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1.
采用激光拉曼、阴极发光和电子探针技术,确认冀西北石榴角闪二辉麻粒岩锆石中保存早期高压变质包体矿物组合:石榴石(Grt)+单斜辉石(Cpx)+斜长石(Pl)+石英(Qtz)+金红石(Rt)、单斜辉石(Cpx)+斜长石(Pl)+石英(Qtz)和石榴石(Grt)+单斜辉石(Cpx)+斜长石(Pl)+石英(Qtz)。其中少量锆石具有继承性锆石的核,而多数锆石则形成于高压麻粒岩相变质阶段。利用TWQ方法限定石榴角闪二辉麻粒岩锆石中所保存的高压包体矿物组合的变质温度条件为750~820℃,压力为1.07~1.40 GPa。该项研究成果对于如何识别高压麻粒岩以及深入研究其成因机制均具有重要的科学意义。 相似文献
2.
点苍山-哀牢山变质杂岩带中北段嘎洒地区出露了多种典型的变沉积岩,其中夕线石榴黑云二长片麻岩和二云母片岩保存多期/多阶段矿物相转变特征,本文通过岩相学和矿物化学的综合分析,并结合传统矿物对温压计的估算结果,限定上述典型变沉积岩峰期角闪-麻粒岩相(M1)阶段、近等温减压-高温剪切变形阶段(M2)和晚期退变质(M3)阶段的矿物组合及变质温压条件。峰期角闪-麻粒岩相(M1)阶段的矿物组合为:石榴石(Grt)+板柱状夕线石(Sil1)+黑云母(Bt1)+钾长石(Kfs)+斜长石(Pl)+石英(Qtz)+钛铁矿(Ilm),变质温度压力条件为t=690~750℃,p=690~810 MPa;近等温减压-高温剪切变形阶段(M2)阶段,稳定矿物组合为:Grt+Sil2+Bt2+Kfs+Pl+Qtz+Ilm,黑云母在强烈走滑剪切作用下发生脱水熔融反应:2 Bt→Sil+6(Mg,Fe)O+K_2O+5 Qtz+2 H_2O,石榴石、黑云母和夕线石等受到剪切变形影响而发生强烈定向,形成的温度压力条件为t=650~720℃,p=450~630 MPa;晚期退变质阶段(M_3)的稳定矿物组合为:Qtz+Bt+Ms+Pl,退变的温度压力条件为t=580~640℃,p=400~500MPa。其变质演化p-T轨迹样式具有近等温减压的顺时针型式,表明点苍山-哀牢山变质杂岩带曾经历了一次明显的俯冲-碰撞造山事件,峰期变质可达到角闪-麻粒岩相;在碰撞后的构造折返过程中,上述变质岩石发生强烈的高温剪切变形作用,并伴随着黑云母等含水矿物的脱水熔融。 相似文献
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甘肃敦煌红柳峡地区石榴石斜长角闪岩的变质特征、锆石U-Pb年龄及地质意义 总被引:5,自引:4,他引:1
甘肃敦煌红柳峡石榴石斜长角闪岩原岩为岛弧拉斑玄武岩,形成于不成熟岛弧.其典型矿物组合为:石榴石(Grt)-角闪石(Amp)-透辉石(Di)-斜长石(Pl),其中较粗大的变斑晶石榴石中通常保存进变质生长环带.根据岩相学和矿物化学研究得出,该区石榴石斜长角闪岩经历了四个变质演化阶段:早期进变质阶段(M1)、变质高峰期阶段(M2)、近等温减压阶段(M3)和晚期降温退变质阶段(M4).M1阶段以石榴石核部成分及其核部包体矿物组合石榴石(Grt Ⅰ)+角闪石(AmpⅠ)+斜长石(Pl Ⅰ)+石英(Qtz)为特征,P-T估算结果为n=550 ~ 600℃,P=0.3 ~0.5GPa;M2阶段以变斑晶石榴石幔部成分(GrtⅡ)及基质中的矿物组合角闪石(AmpⅡ)+透辉石(Di)+斜长石(+PlⅡ)+石英(Qtz)为特征,P-T估算结果为T=650 ~ 780℃,P=0.8 ~0.9GPa;M3阶段的代表性结构为石榴石边缘(GrtⅢ)形成由绿色角闪石(AmpⅢ)和斜长石(PlⅢ)组成的“白眼圈”,该阶段温度估算结果为630 ~ 700℃,压力大幅降低;M4阶段透辉石(Di)开始向角闪石(AmpⅣ)和斜长石(PlⅣ)转化,该阶段压力变化不大,主要是温度的降低.温压估算结果表明,红柳峡石榴石斜长角闪岩完整记录了从早期升温升压的进变质到后来的近等温减压再到最后的降温退变质的一个顺时针的PTt演化轨迹,反映的构造演化历史为:板块俯冲到地壳深部遭受高温变质作用,然后该区出现拉张的构造体制,随之地壳减薄,但是原来处于地壳深部的岩石并未出现大幅度折返和抬升,而是仍然处于原来的深度,慢慢的冷却直至正常的地温梯度.锆石U-Pb定年结果表明,红柳峡石榴石斜长角闪岩原岩的结晶年龄为1611±6Ma,该期年龄代表的构造事件与哥伦比亚超大陆的裂解事件一致,结合前人的研究成果我们推断,塔里木板块可能与哥伦比亚超大陆的裂解有联系,且当时位于塔里木东北缘的敦煌地块还是岛弧的构造环境,后来在中元古代塔里木运动中有一次板块俯冲碰撞事件,引起了一次高级变质作用(高角闪岩相),使当时的基性火山岩变质形成如今含有石榴石的斜长角闪岩. 相似文献
4.
左权变质杂岩区早前寒武纪变质演化及其构造指示 总被引:4,自引:4,他引:0
左权变质杂岩构造上位于华北中部带中南段,向东紧邻赞皇变质杂岩。研究区广泛发育长英质黑云斜长片麻岩和斜长角闪岩,无典型变泥质岩石出露,斜长角闪岩多以似层状或透镜状方式产于似层状的片麻岩中,二者在局部地区侵入接触关系明显。该地区可识别出三期变形作用和三期变质作用,区域片麻理所代表的第二期变形作用(D2)与峰期变质作用(M2)事件相对应。杂岩区含榴黑云斜长片麻岩和含榴斜长角闪岩中较好地保留了多个阶段的变质作用信息,本文重点研究其变质演化过程。含榴黑云斜长片麻岩中仅保留峰期阶段矿物组合,变质条件为730℃/8.5kbar。含榴斜长角闪岩记录了3个阶段的变质矿物组合,第一阶段矿物组合(M1)为进变质矿物组合,以石榴石变斑晶内部的早期包裹体及其临近的石榴石核部为代表,即Grt1+Pl1+Amp1+Qtz±Bt1±Chl1±Ilm±Ap,该阶段的温度和压力范围分别为:608~643℃/5.2~5.5kbar;第二阶段矿物组合(M2)为变质峰期矿物组合,主要由石榴石XMn最低的"边部"和基质矿物(Grt2+Amp2+Pl2+Qtz±Cpx2±Bt2±Ep2±Ilm±Ap)组成。最高变质温度大于670℃,最高变质压力大于9.4kbar。第三阶段矿物组合(M3)为退变质减压矿物组合,其典型代表是石榴石边部发育的Pl3+Hbl3+Cum3+Qtz±Bt3后成合晶矿物组合,呈细粒交生状结构特征,该阶段温压估算范围为:611~627℃/5.1~5.9kbar。左权变质杂岩区岩石变质程度虽明显低于赞皇变质杂岩区(Tmax812℃,Pmax12.5kbar),但两杂岩区岩石拥有类似的变质演化特征,均记录了包含近等温降压型(ITD)退变质片段的顺时针P-T轨迹,指示碰撞造山环境。结合中部带其它杂岩区的变质演化特征,推测左权变质杂岩卷入了晚太古代-早元古代末期华北克拉通东、西部陆块之间的碰撞造山过程。 相似文献
5.
甘肃敦煌观音沟地区变质作用初步研究 总被引:9,自引:7,他引:2
敦煌东南三危山观音沟地区,出露有石榴斜长角闪片麻岩,岩石中保存了三个阶段的变质矿物组合。进变质阶段的矿物组合(M1)以石榴子石变斑晶中的包裹体矿物组合(Hbl1+Pl1+Qtz1)为代表,形成条件约为550~575℃/5.2~5.7kbar(绿帘角闪岩相)。变质高峰期矿物组合(M2)主要由石榴子石变斑晶和基质矿物(Hbl2+Pl2+Qtz2±Cpx2)组成,形成温度670℃,压力11.9kbar(角闪岩相)。退变质阶段矿物组合(M3)为后成合晶矿物组合(Hbl3+Pl3+Qtz3),形成条件约为590~640℃/4.3~5.9kbar(角闪岩相)。观音沟石榴斜长角闪片麻岩记录了包含进变质、变质高峰、退变质过程的造山过程"西阿尔卑斯"型P-T轨迹,其中退变质阶段具有明显的近等温降压特征。变质作用P-T轨迹指示本地区可能经历了俯冲-碰撞-快速抬升的造山过程。结合年代学资料,该期造山事件可能发生于泥盆纪。 相似文献
6.
青藏高原东南缘哀牢山构造带泥质高压麻粒岩的发现及其构造意义 总被引:10,自引:8,他引:2
哀牢山构造带泥质高压麻粒岩主要由石榴石、夕线石、钾长石和斜长石变斑晶及尖晶石、铁假蓝宝石、蓝晶石、石英、金红石和钛铁矿包裹体组成,为确定印支地块和华南地块的边界提供了关键性标志。石榴石-黑云母-斜长石-石英地质温压计(GBPQ)计算结果及标志性高温矿物组合(Spl+Qz)表明泥质高压麻粒岩的形成和演化经历了高压/高温进变质到中温/低压退变质的顺时针P-T演化过程。其中:1)高压/高温进变质阶段的矿物组合为Ky+Sil+Grt1+Kf1+Pl1+Spr+Ter(Kf+Pl)+Bt1+Spl+Qtz+Ilm1+Rut1,形成于850~919℃,≥10.4kbar;2)中温/低压退变质阶段的矿物组合为Grt2+Bt2+Pl2+Ms+Qtz+Ilm2+Rut2,早期和晚期的温压条件分别为664~754℃,4.9~6.5kbar和572~576℃,3.5~3.9kbar。反映陆壳物质在碰撞过程中俯冲到地下深处(≥30km)经高压高温变质后快速折返到中上地壳的动力学演变轨迹。 相似文献
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喜马拉雅中段高压麻粒岩变质作用、地球化学与年代学 总被引:2,自引:7,他引:2
研究的高压麻粒岩发现于西藏亚东以北约40公里的(Zherger-La)、出露在藏南拆离系(STDS)主构造面下盘的高喜马拉雅结晶岩系中,是继喜马拉雅东西构造结的Nanga Barbat、Namjag Barwa和喜马拉雅中段Khatra & Marina地区、定结地区发现的榴辉岩或高压麻粒岩之后,在青藏高原上新近发现的高压麻粒岩.该麻粒岩呈岩片被包裹于花岗质片麻岩中.麻粒岩记录了两期变质作用,早期矿物组合为Grt+Cpx+Pl+Qz,属麻粒岩相变质产物,矿物成分分析显示早期矿物组合达到了平衡,并且没有表现成分扩散;后期矿物组合为Hbl+Pl+Bio或Opx+Pl,指示了较高温但相对压力较低的麻粒岩相退变变质作用,矿物成分分析和结构显示了退变作用没有达到变质平衡.显微结构可以观察到多组变质反应Grt+Cpx+Qtz=Opx+Pl,Grt+Qtz=Opx+Pl,Grt+Cpx+L=Hbl+Pl+Bio+Mt,和Cpx+L=Hbl+Mt.根据矿物平衡关系,利用Grt-Cpx温度计和Grt-Cpx-Pl-Qz压力计估算的早期变质作用温压为T=780~850℃,P=12~15kbar,相对应的地温梯度16℃~18℃/km.借用Hbl-Pl温度计和A1tot in Hbl压力计估算的晚期变质作用温压为T=730~760℃;P=4~6kbar,相当的地温梯度为38℃~50℃/km.变质作用P-T演化呈等温降压轨迹,指示麻粒岩地体从增厚(或俯冲)地壳到减薄增温(或部分熔融)地壳,进而被快速剥露地表的构造过程.初步的地球化学结果表明高压麻粒岩原岩可能相当于大陆拉斑玄武岩.麻粒岩锆石SHRIMP年代学有两组相对集中的年龄分别为98±5 Ma(5 spots)和17.0±0.3 Ma(13 spots).高压麻粒岩的两期变质作用的温度都在700℃以上,略高于锆石U-Pb同位素体系计时封闭温度,推断17 Ma是高压麻粒岩变质后发生折返,随高喜马拉雅结晶岩系剥露冷却的年龄;98.4Ma的测年结果被推测是高压麻粒岩原岩形成的年龄.在喜马拉雅山,高压麻粒岩记录了类似增厚地壳到减薄地壳的转变一方面可能是地壳深部作用机制的转变,另一方面,这种机制与喜马拉雅南坡巨大的降雨量和去顶作用有密切关系,意义重大. 相似文献
8.
河南洛宁太华变质杂岩区早元古代变质作用P-T-t轨迹及其大地构造意义 总被引:3,自引:3,他引:0
太华变质杂岩广泛出露于华北克拉通南缘,总体呈SW-NE向展布.在河南洛宁地区,太华变质杂岩以TTG片麻岩、斜长角闪片麻岩和变泥质片麻岩为主.斜长角闪片麻岩中可识别出三个阶段的变质矿物组合:进变质阶段矿物组合(M1)为石榴子石变斑晶内部的包裹体矿物组合( Amp1+ Pl1+Qtz),变质高峰期矿物组合(M2)为石榴子石变斑晶边部和基质矿物组合( Grt2+ Amp2+ Pl2+ Qtz),退变质阶段矿物组合(M3)为“白眼圈”状后成合晶组合(Amp3+ Pl3+ Qtz).运用矿物温度计与压力计估算三个阶段的P-T条件分别为:进变质阶段约600 ~ 680℃/7.0~ 7.6kbar,变质高峰期为680 ~ 790℃/9.5 ~10.7kbar,退变质阶段为580~720℃/6.5 ~7.6kbar.变泥质片麻岩中保留了进变质阶段(M1)包裹体矿物组合(Bt1+Pl1+Qtz)和峰期变质阶段(M2)矿物组合(Grt2 +Bt2+Pl2 +Qtz)两个阶段.其中未发现后期退变质反应结构,石榴子石中也未发现成分环带.P-T条件估算结果分别为:M1阶段620 ~ 710℃/4.9 ~5.6kbar,M2阶段710~760℃/7.3~8.3kbar.洛宁地区太华变质杂岩记录了顺时针的近等温降压型的P-T轨迹,可能经历了与华北中部造山带其它杂岩类似的变质演化过程,推测其形成于华北克拉通东部陆块和西部陆块沿中部造山带的拼合过程中.SIMS与ICP-MS锆石U-Pb定年表明,斜长角闪片麻岩记录了1938~1967Ma的变质事件,比华北中部造山带其它变质杂岩区所广泛记录的~1850Ma变质事件早了约100Ma,暗示中部造山带的拼合可能是一个长期的、复杂的过程. 相似文献
9.
冈底斯岩浆弧东段夕线石榴黑云片岩的变质作用P-T轨迹与构造意义 总被引:1,自引:1,他引:0
冈底斯岩浆弧东段的中-新生代变质岩是揭示岩浆弧深部组成与形成演化的窗口。本文对该地区的变质沉积岩——夕线石榴黑云片岩进行了岩石学和锆石年代学研究。岩相学和矿物化学研究表明,夕线石榴黑云片岩具有三期矿物组合:(1)进变质矿物组合为Grt+Pl+Bt+Ms+Qz+Ep+Rt+Ilm,其保存于石榴石和斜长石变斑晶核部;(2)峰期矿物组合为Grt+Pl+Bt+Ms+Qz+Rt+Ilm,为包裹在石榴石变斑晶幔部和基质中的矿物;(3)退变质矿物组合是Grt+Pl+Bt+Sil+Qz+Ilm,为石榴石的冠状体或产在基质中。相平衡模拟表明,岩石的进变质、峰期和退变质条件分别为600~650℃和9~13kbar、~820℃和~16kbar、~680℃和~7kbar,表明岩石具有一个顺时针型的变质作用P-T轨迹,其峰期发生在高压和高温麻粒岩相条件下,并经历了明显的部分熔融。锆石U-Pb定年表明,岩石的变质作用发生在~89Ma。本文和现有研究结果表明,夕线石榴黑云片岩作为晚白垩世岩基中的包体记录了大体积幔源岩浆岩底垫和增生导致的岩浆弧地壳显著加厚过程,以及加厚弧根的高温和高压变质与深熔作用。 相似文献
10.
胶东海阳所堆积辉长岩的变质反应结构、石榴石形成及P—T演化 总被引:5,自引:0,他引:5
海阳所堆积辉长岩由橄长岩、橄榄辉长岩和辉长岩组成。在橄长岩和橄榄辉长岩中发育有典型的变质反应结构:主要为橄榄石与斜长石之间形成由斜方辉石、尖晶石、角闪石和石榴石等矿物组成的多期次次变边,并有三个不同世代变质矿物,早期Cpx+Opx+Spl,中期Amp,晚期Grt;期次是钛铁矿与斜长石之间形成石榴石次变边,相对比较简单,只有一个世代变质矿物,为Grt+Amp+Rut或Grt+Rut岩中石榴石是通过斜长石与角闪石或斜长石与钛铁矿之间的变质反应形成的,虽为峰值变质作用的产物,但变质反应的期次及类型不同导致了所形成石榴石的温度和压力有所不同。堆积辉长岩形成演化的温压计算表明,堆积辉长岩在经过近等压降温的岩浆作用之后的变质作用早期,仍为近等压降温,而晚期则表现为近等温升压。这一特殊的P-T演化可能反映了堆积辉长冷侵位与深俯冲特征。 相似文献
11.
大别—苏鲁超高压变质带内部的浅变质岩 总被引:16,自引:3,他引:16
大别苏鲁超高压变质带内部零星出露有若干呈构造残片状产出的浅变质岩,主要以变质碎屑岩-千枚岩-大理岩组合为代表,遭受过低绿片岩相变质和脆-韧性变形作用的改造,与围岩均为构造接触(断层或韧性剪切带)。微古生物化石研究表明,其原岩为震旦纪前后扬子板块北缘的浅海相沉积。同位素年代学研究指示,它们经历过加里东期和印支期构造热事件的影响,与区域超高压岩石经受的构造热事件时间一致;氧同位素研究得到,部分浅变质岩原岩曾遭受过高温大气降水热液蚀变,与区域超高压岩石经受的构造热事件时间一致;氧同位素研究得到,部分浅变质岩原岩曾遭受过高温大气降水热液蚀变,与区域超高压岩石的同位素特征一致。这些浅变质岩的原岩为扬子板块北缘震旦系沉积岩及其中的火山碎屑岩,构造上具有板块俯冲过程中的刮削岩片-构造加积楔的产状和形成机制,因此可以是大陆板块俯冲加积楔的一部分。 相似文献
12.
Paul H. Reitan 《Lithos》1977,10(2):121-128
Metamorphic crystallization necessitates nucleation of new grains. Associated with this process is an energy barrier which requires an input of energy sufficient to make the net change of free energy with nucleus growth decrease so that the process of grain crystallization will proceed. Temperature increase and elastic strain are widely accepted as capable of including metamorphic crystallization. Evaluation of these suggests that an energy input on the order of 0.x cal gm?1 is commonly enough to overcome the energy barrier and induce metamorphic crystallization. Both processes are necessarily timebound to the time of energy input. Conservative quantitative evaluations of the increase in interfacial free energy by grain size reduction, and of the energy increase resulting from increased dislocation density of grains, show that energetically, these may be equally capable of inducing metamorphic crystallization. These processes can store energy in the system; later release of that energy by metamorphic crystallization may occur under stress and temperature conditions much different from those that accompanied the input of the energy. Furthermore, the formation of a new set of grains will necessarily eliminate the evidence of the precursor state, whether fine granulation or a condition of high dislocation density in the grains of the system.Experiments have demonstrated the existence and properties of tiny short-lived hot spots on the surfaces of sliding solids. From this we infer the likelihood of such high spot temperatures being realized at grain boundaries during penetrative deformation. The energy concentrated at these spots may help to overcome the energy barrier to nucleation and grain growth and may stimulate formation of stable grains and the progressive elimination of metastable grains during deformation. This is a syntectonic process, but recognizing that syntectonic metamorphic crystallization is most characteristic of regionally dynamothermally metamorphosed terranes, the importance of grain boundary hot spots in providing energy for metamorphic crystallization may be very great. 相似文献
13.
The distribution of U has been studied in two metamorphic rock-series with a gradient of regional metamorphism. One series ranges from the lowest greenschist to amphibolite facies and the other one shows increasing metamorphic grade from amphibolite to granulite facies. Several medium and high pressure granulitic inclusions from alkali basalts were also analyzed. The abundances of U in the rocks do not appear to be affected by metamorphism below the granulite facies grade. Granulites are depleted in U in comparison with equivalent rocks of amphibolite facies grade. There are also differences in their U distribution, as the bulk of U in amphibolite facies rocks is located along the fractures and cleavage planes of ferro-magnesian minerals and in U-rich accessories, while in granulites, most of the U resides in accessory minerals. It seems that the depletion of U in granulites is due to a loss of U which is not located in accessory minerals or in the crystal structure of rock-forming minerals and may also be related to a migration of hydrous fluids, perhaps during dehydration. 相似文献
14.
Fluids in metamorphic rocks 总被引:11,自引:0,他引:11
Basic principles for the study of fluid inclusions in metamorphic rocks are reviewed and illustrated. A major problem relates to the number of inclusions, possibly formed on a wide range of P–T conditions, having also suffered, in most cases, extensive changes after initial trapping. The interpretation of fluid inclusion data can only be done by comparison with independent P–T estimates derived from coexisting minerals, but this requires a precise knowledge of the chronology of inclusion formation in respect to their mineral host.
The three essential steps in any fluid inclusion investigation are described: observation, measurements, and interpretation. Observation, with a conventional petrographic microscope, leads to the identification and relative chronology of a limited number of fluid types (same overall composition, eventually changes in fluid density). For the chronology, the notion of GIS (Group of synchronous inclusions) is introduced. It should serve as a systematic basis for the rest of the study. Microthermometry measurements, completed by nondestructive analyses (mostly micro-Raman), specify the composition and density of the different fluid types. The major problem of density variability can be significantly reduced by simple considerations of the shape of density histograms, allowing elimination of a great number of inclusions having suffered late perturbations. Finally, the interpretation is based on the comparison between few isochores, representative of the whole inclusion population, and P–T mineral data. Essential is a clear perception of the relative chronology between the different isochores. When this is possible, as illustrated by the complicated case of the granulites from Central Kola Peninsula, a good interpretation of the fluid inclusion data can be done. If not, fluid inclusions will not tell much about the metamorphic evolution of the rocks in which they occur. 相似文献
15.
The distribution of uranium and boron in polymetamorphosed, granulite facies schists and gneisses has been studied using particle track methods. The concentration and distribution of these elements when examined in relation to mineralogy and microstructure provide an insight into: (1) the behaviour of U and B in metamorphism, (2) the activity of a fluid phase in the metamorphic processes and (3) the nature of chemical processes during schistosity development. A low concentration of primary U occurs in micro-inclusions of apatite and zircon (many are metamict) in the granulite facies M1 assemblage. This assemblage which lacks B, except for zoned sillimanite, has undergone a localized retrograde metamorphism RM1 characterised by hydrous alteration products containing abundant U and B. The RM1 metamorphism is attributed to fluids generated during granulite facies dehydration reactions. A schistosity S2 defined by M2 fibrolite aggregates overprints the M1 events. It is associated with (1) intragranular U concentrated in M2 apatite and titanium bearing minerals and (2) abundant intergranular U within the fibrolite aggregates. High B contents also occur with the fibrolite. The S2 schistosity appears to develop in a metamorphic environment containing a fluid enriched in U and B. 相似文献
16.
通过对澜沧江杂岩带小黑江-上允地区蓝片岩的岩相学、地球化学、成因矿物学以及相平衡模拟的综合研究,阐述蓝片岩的原岩以及变质演化过程。地球化学分析结果显示,蓝片岩具有一致的稀土元素配分模式,具弱Eu正或负异常,稀土元素和微量元素特征与OIB相似,其原岩可能为OIB型玄武岩。详细矿物学研究表明,本区蓝片岩记录了俯冲峰期蓝片岩相变质和峰期后绿片岩相变质两个变质阶段,其矿物组合分别为蓝闪石+钠长石+多硅白云母+绿泥石+绿帘石和蓝闪石+钠长石±阳起石+绿泥石+绿帘石。通过Na_2O-Ca O-Fe O-MgO-Al_2O_3-SiO_2-H_2O-O体系相平衡计算,得到两个阶段的压力范围分别约为0.95 GPa和0.40 GPa。 相似文献
17.
本文依据浅变质岩层所保存的韵律层理、沉积构造、火山角砾一凝灰结构及残存的微古植物组合等,以及硅酸盐、稀土、微量元素分析成果的判别,对浅变质岩层进行了再认识,认定该浅变质岩是一套经受浅变质作用改造的火山碎屑沉积岩层;并就建立其地层序列,区域地层对比进行了论述;对其存在意义和时代归属进行了讨论. 相似文献
18.
变质岩分类的三要素是:变质岩的物质成分(化学成分、矿物成分)、变质岩的组构(结构、构造)和变质岩的成因(变质作用类型和形成变质岩的物理化学条件).由于变质岩的化学成分、矿物成分、组构特征和形成变质岩的地质环境十分复杂,致使至今尚无以变质岩分类三要素为基础的、内容比较完善的分类方案.本文中主要变质岩的分类是以其分类三要素为基础编制的,首次将不同成因的变质岩类并列于同一表中、将鉴定变质岩的主要标志性矿物成分和组构特征列入同一分类表中.该分类对鉴定变质岩石具有可操作性和实用性,分类表中涵盖了自然界主要的变质岩石. 相似文献
19.
Development of inverted metamorphic isograds in the western metamorphic belt, Juneau, Alaska 总被引:3,自引:0,他引:3
An inverted metamorphic gradient is preserved in the western metamorphic belt near Juneau, Alaska. The western metamorphic belt is part of the Coast plutonic–metamorphic complex of western Canada and southeastern Alaska that developed as a result of tectonic overlap and/or compressional thickening of crustal rocks during collision of the Alexander and Stikine terranes. Detailed mapping of pelitic single-mineral isograds, systematic changes in mineral assemblages, and silicate geothermometry indicate that thermal peak metamorphic conditions increase structurally upward over a distance of about 8 km. Peak temperatures of metamorphism increase progressively from about 530 °C for the garnet zone to about 705 °C for the upper kyanite–biotite zone. Silicate geobarometry suggests that the thermal peak metamorphism occurred under pressures of 9–11 kbar. The metamorphic isograds are in general parallel to the tonalite sill that is regionally continuous along the east side of the western metamorphic belt, although truncation of the isograds north of Juneau indicates that the sill intrusion continued after the isograds were established. Our preferred interpretation of the cause of the inverted gradient is that it formed during compression of a thickened wedge of relatively wet and cool rocks in response to heat flow associated with the formation and emplacement of the tonalite sill magma. Garnet rim compositions and widespread growth of chlorite suggest partial re-equilibration of the schists under pressures of 5–6 kbar during uplift in response to final emplacement and crystallization of the tonalite sill. The combined results of this study with previous studies elsewhere in the western metamorphic belt indicate that high-T/high-P metamorphism associated with the collision of the Alexander and Stikine terranes was a long-lived event, extending from about 98 Ma to about 67 Ma. 相似文献