,自引:0,他引:17
新疆阿尔泰海西造山带主要发育两期区域变质作用.第一期变质作用属于区域低温动力变质作用类型,以形成低绿片岩相矿物组合为特征,变质温度较低,而应力作用较强,是造山作用初期热流活动较弱,构造变形强烈环境下的产物.第二期变质作用属于区域动力热流变质作用类型,以形成典型的递增变质带为特征.这一期代表造山作用主期热流活动强烈,伴随有构造变形和岩浆活动.不同的变质作用类型代表了不同的大地构造环境,记录了造山带的演化历史和动力学过程. 相似文献
7.
麻粒岩地体和基性火山岩中的麻粒岩包体是研究过去和现在下部地壳的窗口,通过它们的研究可了解下地壳的物质组成,物理和化学状态,构造变形,岩浆作用和变质作用的特征,并进而探讨大陆地壳形成和改造的地质动力学机制。当前研究中涉及许多重要问题,如麻粒岩相变质作用的PTt演化和成因模式及其构造环境、变质流体的含量、成分和作用,岩浆作用的性质和机制及其对麻粒岩相变质作用的贡献,构造变形作用的样式及其所反映的构造体制,麻粒岩中LILE亏损等地球化学特征的成因意义等等。这些问题互相联系,都是麻粒岩地体成因的约束条件。本文将讨论麻粒岩相变质作用的PTt演化特征,阐述大地构造环境和地质动力学机制对其所起的约束作用。 相似文献
8.
新疆阿尔泰地区冲乎尔递增变质带特征及其演化 总被引:8,自引:0,他引:8
新疆阿尔泰海西造山带主要发育两期区域变质作用:第一期为区域低温动力变质作用类型,第二期为区域动力热流变质作用类型。冲乎尔递增变质带是后者的典型代表之一,从火山沉积盆地边缘到中心发育十字石-蓝晶石带、黑云母-石榴石带、绿泥石-黑云母带、绢云母-绿泥石带,递增变质作用强度具有逐渐减弱的趋势。结合变质变形关系和变质作用演化特点,将变质作用划分为早期、峰期和晚期3个阶段。早期和峰期为连续的递增变质过程,形成典型的中压型递增变质带,晚期则属于后期的退化变质过程。变质作用演化具有顺时针的p-t轨迹,这种递增变质带的发育特征和变质作用演化特点反映了阿尔泰造山带特定的大地构造环境和地壳演化的动力学机制。 相似文献
9.
新疆阿尔泰阿祖拜地区发育两种类型区域变质作用,第一种为区域低温动力变质作用,第二种为区域动力热流变质作用.阿祖拜地区递增变质带是后者的典型代表之一,从花岗岩体外接触带依次发育矽线石-堇青带、红柱石-十字石带、黑云母-石榴石带,递增变质作用强度呈逐渐减弱趋势.结合变形变质作用特征和同位素年龄,可识别出3个变形变质阶段.早期阶段以区域低温动力变质作用为主,形成绿片岩相变质岩石组合;峰期阶段为区域动力热流变质作用,形成典型的递增变质带;晚期阶段则属退化变质作用.不同变质作用类型代表了不同大地构造环境,记录了造山带演化历史年和动力学过程. 相似文献
10.
变质作用 P-T-t 轨迹研究有机地将变质作用、岩浆作用和构造作用等诸多地质因素结合起来,定量地描述地壳热—构造演化规律,是当今地质学研究的重要前缘学科。本文收集了大量国外近期(主要为1987年~1991年)发表的有关 P-T-t 文献,追踪 P-T-t 轨迹研究的最新动态和重要成果,以期在国内变质作用P-T-t 轨迹研究中得到借鉴。这些进展和成果集中表现在以下三个方面:(1)P-T-t 轨迹方法研究的不断创新和发展;(2)一些典型变质岩石的变质作用 P-T-t 轨迹资料不断丰富;(3)各种典型大地构造环境和构造过程以及岩浆作用的 P-T-t 轨迹热模拟的进展和完善。 相似文献
11.
秦岭杂岩的组成、构造格局及演化 总被引:13,自引:0,他引:13
秦岭杂岩主要由变质地层、正片麻岩系、性质不明片麻岩系、归属不明大理岩块体及蛇绿岩片组成。变质地层可解体为秦岭岩群、峡河岩群。杂岩的构造格局以3个透镜状块体NW向斜列叠置为特征。杂岩变质体形成于新元古代北秦岭俯冲碰撞构造背景,构造线可能为NNW;古生代遭受韧性抬升改造和花岗热穹叠加,构造线NNW;中、新生代整体抬升至表层次,局部受脆韧性剪切变形叠加,构造线近EW。这种构造演化可能揭示了区域大地构造不同阶段构造体制及块体运动方向特征。 相似文献
12.
胶北地体多期变质事件的P-T-t轨迹及其对胶-辽-吉带形成与演化的制约 总被引:2,自引:2,他引:0
胶北地体位于华北克拉通东部陆块胶-辽-吉带南端,主要由闪长质-TTG-花岗质片麻岩、变质表壳岩系和变质镁铁-超镁铁质岩所组成。本文通过对胶北早前寒武纪变质岩系的岩石学、矿物化学、变质反应结构和序列、变质温度和压力估算与同位素年代学资料的综合研究和总结,得出以下重要结论:(1)与华北克拉通东部陆块其它地区太古宙变质基底类似,本区也存在~2500Ma区域性新太古代变质事件,且与本区2550~2500Ma岩浆作用在时间上非常接近,其变质作用发生的时间比岩浆作用要晚10~50Myr,指示本区~2500Ma区域性变质事件可能与大规模的幔源岩浆底侵作用存在密切的成因关系。(2)胶北还存在1950~1850Ma区域性古元古代变质事件,并导致了大量高压基性和泥质麻粒岩的形成,高压基性麻粒岩主要以不规则透镜体、变形岩墙群或岩脉群的形式赋存于闪长质-TTG-花岗质片麻岩之中,并集中分布在安丘-平度-莱西-莱阳-栖霞一带,大致沿北东-南西向断续带状分布,构成了一条长约300km的古元古代高压麻粒岩相变质带。(3)本区古元古代高压麻粒岩以记录近等温减压(ITD)及随后近等压降温(IBC)的顺时针P-T-t轨迹为特征,指示本区变质杂岩在古元古代晚期曾强烈地卷入了与俯冲-拼贴-碰撞造山有关的构造过程,并可能经历了如下复杂的构造演化:(I)在古元古代晚期2000~1950Ma,随着有限大洋地壳的持续俯冲作用,本区各类变质岩的原岩开始经历一次构造增厚事件,并导致了它们的原岩经历了早期绿片岩相-角闪岩相进变质作用;(II)1950~1870Ma,大洋地壳俯冲作用结束,本区开始发生弧-陆拼贴和陆-陆碰撞作用,大陆地壳持续缩短和加厚,在加厚下地壳或岛弧根部带约50km的深度,发生了区域性高压麻粒岩相变质作用,并导致了本区变基性岩和变泥质岩分别形成了石榴石+单斜辉石+斜长石±角闪石±石英±铁-钛氧化物和石榴石+蓝晶石+钾长石+斜长石+黑云母+石英+铁-钛氧化物+熔体的高压麻粒岩相矿物组合。(III)1870~1800Ma,在同碰撞峰期变质结束之后,本区造山作用进入了后碰撞构造折返-伸展演化阶段,先后经历了早期快速构造折返和晚期缓慢冷却降温两个构造热演化阶段。其中,在早期快速构造折返阶段,高压麻粒岩经历了峰后近等温或略微增温减压退变质作用的叠加,高压基性麻粒岩表现为沿石榴石边部形成了含斜方辉石的后成合晶。与此同时,早期快速构造折返阶段还伴随着热松弛和伸展作用,出现一系列的幔源基性岩浆活动,不仅导致了本区大量未经历高压麻粒岩相变质的变基性岩群的形成,同时也诱发了区内大规模的地壳深熔作用的发生。自温度高峰期之后,本区地壳岩石还经历了一个近等压冷却降温过程,并发生了区域性角闪岩相退变质作用,高压基性麻粒岩表现为石榴石和斜方辉石边部常出现含角闪石的退变边或后成合晶。最终,在1800Ma左右,本区含电气石花岗伟晶质岩脉的大量出现,则标志着胶北地体古元古代晚期(2000~1800Ma)俯冲-拼贴-碰撞造山作用的最终结束。 相似文献
13.
巴罗型中压变质带与巴肯型低压高温变质带的成因与大陆板块边缘的碰撞造山及陆内造山作用之间有着紧密的联系。根据变质带的空间时间配置关系、压力类型、变质作用pTt轨迹、伴生的岩浆岩等等,可以区分出3种类型的大陆造山模式:弧-陆拼贴型、陆-陆碰撞型(可进一步分为中高压型碰撞造山带和双变质型山带型(paired metamorphic mountain belt)陆-陆碰撞带)、陆内造山地壳加厚-伸展型。巴罗型中压变质带普遍出现于地壳加厚-热弛豫的构造环境,但巴肯型低压变质带形成的构造背景及物理化学条件在不同的造山带有不同的表现形式,其热源至少有:壳内岩浆侵入或岩浆板底垫托、沉降盆地放射性同位素的衰变热、构造热穹隆、变质核杂岩、地下热流体传热等。大陆边缘造山带中巴罗型变质带的倒转以及板内造山带中变质带问断等现象与造山动力学过程密切相关,记录了造山过程中的重要的地质事件,也是探讨造山历史的理想场所。由于四川丹巴地区松潘—甘孜造山带形成于很独特的3个板块双极性构造环境,表现出与世界上典型造山带诸多相似的地方,如巴罗型中压变质带、巴肯型低压高温带同时在一系列变质穹隆中发育,但又有其特殊性和复杂性,如通常只发育在大陆边缘的倒转的巴罗带和陆内造山过程中的变质相间断同时出现,显然这与本? 相似文献
14.
Mode of occurrence and significance of jadeite in the Kamuikotan metamorphic rocks, Hokkaido, Japan 总被引:3,自引:0,他引:3
MASASHI TAKAYAMA 《Journal of Metamorphic Geology》1986,4(4):445-454
Abstract In the Kamuikotan zone, jadeite occurs in pelitic rocks, in metaplagiogranites, in veins in amphibolites and mafic sedimentary rocks, and in jadeite-albite rocks. In the first and second types, jadeite is associated with quartz, and is often in direct contact with it. However, such rock-types never occur as part of the coherent metamorphic sequence, but are found only as exotic blocks enclosed in serpentinite. Thus, jadeite + quartz-bearing assemblages are not regarded as representative of the Kamuikotan metamorphism. Lawsonite and aragonite, however, commonly do occur in the Kamuikotan metamorphic rocks, and this metamorphism belongs to a subfacies of the lawsonite-albite facies, in which aragonite is stable. The serpentinite matrix which carried jadeite + quartz-bearing pelites and metaplagiogranites into the metamorphic sequence is interpreted as a tectonic rather than a sedimentary melange. 相似文献
15.
Prior to 1970 grey gneiss complexes were interpreted as partially-melted sedimentary sequences. Once it was recognised from the Nuuk region that they comprised calc-alkaline igneous complexes, it was understood that such complexes world-wide were dominated by TTG (trondhjemite-tonalite-granodiorite) initially found to have juvenile Sr, Nd and, subsequently, Hf isotopic signatures. Between 1970 and 1985 the Nuuk region gneiss complex was interpreted by the non-uniformitarian ‘super-event’ model of crust formation which proposed occasional but extensive crust formation, with craton-wide correlation of granulite facies metamorphism and deformational phases. The igneous rocks formed in a late- Meso- to early Neoarchaean super-event engulfed crust formed in an Eoarchaean super-event. Mapping and reinterpretation at Færingehavn showed there are three TTG gneiss domains, each with different early accretionary, metamorphic and tectonic histories, separated by folded meta-mylonites. This established the key feature of the tectono-stratigraphic terrane model; that each terrane has an early intra-terrane history of crust formation, deformation and metamorphism, upon which is superimposed a later deformation and metamorphic history common to several terranes after they were juxtaposed. Remapping and >250 U-Pb zircon age determinations have refined the geological evolution of the entire Nuuk region, and has confirmed at least four main crust formation events and two collisional orogenies with associated transient high pressure metamorphism within clockwise P-T-t loops. Via independent corroborative studies the tectono-stratigraphic terrane model has been accepted for the Nuuk region and, through the discovery of similar relations across other gneiss complexes, its mode of evolution is found to be applicable to Archaean high-grade gneiss complexes worldwide. The TTG and mafic components that dominate each terrane have geochemistry interpreted to indicate subduction-related magmatism at convergent plate boundaries. Each terrane is thus dominated by juvenile additions to the crust. Intra-terrane sedimentary rocks show near unimodal age distributions in contrast to those near the boundaries which are more diverse and complex. The combined geochronological, metamorphic and structural evidence of convergence of these terranes leading to collisional orogeny, this indicates that plate tectonic processes operated throughout the Archaean. 相似文献
16.
The metamorphic history of mafic exotic blocks from a tectonic melange zone within an allochthonous ophiolitic terrane (Marmora Terrane) of the Pan-African Gariep orogenic belt in south-western Namibia was studied, based on mineral parageneses and amphibole composition. Glaucophane described previously from these rocks could not be verified. Instead, two types of blue amphiboles were distinguished: (i) rims of (ferro-) edenitic to pargasitic to barroisitic hornblende composition around brownish amphibole phenocrysts replacing magmatic clinopyroxene, and (ii) deep blue porphyroblasts of magnesio-riebeckite with little ferro-glaucophane component in a highly metasomatized albite-rich rock. Textural and mineralogical evidence, particularly the existence of up to three different amphibole generations in metagabbro samples, supports a multiphase metamorphic history experienced by these exotic blocks. The first metamorphic event, M1, is interpreted as very low- P hydrothermal oceanic metamorphism that affected the igneous protoliths at up to amphibolite facies temperatures. Subsequent M2 metamorphism was syntectonic and is characterized by temperatures similar to those attained during M1 but higher pressures indicating burial to 15–20 km. This event is related to a subduction process. The third metamorphic event, M3, was low grade and of regional nature. It is the only one recorded in the sedimentary envelope of the exotic blocks. The formation of magnesio-riebeckite is considered a retrograde reaction at greenschist facies during M2. The results indicate that in the Gariep belt subduction and subsequent obduction have occurred, although blueschist facies metamorphism has not been reached. 相似文献
17.
R. L. M. Vissers 《International Journal of Earth Sciences》1977,66(1):81-90
Within the area investigated three tectonic units are distinguished which can be referred to the Nevado-Filabride, Ballabona-Cucharón, and Alpujarride complex, respectively. During the Alpine orogeny the rocks considered were subjected to various phases of folding and overthrusting. This tectonic evolution was accompanied by a metamorphism of a plurifacial character. The relation between tectonic events and metamorphic recrystallization is schematically outlined for each of the tectonic units distinguished. The units show marked differences in their degree of metamorphic recrystallization, caused by differences between the metamorphic conditions in each of the units during the earlier stages of metamorphism. The younger stages of metamorphism postdate important overthrust movements and have affected the whole pile of tectonic units. The Palaeozoic (and older?) rock sequences do not yield conclusive evidence of prealpine metamorphism, and definite proof of pre-alpine deformation is wanting. Consequently the difference in metamorphic grade between the Palaeozoic (and older?) and the Permo-Triassic rocks of the Alpujarride complex has to be explained by differences in metamorphism of Alpine age. 相似文献
18.
胶-辽-吉古元古代造山/活动带巨量变沉积岩系的研究进展 总被引:37,自引:32,他引:5
华北克拉通发育三条古元古代构造带,包括:东部陆块内部的胶-辽-吉带(Jiao-Liao-Ji belt)、西部陆块内部的孔兹岩带(Khondalite belt)以及两个陆块之间的中部造山带(Trans-North China Orogen)。通过二十多年的深入研究,在区域构造、变质地质、岩浆作用、地球化学、同位素年代学以及地球物理等方面积累了大量资料,并取得了一系列重要的科学进展。其中,胶-辽-吉带是华北克拉通最具代表性的一条古元古代造山/活动带,它不仅接受了古元古代巨量的陆壳物质沉积,而且经历了十分复杂的构造演化过程,并经受了多期岩浆-变质事件的改造。胶-辽-吉造山/活动带的物质组成最为丰富,以大面积分布的巨量(火山)沉积岩系为特征,在中国境内包括吉南地区的集安群和老岭群、辽东南地区的南辽河和北辽河群、胶北地区的荆山群和粉子山群,向南西则有可能穿越郯庐断裂延伸至徐州-蚌埠一带的五河群,总体呈NE向展布,延伸规模长约1000km。从巨量沉积岩系的岩石组合和空间分布特征来看,荆山群与南辽河群、集安群可以对比,而粉子山群则与北辽河群、老岭群相当。然而,由于多期/多阶段强烈构造变形作用的影响,原来各群、组中地层的上下层位及接触关系已完全破坏,目前均已呈规模不一的构造岩片形式叠置在一起,彼此之间呈断层或韧性剪切带接触。巨量变沉积岩系的源区物质主要来源于造山/活动带内古元古代花岗质岩石和两侧古老陆块的变质基底,原岩形成时代为1.95~2.15Ga左右。以往研究表明,胶-辽-吉造山/活动带变质作用的强度十分不均匀,(中-高压)麻粒岩相变质只局限于胶北的荆山群及相关岩石,而粉子山群以及辽东南的南、北辽河群和吉南的集安群、老岭群只经历了角闪岩相变质,局部甚至只达到绿片岩相变质。粉子山群、北辽河群和老岭群变质演化P-T-t轨迹具有顺时针型式,而荆山群、南辽河群和集安群的P-T-t轨迹则具有逆时针型式。本文最新研究发现,古元古代麻粒岩相变质作用并非只局限于胶北地区的荆山群及其邻区,而是贯穿于整个辽东南地区的南辽河群和吉南地区的集安群,其变质演化P-T-t轨迹与胶北地区荆山群泥质麻粒岩以及基性麻粒岩一样,均具有典型近等温减压(ITD)顺时针型式,整个胶-辽-吉造山/活动带的麻粒岩相峰期变质时代为1.9~1.95Ga左右。野外观察和室内岩相学研究表明,在麻粒岩相变质作用过程中,胶北的荆山群及相关岩石、辽东南的南辽河群以及吉南的集安群中的泥质麻粒岩均广泛发生了深熔作用,长英质脉体呈不规则细脉状、网脉状和透镜状分布于寄主岩石中,且与寄主岩石之间呈渐变过渡关系。深熔锆石U-Pb定年结果显示,区域性的深熔作用(或部分熔融)时代为1.84~1.86Ga之间,表明这期广泛的深熔事件应发生于胶-辽-吉造山/活动带整体构造折返的中-低压麻粒岩相退变质阶段。有关胶-辽-吉古元古代造山/活动带的空间展布、南北边界、延伸规律及其形成的大地构造背景一直存在着分歧和争议,最新研究表明,蚌埠-霍邱一带地表露头及其以西第四系覆盖区之下的花岗质岩石、基性麻粒岩和富Al片麻岩岩心,均记录了1.85~1.95Ga的麻粒岩相变质事件,暗示着胶-辽-吉造山/活动带更有可能穿越郯庐断裂,向鲁西南延伸至蚌埠-霍邱一带及其以西的第四系覆盖区之下的变质基底。而辽南地块和狼林地块大量1.85~1.95Ga变质热事件和1.8~1.9Ga、~2.1Ga两期岩浆事件的记录,则表明辽南地块和狼林地块(至少是一部分变质基底)曾卷入到胶-辽-吉古元古代构造演化事件之中。有关胶-辽-吉古元古代造山/活动带构造演化过程及其形成的大地构造背景,目前有三种构造模式,包括:裂谷开启-闭合模式、弧(陆)-陆碰撞模式和先裂谷-后碰撞造山演化模式,然而,带内异常复杂的巨量火山-沉积岩系的物质组成、多期/多阶段的岩浆作用事件、多种变质作用类型和十分复杂的变质演化P-T-t轨迹样式、多期/多阶段复杂的构造变形特征,难以采用上述任何一种构造演化模式来加以合理解释。由此可见,有关胶-辽-吉古元古代构造/活动带南侧边界需要进一步准确厘定,有关狼林地块和辽南地块的构造归属,特别是胶-辽-吉造山/活动带在古元古代构造演化的动力学过程及其形成的大地构造背景还有待进一步深入探讨。 相似文献
19.
青藏高原南部拉萨地体的变质作用与动力学 总被引:3,自引:0,他引:3
拉萨地体位于欧亚板块的最南缘,它在新生代与印度大陆的碰撞形成了青藏高原和喜马拉雅造山带。因此,拉萨地体是揭示青藏高原形成与演化历史的关键之一。拉萨地体中的中、高级变质岩以前被认为是拉萨地体的前寒武纪变质基底。但新近的研究表明,拉萨地体经历了多期和不同类型的变质作用,包括在洋壳俯冲构造体制下发生的新元古代和晚古生代高压变质作用,在陆-陆碰撞环境下发生的早古生代和早中生代中压型变质作用,在洋中脊俯冲过程中发生的晚白垩纪高温/中压变质作用,以及在大陆俯冲带上盘加厚大陆地壳深部发生的两期新生代中压型变质作用。这些变质作用和伴生的岩浆作用表明,拉萨地体经历了从新元古代至新生代的复杂演化过程。(1)北拉萨地体的结晶基底包括新元古代的洋壳岩石,它们很可能是在Rodinia超大陆裂解过程中形成的莫桑比克洋的残余。(2)随着莫桑比克洋的俯冲和东、西冈瓦纳大陆的汇聚,拉萨地体洋壳基底经历了晚新元古代的(~650Ma)的高压变质作用和早古代的(~485Ma)中压型变质作用。这很可能表明北拉萨地体起源于东非造山带的北端。(3)在古特提斯洋向冈瓦纳大陆北缘的俯冲过程中,拉萨地体和羌塘地体经历了中古生代的(~360Ma)岩浆作用。(4)古特提斯洋盆的闭合和南、北拉萨地体的碰撞,导致了晚二叠纪(~260Ma)高压变质带和三叠纪(~220Ma)中压变质带的形成。(5)在新特提斯洋中脊向北的俯冲过程中,拉萨地体经历了晚白垩纪(~90Ma)安第斯型造山作用,形成了高温/中压型变质带和高温的紫苏花岗岩。(6)在早新生代(55~45Ma),印度与欧亚板块的碰撞,导致拉萨地体地壳加厚,形成了中压角闪岩相变质作用和同碰撞岩浆作用。(7)在晚始新世(40~30Ma),随着大陆的继续汇聚,南拉萨地体经历了另一期角闪岩相至麻粒岩相变质作用和深熔作用。拉萨地体的构造演化过程是研究汇聚板块边缘变质作用与动力学的最佳实例。 相似文献
20.
The Whole‐Rock Geochemical Composition of the Wudaogou Group in Eastern Yanbian,NE China–New Clues to Its Relationship with the Gold and Tungsten Mineralization and the Evolution of the Paleo‐Asian Ocean 
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下载免费PDF全文 The late Paleozoic Wudaogou Group, one of the oldest metamorphic units in the eastern Yanbian area, has important tectonic and metallogenic significance. Here, we provide new insights into their protoliths, tectonic setting of the metamorphic rocks and their relationships with the gold and tungsten mineralization, using new petrographic and whole‐rock geochemical data for various lithologies within the Wudaogou Group. The protolith of the metamorphic rocks of the Wudaogou Group was intermediate–basic volcanic rocks (e.g. basaltic andesite, trachyandesite, and basalt) and sedimentary rocks including argillaceous rocks, quartz sandstone, arkose and clayish greywacke, as well as pyroclastic sedimentary rock, covering tuffaceous sandstone. Before undergoing late Paleozoic epidote–amphibolite facies regional metamorphism, these protoliths were formed during the middle–late Permian in an island arc setting within a continental margin collage zone. Combined with the regional tectonic evolution, it can be speculated that the formation and the subsequent metamorphism of the protoliths of the metamorphic rocks from the Wudaogou Group were influenced by the change from subduction to collision of the Paleo‐Asian Ocean. Similarities of the rare earth element (REE) patterns and parameters among the metamorphic rocks within the Wudaogou Group, auriferous ores from the Xiaoxi'nancha gold (copper) deposit, and scheelites from the Yangjingou tungsten deposit, together with the favorable metallogenic element contents within the metamorphic rock series, imply that the Wudaogou Group could provide parts of metallic material for the gold and tungsten mineralization in the eastern Yanbian area, as exemplified by the Yangjingou deposit and Xiaoxi'nancha deposit, respectively. Further, the metamorphic sedimentary rocks, especially the metamorphic sandstones, quartz schists and quartz mica schists within the Wudaogou Group, have closer genetic relationships with the Yangjingou tungsten mineralization. However, the specific lithologies within this group which control the gold mineralization are still uncertain, and need further research. 相似文献