首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到19条相似文献,搜索用时 93 毫秒
1.
新疆西南天山超高压变质带的形成与演化   总被引:64,自引:30,他引:34  
本文系统地总结了近年来有关新疆西南天山超高压变质带在野外地质产状、岩石学、矿物学、地球化学和年代学等方面研究取得的进展。根据野外地质产状特征,西南天山出露的榴辉岩可以分为三类:即在蓝片岩中呈透镜体的块状榴辉岩、保存有玄武岩岩枕的枕状榴辉岩和夹杂在大理岩中的条带状榴辉岩。详细的岩石学研究表明它们都经历过超高压变质作用,其变质作用演化经历了3个阶段:峰期榴辉岩阶段(560~600℃,4.95~5.07GPa)、主期榴辉岩阶段(598~496℃,25.72~26.66±1kbar)和退变绿帘石蓝片岩相阶段。地球化学研究显示其原岩相当于源于富集地幔的(ε_(Nd)-1.4~-0.4)具有 OIB 特点的变碱性玄武岩、源于亏损地幔的(ε_(Nd)= 6.7~ 7.4)具有 NMORB 特点的洋中脊玄武岩和源于较富集地幔的(ε_(Nd)=-2.5~ 3.2)具有 EMORB 特点的洋中脊玄武岩,它们形成于海山环境下的洋壳。榴辉岩中锆石 SHRIMP定年结果表明榴辉岩的原岩形成于石炭纪(>310Ma)之前,洋壳开始俯冲发生在二叠纪末(280~290Ma),高压一超高压变质发生在三叠纪(220~230Ma)。结合在其北侧低压麻粒岩带的发现,提出了新疆西南天山超高压变质带双变质带构造演化模式。  相似文献   

2.
洋壳深俯冲超高压变质作用研究及其地质意义   总被引:1,自引:0,他引:1  
张立飞 《地质通报》2007,26(9):1079-1085
洋壳深俯冲经历超高压变质作用的岩石比较稀少,是目前超高压变质作用研究的重要前沿领域,有关这方面的研究对于建立新的冷俯冲带变质作用类型、探讨地幔水流体的成因、建立更广泛的超高压变质岩石的抬升机制具有重要意义。另外,洋壳深俯冲高压变质带往往与低压高温变质带组成双变质带,对双变质带的深入研究对于完整地重塑俯冲碰撞造山带的形成演化过程具有重要意义。简要地介绍了新疆西天山洋壳深俯冲超高压变质带的研究现状和存在的问题。  相似文献   

3.
新疆西天山超高压变质榴辉岩   总被引:14,自引:0,他引:14  
在新疆西天山3类榴辉岩中均发现了超高压变质矿物:在第Ⅰ类与蓝片岩互层的榴辉岩中发现了柯石英假像;在第Ⅱ类枕状榴辉岩的绿辉石中发现了石英出溶叶片;在第Ⅲ类产于大理岩中呈透镜状的方解石/白云石榴辉岩中发现了变质成因的菱镁矿。详细的岩石矿物学研究表明,第Ⅰ类榴辉岩3个阶段的变质演化温压条件为:UHP前变质阶段(356-433℃,0.8-1.0GPa)、峰期UHP榴辉岩相阶段(496-598℃,2.572-2.666GPa)和退变绿帘蓝片岩相阶段(500-530℃,1.0-1.2GPa),并建立了在NCMASCH(Na2O-CaO-MgO-Al2O3-SiO2-CO2-H2O)体系中出现蓝闪石、石榴石、绿辉石、菱镁矿、白云石、黝帘石、柯石英、CO2和H2O的相平衡关系。经变质反应分析和相平衡理论计算西天山含菱镁矿的蓝闪石榴辉岩的变质峰期温压条件为:2.7-2.8GPa和525-607℃,XCO2低于0.006。超高压变质矿物的发展表明西天山榴辉岩经历了超高压变质作用,所谓的南天山造山带可能是世界上规模最大的由洋壳俯冲形成的超高压变质带。  相似文献   

4.
柴北缘超高压变质带:从大洋到大陆的深俯冲过程   总被引:5,自引:0,他引:5  
    柴北缘超高压变质带同我国大别- 苏鲁造山带类似,同属典型的大陆型俯冲碰撞带。柯石英在榴辉岩和片麻岩中均 有发现,且石榴橄榄岩锆石中含有金刚石。本文从岩石学、温压计算、地球化学和年代学四个方面,对此带中的鱼卡、绿 梁山、锡铁山和都兰4 个榴辉岩和石榴橄榄岩出露地区近些年的研究进展进行了系统详细的综述。与典型的大陆型俯冲碰 撞带不同,柴北缘超高压变质带保存了早期陆壳俯冲前发生的洋壳深俯冲的证据。因此,结合现有数据,本文对柴北缘超 高压变质带从大洋俯冲到大陆俯冲碰撞的构造演化模式进行了探讨。  相似文献   

5.
西南天山高压-超高压变质带是世界上少有的经历深俯冲的增生杂岩带,是古天山洋向北俯冲的结果。针对该俯冲杂岩带内部结构的研究目前仍存在争论。本文以木扎尔特地区一条长约4 km的南北向剖面为例,对西南天山高压-超高压变质带的野外特征、矿物学和变质演化研究进行了综述。目前的研究表明,木扎尔特地区存在超高压和高压两类硬柱石榴辉岩,但绝大部分都经历了强烈的退变质和变形改造,被蓝片岩相或绿片岩相矿物组合取代。这些变基性岩在空间上构成北部和南部两个榴辉岩带,二者为构造接触。木扎尔特超高压硬柱石榴辉岩与其围岩经历相似的峰期压力,构成西南天山超高压带的西端。与东侧阿克牙孜地区超高压榴辉岩相比,它们在变形特征、岩石组合和变质演化方面表现出一定的独特性,很可能说明深俯冲板片在折返过程中沿构造带走向存在差异变质-变形演化。这些基础研究对全面认识冷俯冲增生杂岩带的变质演化及其俯冲和折返的地球动力学机制具有重要意义。  相似文献   

6.
西南天山造山带位于伊犁-中天山板块和塔里木板块之间,普遍被认为是古南天山洋闭合,塔里木板块和伊犁-中天山板块碰撞造山的产物.在西南天山含榴辉岩高压-超高压变质带中,我们在哈布腾苏和科普尔特2个地区识别出这一套基性-酸性火山岩.在哈布腾苏剖面,该套火山岩以酸性岩为主,在野外作为构造岩片与高压-超高压榴辉岩与蓝片岩相间产出...  相似文献   

7.
新疆西南天山低压高温变质带深熔时代及其地质意义   总被引:1,自引:0,他引:1  
施建荣  刘福来  刘平华  孟恩  刘超辉  杨红  王舫  蔡佳 《岩石学报》2014,30(10):2843-2856
西南天山木扎尔特地区低压高温变质带主要出露片麻岩类、斜长角闪岩类和麻粒岩类三种岩石类型,由于受到深熔事件的影响在其内部形成了规模不一的长英质脉体,然而对这些深熔长英质脉体的时代还缺乏准确的限定。本文通过详细的岩相学、锆石阴极发光图像研究,采用LA-ICP-MS技术对3件长英质脉体不同锆石微区进行了U-Pb定年,进而探讨西南天山低压高温变质带的形成时间。长英质脉体中的新生锆石具有弱的振荡环带,低的Th/U比值,锆石形态学和内部结构也表明锆石结晶于与深熔作用有关的熔体中,长英质脉体获得的深熔时代为276.5±2.0Ma、272.0±1.7Ma、265.5±1.5Ma,其年龄范围代表了木扎尔特地区低压高温变质带的形成时间可能为早中二叠世,该年龄与区域上西南天山造山带广泛出现的碰撞后岩浆事件的时代相一致,表明早二叠世西南天山造山带已进入造山后伸展减薄的后碰撞造山演化阶段。同时获得一组集中分布的深熔长英质脉体421.8±3.2Ma的继承锆石年龄,该年龄与寄主岩石夕线石榴黑云斜长片麻岩一组主要的年龄峰值一致,表明长英质脉体可能来源于夕线石榴黑云斜长片麻岩的部分熔融作用,对应于南天山志留纪晚期的岩浆事件。  相似文献   

8.
西天山高压-超高压变质带沿中天山南缘缝合带近东西向展布约200 km,南北最宽达30 km,构成一增生楔[1,2]。在对该高压-超高压变质带进行研究,不断发现新的榴辉岩体和蓝片岩体[3]。超高压变质岩原岩的构造环境判别,对于经历深俯冲折返的变质岩具有重要限制意义。通过对西南天山榴辉岩、蓝片岩样品进行岩石学、主微量元素检测和构造投图分析。研究表明榴辉岩和蓝片岩有着不同的原岩性质:榴辉岩原岩为E-MORB和N-MORB两类,而蓝片岩原岩介于E-MORB与OIB。西南天山的高压-超高压岩石形成于近岛弧的海洋环境中。  相似文献   

9.
吕增  王凯 《地球科学》2018,43(1):150-163
角闪岩是西南天山超高压变质带变基性岩的常见岩石类型之一.野外关系和矿物反应结构表明,大多数角闪岩是由榴辉岩或蓝片岩受到不同程度的钠长绿帘角闪岩相退变质叠加形成的.但对于一些平衡结构发育良好且孤立产出的角闪岩类型(如石榴角闪岩)仍缺乏系统的岩石学研究.本次从岩相学、矿物成分以及热力学模拟几个方面对哈布腾苏河下游地区超高压带内不含钠长石的石榴角闪岩开展了详细的工作.这些石榴角闪岩的主要矿物为绿色角闪石(钙质-钠钙质闪石)、帘石(黝帘石-绿帘石)和石榴石,三者总体积占80%~90%,明显有别于大多数由榴辉岩退变而成的含有钠长石变斑晶的石榴角闪岩.虽然这些角闪岩化学成分十分相近,都具有富钙贫钠和高的Mg/(Mg+Fe)比值,但在结构、构造和矿物组成等方面存在显著差异,据此将它们划分为两类.第一类角闪岩基质中不含石英,保存在变斑晶中的少量残余矿物组合为石榴石+绿辉石+硬柱石+蓝闪石+金红石,指示峰期硬柱石榴辉岩相变质条件,富钛矿物全部为金红石.第二类角闪岩强烈面理化,面理由绿色角闪石、绿帘石和绿泥石以及条带状石英集合体构成.石榴石粒度呈双峰式分布,粗粒比细粒低钙低锰.基质和包体中均未发现高压变质特征矿物绿辉石和蓝闪石.富钛矿物以榍石为主,金红石和钛铁矿仅存在于个别石榴石中.两类角闪岩的石榴石成分具有较大区分度,前者的钙含量较高而镁含量较低.P-T视剖面计算显示它们的峰期条件为480~520 ℃,30~33 kbar,均达到超高压范围,与哈布腾苏河下游及以西地区的榴辉岩相似,表明西南天山超高压变基性岩构成沿中天山南缘断裂延伸数十千米的独立地质单元,不存在所谓的俯冲隧道混杂现象.   相似文献   

10.
刘新  苏文  高俊  李继磊  江拓 《岩石学报》2013,29(5):1675-1684
西南天山高压-超高压变质带中阿坦塔义地区新发现的榴辉岩块体呈透镜体产于围岩石榴石白云母片岩中,边部发育退变质蓝片岩.榴辉岩与蓝片岩具有相似的地球化学特征:榴辉岩SiO2为51.59% ~52.66%,TiO2为0.70% ~0.80%;蓝片岩SiO2为51.57% ~54.06%,TiO2为0.86%~0.89%;榴辉岩与蓝片岩均具有轻稀土富集且内部中度分异、重稀土平缓、中度Eu负异常及亏损Ba、Sr、Nb、Ta、Ti等元素的地球化学特征,La/Nb分别为3.0 ~4.8及2.1 ~3.7,类似典型的活动大陆边缘岛弧岩浆岩特征.榴辉岩Zr/Hf=36.5 ~ 37.1,Nb/Ta=10.2 ~ 12.9;蓝片岩Zr/Hf=35.9 ~ 36.4,Nb/Ta=11.6 ~ 12.2,均类似大陆地壳的Zr/Hf与Nb/Ta比值.榴辉岩(87 Sr/86 Sr)i=0.7091 ~0.7095,εNd(t)=-7.52 ~-6.31;蓝片岩(87 Sr/86 Sr)i=0.7098 ~0.7107,εNd(t)=--7.70 ~-7.13.主微量元素特征和Sr-Nd同位素组成显示榴辉岩和蓝片岩的原岩具大陆地壳性质,这也是首次在西南天山变质俯冲杂岩中发现陆壳物质.  相似文献   

11.
1.IntroductionFromexperimefltalphaseequilibrium,stableisotOPe,andthermo-barometricstudies,ProgradebineschistdineralparageneseshavebeenproducedexclusivelyatrelativelyhighPadratios(DeRoever,1956;Miyashiro,1961;DobretsovandSobolev,1984;Emst,1973,1988;Maruyamaetal.,1996).InthelastthreedeCades,withtheadvanceofplatetectonics,manygeologistssuggestedthatblueschists,representinghigh-Pressurelow-tCmperamre~rphism,areformedbysubductionofoceanicplate(Emst,1973).Blueschistshavealsobeenregardedasoneof…  相似文献   

12.
Coesite inclusions in garnet have been found in eclogite boudins enclosed in coesite‐bearing garnet micaschist in the Habutengsu Valley, Chinese western Tianshan, which are distinguished from their retrograde quartz by means of optical characteristics, CL imaging and Raman spectrum. The coesite‐bearing eclogite is mainly composed of porphyroblastic garnet, omphacite, paragonite, glaucophane and barroisite, minor amounts of rutile and dotted (or banded) graphite. In addition to coesite and quartz, the zoned porphyroblastic garnet contains inclusions of omphacite, Na‐Ca amphibole, calcite, albite, chlorite, rutile, ilmenite and graphite. Multi‐phase inclusions (e.g. Czo + Pg ± Qtz, Grt II + Qtz and Chl + Pg) can be interpreted as breakdown products of former lawsonite and possibly chloritoid. Coesite occurs scattered within a compositionally homogenous but narrow domain of garnet (outer core), indicative of equilibrium at the UHP stage. The estimate by garnet‐clinopyroxene thermometry yields peak temperatures of 420–520 °C at 2.7 GPa. Phase equilibrium calculations further constrain the P–T conditions for the UHP mineral assemblage Grt + Omp + Lws + Gln + Coe to 2.4–2.7 GPa and 470–510 °C. Modelled modal abundances of major minerals along a 5 °C km?1 geothermal gradient suggests two critical dehydration processes at ~430 and ~510 °C respectively. Computed garnet composition patterns are in good agreement with measured core‐rim profiles. The petrological study of coesite‐bearing eclogite in this paper provides insight into the metamorphic evolution in a cold subduction zone. Together with other reported localities of UHP rocks from the entire orogen of Chinese western Tianshan, it is concluded that the regional extent of UHP‐LT metamorphism in Chinese western Tianshan is extensive and considerably larger than previously thought, although intensive retrogression has erased UHP‐LT assemblages at most localities.  相似文献   

13.
Petrology of rodingite derived from eclogite in western Tianshan, China   总被引:8,自引:0,他引:8  
This study reports a new rodingite type which was derived from eclogite enclosed in the ultramafic rocks of Changawuzi ophiolites, western Tianshan, China. Based on petrographical investigations, rodingite, partial rodingitized rock and completely rodingitized rock are characterized in this paper. These rocks show a continuous variation in their bulk compositions, mineralogy and their textural properties from eclogite to rodingite. The completely rodingitized rocks can be further divided into prehnite rodingites, hydrogrossular‐diopside rodingite and vesuvianite rodingites on the basis of the mineral assemblage and textural character. The chemical potential path of μ(SiO2)–μ(CaO/MgO) can be used to constrain the evolution of two stages of rodingitization. The first rodingitization possibly started under conditions of 410–430 °C and 7–9 kbar at upper greenschist facies, and resulted from a secondary serpentinization during exhumation of the subducted slab. A second and pervasive rodingitization took place under conditions of 250–350 °C and 2–10 kbar from greenschist to subgreenschist facies. The PT path presented shows a retrograde evolution from eclogite to rodingite. We conclude that the process of rodingitization may also take place under subduction zone conditions in addition to its more common occurrence under ocean‐floor metamorphic conditions.  相似文献   

14.
大别—苏鲁超高压变质带内的块状榴辉岩及其构造意义   总被引:13,自引:1,他引:12  
大别—苏鲁超高压(> 27× 108Pa) 变质带内的榴辉岩, 在大陆深俯冲、碰撞和折返剥露过程中, 大都遭受了强烈的变形和变质作用的重置与再造.但是, 大型榴辉岩体核部以及包裹于大理岩和石榴橄榄岩体内部的块状榴辉岩, 往往保留其初始简单的矿物组合、中-细粒状变晶结构和块状构造.详细地分析了块状榴辉岩的几何学、岩相学及变质作用特征, 指出它们是超高压榴辉岩递进及多期变质变形分解作用的残留体, 位于尺度不同的弱应变域内, 是大陆深俯冲及碰撞作用的真正记录.   相似文献   

15.
INTRODUCTION Anew ultrahigh pressure ( UHP) metamorphicbelt ,the South Altun-North Qaidam-North QinlingUHP metamorphic belt ,has been recently discoveredand widely discussed by different workers (Yang J Set al .,2003 ,2002 ,2001 ,2000 ,1998 ;Zhang J Xetal .,2002 ,1999 ; Zhang G et al .,2001 ; Hu et al .,1996 ,1995 ,1994) . Detailed studies have also beencarried out onthe Dabie-Sulu UHP/ HP metamorphicbelt inthe central orogenic belt (COB) of China (Gaoet al .,2002 ;Sun et al …  相似文献   

16.
中国中央造山带内两个超高压变质带关系   总被引:8,自引:1,他引:8       下载免费PDF全文
中国中央造山带内至少发育两个超高压变质带,一个是南阿尔金-柴北缘-北秦岭超高压变质带,超高压峰期变质年龄为早古生代(500~400 Ma),代表扬子与中朝克拉通间的深俯冲和碰撞带;另一个是研究程度较高的大别-苏鲁超高压和高压变质带,峰期变质年龄主体是三叠纪(250~220 Ma),代表扬子克拉通内部的陆内大陆深俯冲和碰撞带。对东秦岭看丰沟及香坊沟的变质岩片详细岩石学和构造学研究以及先期造山带尺度的构造、岩石和年代学研究资料分析证明,南阿尔金-柴北缘-北秦岭超高压变质带,向东不能与大别-苏鲁超高压和高压变质带的任一部分相连,包括南大别和西北大别超高压及高压变质岩石。相反,大别-苏鲁超高压及高压变质带,向西经桐柏山,横过南襄盆地延伸到南秦岭的西峡及商南一带。仅在东秦岭-大别山范围内,两个超高压变质带分别位于南丹断裂系南北两侧,沿造山带近平行延展,之间被一系列以断裂或剪切带为边界的岩石构造岩片相隔,不能构成横贯中国中部统一的巨型超高压变质带。任何有关中国中央造山带构造格架及构造演化模型的建立,均应考虑其内部发育两个时代和功能不同的超高压变质带。  相似文献   

17.
The structure, microstructure and petrology of a small area close to the village of Bard in Val d'Aosta (Italy) has been studied in detail. The area lies across the contact between the Gneiss Minuti (GM) and the Eclogitic Micaschist (EMS) Complexes of the Lower element of the Sesia portion of the Sesia-Lanzo Zone (Western Alps). Both complexes have undergone high-pressure metamorphism, but the metamorphic assemblages indicate a sudden increase in pressure in going across the contact from the GM to the EMS. Therefore, we interpret the contact as a thrust dividing the lower element of the Sesia into two sub-elements. This interpretation is supported by structural evidence.
The early Alpine (90-70 Ma) metamorphic history is best preserved in the EMS and is one of increasing pressure associated with thrusting. The maximum P/T recorded in the EMS is >1500 MPa (>15kbar) and 550°C and in the GM is < 1500-1300 MPa (< 15-13 kbar) and 500-550°C. We suggest that the rocks were probably in an active Benioff zone during this time.
From then on the histories of the GM and EMS are the same. Deformation continued and the thrust and thrust slices were folded during decreasing pressure. We interpret the first postthrusting deformation in terms of uplift associated with continued shortening of the crust and underplating after the Benioff zone had become inactive and a new Benioff zone had developed further to the north-west.
A still later deformation and the Lepontine metamorphism (38 Ma) are related to continued uplift. Much of this deformation is characterized by structures indicative of vertical shortening and lateral spreading as the mountains rose above the general level of the surface.  相似文献   

18.
19.
The late Paleozoic adakitic rocks are closely associated with the shoshonitic volcanic rocks in the western Tianshan Mountains, China, both spatially and temporally. The magmatic rocks were formed during the period from the middle to the late Permian with isotopic ages of 248-268 Ma. The 87Sr/86Sr initial ratios of the rocks are low in a narrow variation range (-0.7050). The 143Nd/144Nd initial ratios are high (-0.51240) with positive εND(t) values (+1.28-+4.92). In the εNd(t)-(87Sr/86Sr)i diagram they fall in the first quadrant. The association of the shoshonitic and adakitic rocks can be interpreted by a two-stage model: the shoshonitic volcanic rocks were formed through long-term fractional crystallization of underplated basaltic magma, while the following partial melting of the residual phases formed the adakitic rocks.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号