大别山超高压榴辉岩带榴辉岩的特征和变质作用

大别山超高压柯石英榴辉岩带中多处产出含柯石英榴辉岩,岩石中广泛分布柯石英假象。它们产在片麻岩和大理岩中,并有不同的特征矿物组合。与鄂北等地高压型榴辉岩比较,超高压(柯石英)榴辉岩的绿辉石富硬玉组分,而石榴石为一般的富铁铝榴石贫镁铝榴石的石榴石。钙质角闪石和钠钙质冻蓝闪石是超高压(柯石英)榴辉岩中主要的次生角闪石类型。榴辉岩的原岩是陆内拉张过程中形成的广义拉斑玄武岩,它们在中朝一扬子大陆板块汇聚造山的俯冲大地构造背景中,发生渐进变质。变质时地热增温率极低。造山运动后期,榴辉岩随构造运动抬升又经历两阶段迭加变质。     

苏鲁-大别超高压岩石中锆石SHRIMP U-Pb定年研究——综述和最新进展

如何建立苏鲁-大别超高压岩石深俯冲-超高压-快速折返过程连续而完整的P-T-t轨迹及精细的年代谱系,是目前地学界研究的热点。而变质锆石是否记录深俯冲石英榴辉岩相进变质阶段的年代学信息和超高压峰期变质时代的准确归属,是目前苏鲁-大别超高压变质带需要深入研究的核心问题。本文在对前人同位素年代学方面所取得的成果进行系统总结的基础上。采用锆石中矿物包体激光拉曼和电子探针测试、锆石阴极发光图像成因分析以及SHRIMP U-Pb定年等综合研究手段,确定苏鲁-大别地体榴辉岩及其强退变质围岩在深俯冲-构造折返过程中主要经历了四个阶段的变质演化:深俯冲石英榴辉岩相进变质(Ⅰ)、超高压峰期变质(Ⅱ)、构造折返初期石英榴辉岩相退变质(Ⅲ)和构造折返晚期角闪岩相退变质(Ⅳ)。研究发现,扬子板块(中)新元古代巨量的陆壳物质在早三叠纪(246～244Ma)俯冲到华北板块之下约65km的深处。发生了石英榴辉岩相进变质,相应的变质温压条件为T=542～693℃,P=1.7～2.02GPa。这些高压石英榴辉岩相岩石在中-新三叠纪继续向下俯冲,在235～225Ma期间,俯冲的深度至少达到了170km的地幔深处,并发生了峰期柯石英榴辉岩相超高压变质,相应的变质温压条件为T=722～866℃,P>5.5GPa。苏鲁-大别超高压地体自石英榴辉岩相进变质阶段到超高压峰期变质阶段的俯冲速率为7.0km/Myr。这些超高压岩石在219～216Ma期间,发生了第一次构造抬升至75km的深处,并经历了石英榴辉岩相退变质作用的改造,退变质温压条件为T=730～780℃,P=1.7～2.6GPa。这些退变质岩石在212～205Ma期间,又经历了第二次抬升至25km中-下地壳深处,并叠加了角闪岩相退变质作用,该阶段变质温压条件为T=610～710℃,P=0.7～1.2GPa。苏鲁-大别超高压地体两次构造抬升的速率大致相同,为5.6km/Myr。该项成果不仅确定了苏鲁-大别榴辉岩及其强退变质岩石深俯冲过程石英榴辉岩相进变质-超高压峰期变质、构造折返过程石英榴辉岩相-角闪岩相退变质连续而完整的变质演化P-T-t轨迹及精细的年代谱系,而且对于重新建立苏鲁-大别巨量陆壳物质快速超深俯冲-快速折返的动力学模式有着重要的科学意义。     

大别山北部榴辉岩的Sm-Nd年龄测定及其对麻粒相退变质时间的制约

报道了大别山北部三个榴辉岩样品的矿物 Sm- Nd等时线年龄，它们分别为 (210± 6) Ma或 (214± 6) Ma、 (208± 38) Ma和 (208± 4) Ma。氧同位素研究表明，这些样品中的石榴子石与绿辉石之间处于氧同位素平衡状态，因此，该 Sm- Nd等时线定年结果可靠。本区榴辉岩的高压麻粒岩相退变质阶段的冷却年龄为 210 Ma左右；榴辉岩的钕同位素初始比ε Nd(t)(两个样品一个为－ 10左右，另一个为－ 2)基本上表现为陆壳岩石特征，可能类似于南部超高压带中的榴辉岩，为印支期扬子陆壳俯冲变质成因。它们的全岩δ 18O值较低，为＋ 2.4‰～＋ 3.6‰，可能指示其原岩同大别山南部超高压带中榴辉岩一样，在板块俯冲之前，经受过高温地表水热液蚀变。年代学结果表明，大别山北部榴辉岩在 230～ 210 Ma期间经历的是一等温或升温过程，这与大别山南部含柯石英榴辉岩在这一时期的快速冷却过程形成强烈对比，这对理解俯冲陆壳中不同构造岩片折返过程的差异有重要意义。     

北秦岭松树沟及其邻区高压-超高压榴辉岩的确定及其构造地质意义

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。     

苏鲁超高压榴辉岩的石榴石生长成分环带及变质作用P—T轨迹

在南苏鲁东海地区，部分超高压榴辉岩中的变斑晶石榴石具有复杂的生长成分环带和多期矿物包体组合，它们记录了超高压变质岩的多阶段变质演化过程，即绿帘角闪岩相进变质、柯石英榴辉岩相峰期变质、石英榴辉岩相和角闪岩相退变质作用。运用相关的地质温、压计，使用代表最高变质温度的变斑晶石榴石慢部（具最低的Fe／Mg比值）和与其平衡的绿辉石包体成分，获得了〉900℃和4．1～4．5GPa的超高压变质务件。联合其他变质阶段的温、压条件，一个顺时针的变质作用P—T轨迹得以建立。它的特征是进变质与退变质路径近于平行，早期退变质作用为降温、降压过程．榴辉岩石榴石生长成分环带的保存说明超高压变质岩在峰期变质阶段有非常短暂的停留时间，并以很快的折返速率抬升到地壳浅部，超高压变质岩折返过程中的明显降温是石榴石生长环带得以保存的另一个有利条件，     

北秦岭西部榴闪岩的发现与变质作用过程:锆石年代学和Hf-O同位素制约

秦岭造山带是由多期俯冲-碰撞造山和随后多阶段隆升成山形成的复合型造山带。近年来一个突破性进展是在北秦岭东部即陕西-河南交界地区以及桐柏地区的秦岭群高级变质岩中发现存在大量退变榴辉岩和高压麻粒岩,其中部分退变榴辉岩锆石包裹体中出现柯石英。这些发现证明北秦岭东部和桐柏地区的确在480~500Ma发生过深俯冲作用,随后造山带抬升形成退变榴辉岩。那么,北秦岭西部是否存在类似的(深)俯冲作用?本文首次在北秦岭西部宝鸡眉县地区发现了榴闪岩。该榴闪岩主要由石榴石和角闪石组成,含少量石英、透辉石和绿帘石。石榴石变斑晶都具有明显由退变质扩散作用形成的环带结构,绿帘石变斑晶具有与榴辉岩中绿帘石大致相同的XFe、CaO和Al2O3含量。同时,石榴石变斑晶核部还含有Amp+Cpx+Qtz包裹体,该包裹体矿物组合暗示其退变前可能是榴辉岩,而榴闪岩是在流体活动过程中退变质作用形成的。榴闪岩中锆石的离子探针SIMS定年获得很好的U-Pb谐和年龄(443.9±1.1Ma)和206Pb/238U的加权平均年龄(443.2±2.5Ma)。锆石的低Th和U含量和非常高Th/U比值(0.47~1.66)说明其并非是在"干"体系下形成的进变质锆石,应该是在流体强烈活动下形成的或是进变质锆石被退变质过程完全重置。因此,443Ma应该是榴闪岩的形成年龄即记录退变质作用发生的时间。这些锆石具有亏损的Hf同位素和类似地幔的氧同位素组成。因遭受退变质作用的强烈影响,其εHf(t)值和δ18O值有较宽的分布范围(εHf(t)=2.4~14.7;δ18O=4.25‰~6.39‰),其亏损地幔模式年龄为0.48~0.95Ga。所以,锆石的Hf-O同位素特征指示榴闪岩的原岩主要来自新元古代时期的亏损地幔来源的玄武质岩石。结合北秦岭东部地区榴辉岩发生退变质作用时代间隔可以大致判断北秦岭西部的榴闪岩的峰期变质时代可能为470~480Ma。由此发现,北秦岭东西部早古生代俯冲-碰撞事件时限上存在差异,即北秦岭早古生代俯冲-碰撞作用沿商南-宝鸡一线可能是自东向西发生的。     

中国境内可能存在一条新的高压/超高压(?)变质带——青藏高原拉萨地体中发现榴辉岩带

新发现榴辉岩带位于拉萨北东方向,产在青藏高原拉萨地体中东部。观察到的榴辉岩带宽度约500~600m,呈近东西向延伸,已知规模10km以上。榴辉岩为常见的金红石榴辉岩、石英榴辉岩和多硅白云母榴辉岩。榴辉岩的单斜辉石中含硬玉分子变化较大,Jd=16%~44%,但均落于绿辉石成分区间;石榴子石中镁铝榴石(Pyrope)端元组分16%~33%,铁铝榴石(Alm)40%~54%,钙铝榴石(Gross)22%~31%。利用Grt-Omp-Phe和Grt-Omp矿物组合对变质温-压初步估算,获得金红石榴辉岩样品06Y-334的变质p、t分别为2.58GPa、635℃和2.67GPa、730℃,样品06Y-345的t主要在680~780℃区间,样品06Y-336的t主要在640~740℃区间,3个样品获得的结果相近。显微镜观察表明多硅白云母可能为折返阶段的退变质矿物而不属变质峰期的矿物,推测峰期的压力值有可能高于2.67GPa而进入柯石英稳定区间(p>2.8GPa)。石榴子石和绿辉石中出现的一些类似柯石英假象的石英包裹体与这一推断相吻合。以上初步研究结果表明,拉萨地体的榴辉岩带可能是中国境内又一条高压/超高压(?)变质带。     

拉萨地块吉朗榴辉岩的岩石学研究及其对古特提斯洋壳俯冲折返过程的限定

拉萨地块东部松多(超)高压榴辉岩记录了古特提斯洋俯冲及折返过程。松多榴辉岩带已发现松多、新达多、白朗和吉朗4个榴辉岩出露区,它们的峰期温压条件及变质p-T轨迹的研究对揭示拉萨地块古特提斯时期的俯冲及折返过程有重要意义。松多榴辉岩带东段吉朗榴辉岩的主要矿物为石榴子石、绿辉石、多硅白云母、角闪石、金红石、绿帘石、石英以及退变形成的后成合晶结构(透辉石+角闪石+斜长石)和少量的黑云母。石榴子石具有含丰富矿物包裹体的"脏"核和极少包裹体的"净"边,具有典型的进变质成分环带特征,从核部到边部镁铝榴石组分升高,锰铝榴石和钙铝榴石组分降低。石榴子石边部发育窄的角闪石+斜长石(An=28)组成的冠状体,表明石榴子石边部发生了后期角闪岩相退变质作用。通过变质相平衡模拟计算得到石榴子石以及多硅白云母记录的峰期温压条件为563℃、2. 4 GPa。结合岩相学特征,确定吉朗榴辉岩经历了4期变质演化阶段:(1)进变质阶段以石榴子石核部及其包裹体为代表性矿物组合;(2)峰期变质阶段矿物组合为石榴子石边部、绿辉石、多硅白云母、蓝闪石、硬柱石、金红石和石英;(3)早期退变质阶段以硬柱石分解产生绿帘石为特征;(4)晚期退变质阶段以绿辉石发育后成合晶和石榴子石生长冠状体为特征。认为吉朗榴辉岩为典型的低温高压榴辉岩,经历了顺时针p-T演化轨迹,折返过程为近等温降压过程。与松多带内其他(超)高压岩石相比,吉朗榴辉岩峰期温压条件较低,其围岩为变石英岩,区别于区内其他(超)高压榴辉岩的石榴子石白云母片岩及蛇纹岩围岩。推测吉朗榴辉岩来自于俯冲带浅部,由俯冲隧道中低密度沉积物裹挟折返。     

北秦岭高压-超高压岩石的多期变质时代及其地质意义

在岩相学观察和锆石CL图像研究的基础上,利用LA-ICP-MS原位微区定年分析方法,本文确定北秦岭清油河退变榴辉岩的峰期变质时代为490±6Ma,退变质时代为453±9Ma,原岩形成时代为655±9Ma;松树沟超高压长英质片麻岩的峰期变质时代为497±8Ma,两期退变质时代分别为448±4Ma和421±2Ma,原岩形成时代上限832±25Ma;寨根石榴石辉石岩的峰期变质时代为498±2Ma,中压麻粒岩相退变质时代为450±3Ma,角闪岩相退变质时代为426±1Ma,原岩形成时代为573±40Ma;西峡北榴闪岩的角闪岩相变质时代为423±3Ma,原岩形成时代为843±7Ma。新确定的这些岩石的峰期变质时代与前人已报导的区内高压-超高压岩石的峰期变质时代在误差范围内基本一致,结合区内高压-超高压岩石不仅分布在秦岭岩群北缘的官坡-双槐树一带,而且断续出露在秦岭岩群中部或偏南侧的清油河北-松树沟-寨根北甚至西峡北东西一线,进一步表明它们应是同一期构造地质事件的产物。北秦岭已发现的全部正变质的高压-超高压岩石均呈透镜体状分布在围岩片麻岩中,松树沟超高压长英质片麻岩的原岩为典型的陆壳沉积物,因此,这些高压-超高压岩石的形成可能都是陆壳俯冲-深俯冲作用的产物。结合岩相学观察、锆石CL图像和锆石U-Pb定年表明,这些高压-超高压岩石在～500Ma经历了峰期变质作用后,又分别在～450Ma和～420Ma遭受了中压麻粒岩相和或角闪岩相退变质作用的叠加,充分说明这些高压-超高压岩石经历了一个完整的由陆壳俯冲-深俯冲、之后连续两次抬升的构造演化过程。另外,本次研究新获得的这些岩石的原岩形成时代介于843±7Ma～573±40Ma之间,结合官坡榴辉岩的原岩形成时代为791～814Ma以及松树沟榴闪岩原岩时代为787±16Ma的研究,共同表明北秦岭高压-超高压岩石的原岩形成时代均为新元古代,因此,限定俯冲-深俯冲的陆壳物质应来自形成时代为新元古代的大陆地壳或地质体。结合区域地质背景和前人研究成果综合分析,本文初步认为,北秦岭高压-超高压变质岩带的形成是商丹洋向北俯冲拖曳南秦岭新元古代陆壳物质在～500Ma发生陆壳俯冲-深俯冲作用的产物,之后在～450Ma与～420Ma经历了两期抬升。     

对中国中部和挪威西部陆壳超高压变质作用证据的评价

在中国中部的大别山带,已反复证实变基性岩(榴辉岩)和变沉积岩(大理岩、泥质岩等)的石榴石中有柯石英包体产出,这为区域规模的超高压变质作用提供了令人信服的证据。柯石英稳定需要的最小压力为2.8GPa,由于近来在石榴石中已识别出金刚石包体,说明在大别山至少部分地段的压力达3.6GPa。这表明在发育于中朝和扬子克拉通之间的碰撞带内,陆壳在约240Ma期间至少被俯冲到100km的深度。挪威西部可能的加里     

Tectonic Affinity, T-t Path and Uplift Trajectory of Eclogites from Northern Dabie Mountains, Central-Eastern China

INTRODUCTIONTheDabieMountainsaretheeasternsectionoftheE WtrendingQinling DabieorogenicbeltbetweentheNorthChinablockandYangtzeblock ,andistransectedatitseasternendbyTan Lufault.Ultrahigh pressuremetamorphic (UHPM)rocksincludingcoesites (Okayetal.,1989;Wangetal.,1989)andmicrodiamonds (Xuetal.,1992b)bearingeclogitesareexposedintheDabieMountainsandSu Luorogen ,whichisthelargestUHPMbeltontheearthsurface .TheUHPMrocksarecomposedofdifferentkindsofmetamorphicrockssuchascoesite anddiamo…     

Petrology, Metamorphic Process and Genesis of The Dabie--Sulu Eclogite Belt, Eastern--Central China

The Qinling-Dabie-Sulu high-pressure and ultra-high pressure metamorphic belt wasformed by subduction and collision between the North China and Yangtze plates. The study ofthe eclogite belt is very important in understanding the evolution of the Qinling Dabie orogen. Inthe present paper the geology, petrology, minerology and chronology of the eclogites in the Dabieand Sulu areas are described. The principal conclusions of this work are as follows: (1) Based up-on the field occurrence and the P-T conditions of the eclogites, two types of eclogite can be dis-tinguished: Type 1—the low-temperature and high-pressure eclogite in the mid-late Proterozoicmetamorphic series, and Type 2—the ultra-high pressure eclogite in the late Archaean to earlyProterozoic metamorphic complex. In the Dabie area, the ultra-high-pressure eclogite,high-pressure eclogite and epidote-blueschist units are nearly parallel to each other and stretchintermittently from north to south. (2) The P-T conditions of the high-pressure eclogites and ul-tra-high pressure eclogites have been estimated. The former are formed at 450-550℃ and1.4-1.6 GPa; while the latter at 650-870℃ and >2.7-2.9 GPa in the Dabie area and at820-1000℃ and >2.8-3.1 GPa in the Sulu area. The metamorphic temperatures of the eclogitesincrease progressively from west to east. (3) The ultra-high pressure eclogites were subjected to 5stages of metamorphism: pre-eclogite epidote amphibolite facies, peak coesite eclogite facies,post-eclogite amphibolite facies, epidote-blueschist facies or epidote amphibolite facies andgreenschist facies. The general features of the PTt path of the ultra-high pressure eclogite are:clockwise pattern, progressive metamorphism being a process of slow increasing temperature andrapid increasing pressure, and the retrogressive section with nearly isothermal decompression atthe early stage, isobaric cooling at the middle stage and nearly isothermal decompression at thelate stage. (4) At least two stages of high-pressure metamorphism occurred in the orogenic belt:the high-pressure eclogite and ultra-high pressure eclogite were formed by the subduction of theoceanic crust northward beneath the North China plate or the Dabie block during theCaledonian; while the epidote-blueschist belt came into being by subdution and collision be-tween the two continental plates during the Indosinian. (5) Due to the continuous sequentialsubduction of the cold plate, the ultra high-presssure metamorphic rocks were uplifted to thecrust by the underplating processes. They can be preserved just because of the "frozen effect" re-sulting from the continuous subduction of the cold plate. (6) The carbonates, such as magnesite,breunnerite, aragonite and dolomite, and the H_2O-bearing minerals, such as phengite, epidoteand zoisite, were stable during the high-pressure and/or ultra-high pressure metamorphism.     

西藏松多榴辉岩变质作用研究

西藏拉萨地块松多附近新发现一条榴辉岩带,长约100 km,宽约2~3 km。松多榴辉岩主要经历了进变质的绿帘石榴辉岩相-峰期的榴辉岩相-退变质的角闪岩相3个阶段。岩石学研究表明,峰期的特征矿物组合是石榴子石绿辉石多硅白云母金红石,峰期温压条件是760~800 ℃,33~39 GPa。这表明松多地区可能曾经历超高压变质作用,之后快速返回,p T轨迹呈“发卡”状,后期退变质经历了角闪石榴辉岩相阶段。研究松多榴辉岩表明,拉萨地块内部有一条新的缝合带,这对于了解拉萨地块和古特提斯洋的演化有重要意义。     

Ultrahigh Pressure Metamorphism and Tectonic Evolution of Southwestern Tianshan Orogenic Belt,China: A Comprehensive Review

Recently, a huge ultrahigh‐pressure (UHP) metamorphic belt of oceanic‐type has been recognized in southwestern (SW) Tianshan, China. Petrological studies show that the UHP metamorphic rocks of SW Tianshan orogenic belt include mafic eclogites and blueschists, felsic garnet phengite schists, marbles and serpentinites. The well‐preserved coesite inclusions were commonly found in eclogites, garnet phengite schists and marbles. Ti‐clinohumite and Ti‐chondrodite have been identified in UHP metamorphic serpentinites. Based on the PT pseudosection calculation and combined U‐Pb zircon dating, the P‐T‐t path has been outlined as four stages: cold subduction to UHP conditions before ～320 Ma whose peak ultrahigh pressure is about 30 kbar at 500oC, heating decompression from the Pmax to the Tmax stage before 305 Ma whose peak temperature is about 600oC at 22kbar, then the early cold exhumation from amphibolite eclogite facies to epidote‐amphibolite facies metamorphism characterized by ITD PT path before 220 Ma and the last tectonic exhumation from epidote amphibolite facies to greenschist facies metamorphism. Combining with the syn‐subduction arc‐like 333‐326 Ma granitic rocks and 280‐260 Ma S‐type granites in the coeval low‐pressure and high‐temperature (LP‐HT) metamorphic belt, the tectonic evolution of Tianshan UHP metamorphic belt during late Cambrian to early Triassic has been proposed.     

南黄海千里岩岛榴辉岩变质演化P-T-t轨迹及其构造意义

南黄海千里岩岛榴辉岩对进一步深入完善大别-苏鲁造山带的研究具有重要意义.岩相学和矿物学研究显示榴辉岩主要经历了俯冲进变质(Ⅰ)、峰期榴辉岩相变质(Ⅱ)、角闪岩相退变质(Ⅲ)和绿片岩相退变质(Ⅳ)阶段.各阶段的温压条件分别为: Ⅱ阶段T=806.3 ℃, P=3.32 GPa; Ⅲ阶段T=658.68 ℃, P=0.78 GPa; Ⅳ阶段T＜550 ℃, P＜0.3 GPa.锆石SHRIMP U-Pb测年指示千里岩榴辉岩的原岩形成于新元古代(约747±19 Ma), 超高压变质作用发生在早三叠世(约241.1±1.5 Ma), 角闪岩相退变质发生在三叠纪末(约205.8 Ma).在此基础上, 建立了千里岩岛榴辉岩的P-T-t演化轨迹, 反映出榴辉岩经历了2个折返阶段.这一P-T-t轨迹整体上与苏鲁地区榴辉岩类似, 指示该区所在的千里岩隆起区是苏鲁造山带在海区的延伸.      

High-pressure metamorphism in metabasites from the Betic Cordilleras (S.E. Spain) and its evolution during the Alpine orogeny

The Nevado-Filábride complex is the lowest tectonic unit of the Betic Zone sensu stricto (ss) of the Betic Cordilleras (S.E. Spain). The upper series of this complex consists of a metamorphosed sequence intruded by basic and ultrabasic igneous rocks. High-pressure metamorphism in the eclogite and blueschist facies is recorded in the metabasites, but this was partially obliterated by further successive metamorphic stages in the almandine-amphibolite and greenschist facies.Coronitic and granoblastic eclogites appear side by side in the large stocks of basic rocks. The coronitic eclogites originate from coarse-to medium-grained olivine gabbros, and the granoblastic eclogites from fine-grained basic rocks (dolerites and porphyritic basaltic rocks). Higher chemical mobility and rate of diffusion, as well as the availability of fluids during the eclogite facies metamorphism, are responsible for the greater degree of recrystallization found in the granoblastic eclogites. The availability of fluids during this metamorphic stage was controlled by the difference in the hydration of the protolith and by variable proximity to surrounding water-rich metasediments.The minerals in the eclogites are chemically homogeneous, suggesting that they are almost completely equilibrated, even in the coronitic eclogites. The estimated equilibrium P-T conditions were found to be the same (approximately 550° C at 12 kbar pressure) in both coronitic and granoblastic eclogites, and it has, therefore, been deduced that the coronitic eclogites do not represent the first and lower-grade step of a prograde metamorphism in which the granoblastic eclogites are the higher-grade step.No relationship was found between shearing and eclogite crystallization. Nevertheless, a first fabric/foliation developed in the later blueschist facies stage, and syntectonic growth of the minerals was detected in glaucophane-bearing rocks.The further metamorphic evolution of the metabasites from high-to intermediate-pressure conditions is documented by the formation of minerals belonging to albiteepidote and almandine-amphibolite facies assemblages. The application of the amphibole zonation model, in order to deduce the P-T path, does not give realistic values.High-pressure metamorphism is related to an early subduction event in the Betic Cordilleras, with a later more-or-less isothermal uplift to shallower levels.     

北秦岭造山带的早古生代多期变质作用

北秦岭造山带的秦岭岩群以高级变质岩石为特征,主要包括少量榴辉岩、高压麻粒岩和区域上广泛分布的麻粒岩-角闪岩相变质岩石。年代学研究显示秦岭岩群中不同岩石记录了多期变质作用。已有的定年资料给出北秦岭官坡地区的榴辉岩的年龄为500Ma左右,代表榴辉岩相的变质时代。结合岩相学资料,对两个高压麻粒岩样品的SHRIMP和LA-ICPMS U-Pb测定分别获得504±7Ma 和506±3Ma的年龄,应代表高压麻粒岩相变质时代。这表明高压麻粒岩和相邻的榴辉岩有相近的变质时代,但形成在造山带中不同的构热造环境中。西峡地区的角闪二辉麻粒岩的U-Pb定年给出两组早古生代年龄,一组为440±2Ma,可能代表了中低压麻粒岩相的变质时代,另一组为426±1Ma,应代表区域角闪岩相的变质时代。桐柏山北部的石榴二辉麻粒岩的U-Pb定年数据给出436±1Ma的年龄,为中压麻粒岩相的变质时代。这些资料表明北秦岭造山带经历了早奥陶世的俯冲和地壳增厚作用,并在晚志留世遭受了广泛的巴罗式区域变质作用。     

Metamorphic evolution of eclogite facies rocks in Northern Hubei and Southern Henan, China

Eclogite fades rocks in this area are diverse in rock type. The field occurrence and rock-chemistry reflect theirin-situ origin. Based on their regional geology and field occurrence, two groups of eclogites are divided in terms of their peak temperature of metamorphism. Medium-temperature eclogites (MT), as Group B, occur in the Dabie Group. They were formed from epidote-amphibolite facies. The metamorphism of eclogite facies has two stages: the coesite eclogite facies stage (the peak condition:T = 600 -700°C,P = 2.7-3.0 GPa) and the glaucophane eclogite facies stage (the pressure decreases, may be lower than 2.5 GPa while the temperature has little change). Low temperature eclogites (LT), as Group C, occur in the Qijiaoshan Formation. They were formed from blue schist facies (the peak condition:T = 490–560°C,P< 1.5 GPa). The appearance of hydrous minerals in the eclogites indicates the important role of water in metamorphism. Medium-temperature eclogites are different from low-temperature ones in metamorphism. At last, the evolution of the high-pressure metamorphic belt is discussed as well. This research project was financially supported by the National Natural Science Foundation of China (No. 49372100).     

Multistage Svecofennian metamorphism: Evidence from the composition and U-Pb age of titanite from eclogites of the Belomorian Mobile Belt

The first geochemical study of titanite from eclogites and associated rocks of the Belomorian Mobile Belt (BMB) by secondary ion mass spectrometry made it possible to establish the compositional features of this mineral in the garnet-bearing and garnet-free assemblages. Titanite from garnet-bearing assemblages is characterized by upward convex REE pattern and lowered HREE content relative to LREE, as well as the average Gd_N/Yb_N ratio around 16.5. Titanite from metaultrabasic rock inherits the specific features of the host rock, which should be taken into account when comparing with titanite from metagabbro. Results of U-Pb (TIMS) dating of titanite confirms the identification of the early and late stages of the Svecofennian metamorphism in the studied areas of BMB: early metamorphism with the peak eclogite facies conditions at around 1900 Ma, retrograde amphibolite facies metamorphism at 1870–1880 Ma, and late allochemical metamorphism accompanied by the pegmatite formation with an age of 1840 Ma.     

Constraints on the early cooling rates of Mt. Dabie from diffusion modeling of chemical zoning of garnet

Diffusion modeling of zoning profiles in eclogite garnets from three different tectonic units of Mt. Dabie, UHPM unit, HPM unit and northern Dabie, was used to estimate the relative time span and cooling rates of these rocks. Modeling result for the Huangzhen eclogite garnet shows that the maximal time span for the diffusion-adjustment process is about 22 Ma since the peak-temperature metamorphism, which is the maximum time span from amphibolite facies metamorphism to greenschist facies metamorphism. The Bixiling eclogites had subjected to a cooling process at a rate of - 10℃/Ma from 750℃ to 560℃ during 20 Ma. The second cooling stage of the Raobazhai eclogite following granulite-facies metamorphism is an initial fast cooling process at a rate of about 25℃/Ma and then slowed down gradually. All these belong to a coherent Dabie collision orogen with differences in subduction depth and exhumation/uplifting path.