共查询到18条相似文献,搜索用时 93 毫秒
1.
运用激光拉曼和阴极发光技术,配备电子探针测试,发现苏鲁地体地表露头和中国大陆科学钻探工程预先导孔CCSD-PP1和CCSD-PP2斜长角闪岩锆石中均保存以柯石英为代表的典型超高压矿物组合:柯石英 石榴石 绿辉石 金红石;柯石英 石榴石 绿辉石;柯石英 石榴石 绿辉石 多硅白云母 金红石 磷灰石;柯石英 绿辉石 金红石;柯石英 菱镁矿。该类矿物包体组合与苏鲁地体超高压榴辉岩的峰期矿物组合十分相似,表明斜长角闪岩可能是由超高压变质的榴辉岩在构造抬升过程中退变质而成。 相似文献
2.
采用激光拉曼技术,配备电子探针和阴极发光测试,确认苏鲁地体大多数花岗质片麻岩,所有类型片麻岩、斜长角闪岩、蓝晶石英岩和大理岩的锆石中均隐藏以柯石英为代表的超高压包体矿物组合。其中花岗质片麻岩典型超高压包体矿物为柯石英±多硅白云母;副片麻岩为柯石英+石榴子石+绿辉石、柯石英±石榴子石+硬玉+多硅白云母+磷灰石、柯石英+多硅白云母±磷灰石;斜长角闪岩为柯石英+石榴子石+绿辉石±金红石;蓝晶石英岩为柯石英+蓝晶石+金红石+磷灰石、柯石英+蓝晶石+多硅白云母+金红石;大理岩为柯石英+透辉石、柯石英+橄榄石。表明苏鲁地体由榴辉岩及其围岩所组成的巨量陆壳物质曾普遍发生深俯冲,并经历了超高压变质作用。锆石的矿物包体分布特征及相应的阴极发光图像研究表明,在同一样品中,锆石的成因特征存在明显差异。有的锆石显示继承性(碎屑)锆石的核(core)、超高压变质的幔(mantle)和退变质的边(rim);有的锆石则具有超高压的核、幔和退变质的边;而有的锆石却记录了深俯冲的核、超高压的幔和退变质的边。标志着苏鲁超高压变质带各类岩石副矿物锆石均具有十分复杂的结晶生长演化历史。因此,在充分研究锆石中矿物包体性质、分布特征以及相应阴极发光图像的基础上,采用SHRIMP离子探针技术,在锆石晶体的不同 相似文献
3.
北秦岭官坡地区高压—超高压榴辉岩岩相学及变质作用研究 总被引:19,自引:2,他引:19
北秦岭官坡地区的榴辉岩及含柯石英榴辉岩产在帮岭岩群的北侧,主要由绿辉石和石榴石组成,部分石榴石和绿辉石中含柯石英包体。此外还含有退变质的多硅白云母、角闪石、黝帘石和纳长石等矿物,根据变质矿物之间的替代关系及共生组合规律,榴辉岩退变质作用可划分为四个阶段,各阶段代表性矿物组合依次为:柯石英+绿辉石+石榴石;石英+绿辉石+石榴石;多硅白云母+绿辉石+石榴石+石英;角闪石+斜长石+白云母+黑云母。这四个 相似文献
4.
北苏鲁超高压变质岩锆石中的矿物包体 总被引:3,自引:0,他引:3
北苏鲁莒南—岚山头—日照—桃行—仰口—荣成—威海一带榴辉岩的围岩经历了强烈角闪岩相退变质作用的改造,峰期超高压矿物组合已完全被后期退变矿物组合所取代。锆石微区阴极发光图像和矿物包体激光拉曼测试研究结果表明,132件不同类型岩石(包括榴辉岩、斜长角闪岩、正片麻岩、副片麻岩、大理岩、蓝晶石英岩、云母片岩和钙镁硅酸盐类变质岩等)锆石中,普遍隐藏以柯石英为代表的超高压矿物包体。此外,在南苏鲁东海及其邻区的地表露头和一系列钻孔岩心的锆石中,也普遍发现以柯石英为代表的超高压矿物包体。该项研究成果表明,在苏鲁地体由榴辉岩及其围岩的原岩所组成的陆壳岩石(约320km×20km×5km)曾发生过巨量物质深俯冲—超高压变质的壮观地质事件。 相似文献
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《吉林大学学报(地球科学版)》2015,(Z1)
详细的岩相学观察和激光拉曼矿物包裹体研究,在松树沟及其邻区秦岭群片麻岩中的榴闪岩和斜长角闪岩透镜体中发现了石榴石+绿辉石的典型榴辉岩相矿物组合,以及指示超高压变质的微粒柯石英包裹体,表明北秦岭松树沟及其邻区是超高压变质作用的产物。北秦岭松树沟超镁铁质岩体旁侧的榴闪岩一直以来都存在着接触交代变质(黄月华等,1984)、麻粒岩相变质(钱加慧等,2013)和退变榴辉岩(刘良等,2013;Zhang et al.,1999)等多种成因观点。本次研究在该榴闪岩的基质矿物角闪石的核部、石榴石变斑晶的幔部包裹体及锆石包体中都发现了残留绿辉石,而且发现石榴石变斑晶保存了很好的进变质矿物包裹体和主、微量元素成分环带,表明松树沟榴闪岩为榴辉岩相退变质的产物,至少经历了从角闪岩相到榴辉岩相再到角闪岩相的三阶段顺时针p-T演化。另外,采用激光拉曼光谱分析方法,对丹凤地区秦岭群片麻岩的多个榴闪岩和斜长角闪岩透镜体进行了详细的锆石包裹体矿物学分析,在其中的一个斜长角闪岩的锆石中发现了超高压矿物柯石英,表明该斜长角闪岩为超高压榴辉岩退变质的产物。LA-ICP-MS锆石U-Pb年代学研究,得到松树沟榴辉岩的峰期变质年龄为(500±8)Ma,原岩结晶时代为(796±16)Ma;得到丹凤地区斜长角闪岩的峰期变质时代为(498±3)Ma,同时得到~450 Ma和~420 Ma两期退变质事件年龄;得到斜长角闪岩的围岩片麻岩的变质年龄为(502±4)Ma。其中榴辉岩和斜长角闪岩的~500 Ma的变质年龄分别来自锆石的石榴石+绿辉石以及柯石英包体的微区,应代表本区高压-超高压榴辉岩相变质的年龄。该年龄与秦岭岩群中已发现的官坡含金刚石榴辉岩(~500 Ma,杨经绥等,2002;陈丹玲等,2011)、清油河含金刚石斜长角闪岩(490±5.8 Ma;Wang et al.,2014)的峰期变质年龄一致,也与秦岭岩群区域片麻岩的~500 Ma的变质时代在误差范围内完全一致(刘良等,2013;Diwu et al.,2014),表明松树沟及其邻区榴辉岩与北秦岭造山带已发现的高压-超高压变质岩石一起都应是古生代大陆深俯冲作用的结果。 相似文献
6.
在东海地区浅钻ZK2304的片麻岩中,保存了高压—超高压变质矿物组合和一系列复杂的退变结构及相应的变质反应。除石榴石、硬玉质辉石和金红石外,其它峰期高压—超高压阶段(M_2)变质矿物包括多硅白云母、文石和柯石英(假像),典型的峰期矿物组合为:石榴石(Gt)硬玉质辉石(Jd-Cpx)+金红石(Rt)+柯石英(Coe);石榴石(Gr)+硬玉质辉石(Jd-Cpx)+多硅白云母(Phe)+金红石((Rt)(柯石英(Coe);石榴石(Gt)+硬玉质辉石(Jd-Cpx)+文石(Arg)+金红石(Rt)(柯石英(Coe)。石榴石中的钙铝榴石(Gro)分子含量偏高,最高可达50.1 mol%,多硅白云母SiO_2含量明显偏高,为54.37%~54.84%之间,相应的化学单位(Pfu)硅原子数Si=3.54~3.57之间,柯石英假像主要以包体形式存在于石榴石晶体中。 相似文献
7.
在北苏鲁超高压变质带的威海地区的正片麻岩中,存在大量规模不一的含石榴石斜长角闪岩的透镜体或不规则团块。锆石中矿物包体的激光拉曼测试、阴极发光图像分析、稀土元素和微量元素以及Lu-Hf同位素的LA-(MC)-ICP-MS测试等综合研究结果表明,含石榴石斜长角闪岩 (WH17) 只存在一种成因类型的锆石,即变质锆石。该类锆石自核部到边部均保存了典型的超高压包体矿物组合:柯石英 (Coe)+石榴石 (Grt)+绿辉石 (Omp)+多硅白云母 (Phe)+金红石 (Rt)+磷灰石 (Ap),相应的阴极发光图像自核部到边部十分均匀,具有典型变质锆石的特点。锆石核部和边部的稀土元素含量特征和配分模式也十分相似,主要表现为轻稀土元素相对亏损,而重稀土元素相对平坦,无Eu异常 (Eu/Eu*=0.94~1.04), 具较明显的正Ce异常 (Ce/Ce*=83.4~111.0),低的Th/U (<0.02) 和 Lu/Hf (<0.00010) 比值以及极低的 Th (1×10-6~4×10-6) 含量。锆石核部到边缘的重稀土元素亏损与石榴石稳定有关,而无Eu异常则与斜长石分解关系密切。上述特征表明,含石榴石斜长角闪岩中的锆石均是在超高压变质阶段形成的变质锆石,而研究样品中继承性岩浆结晶锆石的缺乏,是由于含石榴石斜长角闪岩在原岩形成时Zr的成分明显匮乏所致。SHRIMP U-Pb定年结果表明,含柯石英锆石自核部到边部记录了十分一致的206Pb/238U 年龄,变化于 240.2±3.3Ma 到220.2±2.8Ma 之间,加权平均年龄为229.8±2.0Ma, 这组年龄与前人对苏鲁超高压变质带中榴辉岩、正片麻岩、副片麻岩和大理岩等含柯石英锆石微区记录的年龄完全吻合,应代表苏鲁地体超高压变质时代。Lu-Hf同位素研究结果表明,含石榴石斜长角闪岩中变质锆石的Hf同位素特征与苏鲁超高压变质带中榴辉岩的继承性岩浆锆石和变质锆石均存在本质差别,其中176Hf/177Hf=0.00001~0.00003, 176Hf/177Hf (t)=0.282052~0.282107, 相应的εHf(t)=-21.1~-18.8, 模式年龄tDM2=2.14~2.24Ga,这些Lu-Hf同位素特征与围岩正片麻岩含柯石英锆石微区的Hf同位素性质十分相似, 充分表明了北苏鲁含石榴石斜长角闪岩在超高压变质阶段形成的变质锆石所必须的Zr和Hf成分不是来自体系本身,而是来源于围岩正片麻岩。 相似文献
8.
苏鲁三清阁榴辉岩中柯石英的发现及其地质意义探讨 总被引:1,自引:0,他引:1
在苏鲁三清阁多硅白云母榴辉岩中发现了柯石英包体,该榴辉岩与超高压含菱镁矿大理岩共生。石榴石中存在的柯石英残晶和多晶石英假相包体表明榴辉岩的变质压力超过2.8 GPa。运用石榴石–单斜辉石Fe2+–Mg温度计和多硅白云母压力计估算结果表明,矿物核部的平衡压力为3.1~3.5 GPa(T =650~689℃),边部的平衡压力为2.9~3.3 GPa(T=652~671℃)。与石榴石伴生的绿辉石普遍发育石英出溶结构。在磷灰石中观察到金属硫化物出溶体。磷灰石富含OH,F,Cl和S等挥发份,这些挥发性组分的深循环对地壳和地幔之间的相互作用研究具有重要意义。通过磷灰石,苏鲁—大别俯冲带能够将大量(~80 000 Mt)OH,F和Cl携带到地幔深处。 相似文献
9.
大别山超高压正片麻岩:岩石学及变质演化 总被引:10,自引:0,他引:10
大别山超高压片麻岩与正常(中低压)片麻岩呈互层状产生,原岩相当于安山质火山岩。超高压片麻岩的特征矿物组合为石榴子石+绿辉石+多硅白云母+斜黝帘石+石英/柯石英+金红石±蓝晶石±纳云母,高压矿物包体、冠状反应结构、假象结构和局部不平衡结构可作为其岩相学鉴别标志。它们经历了与含柯石英榴辉岩可对比的超高压变质(>2.7GPa、672~725℃)和中低压绿帘角闪岩相退变质(0.3~0.7GPa、450~520℃)两个主要演化阶段,其退变质作用与围岩区域变质作用的一致性有可能说明二者自始至终经历了同一演化过程。 相似文献
10.
柴达木盆地北缘鱼卡河含柯石英榴辉岩的确定及其意义 总被引:17,自引:0,他引:17
在柴达木盆地北缘鱼卡河边达肯大坂杂岩之花岗质片麻岩中发现典型的含柯石英榴辉岩。榴辉岩主要由石榴石、绿辉石和少量(多硅)白云母、柯石英和石英、角闪石、金红石等矿物组成。石榴石中铁铝、镁铝和钙铝榴石分子含量分别为51%~59%、26%~31%和13%~19%;绿辉石中硬玉分子含量为45%~48%;岩石中残留有b0值极大的高压矿物多硅白云母(b0=9075×10-1nm);角闪石亦为高压类型的冻蓝闪石;最为重要的是确定了柯石英的存在。榴辉岩原始特征保存完好,仅遭受轻微的退变质作用和叠加变质作用。组成矿物可分为3个世代:(1)峰期矿物组合:石榴石+绿辉石+(多硅)白云母+(柯)石英+金红石;(2)退变交生组合:冻蓝闪石+蠕虫状石英;(3)后期叠加变质矿物白云母。榴辉岩相变质作用发生在压力大于28GPa的超高压至大约730℃、170GPa的高压环境,表明柴达木盆地北缘是一条重要的古板块汇聚边界。 相似文献
11.
矿物包裹体激光拉曼测试、阴极发光图像分析和SHILIMPU—Pb定年综合研究结果表明,中国大陆科学钻探主孔斜长角闪岩(样品G12)中的锆石可划分为2种类型:第一类颗粒粗大,舍有大量矿物包裹体和杂质;第二类颗粒细小,舍有少量矿物包裹体且十分干净。第一类锆石具有明显的双层结构。核部阴极发光图像显示典型的岩浆结晶环带,相应的矿物包裹体为单斜辉石(Cpx)+斜长石(P1)+磷灰石(Ap)±石英(Qtz),表明其寄主岩石的原岩为基性岩浆岩;边部阴极发光图像十分均匀,保存柯石英(Coe)+石榴子石(Grt)+绿辉石(Omp)+多硅白云母(Phe)+磷灰石(Ap)等标志性超高压包裹体矿物组合,记录的变质温压条件为T=732-839℃、p=3.0-4.0GPa,表明该类变质增生锆石微区形成于超高压变质阶段。第二类锆石阴极发光图像十分均匀,发光性明显增强,保存角闪石(Amp)+斜长石(P1)等标志性角闪岩相包裹体矿物组合,记录的变质温压条件为T=612-698℃、p=0.76-1.05GPa,表明该类锆石形成于后期角闪岩相退变质阶段。SHRIMPU-Pb定年结果显示,继承性岩浆结晶锆石核部记录的^206Pb/灿的年龄为685-650Ma.表明其原岩形成于新元古代;舍柯石英等超高压矿物包裹体的边部记录的^206Pb/^238U年龄为243-225Ma,表明超高压变质时代应归属于晚三叠世。第二类舍低压包裹体矿物的锆石微区记录的^206Pb/^238U年龄为219-210Ma.应代表后期角闪岩相退变质作用的时代。上述研究结果表明,苏鲁地体斜长角闪岩的原岩在晚三叠世深俯冲至上地幔100-120km的地幔深处并经历了超高压变质作用。约15Ma之后,这些超高压岩石抬升到约25km的中部地壳,并经历了后期角闪岩相退变质作用的改造。相应的折返速率为0.57cm/y。 相似文献
12.
Orthogneisses are the major country rocks hosting eclogites in the Sulu UHP terrane, eastern China. All of the analyzed orthogneiss cores from the main drilling hole of the Chinese Continental Scientific Drilling Project (CCSD-MH) have similar major and trace element compositions and a granite protolith. These rocks have relatively high LREE/HREE ratios, strong negative Eu anomalies (Eu/Eu*=0.20–0.39), and negative Ba anomalies (Ba/Ba*=0.25–0.64). Coesite and coesite-bearing UHP mineral assemblages are common inclusions in zircons separated from orthogneiss, paragneiss, amphibolite, and (retrograded) eclogite of the CCSD-MH. This suggests that the eclogite, together with its country rocks, experienced in situ ultrahigh-pressure (UHP) metamorphism. Laser Raman spectroscopy and cathodoluminescence (CL) images show that zircons from the orthogneisses are zoned and that they have distinct mineral inclusions in the different zones. Most zircons retain early magmatic cores with abundant low-pressure mineral inclusions, which are mantled with metamorphic zircon-containing inclusions of coesite and other UHP minerals. The outermost rims on these grains contain low-pressure mineral inclusions, such as quartz and albite. SHRIMP U–Pb dating of the zoned zircons gives three discrete and meaningful groups of ages: Proterozoic ages for the protolith, 227±2 Ma for the coesite-bearing mantles, and 209±3 Ma for the amphibolite facies retrograde rims. The widespread occurrence of UHP mineral inclusions in zircons from the Sulu metamorphic belt dated at about 227 Ma suggests that voluminous continental crust experienced late Triassic subduction to depths of at least 120 km and perhaps more than 200 km. Eighteen million years later, the terrane was rapidly exhumed to midcrustal levels, and the UHP rocks were overprinted by amphibolite facies metamorphism. The exhumation rate deduced from the zircon age data and previously obtained metamorphic P–T data is estimated to be 5.6–11.0 km/Ma. Such rapid exhumation of the Sulu UHP terrane may be due to the buoyancy forces produced by subduction of low-density continental material into the deep mantle. 相似文献
13.
Petrology of ultrahigh-pressure rocks from the southern Su-Lu region, eastern China 总被引:44,自引:2,他引:44
RU-YUAN ZHANG T. HIRAJIMA S. BANNO BOLIN CONG J. G. LIOU 《Journal of Metamorphic Geology》1995,13(6):659-675
Abstract In the Su-Lu ultrahigh- P terrane, eastern China, many coesite-bearing eclogite pods and layers within biotite gneiss occur together with interlayered metasediments now represented by garnet-quartz-jadeite rock and kyanite quartzite. In addition to garnet + omphacite + rutile + coesite, other peak-stage minerals in some eclogites include kyanite, phengite, epidote, zoisite, talc, nyböite and high-Al titanite. The garnet-quartz-jadeite rock and kyanite quartzite contain jadeite + quartz + garnet + rutile ± zoisite ± apatite and quartz + kyanite + garnet + epidote + phengite + rutile ± omphacite assemblages, respectively. Coesite and quartz pseudomorphs after coesite occur as inclusions in garnet, omphacite, jadeite, kyanite and epidote from both eclogites and metasediments. Study of major elements indicates that the protolith of the garnet-quartz jadeite rock and the kyanite quartzite was supracrustal sediments. Most eclogites have basaltic composition; some have experienced variable 'crustal'contamination or metasomatism, and others may have had a basaltic tuff or pyroclastic rock protolith.
The Su-Lu ultrahigh- P rocks have been subjected to multi-stage recrystallization and exhibit a clockwise P-T path. Inclusion assemblages within garnet record a pre-eclogite epidote amphibolite facies metamorphic event. Ultrahigh- P peak metamorphism took place at 700–890° C and P >28 kbar at c . 210–230 Ma. The symplectitic assemblage plagioclase + hornblende ± epidote ± biotite + titanite implies amphibolite facies retrogressive metamorphism during exhumation at c . 180–200 Ma. Metasedimentary and metamafic lithologies have similar P-T paths. Several lines of evidence indicate that the supracrustal rocks were subducted to mantle depths and experienced in-situ ultrahigh- P metamorphism during the Triassic collision between the Sino-Korean and Yangtze cratons. 相似文献
The Su-Lu ultrahigh- P rocks have been subjected to multi-stage recrystallization and exhibit a clockwise P-T path. Inclusion assemblages within garnet record a pre-eclogite epidote amphibolite facies metamorphic event. Ultrahigh- P peak metamorphism took place at 700–890° C and P >28 kbar at c . 210–230 Ma. The symplectitic assemblage plagioclase + hornblende ± epidote ± biotite + titanite implies amphibolite facies retrogressive metamorphism during exhumation at c . 180–200 Ma. Metasedimentary and metamafic lithologies have similar P-T paths. Several lines of evidence indicate that the supracrustal rocks were subducted to mantle depths and experienced in-situ ultrahigh- P metamorphism during the Triassic collision between the Sino-Korean and Yangtze cratons. 相似文献
14.
Mineral inclusions in zircons of para- and orthogneiss from pre-pilot drillhole CCSD-PP1, Chinese Continental Scientific Drilling Project 总被引:48,自引:0,他引:48
Fulai Liu Zhiqin Xu Ikuo Katayama Jingsui Yang Shigenori Maruyama J. G. Liou 《Lithos》2001,59(4):199-215
The pre-pilot drillhole CCSD-PP1, Chinese Continental Scientific Drilling Project (CCSD), with depth of 432 m, is located in the Donghai area in the southwestern Sulu terrane. The core samples are mainly comprised of paragneiss, orthogneiss and ultramafic rock with minor intercalated layers of eclogite and phengite-bearing kyanite quartzite. All analyzed paragneiss and orthogneiss samples were overprinted on amphibolite facies retrograde metamorphism. Coesite and coesite-bearing ultrahigh-pressure (UHP) mineral assemblages were identified by Raman spectroscopy and electron microprobe analysis as inclusions in zircons separated from paragneiss, eclogite and phengite-bearing kyanite quartzite samples. In the paragneiss samples, UHP mineral inclusion assemblages mainly consist of Coe+Omp+Grt+Phe, Coe+Jd+Phe+Ap preserved in the mantles (M) and rims (R) of zircons. These UHP mineral inclusion assemblages yield temperatures of 814–852 °C and pressures of ≥28 kbar, presenting the P–T condition of UHP peak metamorphism of these country rocks. According to the mineral inclusions and cathodoluminescence images of zircons, the orthogneisses can be divided into two types: UHP (OG1) and non-UHP (OG2). In OG1 orthogneisses, low-pressure mineral inclusion assemblage, mainly consisting of Qtz+Phe+Ab+Ksp+Ap, were identified in zircon cores (C), while coesite or coesite-bearing UHP mineral inclusions were identified in the mantles (M) and rims (R) of the same zircons. These features suggest that the OG1 orthogneisses, together with the paragneisses, phengite-bearing kyanite quartzite and eclogite experienced widespread UHP metamorphism in the Sulu terrane. However, in the zircons of OG2 orthogneiss samples, no UHP mineral inclusions were found. Inclusions mainly comprised Qtz+Phe+Ap and were identified in cores (C), mantles (M) and rims (R) of OG2 zircons; the cathdoluminescence images of all analyzed zircons showed clear zonings from cores to rims. These features indicate that the OG2 orthogneisses in pre-pilot drillhole CCSD-PP1 did not experience UHP metamorphism. Therefore, we should not rule out the possibility that some orthogneisses in Sulu terrane might represent relatively low-pressure granitic intrusives emplaced after the UHP event. 相似文献
15.
大别山-苏鲁超高压变质带的矿物学和岩石学研究进展 总被引:11,自引:0,他引:11
叶凯 《矿物岩石地球化学通报》2001,20(3):141-148
本文总结了近年来大别山 苏鲁超高压变质带的矿物学和岩石学进展。针对大别山 苏鲁超高压变质带中的区域片麻岩围岩是否经历超高压变质的问题 ,研究者在常规岩石学和矿物学手段不能奏效的情况下 ,引入显微喇曼光谱测试 ,最终在各种类片麻岩的锆石中发现柯石英、硬玉和雯石等高压和超高压矿物包裹体 ,证明大别山 苏鲁超高压变质带中的大多数岩石曾与榴辉岩一起被俯冲到地幔深度 ,后又一起回返到地表。在喇曼光谱的测试过程中 ,发现锆石中的柯石英包裹体有 0~ 2 3 0 0MPa不等的现时晶内超压 ,并证明这种晶内超压是超高压变质岩回返过程中 ,柯石英向石英转化而导致的体积膨胀造成的。研究者在产于青岛仰口榴辉岩的石榴子石中发现大量单斜辉石、金红石和磷灰石出熔 ,精细的晶体化学和岩石学研究证明出熔前的石榴子石形成于大于 70 0 0MPa的压力条件 ,说明苏鲁地区的部分陆壳岩石可能曾被俯冲到大于 2 0 0km深的地幔。岩石学研究发现产于桃行地区的榴辉岩在角闪岩相区域退变质之前 ,在 4 0~ 5 0km的浅部地幔深度发育有一期高压麻粒岩相 过渡榴辉岩相变质。进一步研究发现这期变质是由于峰期的多硅白云母在回返到 4 0~5 0km深的浅部地幔时脱水熔融导致的 相似文献
16.
Petrology of the Non-mafic UHP Metamorphic Rocks from a Drillhole in the Southern Sulu Orogenic Belt, Eastern-Central China 总被引:9,自引:0,他引:9
ZHANG Zeming XU Zhiqin XU HuifenInstitute of Geology Chinese Academy of Geological Sciences Baiwanzhuang Rd. Beijing E-mail: zzm@ccsd.org.cn. 《《地质学报》英文版》2003,77(2):173-186
The Drillhole ZK703 with a depth of 558 m is located in the Donghai area of the southern Sulu ultrahigh-pressure (UHP) metamorphic belt, eastern China, and penetrates typical UHP eclogites and various non-mafic rocks, including peridotite, gneiss, schist and quartzite. Their protoliths include ultramafic, mafic, intermediate, intermediate-acidic, acidic igneous rocks and sediments. These rocks are intimately interlayered, which are meters to millimeters thick with sharp and nontectonic contacts, suggesting in-situ metamorphism under UHP eclogite facies conditions. The following petrologic features indicate that the non-mafic rocks have experienced early-stage UHP metamorphism together with the eclogites: (1) phengite relics in gneisses and schists contain a high content of Si, up to 3.52 p.f.u. (per formula unit), while amphibolite-facies phengites have considerably low Si content (<3.26 p.f.u.); (2) jadeite relics are found in quartzite and jadeitite; (3) various types of symplectitic coronas and pseud 相似文献
17.
Ultrahigh-pressure eclogite transformed from mafic granulite in the Dabie orogen, east-central China 总被引:1,自引:0,他引:1
Although ultrahigh‐pressure (UHP) metamorphic rocks are present in many collisional orogenic belts, almost all exposed UHP metamorphic rocks are subducted upper or felsic lower continental crust with minor mafic boudins. Eclogites formed by subduction of mafic lower continental crust have not been identified yet. Here an eclogite occurrence that formed during subduction of the mafic lower continental crust in the Dabie orogen, east‐central China is reported. At least four generations of metamorphic mineral assemblages can be discerned: (i) hypersthene + plagioclase ± garnet; (ii) omphacite + garnet + rutile + quartz; (iii) symplectite stage of garnet + diopside + hypersthene + ilmenite + plagioclase; (iv) amphibole + plagioclase + magnetite, which correspond to four metamorphic stages: (a) an early granulite facies, (b) eclogite facies, (c) retrograde metamorphism of high‐pressure granulite facies and (d) retrograde metamorphism of amphibolite facies. Mineral inclusion assemblages and cathodoluminescence images show that zircon is characterized by distinctive domains of core and a thin overgrowth rim. The zircon core domains are classified into two types: the first is igneous with clear oscillatory zonation ± apatite and quartz inclusions; and the second is metamorphic containing a granulite facies mineral assemblage of garnet, hypersthene and plagioclase (andesine). The zircon rims contain garnet, omphacite and rutile inclusions, indicating a metamorphic overgrowth at eclogite facies. The almost identical ages of the two types of core domains (magmatic = 791 ± 9 Ma and granulite facies metamorphic zircon = 794 ± 10 Ma), and the Triassic age (212 ± 10 Ma) of eclogitic facies metamorphic overgrowth zircon rim are interpreted as indicating that the protolith of the eclogite is mafic granulite that originated from underplating of mantle‐derived magma onto the base of continental crust during the Neoproterozoic (c. 800 Ma) and then subducted during the Triassic, experiencing UHP eclogite facies metamorphism at mantle depths. The new finding has two‐fold significance: (i) voluminous mafic lower continental crust can increase the average density of subducted continental lithosphere, thus promoting its deep subduction; (ii) because of the current absence of mafic lower continental crust in the Dabie orogen, delamination or recycling of subducted mafic lower continental crust can be inferred as the geochemical cause for the mantle heterogeneity and the unusually evolved crustal composition. 相似文献
18.
Zeming Zhang Yilin Xiao Jochen Hoefs J. G. Liou Klaus Simon 《Contributions to Mineralogy and Petrology》2006,152(4):421-441
The main hole (MH) of the Chinese Continental Scientific Drilling Project (CCSD) in southern Sulu has penetrated into an ultrahigh-pressure (UHP) metamorphic rock slice which consists of orthogneiss, paragneiss, eclogite, ultramafic rock and minor schist. Recovered eclogites have a UHP metamorphic mineral assemblage of garnet + omphacite + rutile ± phengite ± kyanite ± coesite ± epidote. Ultramafic rocks contain garnet + olivine + clinopyroxene + orthopyroxene ± Ti-clinohumite ± phlogopite. Gneisses and schists contain an amphibolite-facies paragenesis, but their zircons have coesite, garnet, omphacite (or jadeite) and phengite inclusions, indicating that eclogites and gneisses have been subjected to in situ UHP metamorphism. Using available geothermobarometers, P–T estimates of 3.1–4.4 GPa and 678–816°C for eclogites were obtained. If surface outcrops and neighboring shallow drill holes are considered together, we suggest that a huge supracrustal rock slab (> 50 km long × 100 km wide × 5 km deep) was subducted to a depth > 100 km and then exhumed to the surface. The depth interval (0–2,050 m) of the CCSD-MH can be divided into six lithological units. Unit 1 consists of alternating layers of quartz-rich and rutile-rich eclogites, with thin interlayers of gneiss and schist. Eclogites of unit 1 are characterized by Nb, Ta, Sr and Ti depletions, low Mg number and general LREE enrichment. Unit 2 comprises rutile- and ilmenite-rich eclogite and minor “normal” eclogite and is characterized by high TiO2, total Fe, V, Co and Sr, and very low SiO2, alkali, Zr, Ba, Nb, Ta and total REE contents, and LREE-depleted REE patterns with slightly positive Eu anomalies. Unit 3 contains ultramafic rock and minor MgO-rich eclogite. Protoliths of UHP rocks from units 1, 2 and 3 represent a layered mafic to ultramafic intrusion at crustal depth. Units 4 and 6 consist of interlayered eclogite and paragneiss; the eclogites are characterized by Th, U, Nb, Ta and Ti depletion and K enrichment and LREE-enriched REE patterns. Paragneisses show Nb, Ta, Sr and Ti depletions and LREE-enriched REE patterns occasionally with slightly negative Eu anomalies, indicating that their protoliths represent metamorphic supracrustal series. Unit 5 consists mainly of orthogneisses, showing distinct Nb, Ta, Sr and Ti depletions, and LREE-enriched REE patterns with pronounced negative Eu anomalies, suggesting granitic protoliths. In conclusion it is proposed that the southern Sulu UHP belt consists of a series of meta-supracrustal rocks, a layered mafic–ultramafic complex and granites. 相似文献