大别造山带花岗岩类和正片麻岩的Rb／Sr分区

根据花岗岩类和片麻岩的Ｒｂ／Ｓｒ比值和其他岩相学和地球化学性质,大别造山带可以分为下列四个带：（１）北大别北带：是一个灰色片麻岩和基性、超基性岩带,其灰色片麻岩的Ｒｂ／Ｓｒ比值为０．０１～０．０９;（２）北大别南带：为中酸性岩浆活动和强裂混合岩化的区域,其片麻岩的Ｒｂ／Ｓｒ比值为０．１１％～０．４０,花岗岩类为０．３％～０．９;（３）南大别带：为一构造混杂带,超高压变质作用和岩浆活动和混合岩化均有     

东昆仑夏日哈木退变质榴辉岩地球化学、年代学特征及其地质意义

本文对东昆仑夏日哈木退变质榴辉岩开展岩石地球化学和年代学研究,探讨其原岩性质和构造背景。岩石SiO₂含量为46.77%~49.31%,Al₂O₃含量为13.6%~14.6%,TiO₂含量为0.93%~2.29%,全碱（K₂O+Na₂O）含量为1.61%~2.66%,原岩属亚碱性玄武岩系列中的拉斑玄武岩。（La/Yb）_N=0.98~1.63,（La/Sm）_N=0.98~1.41,δEu=1.10~1.28,稀土元素球粒陨石标准化图呈弱Eu正异常的右倾型,岩石相对富集大离子亲石元素Rb、Ba和不相容元素U,相对亏损高场强元素Zr、Hf,Hf/Th=0.59~0.97,Th/Yb=0.13~0.27,显示其原岩具E-MORB特征。退变质榴辉岩的锆石Th/U比值为0.002~0.091,为变质成因锆石,其锆石SIMS U-Pb年龄为414.2 ±7.3 Ma,代表了退变质榴辉岩的峰变质年龄,结合区域地质背景,认为该岩石形成于早泥盆世早期由碰撞作用向碰撞后伸展作用转换的构造环境。     

准噶尔板块东南缘沙尔德兰地区A型花岗岩构造环境研究

研究区属于准噶尔板块东南缘,即传统意义上的北天山东段,分布有两类A型花岗岩,一种是钾长花岗岩,另一种是正长花岗斑岩。其中阔台克力克能厄肯钾长花岗岩产于大南湖岛弧带,白坡南钾长花岗岩和正长花岗斑岩均产于觉罗塔格岛弧带。白坡南与阔台克力克能厄肯钾长花岗岩同为弱过铝质,岩石化学属高钾钙碱性系列,稀土元素配分曲线为轻稀土富集型,具有明显的负Eu异常; 富集大离子亲石元素,显著亏损Sr、Nb、P₂O₅、TiO₂,具有火山弧花岗岩的地球化学特征。正长花岗斑岩从准铝质过渡到弱过铝质,岩石化学从高钾钙碱性系列过渡到钾玄岩系列,轻重稀土元素分馏不明显,具有显著的负Eu异常; 富集高场强元素,亏损Ba、Sr、P₂O₅及TiO₂,具有板内花岗岩的地球化学特征。这些钾长花岗岩和正长花岗斑岩均属于A₂型花岗岩。根据前人在北疆地区获取的研究成果,可将该区域岛弧环境结束与后碰撞岩石圈伸展环境开始的分界时限厘定为320Ma。根据我们的研究,白坡南钾长花岗岩体的锆石U-Pb谐和年龄为338.3±4.3Ma,正长花岗斑岩的锆石U-Pb谐和年龄为278±2Ma。年代学与岩石地球化学研究表明,白坡南钾长花岗岩形成于B型俯冲阶段的岛弧环境,而正长花岗斑岩形成于后碰撞岩石圈伸展环境。由此证明,A型花岗岩不仅产于非造山和后碰撞伸展环境,还可以产于岛弧环境。     

中天山白石头泉岩体年代学、岩石成因及构造意义

白石头泉岩体位于中天山北缘边界断裂(沙泉子断裂)南侧。该岩体从下至上可分为五个连续过渡的岩相带,即淡色花岗岩(a带),含天河石花岗岩(b带),天河石花岗岩(c带),含黄玉天河石花岗岩(d带)以及黄玉钠长花岗岩(e带),其中,b、c、d和e带均为a带分异的产物。白石头泉岩体的LA-ICP-MS锆石U-Pb定年结果表明,该岩体侵位于早二叠世早期(295.6±1.3Ma),并于印支期(~214Ma)经历了一次热事件的改造。淡色花岗岩在主量元素上富硅(SiO₂= 74.93%~76.18%)、富碱(K₂O + Na₂O=8.07%~8.80%)、富钠(K₂O / Na₂O=0.82~0.89),贫钙、镁,而在微量元素上富Rb、F和Ga(Al/Ga比值为2217~3134),贫Ba、Sr和Eu并具强烈的铕负异常(δEu=0.0020~0.0091),反映出其源区为富含白云母的片岩(或片麻岩),成岩压力较低,温度大于860℃。结合区域地质特征,作者等认为白石头泉岩体形成于相对拉张的构造背景,是中-上地壳源岩经历高温贫水熔融的产物,其形成与幔源岩浆内侵作用有关。     

藏南定结地区早中新世淡色花岗岩的形成机制及其构造动力学意义

定结日玛那穹窿位于高喜马拉雅带中段,由花岗片麻岩、变泥质岩、变基性岩及大量淡色花岗岩等组成,经历了角闪岩-麻粒岩相变质作用。为厘定淡色花岗岩的形成机制以及与高级变质岩的关系,我们对淡色花岗岩和高级变质岩进行了全岩元素和Sr和Nd同位素组成和SHRIMP锆石U-Pb地质年代学测试。全岩元素和Sr-Nd同位素测试结果揭示淡色花岗岩具有以下特征:(1)高SiO₂ (>72%),高Al₂O₃ (>12%)和高A/CNK比值 (>1.0);(2)高Rb,低Sr,高Rb/Sr比值(>1.0);(3)高∑REE和明显的负Eu异常;(4)高Sr同位素初始比值(0.7621~0.8846)和低ε_Nd(t)值(-13.0~-20.2)。淡色花岗岩的高Rb/Sr比值和Sr-Nd同位素系统特征表明其形成机制为主要为白云母脱水部分熔融作用,源区为由花岗片麻岩和变泥质岩组成的混合源区。SHRIMP锆石U-Pb年代学研究揭示出定结地区淡色花岗岩具有21.0±0.7Ma和15.8±0.1Ma 2期年龄,花岗片麻岩的锆石变质增生边年龄为22.2±1.4Ma,与该区的榴辉岩退变质年龄一致。这些数据共同表明,花岗片麻岩和 变泥质岩在22~21Ma发生高级变质和深熔作用,形成早期淡色花岗岩岩浆,在~16Ma进一步深熔,形成晚期淡色花岗岩岩浆。     

大兴安岭北段岔路口斑岩钼矿床成矿年代学、岩石地球化学及其地质意义

黑龙江省岔路口超大型斑岩钼矿床位于大兴安岭北部,是目前中国东北地区最大的钼矿床,矿体赋存于中酸性杂岩体及侏罗系火山-沉积岩内,其中,晚侏罗世花岗斑岩、石英斑岩、细粒花岗岩与钼矿化关系密切。6件辉钼矿样品的铼-锇等时线年龄为（148±1）Ma。中侏罗世二长花岗岩属钾玄岩系列,w（SiO₂）为69.48% ~ 74.98%,w（Al₂O₃）为12.35%~14.48%,w（K₂O+Na₂O）为7.67%~10.42%,K₂O/Na₂O比值介于1.07~2.81。轻、重稀土元素分馏较强,具有较弱的铕负异常,HFSE和LILE分异明显,Rb、K等元素富集,Ta、Nb、P、Ti等元素亏损,显示正ε_Hf（t）值;晚侏罗世花岗斑岩、石英斑岩属钾玄岩系列,而细粒花岗岩属高钾钙碱性系列,w（SiO₂）为73.87%~78.95%,w（Al₂O₃）为10.35%~13.47%,w（K₂O+Na₂O）为8.06%~10.02%,K₂O/Na₂O比值介于1.03~8.20。轻、重稀土元素分馏较强,具有明显的铕负异常,HFSE和LILE分异明显,Rb、K、Th等元素富集,P、Ti、Ba、Sr等元素亏损,显示正ε_Hf（t）值。二长花岗岩、花岗斑岩、石英斑岩及细粒花岗岩均为高硅、富碱的高分异I型花岗岩,岩浆源区组成类似,主要来自于新元古代期间亏损地幔增生的年轻下地壳物质。岔路口斑岩钼矿床是晚侏罗世大陆内部构造-岩浆活化的产物,形成于蒙古-鄂霍次克造山带后碰撞伸展环境,同时,可能受到古太平洋板块俯冲诱发的弧后伸展作用的叠加。     

华北板块北缘中段早中二叠世的构造属性：来自花岗岩类锆石U-Pb年代学及地球化学的制约

内蒙古温都尔庙南-铁沙盖黑云角闪石英闪长岩和角闪黑云花岗闪长岩位于华北板块北缘中段晚古生代构造岩浆活动带中;锆石LA-ICP-MS U-Pb定年结果显示,其形成时代分别为271.8±2.4Ma,271.4±1.3Ma、268.7±1.3Ma。主量元素SiO₂含量61.42%~71.73%,K₂O含量3.10%~5.11%,K₂O/Na₂O值介于0.93~1.96之间,Mg^#值介于42.54~49.93之间,A/CNK为0.90~1.03;副矿物为锆石、磷灰石和磁铁矿,属亚碱性高钾钙碱性系列、I型花岗岩类;富集轻稀土(LREEs)、大离子亲石元素(LILEs,Cs、Rb、K、Ba、Th和U),亏损重稀土元素(HREEs)及高场强元素(HFSEs,Nb、Ta和Ti),弱Eu负异常(δEu=0.55~0.95),形成于活动大陆边缘弧环境,是上地壳部分熔融的产物。黑云角闪石英闪长岩和角闪黑云花岗闪长岩中发育大量暗色微粒包体(黑云闪长岩),包体可能是岩石圈地幔部分熔融的产物,相对于寄主岩石贫Si、K富Fe、Mg、Ca、Ti、大离子亲石元素(LILEs,Rb、Cs、Sr和U)和高场强元素(HFSEs,Nb、Ta、Zr、Hf)。本文花岗岩类的侵位反映了早中二叠世古亚洲洋俯冲于华北板块北缘之下及岩浆混合作用的岩浆事件。     

内蒙大青山地区黑云母花岗岩SHRIMP U-Pb定年及其构造意义

大青山黑云母花岗岩主要由钾长石（45%）、斜长石（15%~25%）、石英（25%）、黑云母（5%~10%）组成。主元素SiO₂含量69.48%~72.40%,K₂O+ Na₂O含量7.74%~9.58%,K₂O＞Na₂O,A/CNK为1.0~1.17,具过铝质-强过铝质花岗岩特征;稀土元素分馏较强,REE配分型式具中等负Eu异常;微量元素在原始地幔（PM）标准化蛛网图上显示Rb、Th、K、Nd相对富集,Nb、Sr、Ti相对亏损,岩石地球化学特征与碰撞花岗岩类似。本文对大青山地区料木山黑云母花岗岩进行高精度锆石SHRIMP U-Pb定年研究,其形成时间为2430±19Ma,可能代表鄂尔多斯陆块与阴山微陆块碰撞造山岩浆热事件年龄。区域上埃达克质岩、赞歧岩、Colcepet花岗岩同位素年龄均为2470~2330Ma, 预示着这一地区在古元古代早期可能已经出现与板块消减相关的陆-陆碰撞造山带。古元古代花岗岩的岩石地球化学和同位素年代学特征表明乌拉山-大青山麻粒岩相带是一条古元古代造山带。     

早三叠世北澜沧江结合带碰撞作用:类乌齐花岗质片麻岩年代学、地球化学及Hf同位素证据

西藏东部类乌齐一带吉塘岩群中新识别出一套花岗质片麻岩,其Cameca锆石U-Pb年龄为246.3±0.8Ma,表明该变质花岗岩形成于早三叠世。该套变质侵入体具高SiO₂(68.21%~74.82%)、富K₂O(K₂O/Na₂O>1)和低P₂O₅(<0.26%)特征,铝饱和指数(ACNK)为1.01~1.19,属准铝质到过铝质岩石;富集Rb、Th和U,亏损Ba、Nb、Ta、Sr、P和Eu等;并具不均一的锆石ε_Hf(t)值(-1.3~+3.7)和古老的锆石Hf同位素地壳模式年龄(1.0~1.4Ga),具有碰撞型花岗岩的地球化学特征。类乌齐变质侵入体很可能形成于澜沧江结合带所代表的洋盆闭合后碰撞的地球动力学背景,可能是幔源岩浆诱发古老地壳物质重熔并与之混合形成母岩浆,再经历高程度分离结晶作用而形成,为北澜沧江结合带碰撞造山过程的产物,暗示澜沧江结合带在早三叠世存在岩浆增生事件,藏东类乌齐地区在246Ma之前己进入陆-陆碰撞时期。     

甘肃北山勒巴泉南一带新元古代变质侵入岩的地质地球化学特征及成因探讨

在甘肃北山勒巴泉一带赋存一套变质侵入岩。岩性主要为闪长质片麻岩、石英闪长质片麻岩、英云闪长质片麻岩、花岗闪长质片麻岩及二长花岗质片麻岩。Rb-Sr全岩等时线定年获得似斑状中细粒花岗闪长质片麻岩年龄值727±50Ma,锆石Pb-Pb定年获得中细粒花岗闪长质片麻岩年龄值766±49Ma,结合其与围岩的接触关系及强变形变质特征,形成时代为南华纪中晚期。其岩石地球化学特点为:岩石A12O3CaO+Na2O+K2O,A/CNK=1.30~1.38,属过铝质类型;σ=2.08~3.78,NK/A=0.32~0.61,属钙碱性系列。在微量元素组成上,富集LREE和大离子亲石元素(LILE),而亏损HREE、高场强元素(Nb、Ta、Yb),Eu异常具弱—明显Eu负异常—弱的Eu正异常(δEu=0.24~1.20)。这些花岗岩类总体具有俯冲的构造背景,岩浆的产生可能与北山地区在新元古代末古陆壳裂解作用有关。     

Geochemical Characteristics and Genesis of the Granitic Gneisses from the Southeastern Dabie Mountains

The granitic gneisses from the ultrahigh-pressure (UHP) metamorphic terrain of the southeastern Dabie Mountains encompass two types: monzonitic granitic gneiss and alkali-feldspar granitic gneiss, which are characterized by rich alkalis, poor CaO, high FeO/MgO, particularly high Ba, Rb, Th, Ta, REE (except Eu), Ga, Nb and Zn, and low Sr, Eu, Cr, Co and Ni. The gneisses, particularly the alkali-feldspar granitic gneiss, have typical chemical characteristics of A-type granites. They resulted from partial melting of crustal materials existing in the rift zone along the northern margin of the South China block during the Neoproterozoic. These gneisses might not have undergone UHP metamorphism during the late Triassic, but were involved into UHP rocks by the tectonic mixing process and kept the exhumation message of the UHP rocks from the middle and upper crust.     

大别山东部花岗片麻岩的锆石U-Pb年龄

花岗片麻岩是大别山区除超高压变质杂岩外的另一种重要岩石类型,本文测得南大别二长花岗片麻岩中单颗粒锆石U-Pb不一致线的上交点年龄为789±43 Ma.位于五河一水吼韧性剪切带南缘的糜棱岩化二长花岗片麻岩中锆石的²⁰⁷Pb/²⁰⁶Pb表面年龄接近一致年龄,为715～777 Ma,平均757 Ma,U-Pb不一致线的上交点年龄为815±70 Ma,下交点年龄为482±167 Ma.北大别石英二长片麻岩中锆石²⁰⁷Pb/206表面年龄的变化范围较广,介于594～700 Ma,平均为649 Ma,U-Pb不一致线的上、下交点年龄分别为814±97 Ma和477±77 Ma.这说明这些正片麻岩的侵位时间范围大致为750～850 Ma的晚元古代;南、北大别正片麻岩中的锆石年代学显示它们可能具有相似的形成与演化历史;约480 Ma前后的加里东运动对大别山地区可能也有影响.     

大陆俯冲隧道中的应变不均一分布：来自大别山超高压变质岩的记录

俯冲隧道是俯冲板片与上覆板块之间的剪切带,也是高压—超高压变质岩折返和深部流/熔体活动的通道。大别山超高压变质岩分布广泛,变形程度差异很大,是研究大陆俯冲隧道中岩石变质- 变形过程的理想地区。本文系统总结了前人对中大别双河地区超高压变质岩的岩石学和年代学研究成果,在双河地区开展了地质填图、应变分析和三维构造重建。通过将超高压变质岩的变形特征与P- T- t轨迹结合,识别出超高压变质岩折返过程中的三期韧性变形。在双河北部发现了一个上盘向NW剪切的千米尺度的榴辉岩相鞘褶皱,枢纽向SE倾伏,倾伏角约20°,与榴辉岩、片岩和长英质片麻岩的拉伸线理平行,表明超高压变质岩初始折返阶段的流体活动使榴辉岩的强度显著降低,榴辉岩与围岩一起发生韧性变形。该期变形被角闪岩相退变质阶段上盘向NW的剪切叠加,此时应变集中于片麻岩、片岩、大理岩等非能干层,强度较高的榴辉岩成为构造透镜体。而绿片岩相变质阶段上盘向SE方向的剪切与早白垩世北大别花岗片麻岩穹隆的形成有关。对双河南部弱变形花岗片麻岩的锆石U- Pb定年揭示了757±14 Ma的原岩年龄和 240~216 Ma的变质年龄,与双河北部含柯石英强变形花岗片麻岩类似,暗示其也经历了三叠纪超高压变质作用及随后的角闪岩相退变质作用。通过计算长英质片麻岩的有效黏度,发现无水碱长花岗片麻岩的有效黏度高于黑云斜长片麻岩,折返阶段的流体活动使超高压变质岩的强度显著降低,当局部的流体活动不足以弱化碱长花岗岩体时,应变集中于黑云斜长片麻岩。因此,大陆俯冲隧道中的应变分布受矿物组成、流体活动和岩体规模的共同影响。     

Oxygen and hydrogen isotope geochemistry of gneisses associated with ultrahigh pressure eclogites at Shuanghe in the Dabie Mountains

The oxygen and hydrogen isotope compositions of minerals and whole rock were determined for two types of gneiss (biotite gneiss and granitic gneiss) associated with ultrahigh pressure (UHP) eclogites in the Shuanghe district of the eastern Dabie Mountains. There are significant differences in δ¹⁸O between the two gneisses: the UHP biotite gneiss varying from −4.3‰ to 10.6‰ similar to the associated eclogites, whereas the non-UHP granitic gneiss ranges only from −3.8‰ to 1.2‰. The δD values are similar in the two gneisses with −37 to −64‰ for epidote/zoisite, −92 to −83‰ for amphibole, and −63 to −109‰ for biotite/phengite. Hydrogen isotope disequilibrium among the coexisting hydroxyl-bearing minerals is ascribed to retrograde exchange subsequent to amphibolite-facies metamorphism. Oxygen isotopic equilibrium has been preserved among various minerals in both gneisses regardless of the large variation in rock δ¹⁸O. Oxygen isotopic geothermometers yield different but regular temperatures corresponding to the closure temperatures of oxygen diffusion in the minerals. The metamorphic temperatures of both eclogite facies and amphibolite facies have been recovered in mineral pairs from the biotite gneiss. The isotopic temperatures for the granitic gneiss are mostly in accordance with amphibolite-facies metamorphism. However, high temperatures of 550 to 650 °C are obtained from those minerals resistant to retrograde oxygen isotope exchange, implying that the granitic gneiss may have experienced higher temperature metamorphism than expected from petrologic thermometers. The ¹⁸O-depletion of both gneisses is interpreted to result from meteoric-hydrothermal exchange before/during plate subduction. Therefore, the measured δ¹⁸O values of the gneisses reflect the oxygen isotope compositions of their protoliths prior to the UHP metamorphism. It is inferred that the UHP unit is in foreign contact with the non-UHP unit like a tectonic melange, but both of them experienced the two common stages of geodynamic evolution: (1) ¹⁸O-depletion prior to the UHP metamorphism, (2) uplifting since the amphibolite-facies metamorphism. Received: 5 May 1998 / Accepted: 27 August 1998     

Geochemistry of the Archean low- to high-grade transition zone,Southern India

The transition zone between Archean low- and high-grade rocks in southern India represents eroded crustal levels representative of 15–20 km. It is comprised chiefly of tonalitic gneisses with some varieties showing incipient charnockitization and of minor amounts of granitic gneiss and charnockite, both of which appear to have developed from the tonalitic gneisses.Tonalitic gneisses and charnockites are similar in major and trace elements composition while granitic gneisses are relatively enriched in Rb, K, Th, Ba and light rare earth element (REE) and depleted in Cr and Sc. All three rock types exhibit enriched light REE patterns with variable positive Eu anomalies. Total REE content decreases with increasing Eu/Eu and SiO₂ and with decreasing Fe₂O_3T and MgO in the tonalitic gneisses and charnockites.An internally consistent model for the production of the tonalitic gneisses involves partial melting of an enriched mafic source with variable ratios of hornblende to clinopyroxene. This source, in turn, is derived from an ultramafic mantle relatively enriched in incompatible elements. Granitic gneisses form from tonalitic gneisses by alkali metasomatism from chloride-bearing fluids with high H₂O/CO₂ ratios purged from the lower crust by CO₂, and charnockites are produced from tonalitic gneisses (and granitic gneisses) by ischochemical CO₂ metamorphism following the alkali metasomatism.     

Sm-Nd Isotope Tracer Study of UHP Metamorphic Rocks: Implications for Continental Subduction and Collisional Tectonics

Sm-Nd isotope tracer techniques are powerful tools in identification of the protolith nature of UHP and HP rocks and can be used to constrain modeling of tectonic processes of continental collision. UHP rocks may have diverse origins, and not all of them carry the same significance for subduction of continental blocks. In this paper, Sm-Nd isotopic data are compiled for UHP and HP rocks, mostly represented by eclogites and garnet peridotites, from the Alpine, Hercynian (Variscan), and Caledonian belts of western Europe; the Pan-African belts of northern Africa; and the Ross belt of Antarctica. These data then are compared with the isotopic characteristics of the UHP rocks from the Dabie orogen of central China. Except for the coesite-bearing quartzitic metasediments of Dora-Maira (Western Alps), which are clearly of continental origin, all HP and UHP rocks (eclogites and ultramafic rocks) from the Alpine, Hercynian, and Pan-African belts have oceanic affinities with the characteristic positive ε_Nd(T) values (= metamorphic initial ¹⁴³Nd/¹⁴⁴Nd ratios). They represent segments of oceanic lithosphere that were subducted, underwent eclogite-facies metamorphism, and later were tectonically transported into orogenic zones during continental collisions. By contrast, the majority of UHP rocks from the European Caledonide and the Dabie orogen have negative ε_ND(T) values, indicating continental affinity. This suggests that these mafic and ultramafic rocks have had a long crustal residence time and that their UHP metamorphism is indicative of subduction of ancient and cold continental blocks, as represented by some Precambrian gneiss terranes containing mafic components including greenschists, amphibolites, or basic granulites.

In the Dabie orogen, none of the UHP eclogites analyzed thus far have shown oceanic affinity; thus they do not represent subducted Tethys Ocean crust. The preservation of ultrahigh ε_ND(0) values (+170 to +260) in eclogites of very low Nd concentrations (average 0.5 ppm) from the Weihai region and of the extraordinarily low δ¹⁸O in many eclogites and gneisses, the general absence of syntectonic granites in the Dabie Shan, and the available age data obtained by different techniques all point to a rapid rate of exhumation and the absence of a pervasive aqueous fluid phase during the entire process of subduction and exhumation of the Dabie UHP terrane.     

苏鲁地体南缘超高压变质带朐山二云花岗片麻岩的地球化学特征及其构造意义

二云花岗片麻岩是组成苏鲁地体南缘超高压变质带朐山杂岩体的重要岩石类型,虽然经历了超高压变质作用,但仍保留了花岗岩的岩石学特征。常量元素和微量元素分析结果表明该片麻岩具有高w(K₂O)、低w(CaO)、高w(TFeO)/w(MgO)比值、铝饱和指数偏高的A型花岗岩的特征,岩石类型为高钾碱性过铝质A型花岗岩。稀土元素中轻稀土富集、分馏程度高、Eu强烈亏损,微量元素中Ba、P、Ti、Sc具有明显的负异常,w(Sr)/ w(Y)、w(La)/ w(Yb)和w(Rb)/ w(Sr)、w(Rb)/ w(Ba)较高,尤其是w(TiO₂)＜0.2％和w(Y)/ w(Nb)＞1.2的特征,以及在w(Rb)-w(Yb+Ta）和w(Rb)-w(Y+Nb）判别图解上样品投点位于板内环境区等,表明该片麻岩的原岩形成于板内与裂谷有关的非造山环境。锆石SHRIMP U-Pb测年结果揭示其侵位时代为新元古代中晚期((722±32）Ma）,与杂岩体中早期侵位的二长花岗片麻岩及杂岩体上覆地层中的变质火山岩同为Rodinia大陆裂解、扬子地块陆内裂谷形成过程中伴随的岩浆活动的产物。     

Evolution from Oceanic Subduction to Continental Collision: a Case Study from the Northern Tibetan Plateau Based on Geochemical and Geochronological Data

Two apparently distinct, sub-parallel, paleo-subduction zonescan be recognized along the northern margin of the Tibetan Plateau:the North Qilian Suture Zone (oceanic-type) with ophioliticmélanges and high-pressure eclogites and blueschistsin the north, and the North Qaidam Belt (continental-type) inthe south, an ultrahigh-pressure (UHP) metamorphic terrane comprisingpelitic and granitic gneisses, eclogites and garnet peridotites.Eclogites from both belts have protoliths broadly similar tomid-ocean ridge basalts (MORB) or oceanic island basalts (OIB)in composition with overlapping metamorphic ages (480–440Ma, with weighted mean ages of 464 ± 6 Ma for North Qilianand 457 ± 7 Ma for North Qaidam), determined by zirconU–Pb sensitive high-resolution ion microprobe dating.Coesite-bearing zircon grains in pelitic gneisses from the NorthQaidam UHP Belt yield a peak metamorphic age of 423 ±6 Ma, 40 Myr younger than the age of eclogite formation, anda retrograde age of 403 ± 9 Ma. These data, combinedwith regional relationships, allow us to infer that these twoparallel belts may represent an evolutionary sequence from oceanicsubduction to continental collision, and continental underthrusting,to final exhumation. The Qilian–Qaidam Craton was probablya fragment of the Rodinia supercontinent with a passive marginand extended oceanic lithosphere in the north, which was subductedbeneath the North China Craton to depths >100 km at c. 423Ma and exhumed at c. 403 Ma (zircon rim ages in pelitic gneiss). KEY WORDS: HP and UHP rocks; subduction belts; zircon SHRIMP ages; Northern Tibetan Plateau     

苏鲁地体超高压和非超高压花岗质片麻岩的判别标志——来自锆石中矿物包裹体的证据

中国大陆科学钻探工程预先导孔CCSD－PP1中存在两类不同性质的花岗质片麻岩，它们的岩相学性质，地球化学特征，锆石中的包体矿物组合和分布规律以及阴极发光图像均存在明显的判别，其中第一类花岗质片麻岩中的锆石呈完好的自形晶，不含任何超高压矿物包体，自晶体中心至边缘均具有典型的岩浆结晶生长环带，表明该类花岗质片麻岩未经历超高压变质作用，第二类花岗质征麻岩中的锆石呈半自形晶一它形晶，晶体核部保存典型的岩浆结晶生长环带，且无超高压矿物包体，具有继承性锆石的特点，而在晶体的过渡带及其与边缘的交界部位，普遍存在以柯石英粉 包体矿物，表明第二类花岗质片麻岩曾经历了超高压变质作用，且锆石在此变质过程进一步结晶生长，形成新的生长环带，该项成果对于深入探讨苏鲁超高压变质带的俯冲－折返机制及其与岩浆作用的相互关系以及对中国大陆科学钻探工程的选址和实施有着重要的科学意义。