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超高温变质作用:以华北内蒙古土贵乌拉地区为例 总被引:13,自引:0,他引:13
超高温麻粒岩(富Mg-Al)是指温度高于900℃、压力为0.7~1.3GPa条件下形成的麻粒岩相变质岩,它记录了下地壳超高温极端变质作用的地质信息。富Mg-Al典型超高温矿物组合有:假蓝宝石+石英,尖晶石+石英,大隅石+石榴石,斜方辉石+夕线石+石英,高氟黑云母和钙镁闪石,刚玉+石英。目前世界上发现的超高温麻粒岩带(块)地区有非洲阿尔及利亚、南非、东南极、巴西中部、澳大利亚中部、印度南部和东南部等地。我们在华北克拉通北部内蒙古中南部地区孔兹岩区中发现了超高温麻粒岩,岩性主要为灰黑色条带状夕线石榴黑云片麻岩,其中含有尖晶石+石英、假蓝宝石+石英、斜方辉石+夕线石+石英以及刚玉+尖晶石+石榴石等超高温矿物组合,指示温度达1000℃,压力超过1.0GPa的变质作用。独居石定年获得了(1927±11)Ma以及(1819±11)Ma两个峰期年龄,代表变质年龄。华北克拉通北部超高温麻粒岩的发现对研究华北克拉通与哥伦比亚超大陆的演化关系有重要意义。 相似文献
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东昆仑金水口地区格林威尔期超高温麻粒岩 总被引:1,自引:1,他引:0
格林威尔期构造事件是了解罗迪尼亚超大陆形成的关键。本文报道了东昆仑造山带东段金水口地区古生代花岗岩中新发现二辉麻粒岩包体,其峰期变质矿物组合为单斜辉石+紫苏辉石+钙长石+石英+磁铁矿。通过锆石U-Pb测年,我们确定二辉麻粒岩样品的峰期变质年龄为995±34Ma,并受到泥盆纪(~417Ma)构造热事件的叠加改造。利用单斜辉石-斜方辉石温压计估算出该区二辉麻粒岩变质峰期温度867~1079℃,压力46~89kbar,属于低压超高温变质的温压范围,可能形成于高地温梯度的岛弧环境。该二辉麻粒岩是首次在东昆仑地区发现的格林威尔期超高温麻粒岩,代表罗迪尼亚超大陆汇聚过程中低压高温变质的产物。该发现对了解东昆仑造山带前寒武纪基底的构造属性和起源有重要意义。 相似文献
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阿尔泰超高温变泥质麻粒岩的锆石U-Pb年龄及其地质意义 总被引:2,自引:1,他引:1
最近我们通过岩相学观察和矿物温压计算,首次确定了在阿勒泰喀拉苏附近存在超高温变泥质麻粒岩,其矿物组合为石榴石+斜方辉石+夕线石+堇青石+尖晶石+黑云母+斜长石+石英等。斜方辉石成分具有高铝特点,其Al2O3含量高于8.0%,指示了其峰期变质作用达到了超高温(>900℃)的条件。P-T计算结果显示其峰期变质条件为:P=~8.0kb, T=~960℃。初步P-T估算结果表明了一个峰期后近等压冷却的逆时针P-T轨迹。我们对其中锆石进行了LA-ICP-MS U-Pb年龄测定,年龄结果主要分布于260~280Ma之间,具有峰值年龄271±5Ma,个别年龄为380~390Ma,继承锆石主要分布于450~500Ma之间。该年龄结果表明阿尔泰超高温变质事件发生于二叠纪,在时间上与二叠纪塔里木地幔柱活动的时间(~275Ma)高度一致,且也和该区广泛的二叠纪(260~280Ma) 后造山或非造山的基性岩和花岗岩侵入是同时的。因此,阿尔泰二叠纪超高温变泥质麻粒岩的形成,可能与由二叠纪塔里木地幔柱活动引起的岩浆底侵和下地壳伸展加热密切相关,这也与该超高温变泥质麻粒岩的逆时针P-T轨迹所反映的构造背景一致。 相似文献
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茹尔群岛(又称赖于尔群岛)位于东南极普里兹构造带的东部边缘,是一个由太古宙和中元古代岩石组成的复合高级变质地体。中元古代岩石是含有富Fe-Al的含石榴子石-矽线石的费拉副片麻岩组合,经历了格林维尔和泛非两期变质作用。太古宙正片麻岩是含有富Mg-Al的含假蓝宝石的超高温泥质麻粒岩组合(梅瑟副片麻岩组合),主要由经历超高温变质作用的含假蓝宝石的泥质麻粒岩、富Mg的石榴子石-矽线石泥质片麻岩、斜方辉石-矽线石石英岩、含石榴子石镁铁质麻粒岩和钙硅酸盐麻粒岩等组成。其中,含假蓝宝石泥质麻粒岩中石榴子石变斑晶和矽线石集合体(蓝晶石假象)周围分别发育峰期后由假蓝宝石+斜方辉石和假蓝宝石+堇青石后成合晶组成的典型减压结构。含石榴子石镁铁质麻粒岩中石榴子石变斑晶周围则发育峰期后由斜方辉石+斜长石后成合晶组成的典型白眼圈减压结构。不同研究者得出了具有不同超高温峰期条件、峰期前及峰期后演化历史、不同形式的顺时针变质P-T轨迹。对超高温变质事件发生的时间和构造背景的认识也存在较大分歧,有认为超高温变质事件发生于格林维尔期(~1000 Ma)并与碰撞造山和弧岩浆作用有关,也有研究认为发生于泛非期(~590 Ma或~530 Ma)并与普里兹造山及冈瓦纳大陆聚合有关。因此,为理清该区超高温麻粒岩的变质演化历史和构造背景,需要对其进一步进行详细深入的矿物组合-变质结构分析、P-T轨迹重建及高精度的锆石-独居石U-Pb年代学研究,并进行区域上对比。 相似文献
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南天山榆树沟麻粒岩地体的尖晶石研究 总被引:3,自引:0,他引:3
新疆榆树沟麻粒岩地体中发育两类尖晶石:一类见于中、基性麻粒岩体中,其化学成分富 Al 贫 Cr ,属铝尖晶石,镜下为深绿色,呈半自形至他形粒状,与其它变质矿物共生,表现为麻粒岩相的新生变质矿物;另一类发育在空间上与麻粒岩体紧密相邻的超镁铁质岩体中,为铬尖晶石,镜下为深褐红色,呈不规则粒状分布于橄榄石、斜方辉石和单斜辉石之间,为麻粒岩相变质过程中稳定的残余矿物。后者属于 Dick 等人划分的 I 型尖晶石,它的存在说明超镁铁质岩体为大洋岩石圈地幔的组成部分。这两类尖晶石的特征一方面说明该地体遭受了麻粒岩相的变质作用改造,另一方面也提供了榆树沟麻粒岩相蛇绿岩套属洋盆构造环境的直接矿物学证据。 相似文献
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内蒙古土贵乌拉孔兹岩带超高温变质作用:变质反应结构及P-T指示 总被引:6,自引:0,他引:6
内蒙古土贵乌拉地区分布了含石榴石花岗岩、夕线石榴黑云片麻岩以及二者以不同比例互层状组成的岩石,超高温变质岩以暗色含尖晶石堇青石夕线石榴黑云片麻岩条带或透镜体产于石榴石花岗岩和夕线石榴片麻岩中.基于[K]FMAS[H]系统以及岩石成因格子,认为超高温变质岩经历了三个阶段的变质:早期变质作用阶段,以同一石榴石颗粒中含有夕线石、尖晶石、石英等单相矿物包体为特征,表明变质作用进入到尖晶石 石英组合稳定域;峰期变质作用阶段,以尖晶石 石英、假蓝宝石 石英、斜方辉石 夕线石 石英三种超高温矿物组合为特征,表明峰期变质条件稳定在这三种矿物组合稳定域,指示变质温度高于1000℃;退变质阶段过程中,粗颗粒斜方辉石边部和核部Al含量的重新平衡,指示温度降低到950~970℃左右,表明了近等压冷却的退变质作用,随后由于快速抬升,发生了近等温降压的退变质作用,这个过程以各种反应边和后成合晶结构为标志,例如尖晶石与石英、假蓝宝石与石英之间有堇青石的反应边,石榴石外围有堇青石和斜方辉石的后成合晶.最后黑云母和斜方辉石分解为黑云母标志着高级变质作用的结束.内蒙古土贵乌拉地区超高温变质岩经历了逆时针的P-T演化特点. 相似文献
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北疆阿尔泰造山带南缘晚古生代超高温麻粒岩存在高铝斜方辉石+夕线石+石英和尖晶石+石英等超高温特征矿物组合,其退变质作用主要以典型的降压反应矿物堇青石的形成为标志。对其中新发现的石榴子石及石英流体包裹体开展显微测温和激光拉曼探针分析,结果表明:基质中的石英以及被石榴子石包裹的石英中孤立分布的原生流体包裹体成分为近纯CO2(部分含少量的N2),均一温度在10.1~29℃之间,其对应的密度在0.631~0.861g/cm3。石榴子石中的原生和假次生CO2包裹体费米峰差在104.1cm-1左右,低于石英中CO2包裹体的费米峰差(~104.7cm-1),暗示其密度低于石英中的CO2包裹体。由CO2流体包裹体密度所得到的等容线从P-T轨迹退变质阶段的下方穿过结合区域地质背景,我们初步认为阿尔泰超高温麻粒岩的形成与幔源岩浆底侵有关。基性岩浆的底侵不但提供了异常高的地温梯度,同时其所释放的大量CO2降低了水活度,使得变质作用峰期的特征矿物得以保存。低密度的CO2流体指示了阿尔泰超高温麻粒岩沿顺时针P-T轨迹紧随超高温峰期变质之后快速抬升降压,捕获的同变质流体包裹体因腔体体积增大而密度降低的一种退变质过程。 相似文献
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阿尔泰造山带晚古生代高温变质作用与塔里木地幔柱活动的成因联系:来自泥质和镁铁质麻粒岩的证据 总被引:1,自引:1,他引:0
阿尔泰造山带是中亚造山带(CAOB)的重要组成部分,在其南缘出露有高温泥质和镁铁质麻粒岩,确定其P-T轨迹对于理解阿尔泰造山带南缘在晚古生代的构造演化历史具有重要意义。通过对该区乌恰沟泥质和镁铁质麻粒岩样品精细的岩相学观察,显示其变质矿物组合分别为石榴石+堇青石+黑云母+斜长石+石英+磁铁矿+钛铁矿±斜方辉石±尖晶石±钾长石,斜方辉石+单斜辉石+角闪石+黑云母+斜长石+钾长石+石英+钛铁矿+磁铁矿。使用传统温压计和平均温压计算方法对其变质峰期及峰期后的P-T条件进行了计算,并利用Thermocalc软件对其中两个泥质麻粒岩进行了P-T视剖面图模拟,确定了其峰期变质条件为770~865℃和3.0~5.1kbar,并得到了两条峰期后近等压冷却(IBC)的P-T演化轨迹。这样近等压冷却的P-T轨迹表明高温变质作用可能发生于一个总体伸展的大地构造背景之下。已有年代学数据支持该区高温变质事件发生于二叠纪(270~280Ma),与塔里木地幔柱活动的时间(~275Ma)高度一致。这说明阿尔泰二叠纪高温变质事件可能与塔里木地幔柱有着密切的成因联系。因此,我们认为二叠纪地幔柱活动引起的幔源岩浆底侵和加热可能提供了阿尔泰南缘高温-超高温变质作用所需的热源。 相似文献
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对华北克拉通新太古代和古元古代的构造模式有多种不同认识,有必要进行深入的变质作用研究。本文选取了辽北清原地区中性麻粒岩、石榴方辉石岩和变质基性岩墙,开展系统的岩相学观察、矿物化学分析、相平衡模拟和锆石-独居定年研究,以阐明其变质演化过程和大地构造意义。中性麻粒岩和石榴方辉石岩均发育两期麻粒岩相组合。中性麻粒岩第一期斜长石发育复杂成份环带,从核到幔部其钙长石含量(XAn)降低,然后再向边部升高;石榴方辉石岩中第一期石榴石与斜方辉石互相包裹。第一期麻粒岩相变质作用P-T轨迹为逆时针型,包含峰期前升压至峰期和峰后降温降压至固相线两个变质阶段。依据两个样品中观测的峰期矿物组合在P-T视剖面图中的稳定范围,并结合斜长石幔部成份,确定峰期温压条件为1.0~1.2GPa/890~1000℃。石榴方辉石岩在峰前升压过程,斜方辉石转变为石榴石,形成石榴石包裹斜方辉石的结构;在峰后降温降压过程中,石榴石又转变为斜方辉石,导斜方辉石包裹石榴石。中性麻粒岩和石榴方辉石岩的第二期组合以形成石榴石+石英和黑云母+石英±单斜辉石±钾长石后成合晶和冠状体为特征。变质基性岩墙只发育第二期矿物组合,... 相似文献
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Huatian Zhang Jianghai Li Shoujie Liu Wenshan Li M. Santosh Honghao Wang 《地学前缘(英文版)》2012,3(5):603-611
The Khondalite Belt within the Inner Mongolia Suture Zone(IMSZ) in the North China Craton is a classic example for Paleoproterozoic ultrahigh-temperature(UHT) metamorphism.Here we report new spinel-bearing metapelitic granulites from a new locality at Xumayao within the southern domain of the IMSZ.Petrological studies and thermodynamic modeling of the spinel+quartz-bearing assemblage shows that these rocks experienced extreme metamorphism at UHT conditions.Spinel occurs in two textural settings:(1) high XZn(Zn/(Mg+FeⅡ+Zn)=0.071-0.232) spinel with perthitic K-feld-spar. sillimanite and quartz in the rock matrix;and(2) low XZn(0.045—0.070) spinel as inclusions within garnet porphyroblasts in association with quartz and sillimanite. Our phase equilibria modeling indicates two main stages during the metamorphic evolution of these rocks:(1) near-isobaric cooling from 975℃to 875℃around 8 kbar.represented by the formation of garnet porphyroblasts from spinel and quartz;and(2)cooling and decompression from 850℃.8 kbar to below 750℃.6.5 kbar,represented by the break-down of garnet.The spinel+quartz assemblage is considered to have been stable at peak metamorphisni.formed through the break-down of cordierite.indicating a near isothermal compression process.Our study confirms the regional extent of UHT metamorphisni within the IMSZ associated with the Paleoproterozoic subduction-collision process. 相似文献
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P. G. Spry 《Mineralium Deposita》1987,22(4):262-268
Zincian spinel or gahnite [(Zn,Fe,Mg)Al2O4] occurs in metamorphosed sulphide-rich rocks, garnet quartzites, quartz-magnetite rocks, aluminous metasediments, barite-magnetite rocks, quartz veins, and pegmatites associated with the Aggeneys base metal deposits, Namaqualand, South Africa. Zincian spinel in, sulphide-bearing rocks, is considered to have formed predominantly by desulphurization reactions involving a member of the system Fe-S-O and sphalerite with sillimanite or garnet. Gahnite in sulphide-free garnet quartzites, quartz-magnetite rocks and barite-magnetite rocks probably formed from Zn and Al that were hydrothermally derived whereas gahnite in aluminous metasediments was derived from the metamorphism of metalliferous shales, in which Zn may originally have been linked to organic material. Gahnite is Zn-rich in sulphide-bearing rock, but is Fe-rich in sulphide-free garnet quartzites and quartz-magnetite rocks. Although Zn-rich spinels represent guides to ore in the Aggeneys area and elsewhere in the Namaqualand Metamorphic Complex, Fe-rich spinels should not be discounted because Zn-rich and Fe-rich spinels occur within metres of sulphides at Aggeneys. 相似文献
13.
The high-temperature (HT) to ultrahigh-temperature (UHT) metamorphic rocks from Lützow–Holm Complex, East Antarctica show a systematic difference between sulfide assemblages in the rock matrix and those found as inclusions in the silicates stable in high-temperatures. Matrix sulfides are commonly pyrite with or without pentlandite and chalcopyrite. On the other hand, inclusion sulfides are pyrrhotite with or without pentlandite and chalcopyrite lamellae. When recalculated into integrated single-phase sulfide compositions, inclusion sulfides from the UHT region showed a wider range of solid–solution composition than the inclusion sulfides from the HT region. The host minerals of the sulfides with extreme solid–solution compositions are those stable at the peak of metamorphism such as orthopyroxene and garnet. One of the most extreme ones is included in orthopyroxene coexisting with sillimanite ± quartz, which is the diagnostic mineral assemblage of UHT metamorphism. These observations suggest that sulfide inclusions preserve their peak metamorphic compositions. Pyrrhotite did not revert to pyrite because of the closed system behavior of sulfur in inclusion sulfides. On the other hand, in the rock matrix where the open system behavior of sulfur is permitted, original sulfides were partly to completely altered by the later fluid activity. 相似文献
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We report here a multiphase mineral inclusion composed of quartz, plagioclase, K-feldspar, sapphirine, spinel, orthopyroxene, and biotite, in porphyroblastic garnet within a pelitic granulite from Rajapalaiyam in the Madurai Granulite Block, southern India. In this unique textural association, hitherto unreported in previous studies, sapphirine shows four occurrences: (1) as anhedral mineral between spinel and quartz (Spr-1), (2) subhedral to euhedral needles mantled by quartz (Spr-2), (3) subhedral to anhedral mineral in orthopyroxene, and (4) isolated inclusion with quartz (Spr-4). Spr-1, Spr-2, and Spr-4 show direct grain contact with quartz, providing evidence for ultrahigh-temperature (UHT) metamorphism at temperatures exceeding 1000 °C. Associated orthopyroxene shows high Mg/(Fe + Mg) ratio ( 0.75) and Al2O3 content (up to 9.6 wt.%), also suggesting T > 1050 °C and P > 10 kbar during peak metamorphism.
Coarse spinel (Spl-1) with irregular grain morphology and adjacent quartz grains are separated by thin films of Spr-1 and K-feldspar, suggesting that Spl-1 and quartz were in equilibrium before the stability of Spr-1 + quartz. This texture implies that the P–T conditions of the rock shifted from the stability field of spinel + quartz to sapphirine + quartz. Petrogenetic grid considerations based on available data from the FMAS system favour exhumation along a counterclockwise P–T trajectory. The irregular shape of the inclusion and chemistry of the inclusion minerals are markedly different from the matrix phases suggesting the possibility that the inclusion minerals could have equilibrated from cordierite-bearing silicate-melt pockets during the garnet growth at extreme UHT conditions. 相似文献
15.
Extreme crustal metamorphism during Columbia supercontinent assembly: Evidence from North China Craton 总被引:21,自引:0,他引:21
A vast supracrustal belt of khondalites (granulite facies metapelites) occur along the northern margin of the North China Craton. We report here for the first time spinel + quartz equilibrium assemblage from these rocks in two textural settings: (1) high ZnO (up to 14.47 wt.%) spinel with quartz as inclusions within garnet porphyroblasts defining pressure above 12 kbar and temperature of 900 °C; and (2) low ZnO (down to 1.2 wt.%) spinel in association with quartz in the matrix assemblage formed during peak ultrahigh-temperature conditions (ca. 975 °C and 9 kbar). We present a unique case of decompression where the metamorphic conditions of the rocks traversed mostly through the spinel + quartz (extended) stability field. Monazite grains in textural association with both types of spinel + quartz textures were analysed for age determination, and the data define two age peaks at 1927 ± 11 Ma and 1819 ± 11 Ma. Since the peak thermal regime of the khondalites was close to or exceeded the theoretical closure temperature of Pb in monazite, we infer the 1819 ± 11 Ma age as the timing of ultrahigh-temperature event in this craton. Our data lend support to the idea of ca. 1.9–1.8 Ga E–W collisional orogen at the northern margin of the North China Craton. We correlate the extreme crustal metamorphism with tectonics associated with the assembly of the North China Craton within the Columbia supercontinent. 相似文献
16.
超高温变质作用是在变质地质学领域,继超高压变质作用研究高峰之后的又一重要前缘课题,对于认识地壳构造-热演化具有重要意义。本文总结了华北克拉通西部孔兹岩带和南非Kaapvaal克拉通西南部Namaqua活动带与Bushveld变质杂岩体的高温-超高温麻粒岩的化学成分、矿物组合、变质演化特征,及其相应的变质事件与构造属性。我国的超高温变质作用带,包括华北克拉通西部的孔兹岩带——从内蒙西段的大青山到东段的集宁-凉城地区的超高温变质岩,皆为Al-Mg质和Al饱和体系的超高温变质岩石,常见假蓝宝石+石英、尖晶石+石英的典型超高温变质组合,以及含假蓝宝石±尖晶石、但缺少石英的非典型超高温变质组合。南非Namaqua活动带与Bushveld变质杂岩体分别发现有独特的Fe-Al饱和的铁尖晶石+石英+大隅石、刚玉+高温石英等超高温矿物组合,罕见的高温硼硅酸盐和硅硼铝镁石等超高温矿物组合;以及Ca-Mg质饱和的钙镁橄榄石+镁硅钙石镁黄长石+镁橄榄石等超高温矿物组合的麻粒岩。研究的核心问题是矿物和岩石在高温-超高温条件下的特殊行为方式,不同构造环境和岩石化学成分下的变质反应及其热动力学过程。由此提出超高温变质作用成因研究中的科学问题:包括不同类型和地质属性的高温-超高温麻粒岩的成因特征;麻粒岩的形成条件演化过程和构造背景;高温-超高温变质过程中部分熔融和重新水化过程中流体的作用以及岩体形变过程中的部分熔融;变质反应以及变质作用P-T-t轨迹、元素地球化学和熔体作用行为;岩石保留的可能的变质事件和年代学记录,定量评价高温-超高温过程中变质演化的时间跨度和演化速率。 相似文献
17.
Petrology of spinel granulites from Araku, Eastern Ghats, India, and a petrogenetic grid for sapphirine-free rocks in the system FMAS 总被引:4,自引:0,他引:4
Abstract Spinel-quartz-cordierite and spinel-quartz are found as relic prograde assemblages in Fe-rich granulites from the Araku area, Eastern Ghats belt, India. Subsequent reactions produced orthopyroxene + sillimanite in the former association and garnet + sillimanite in the latter. The first reaction is univariant in the FMAS system, but is trivariant in the present case because of the presence of Zn and Fe3+ in spinel. The second reaction also has high variance because of Zn and Fe3+ , but also because of the presence of Ca in garnet. Thermobarometry shows that the metamorphic conditions were approximately 950° C and 8.5 kbar and the fo 2 was near the NNO buffer. In Fe-rich bulk compositions and low- P -high- T conditions of metamorphism, two of the univariant reactions around the invariant point [Sa], namely (Sa, Hy) and (Sa, Cd), change topology due to reverse partitioning of Fe-Mg between coexisting garnet and spinel. An alternative partial petrogenetic grid in the system FMAS is constructed for such conditions and is applied satisfactorily to several sapphirine-free spinel granulites. It is shown that bulk composition ( X Fe and Zn) exerts greater control on the stability of spinel + quartz than fo 2 . The effect of the presence of Zn and Fe3+ in spinel on the proposed grid is evaluated. Reaction textures in the Araku spinel granulites can be explained from the petrogenetic grid as due to near-isobaric cooling. 相似文献
18.
High-pressure and ultrahigh-temperature metamorphism at Komateri, northern Madurai Block, southern India 总被引:1,自引:0,他引:1
Toshiaki Tsunogae M. Santosh Hiroyuki Ohyama Kei Sato 《Journal of Asian Earth Sciences》2008,33(5-6):395-413
We report for the first time the evidence for prograde high-pressure (HP) metamorphism preceding a peak ultrahigh-temperature (UHT) event in the northernmost part of the Madurai Block in southern India. Mg–Al-rich Grt–Ged rocks from Komateri in Karur district contain poikiloblastic garnet with numerous multi-phase inclusions. Although most of the inclusion assemblages are composed of gedrite, quartz, and secondary biotite, rare staurolite + sapphirine and spinel + quartz are also present. The XMg (=Mg/[Fe+Mg]) of staurolite (0.45–0.49) is almost consistent with that reported previously from Namakkal district in the Palghat–Cauvery Shear Zone system (XMg = 0.51–0.52), north of the Madurai Block. The HP event was followed by peak UHT metamorphism at T = 880–1040 °C and P = 9.8–12.5 kbar as indicated by thermobarometric computations in the Grt–Ged rock and associated mafic granulite. Symplectic intergrowth of spinel (XMg = 0.50–0.59, ZnO < 1.7 wt.%) and quartz, a diagnostic indicator of UHT metamorphism, probably formed by decompression at UHT conditions. The rocks subsequently underwent retrograde metamorphism at T = 720–760 °C and P = 4.2–5.1 kbar. The P–T conditions and clockwise exhumation trajectory of the Komateri rocks, comparable to similar features recorded from the Palghat–Cauvery Shear Zone system, suggest that the Madurai Block and the Palghat–Cauvery Shear Zone system underwent similar HP and UHT metamorphic history probably related to the continent–continent collision during the final stage of amalgamation of Gondwana supercontinent. 相似文献
19.
Interpretation of reaction microstructures may provide constraints on the P–T path followed by rocks, with implications for the geodynamic evolution. Sapphirine generally occurs in diverse microstructures in ultrahigh-temperature (UHT) Mg–Al-rich granulites. Understanding multi-stage sapphirine formation processes and the resultant P–T path may provide insights into the cause of UHT metamorphism, which is otherwise under broad debate. Here, we investigate samples of UHT granulite containing two distinct types of sapphirine from the Dongpo locality in the Khondalite Belt, North China Craton, with the aim of understanding the processes of sapphirine formation and the metamorphic evolution of the host rocks. Petrographic observations show that early sapphirine, which occurs as coronas on spinel and as single porphyroblasts, formed together with biotite, sillimanite, and inclusion-rich garnet. Late symplectitic sapphirine along with fine-grained plagioclase and spinel plus plagioclase symplectites, formed by consumption of sillimanite, biotite, and garnet. Three pseudosections based on the bulk compositions of microdomains inferred to reflect spatially restricted equilibrium suggest that the rocks record near isobaric cooling (IBC) from ~980 to 830ºC at ~0.9 GPa for early sapphirine formation, and decompression and heating to ≤0.7 GPa and ~900ºC for late sapphirine formation. Our study in combination with other metamorphic P–T and age information reveals the common occurrence of IBC paths and long duration (c. 1.93 to 1.86 Ga) regional UHT metamorphism in the Khondalite Belt, North China Craton. Locally, this is followed by decompression–heating paths at c. 1.86 Ga. The Palaeoproterozoic UHT metamorphism with long-lived IBC path in the Khondalite Belt, North China Craton supports large hot orogen model in the amalgamation of this part in the supercontinent Nuna. 相似文献
20.
内蒙古中南部古元古代高温型双变质带及其构造意义 总被引:6,自引:0,他引:6
内蒙古中南部集宁-丰镇-土贵乌拉地区发育了一条超高温变质岩带.通过对土贵乌拉地区超高温变质岩的矿物组合研究,发现其中包含了尖晶石+石英、假蓝宝石+石英、斜方辉石+夕线石+石英的超高温标型矿物组合,并且在超高温变质作用区域内,经历了初始近等压冷却,随后近等温降压的逆时针退变质过程.已有的年代学数据表明,超高温变质作用峰期变质时代为1 920 Ma左右,降压退变质时代为1 850 Ma左右.在超高温变质岩带的东南地区,包括怀安-宣化一带,还出露了高压麻粒岩带.高压麻粒岩经历了近等温降压的顺时针退变质过程.年龄数据表明高压麻粒岩峰期变质时代为~1 900 Ma,退变质时代为1 850 Ma左右.内蒙古中南部超高温变质岩带和高压麻粒岩带相邻分布、产状相似且变质时代接近,共同构成了类似都城秋穗提出的双变质带;由于其温度偏高,故称为高温型双变质带,为世界上最古老的双变质带之一.该高温型双变质带可能反映了内蒙古中南部不同层次地壳物质在早前寒武纪碰撞作用中经历了P-T演化截然不同的变质作用,两条变质带在经历了各自的峰期变质作用后,作为一个共同的地体抬升.对内蒙古中南部古元古代高温型双变质带开展进一步研究,为认识华北克拉通早期构造背景、地壳热演化,特别是板块构造、不同地壳层次的构造作用提供了难得的科学机遇. 相似文献