共查询到20条相似文献,搜索用时 621 毫秒
1.
新疆西南天山高压-超高压变质带主要由泥质-长英质片岩组成,其中包裹榴辉岩、蓝片岩和超基性岩等透镜体。含柯石英泥质片岩具斑状/筛状变晶结构,片状构造,矿物组合为石榴石、多硅白云母、钠长石、钠云母、蓝闪石、冻蓝闪石、石英以及少量褐帘石、金红石和榍石,柯石英包裹在石榴石变斑晶内。根据岩石学特征和相平衡模拟的结果,识别出含柯石英泥质片岩经历了3期变质演化阶段:压力峰期之前的进变质阶段(Ⅰ),由石榴石核部到含柯石英区域的环带确定,特征为温度和压力同时升高,所限定的压力峰期条件为500℃、2.9 GPa,模拟的矿物组合为石榴石+蓝闪石+硬玉+纤柱石+硬柱石+金红石+多硅白云母+柯石英,与含柯石英的事实相符;压力峰期之后的升温降压至温度峰期阶段(Ⅱ),由石榴石含柯石英区域到边部的环带确定,特征为温度升高压力降低,所限定的温度峰期条件为560℃、2.35 GPa,模拟的矿物组合为石榴石+蓝闪石+硬玉+硬柱石+金红石+多硅白云母+石英,发生连续脱水反应蓝闪石+纤柱石+硬柱石=石榴石+硬玉+水,释放出岩石中约45%的水,导致柯石英转变为石英,纤柱石消失;温度峰期之后的近等温降压阶段(Ⅲ),由晚期矿物组合钠云母+钠长石+冻蓝闪石+榍石+石英的稳定温压条件确定(495~550℃、1.0~1.15 GPa),减压抬升过程中,在约2.1 GPa处,发生脱水反应硬玉+硬柱石=蓝闪石+钠云母+水,导致硬柱石消失,钠云母出现,在约1.1~1.25 GPa处,榍石取代金红石,绿辉石消失,钠长石和冻蓝闪石出现。阶段Ⅱ强烈的连续脱水过程十分利于矿物组合的再平衡,导致绝大多数压力峰期的柯石英转变为石英,仅有极少数因包裹在刚性石榴石中而得以保存。含柯石英泥质片岩及其榴辉岩透镜体经历了完全相同的俯冲折返过程。 相似文献
2.
昌宁-孟连杂岩带澜沧岩群的岩石学、地球化学和变质演化及其对古特提斯构造演化的启示 总被引:3,自引:2,他引:1
云南三江地区昌宁-孟连杂岩带中的澜沧岩群内出露多种类型变沉积岩,主要包括含十字蓝晶石榴云母片岩、石榴云母片岩、硬绿泥石白云母片岩和绿泥蓝闪钠长片岩等。系统的岩相学观察、矿物化学和相平衡模拟研究结果表明,不同类型的变沉积岩保存了不同的变质演化历史。含十字蓝晶石榴云母片岩记录了自中温榴辉岩相降温降压至角闪岩相的退变质过程,峰期矿物组合为石榴子石+蓝晶石+多硅白云母+硬玉,变质温压条件为600~750℃和19~30kbar。通过石榴子石的X_(Prp)和X_(Grs),和多硅白云母的Si值限定石榴云母片岩的峰期矿物组合包括石榴子石+多硅白云母+绿辉石+硬柱石+钠云母,峰期温压条件为430~475℃和17~19.5kbar。硬绿泥石白云母片岩矿物组成包括硬绿泥石+多硅白云母+钠云母,然而峰期矿物组合则以多硅白云母+钠云母+纤柱石为特征,通过多硅白云母的Si值限定峰期温压条件约为300~330℃和17~19kbar。石榴云母片岩和硬绿泥石白云母片岩较为一致地记录了从峰期硬柱石蓝片岩相升温降压至绿帘石蓝片岩相的退变质过程。绿泥蓝闪钠长片岩主要通过变质反应和成因矿物学特征大致估算其温压条件约为430~520℃和9~11kbar。岩石地球化学性质研究结果表明,这些变沉积岩的平均化学成分与大陆岛弧、活动大陆边缘和上地壳沉积物成分较为接近,其原岩主要为一套成熟度较差的泥砂质岩类和少量的中基性火山岩。该泥砂质原岩的沉积物源以中酸性岩浆岩为主,存在不同程度古老沉积物的加入。构造判别图解表明,研究区样品主要形成于大陆岛弧或活动大陆边缘的构造背景。变质作用特征和原岩地球化学属性综合分析表明,昌宁-孟连杂岩带内大面积分布的澜沧岩群均发生不同程度的俯冲-消减过程,表现出多样的变质演化P-T轨迹的特征,表明澜沧岩群经历了多期/多阶段复杂的构造演化历史。 相似文献
3.
北阿尔金高压/低温(HP/LT)变质岩呈构造岩片分布在俯冲-增生杂岩中,主要由强变形的变质沉积岩(泥质片岩、钙质片岩和石英片岩)和少量呈透镜状分布在变沉积岩中的蓝片岩和榴辉岩组成,与相邻的蛇绿混杂岩呈断层接触。榴辉岩主要矿物为绿辉石、石榴子石、多硅白云母、石英、冻蓝闪石,含少量蓝闪石、绿泥石、方解石、钠长石、榍石。蓝片岩主要矿物为蓝闪石、石榴子石、碳酸盐类矿物、阳起石、绿帘石、钠云母、绿泥石、钠长石和石英,偶见多硅白云母,其中在部分蓝片岩的石榴子石中有少量硬柱石和绿辉石包体。本文对蓝片岩(样品A06-16-7)和榴辉岩(样品A03-3-5.3)开展了岩石学和相平衡模拟研究,得到它们形成的压力峰期的温压条件分别是:T=~524℃、P=~2.1GPa和T=~527℃、P=~2.2GPa,并均经历了后期蓝片岩相的退变质叠加。结合区域上已有的研究表明,北阿尔金HP/LT混杂岩片中不同类型岩石可能经历了不同的变质演化历史,反映了古俯冲隧道的不均匀性,并在俯冲隧道的较浅部混杂在一起,共同经历了蓝片岩相或蓝片岩-绿片岩过渡相条件下的透入性变形作用。 相似文献
4.
本文在北祁连造山带清水沟高级蓝片岩中发现了硬柱石,硬柱石作为包体出现在石英颗粒中,颗粒细小(9.5~4 μm),无自形晶.在与其伴随的榴辉岩中也发现了硬柱石包体.利用矿物内部一致性热力学数据和Domino/Theriak软件计算了清水沟含硬柱石榴辉岩、百经寺白石崖绿帘石蓝片岩、清水沟绿帘石蓝片岩和阿柔煤矿含硬柱石蓝片岩的温压条件分别是:495~519℃,2.24~2.39 GPa; 530~600℃,1.35~2.15 GPa; 520~545℃,2.20~2.35 GPa; 544~576℃,1.92~2.08 GPa.反映清水沟高级蓝片岩带经历了硬柱石蓝片岩相到绿帘石蓝片岩相的变质转化,与含硬柱石榴辉岩的温压条件相似,代表了古祁连山洋向北俯冲发生高压低温变质作用的产物.40 Ar/39 Ar同位素年代学研究表明,绿帘石蓝片岩的变质年龄分别为447±1.7~447±5 Ma和453±2~454±2Ma;低温榴辉岩中蓝闪石得到的蓝片岩相退变年龄为392±12~400±3 Ma.综合以上岩石学、地球化学和同位素年代分析等资料,进一步探讨了北祁连造山带早古生代大地构造演化过程. 相似文献
5.
新疆西南天山哈布腾苏河高压-超高压变质带中榴辉岩和蓝片岩的岩石学及变质演化 总被引:1,自引:0,他引:1
对西南天山哈布腾苏河一带出露的典型榴辉岩和蓝片岩进行了详细的岩相学、矿物化学和温压条件综合研究。榴辉岩可分为蓝闪石榴辉岩、钠云母榴辉岩、绿帘石榴辉岩和蓝闪石榴角闪岩(退变榴辉岩)4类,蓝片岩可分为含蓝闪石石榴白云母钠长片岩、石榴白云母蓝闪片岩和石榴白云母蓝闪石英片岩3类。新鲜榴辉岩主要矿物组合为石榴石+绿辉石+钠云母+绿帘石,退变榴辉岩则为石榴石+蓝闪石+角闪石;蓝片岩主要矿物组合为石榴石+蓝闪石+多硅白云母+钠云母+钠长石+石英。榴辉岩和蓝片岩中石榴石变斑晶均保存进变质生长环带,从核部到边部XMn和XFe降低,XMg和XCa升高,指示了升温进变质的演化过程。根据榴辉岩矿物共生组合、石榴石内部包体组合分布特征及传统地质温压计估算结果,确定榴辉岩经历了4阶段的变质演化:早期硬柱石蓝片岩相进变质阶段、峰期榴辉岩相变质阶段(t=543~579℃,p=1.5~1.6 GPa)、峰后绿帘蓝片岩相退变质阶段(t=~450℃,p1.0GPa)和晚期蓝闪绿片岩相退变质阶段(t400℃,p0.5 GPa)。利用p-T视剖面图计算的榴辉岩、蓝片岩峰期变质温压条件与传统地质温压计估算结果十分相近,其中榴辉岩的峰期变质条件t=520~550℃,p=1.7~1.9 GPa;蓝片岩峰期变质条件t=520~620℃,p=1.7~2.3 GPa。本文估算的榴辉岩峰期变质压力条件与前人根据柯石英的发现而认为研究区部分榴辉岩及其围岩曾经历超高压变质作用的认识明显相悖,原因可能如下:①后期退变质作用引起研究区榴辉岩全岩成分、矿物化学成分的调整,在采用Grt-Cpx-Phe温压计和以全岩成分为基础的相平衡模拟方法估算峰期温压条件时受到影响,从而使估算峰期压力条件普遍偏低;②西南天山的榴辉岩可能并非全都经历了超高压变质作用,高压、超高压榴辉岩可能分别代表了不同变基性岩块在不同俯冲深度变质的产物。 相似文献
6.
北祁连山清水沟蓝片岩带中含硬柱石蓝片岩和榴辉岩的岩石学﹑40Ar/39Ar年代学及其意义 总被引:1,自引:0,他引:1
本文在北祁连造山带清水沟高级蓝片岩中发现了硬柱石,硬柱石作为包体出现在石英颗粒中,颗粒细小(9.5~4μm),无自形晶。在与其伴随的榴辉岩中也发现了硬柱石包体。利用矿物内部一致性热力学数据和Domino/Theriak软件计算了清水沟含硬柱石榴辉岩、百经寺白石崖绿帘石蓝片岩、清水沟绿帘石蓝片岩和阿柔煤矿含硬柱石蓝片岩的温压条件分别是:495~519℃,2.24~2.39GPa;530~600℃,1.35~2.15GPa;520~545℃,2.20~2.35GPa;544~576℃,1.92~2.08GPa。反映清水沟高级蓝片岩带经历了硬柱石蓝片岩相到绿帘石蓝片岩相的变质转化,与含硬柱石榴辉岩的温压条件相似,代表了古祁连山洋向北俯冲发生高压低温变质作用的产物。40Ar/39Ar同位素年代学研究表明,绿帘石蓝片岩的变质年龄分别为447±1.7~447±5Ma和453±2~454±2Ma;低温榴辉岩中蓝闪石得到的蓝片岩相退变年龄为392±12~400±3Ma。综合以上岩石学﹑地球化学和同位素年代分析等资料,进一步探讨了北祁连造山带早古生代大地构造演化过程。 相似文献
7.
黑龙江依兰地区蓝片岩相变质作用及其演化 总被引:2,自引:2,他引:0
依兰地区蓝片岩作为黑龙江杂岩的重要组成部分,其变质作用演化问题一直存在较大争议。本文通过对依兰地区蓝片岩的岩相学及矿物微区化学成分的研究,并运用PERPLE_X软件,在Na_2O-CaO-K_2O-MnO-FeO-MgO-Al_2O_3-SiO_2-H_2O-TiO_2-O(Fe_2O_3)(NCKMnFMASHTO)体系下对石榴石冻蓝闪石片岩(g-brs-wnc-act-phn-chl-ep-ab-stlp)、绿泥绿帘蓝闪石片岩(gl-brs-wnc-act-chl-ep-stlp)和白云母蓝闪石片岩(gl-wnc-phn-ab-ep-chl-sph)进行了相平衡模拟,并分别获得了500~525℃/1.14~1.2GPa、480℃/1.4GPa、450~500℃/0.95~1.2GPa峰期变质作用的温压条件,其峰期变质级别都达到了绿帘-蓝片岩相。结合前人发表的地球化学和年代学数据,建立了蓝片岩相岩石的顺时针变质演化P-T轨迹。研究区蓝片岩的形成标志着新生洋壳的俯冲作用,同时代表古亚洲洋构造域的结束和环太平洋构造域的开始。相平衡模拟中,P-T轨迹记录了峰期前温压条件递增的过程,温度峰期与压力峰期同时到达,说明蓝片岩相变质作用是在俯冲过程中实现的,而不是折返过程中达到的。减压阶段的轨迹近于平行追溯进变质轨迹,揭示与进变质过程相似的地热体制下(11~14℃/km),相对缓慢的抬升过程 相似文献
8.
北祁连山硬柱石蓝片岩p-T条件相平衡计算及其岩石学意义 总被引:2,自引:0,他引:2
北祁连硬柱石蓝片岩主要分布在甘肃省肃南县九个泉一带,是目前中国唯一报道的、确切地含有硬柱石的蓝片岩。文中在详细的岩石学和矿物学研究基础上,根据矿物共生组合的不同,将北祁连低温蓝片岩进一步划分为绿纤石蓝片岩、硬柱石蓝片岩和绿帘石蓝片岩。绿纤石蓝片岩的特征变质矿物组合为蓝闪石(>40%)+绿纤石(30%)+绿泥石(10%)+钠长石(8%)+石英(5%)+硬柱石(<3%)±方解石/文石(<1%)。硬柱石蓝片岩的矿物组合为蓝闪石(35%~40%)+硬柱石(35%~40%)+绿泥石(10%)+钠长石(10%)+石榴石(1%~2%)+黝帘石/斜黝帘石(<2%)+石英(<1%),副矿物有磷灰石和榍石,总含量小于2%。绿帘石蓝片岩的矿物组合为蓝闪石(30%~35%)+黝帘石/斜黝帘石/绿帘石(~30%)+绿泥石(15%)+钠长石(15%)+石榴石(2%)+石英(<2%),副矿物有金红石、磷灰石和磁铁矿,总含量小于2%。利用矿物内部一致性热力学数据和Domino/Theriak软件计算了这三种类型的蓝片岩形成的峰期温压条件,它们分别是绿纤石蓝片岩为320~350℃,0.75~0.85GPa;硬柱石蓝片岩为335~355℃,0.8~0.95GPa;绿帘石蓝片岩为345~375℃;0.75~0.85GPa。北祁连低温蓝片岩带由硬柱石蓝片岩相到绿帘石蓝片岩相的转化代表了俯冲变质过程中的递进变质过程。 相似文献
9.
藏北羌塘中部戈木日榴辉岩的岩石学、矿物学及变质作用pTt轨迹 总被引:5,自引:0,他引:5
羌塘中部榴辉岩位于龙木错-双湖缝合带中段,改则县古姆乡片石山地区。榴辉岩的主要矿物成分为石榴子石、绿辉石、多硅白云母、金红石、角闪石等,围岩为石榴白云母片岩和蓝片岩,石榴白云母片岩主要由石榴子石、多硅白云母和石英构成,蓝片岩由石榴子石、角闪石(含蓝闪石)、多硅白云母等构成。岩石学和矿物学研究显示,榴辉岩主要经历了3期变质作用:①峰期榴辉岩相变质作用阶段,以石榴子石、绿辉石和多硅白云母为特征,变质温度和压力分别为500℃和2.3GPa;②绿帘角闪岩相变质作用阶段,以后期形成的冻蓝闪石、镁红闪石、绿帘石、钠长石等交代早期矿物为特征;③绿片岩相变质作用阶段,以毛发状阳起石等为特征。榴辉岩的变质演化过程代表了青藏高原北部古特提斯洋俯冲消减和冈瓦纳与劳亚大陆碰撞造山的过程。 相似文献
10.
羌塘中部的高压变质带位于龙木错—双湖—澜沧江板块缝合带之上,由榴辉岩、蓝片岩和石榴石白云母片岩组成。其形成过程对探讨板块缝合带的构造演化具有重要意义。2008年笔者在果干加年山地区的展金岩群湖南山岩组中发现了硬玉石榴石二云母片岩这种新的高压变质岩石类型,文中以其为研究对象,做了较为详细的岩石学、矿物学以及变质作用的研究,认为硬玉石榴石二云母片岩至少经历了二期的变质作用:第一期早期绿片岩相,形成了片理S1,其pT条件为T=425~434℃,p=300~500MPa;第二期主期蓝片岩相高压变质作用,形成岩石主期片理S2,其pT条件为T=472~481℃,p=1200~1700MPa。硬玉石榴石二云母片岩是榴辉岩折返过程中构造事件的产物,这期折返事件形成了218~220Ma的一期蓝片岩相变形-变质作用。 相似文献
11.
羌塘中部高压变质带的退变质作用及其构造侵位 总被引:6,自引:1,他引:5
羌塘中部的高压变质带主要由榴辉岩、石榴石白云母片岩和蓝片岩等组成,它们在遭受高压变质作用之后折返,构造侵位于晚古生代展金组地层中,二者以韧性变形带为接触边界.本文以高压变质带中的榴辉岩和韧性变形带为研究对象,讨论了高压变质带折返过程中的退变质作用特征及折返时代.研究表明,榴辉岩在高峰期变质作用之后的折返过程中经历了由榴辉岩相→蓝片岩相→绿帘角闪岩相的退变质作用演化过程;在高压变质带构造侵位过程形成的韧性变形带中,白云母石英片岩的白云母40Ar-39Ar坪年龄为219±2Ma.高压变质带在219Ma左右构造侵位于展金组地层中,并于214Ma之前最终抬升出露地表. 相似文献
12.
H. Omrani M. Moazzen R. Oberhänsli M. E. Moslempour 《Journal of Metamorphic Geology》2017,35(4):373-392
The Makran accretionary prism in SE Iran and SW Pakistan is one of the most extensive subduction accretions on Earth. It is characterized by intense folding, thrust faulting and dislocation of the Cenozoic units that consist of sedimentary, igneous and metamorphic rocks. Rock units forming the northern Makran ophiolites are amalgamated as a mélange. Metamorphic rocks, including greenschist, amphibolite and blueschist, resulted from metamorphism of mafic rocks and serpentinites. In spite of the geodynamic significance of blueschist in this area, it has been rarely studied. Peak metamorphic phases of the northern Makran mafic blueschist in the Iranshahr area are glaucophane, phengite, quartz±omphacite+epidote. Post peak minerals are chlorite, albite and calcic amphibole. Blueschist facies metasedimentary rocks contain garnet, phengite, albite and epidote in the matrix and as inclusions in glaucophane. The calculated P–T pseudosection for a representative metabasic glaucophane schist yields peak pressure and temperature of 11.5–15 kbar at 400–510 °C. These rocks experienced retrograde metamorphism from blueschist to greenschist facies (350–450 °C and 7–8 kbar) during exhumation. A back arc basin was formed due to northward subduction of Neotethys under Eurasia (Lut block). Exhumation of the high‐pressure metamorphic rocks in northern Makran occurred contemporarily with subduction. Several reverse faults played an important role in exhumation of the ophiolitic and HP‐LT rocks. The presence of serpentinite shows the possible role of a serpentinite diapir for exhumation of the blueschist. A tectonic model is proposed here for metamorphism and exhumation of oceanic crust and accretionary sedimentary rocks of the Makran area. Vast accretion of subducted materials caused southward migration of the shore. 相似文献
13.
硬柱石是大洋冷俯冲带的代表性矿物之一,富含水和Sr、Pb及稀土等微量元素,其形成和分解对于俯冲带流体活动、壳幔水和微量元素循环、地幔楔交代和熔融及岛弧岩浆作用等具有重要影响.但由于硬柱石对温度和压力的改变非常敏感,在板片折返过程中很容易分解,因此目前全球出露的硬柱石榴辉岩极为稀少.总结了榴辉岩中早期硬柱石存在的识别标志,并据此确定柴北缘超高压带西段鱼卡地区的含蓝晶石榴辉岩和斜黝帘石榴辉岩是峰期硬柱石榴辉岩退变质改造的结果.该发现说明柴北缘成为继大别造山带之后全球第二例出露硬柱石榴辉岩的大陆俯冲型造山带.利用相平衡计算方法恢复了这两种榴辉岩的变质演化过程,其中含蓝晶石榴辉岩的P-T轨迹和峰期变质条件均与区内大陆俯冲型含柯石英多硅白云母榴辉岩相似,而斜黝帘石榴辉岩峰期变质温压则略低.锆石定年获得含蓝晶石榴辉岩和斜黝帘石榴辉岩的变质时代分别为437 Ma和436 Ma,与带内已有超高压榴辉岩相变质时代相同,同时获得含蓝晶石榴辉岩的原岩结晶时代为1 273 Ma.相似的变质P-T轨迹和变质时代表明含蓝晶石榴辉岩与同剖面含柯石英多硅白云母榴辉岩共同经历了大陆深俯冲作用.这一结果表明,硬柱石榴辉岩并非大洋冷俯冲带特有,决定榴辉岩中是否出现硬柱石的主要因素是原岩成分和变质条件.在鱼卡地区,榴辉岩的矿物组合中能否出现硬柱石的最主要控制因素是原岩中的Mg含量,由高Mg#的基性岩变质形成的榴辉岩峰期矿物组合中易出现硬柱石. 相似文献
14.
藏北羌塘中部绒玛地区蓝片岩岩石学、矿物学和40Ar/39Ar年代学 总被引:5,自引:4,他引:1
藏北羌塘中部沿龙木错-双湖-线出露一条低温高压变质带,目前已有多处蓝片岩的报道.然而,除冈玛错地区产有典型的蓝闪石外,多数地区并没有典型蓝闪石的报道.绒玛蓝片岩位于羌塘中部高压变质带的中段,是该带中规模最大、保存最好的蓝片岩,对蓝片岩进行了详细的岩石学和矿物学研究,钠质角闪石主要为蓝闪石、青铝闪石、钠闪石和镁钠闪石.对蓝片岩中蓝闪石和多硅白云母进行了40Ar/39Ar定年,获得了227.3±3.8Ma和215±1.5Ma的坪年龄,分别代表蓝片岩快速俯冲消减和俯冲作用结束开始折返抬升的时代.绒玛蓝片岩岩石学、矿物学和40Ar/39Ar年代学研究为羌塘中部高压变质带的研究提供了新的资料. 相似文献
15.
Blueschists in the Yilan area, Heilongjiang Province, are known as important parts of the Heilongjiang Complex. However, their metamorphic evolution history is still unclear. Petrographical, and mineral chemical investigations on the blueschists from the Yilan area are carried out in this study. P‐T pseudosections are calculated in the system Na2O‐CaO‐K2O‐MnO‐FeO‐MgO‐Al2O3‐SiO2‐H2O‐TiO2‐O (Fe2O3) (NCKMnFMASHTO) with the PERPLE_X software for three blueschist samples. Peak metamorphic conditions are estimated to be 500‐525°C, 1.14‐1.2 GPa for garnet‐barroisite schist (g‐brs‐wnc‐act‐phn‐chl‐ep‐ab‐stlp); 480°C, 1.4 GPa for chlorite‐epidote glaucophane schist (gl‐brs‐wnc‐act‐chl‐ep‐stlp) and 450‐500°C, 0.95‐1.2 GPa for phengite‐glaucophane schist (gl‐wnc‐phn‐ab‐ep‐chl‐sph), which indicate that they all underwent peak metamorphism in the limit epidote‐blueschist facies conditions. Combined with the previously reported geochemical and geochronological data, the clockwise P‐T paths of the blueschists are constructed. The formation of blueschists in the study area marks the young oceanic crust subduction, and represents the final closure of the Paleo‐Asian Ocean and the beginning of the Paleo‐Pacific tectonic system. The P‐T pseudosection recorded the P‐T increasing process before the metamorphic peak and that the maximum temperature was coincident with the maximum pressure in the process, which indicates that the epidote‐blueschist facies conditions implemented in the process of subduction, rather than exhumation. The retrograde trajectory nearly coincidently retraced the prograde trajectory, which represents the similar geothermal gradient (11‐14°C/km) in the subduction and the relatively slow exhumation process. 相似文献
16.
羌塘中部高压变质带的形成过程 总被引:1,自引:1,他引:0
羌塘中部高压变质带由榴辉岩、石榴石白云母片岩和蓝片岩等组成,与蛇绿混杂岩、晚古生代浅变质地层岩片等共同构成了龙木错-双湖板块缝合带这一构造混杂岩带,是伴随古特提斯洋闭合的深俯冲作用及后期构造作用的产物。通过对其野外地质特征、不同岩石类型岩石学、矿物学以及同位素年代学等的研究,确认榴辉岩和石榴石白云母片岩在早期分别经历了各自的形成过程,在榴辉岩形成之后的折返过程中二者共同构成了高压变质带,并且在折返过程中榴辉岩发生蓝片岩相退变质作用,同时导致了带内蓝片岩的形成。同位素年代学研究结果表明,龙木错-双湖板块缝合带闭合过程中的榴辉岩相变质作用发生于240Ma左右,折返过程中的蓝片岩相退变质作用及蓝片岩的形成应在220~200Ma,高压变质带最终在214Ma之前抬升出露地表。 相似文献
17.
内蒙古头道桥地区出露了一套经高压变质形成的岩石组合。本次研究通过岩相学和矿物化学分析,根据矿物组合的不同,识别出蓝片岩、绿片岩两种不同类型的岩石类型。其中,蓝片岩的矿物组合为角闪石(蓝闪石、蓝透闪石)+绿帘石+钠长石+绿泥石+石英+赤铁矿±多硅白云母±方解石±榍石;绿片岩的矿物组合为绿泥石+钠长石+石英±绿帘石±角闪石(阳起石、镁角闪石、蓝透闪石、冻蓝闪石等)±多硅白云母±赤铁矿。确定了蓝片岩的峰期变质级别为绿帘-蓝闪片岩相,峰期变质温度为400~600℃,压力为1.2~1.4 GPa。绿片岩的峰期变质级别为绿帘-角闪岩相。结合前人研究成果,认为蓝片岩和绿片岩的形成与额尔古纳地块和兴安地块的碰撞拼合有关。 相似文献
18.
19.
Samuele Papeschi Giovanni Musumeci Hans-Joachim Massonne Francesco Mazzarini Eric James Ryan Giulio Viola 《Journal of Metamorphic Geology》2020,38(5):495-525
The Acquadolce Subunit on the Island of Elba, Italy, records blueschist facies metamorphism related to the Oligocene–early Miocene stages of continental collision in the Northern Apennines. The blueschist facies metamorphism is represented by glaucophane- and lawsonite-bearing metabasite associated with marble and calcschist. These rock types occur as lenses in a schistose complex representing foredeep deposits of early Oligocene age. Detailed petrological analyses on metabasic and metapelitic protoliths, involving mineral and bulk-rock chemistry coupled with P–T and P–T–X(Fe2O3) pseudosection modelling using PERPLE_X, show that the Acquadolce Subunit recorded nearly isothermal exhumation from peak pressure–temperature conditions of 1.5–1.8 GPa and 320–370°C. During exhumation, peak lawsonite- and possibly carpholite- or stilpnomelane-bearing assemblages were overprinted and partially obliterated by epidote-blueschist and, subsequently, albite-greenschist facies metamorphic assemblages. This study sheds new light on the tectonic evolution of Adria-derived metamorphic units in the Northern Apennines, by showing (a) the deep underthrusting of continental crust during continental collision and (b) rapid exhumation along ‘cold’ and nearly isothermal paths, compatible with syn-orogenic extrusion. 相似文献
20.
The Changning–Menglian orogenic belt (CMOB) in the southeastern Tibetan Plateau is considered as the main suture of the Paleozoic Paleo-Tethys that separates Gondwana-derived continental fragments from Eurasia-derived ones. Understanding the evolutionary history of this orogenic belt is of critical importance in the reconstruction of the tectonic history of Paleo-Tethys. The CMOB preserves well-exposed blueschist facies rocks, albeit their tectonometamorphic history and protolith signatures remain poorly constrained. Here we present, for the first time, results from a detailed investigation of lawsonite-bearing blueschist rocks, including epidote-magnesioriebeckite schist and garnet-ferroglaucophane schist from the CMOB and involving petrological, mineralogical, thermodynamic modeling, whole-rock geochemical, and geochronological studies. The epidote-magnesioriebeckite schist samples and garnet-ferroglaucophane schist samples display OIB- and E-MORB-like geochemical affinities, respectively, and have whole-rock εNd (t) values in the range of −5.4–+4.4, suggesting that their protoliths were mainly oceanic crust with limited degree of crustal assimilation. Magmatic zircon grains from the garnet-ferroglaucophane schist samples yield protolith ages of 253–250 Ma. Combined with previous data, our data represent the youngest ages of rock formation in the Paleo-Tethyan Ocean reported to date. The epidote-magnesioriebeckite schist samples show a peak assemblage of magnesioriebeckite + lawsonite + augite-aegirine + phengite + titanite + allanite, with peak P–T conditions of 12.4–16.8 kbar and 350–406 °C. In contrast, the garnet-ferroglaucophane schist samples preserve a peak assemblage of garnet + ferroglaucophane + omphacite + lawsonite + phengite + titanite/ilmenite/rutile ± allanite and yield peak P–T conditions of 19.5–22.6 kbar and 490–510 °C. The epidote-magnesioriebeckite schists and garnet-ferroglaucophane schists record a nearly complete clockwise P–T loop characterized by a steep prograde P–T path with a low thermal gradient of ~5–8 °C/km followed by cooling or overprinting by isothermal decompression. Reconstruction of the metamorphic P–T evolution, together an evaluation of previous age data, allows us to propose rapid subduction of cold oceanic lithosphere to depths of 50–75 km at a rate of ~6.3–9.3 km/Myr during Early-Middle Triassic (248–240 Ma), followed by exhumation in the Late Triassic (231–214 Ma). The short time lag (<10 Ma) between the protolith generation and the high-pressure metamorphic peak further supports a rapid subduction process. Our results suggest that the young oceanic slab was dragged down by the thicker, long-lived, and cold downgoing Paleo-Tethyan Ocean plate, where it experienced blueschist-facies metamorphism. The co-occurrence of lawsonite-bearing epidote-magnesioriebeckite schists and garnet-ferroglaucophane schists and eclogites further points to a cold thermal structure at the convergent plate interface, leading to the interpretation that the CMOB represents a typical oceanic subduction-accretion belt. The results presented in this study provide important insights into the geodynamic evolution of the Paleo-Tethys. 相似文献