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1.
河南洛宁太华岩群斜长角闪岩的锆石^207Pb/^206Pb和角闪石^40Ar/^39Ar年龄 总被引:2,自引:0,他引:2
运用单颗粒锆石逐层蒸发法和角闪石40Ar/39Ar阶段加热法研究了河南洛宁太华岩群斜长角闪岩的同位素年龄.获得锆石207Pb/206Pb年龄为2675±2 Ma,角闪石40Ar/39Ar坪年龄和等时线年龄分别为2372.98±47.46 Ma和2349.10±46.98 Ma.锆石207Pb/206Pb年龄代表了斜长角闪岩原岩的形成时代,而角闪石40Ar/39Ar年龄则为其变质时代,与Sm-Nd等时线年龄(2351±103Ma)相一致.上述年龄数据表明河南洛宁地区太华岩群形成于新太古代,在古元古代遭受过一次角闪岩相变质作用. 相似文献
2.
阿尔金山地区巴什考供以北、阿尔金山北缘断裂以南为一套变质程度达角闪岩相的片岩、大理岩夹少量斜长角闪岩。地球化学研究表明 ,这些斜长角闪岩原岩为玄武质成分 ,具有拉班玄武岩的特点。斜长角闪岩全岩Sm -Nd同位素等时线年龄为 1185± 130 (2σ)Ma ,其INd=0 .5 114 0 ,εNd(t) =+5 .8± 0 .6 ,表明原岩形成于中元古代晚期 ,源自亏损地幔。斜长角闪岩中角闪石4 0 Ar - 39Ar同位素分析显示变质作用发生在 6 12± 5 .8Ma之前 ,进一步表明其原岩应该形成于前寒武纪。这些年龄的确定 ,为探讨阿尔金山地区中晚元古代的古构造格局提供了重要的证据 相似文献
3.
藏北双湖鄂柔地区变质岩和玄武岩的40Ar/39Ar年龄及其意义 总被引:6,自引:0,他引:6
在藏北龙木错—双湖缝合带东段双湖鄂柔地区,获得绿泥阳起石片岩中阳起石矿物的40Ar/39Ar坪年龄为(235·9±2·6)Ma和枕状玄武岩中蚀变辉石斑晶的40Ar/39Ar坪年龄为(232·5±2·4)Ma,两个年龄具有极好的一致性,记录了中三叠世晚期—晚三叠世早期沿龙木错—双湖缝合带发生俯冲碰撞作用的构造-热事件。羌塘地区中三叠世晚期—晚三叠世早期的俯冲碰撞造山事件使得龙木错—双湖缝合带及其以北的大部分地区(即北羌塘盆地)转变为前陆盆地,区域上三叠统底部不整合面和底砾岩的发育是碰撞造山作用地质记录的重要标志。绿泥阳起石片岩的原岩主要为富含玄武岩的火山-沉积岩系,绿泥阳起石片岩和蚀变枕状玄武岩具有Ti O2、P2O5、MgO含量较高和LREE富集型、无Eu异常,以及“大隆起”微量元素配分模式和富集Nb、Ta、Ti元素等地球化学特征,显示为较典型的洋岛型碱性玄武岩性质。 相似文献
4.
藏北羌塘中部绒玛地区蓝片岩岩石学、矿物学和40Ar/39Ar年代学 总被引:5,自引:4,他引:1
藏北羌塘中部沿龙木错-双湖-线出露一条低温高压变质带,目前已有多处蓝片岩的报道.然而,除冈玛错地区产有典型的蓝闪石外,多数地区并没有典型蓝闪石的报道.绒玛蓝片岩位于羌塘中部高压变质带的中段,是该带中规模最大、保存最好的蓝片岩,对蓝片岩进行了详细的岩石学和矿物学研究,钠质角闪石主要为蓝闪石、青铝闪石、钠闪石和镁钠闪石.对蓝片岩中蓝闪石和多硅白云母进行了40Ar/39Ar定年,获得了227.3±3.8Ma和215±1.5Ma的坪年龄,分别代表蓝片岩快速俯冲消减和俯冲作用结束开始折返抬升的时代.绒玛蓝片岩岩石学、矿物学和40Ar/39Ar年代学研究为羌塘中部高压变质带的研究提供了新的资料. 相似文献
5.
本文报道了藏北羌塘中部才多茶卡地区晚三叠世蓝闪石片岩及蓝闪石矿物的新发现及地质意义。通过对才多茶卡构造混杂岩地质剖面的实测,在剖面第6层灰绿色变基性火山岩(绿片岩)中新发现以产蓝闪石类矿物为特征的中—高压变质岩系——蓝闪石片岩。对蓝闪石片岩的岩石学和矿物学特征进行了详细室内研究。从蓝闪石片岩中挑选出蓝闪石单矿物进行了40Ar/39Ar同位素年龄测定,结果表明,蓝闪石单矿物的坪年龄值为209±4Ma,等时线年龄值为216±4Ma,坪年龄与等时线年龄基本一致,属于晚三叠世诺利期,这与区域上羌塘中部发育的红脊山—双湖蓝闪石片岩的中—高压变质事件相吻合。由于蓝闪石类矿物的产出具有特殊的构造机制和地质意义,因此双湖以东的才多茶卡地区蓝闪石片岩的新发现及蓝闪石矿物的40Ar/39Ar同位素年代学研究进一步补充和丰富了青藏高原腹地羌塘中部龙木错-双湖构造混杂岩带的物质组成和同位素年代学信息,同时也为解决羌塘地区"龙木错-双湖构造混杂岩带是否向东延伸"等重大基础性地质问题,提供了新的重要资料。研究资料表明,羌塘中部自西向东从冈玛错、红脊山、绒马,经嘎尔错到才多茶卡地区,沿构造线方向断续分布的长达600km的含蓝闪石片岩的中—高压变质岩系,都是龙木错-双湖构造混杂岩带印支期构造活动事件的产物。 相似文献
6.
湘东北文家市地区仓溪岩群Sm—Nd同位素年龄及其地质意义 总被引:7,自引:1,他引:6
湘东北文家市地区仓溪岩群为一套高绿片岩—低角闪岩相的变质岩系,其Sm—Nd全岩等时线年龄:2 090±20 Ma, ∑Nd(T)=5.4 ;2 030±8 Ma, ∑Nd(T)=5.7 代表了原岩形成年龄;1 860±17 Ma, ∑Nd(T)=5.0 代表样品形成年龄。因此,将其形成时代定格为古元古代,属华南陆壳结晶基底的一部份。 相似文献
7.
内蒙古苏尼特左旗地区发现三叠纪金矿化 总被引:6,自引:1,他引:6
目前,在苏尼特左旗地区确定了元古宙地层、韧性剪切带,并发现了金矿化。该区总体属含古老地块并经中生代改造的中古生代造山带,金矿化带产于NE与NEE向构造组成的楔形体内,受韧性剪切带控制。金矿围岩为奥陶—志留—泥盆纪英云闪长岩,中新元古界温都尔庙群绢云片岩、绿泥片岩,下二叠统大石寨组安山岩等。金矿石类型包括石英(硫化物)脉型、破碎带蚀变岩型、糜棱岩型。2件含Au石英脉中绢云母的Ar Ar法坪年龄分别为(337 56±0 93)和(236 45±0 53)Ma,根据绢云母的产出特征推断,前者可能代表华力西早期华北板块与蒙古古板块碰撞热事件的时代,并叠加有225 60、247 58Ma的热事件;后者代表金矿成矿时代,与大规模韧性剪切作用主要活动期相同,成矿作用可能与韧性剪切作用有关。 相似文献
8.
湖北红安群的原岩形成时代一直是个有争议的问题。笔者对红安群中两个不同类型的花岗质侵入体进行了锆石U-Pb定年,在位于红安群之下的双峰尖岩体中获得岩浆侵位年龄为(813±6)Ma,在侵入于红安群中的高格岩体获得岩浆侵位年龄为(638±142)Ma,高压变质年龄为(229±22)Ma。结合目前在扬子板块和大别造山带内部获得的一系列新元古代年代学数据,认为红安群变质杂岩中沉积地层的形成时代应限制在825~630Ma之间,是扬子大陆基底在新元古代裂解的产物。这套岩石在印支期(约230Ma)华北与扬子板块碰撞过程中经历了低温高压蓝片岩—榴辉岩相变质作用。 相似文献
9.
应用颗粒锆石U-Pb法和Rb-Sr全岩等时线法重新研究了金沙江东同办洼龙地区原统归于早二叠世额阿钦群中的一套高级变质岩系的原岩时代和变质时代。其中含蓝晶石二云母片岩Rb-Sr等时线年龄为(432±35)Ma;而斜长角闪岩U-Pb锆石的上交点年龄为(1627±192)Ma,暗示这套变质岩系的原岩时代应大于(1627±192)Ma。(432±35)Ma的Rb-Sr等时线年龄可能代表其变质时代,首次提出金沙江地区应存在早中元古代残留变质其底或策陆块,层位上可与劳山杂岩对比,金沙江缝合带和牢山缝合带是相关联的同一条缝合带。 相似文献
10.
略谈藏东吉塘群 总被引:3,自引:0,他引:3
[摘 要]以往的研究工作将藏东吉塘群分两个组:上部以片岩、变质砂砾岩为主的地层名酉西组;下部以片岩、片麻岩、混合岩为主的地层名恩达组,时代均属前震旦纪。近几年,开展1:25 万编图项目的研究,恩达组可细分为两个岩性段:混合岩段和以片岩、片麻岩、变粒岩、斜长角闪岩及大理岩共同组成的深变质岩段。酉西组中获得新的同位素年龄:240±12Ma( 锆石U-Pb)、226±2Ma( 白云母Ar-Ar),时代可能为古生代,更名为酉西岩群。恩达组的混合岩中新获得锆石SHRIMP U-Pb 同位素年龄254±8Ma、232±9Ma、227±1.8Ma,原1:20 万类乌齐、拉多幅曾于相当恩达组的花岗片麻岩中获得锆石U-Pb年龄253±9Ma、195Ma,这一岩段的混合岩可能是华力西至燕山期变形变质的花岗岩侵入体,应从吉塘群中分离出去。原恩达组中除混合岩外的地层更名为吉塘岩群,时代属古中元古代。 相似文献
11.
锡林浩特杂岩和蓝片岩的锆石U-Pb年代学及其对索仑缝合带演化的意义 总被引:14,自引:5,他引:9
报道了内蒙索仑缝合带附近的锡林浩特杂岩和苏左旗混杂带中蓝片岩块的锆石U-Pb年代学数据.锡林浩特杂岩中碎屑锆石来源复杂,从晚太古至晚古生代均有.最年轻的碎屑锆石U-Pb年龄为280~340Ma,与该区最年轻的弧岩浆岩年龄一致,表明该杂岩的原岩最终形成于晚古生代,而不是前寒武陆块残留.锡林浩特杂岩原岩的沉积源区主要是古生代的孤岩浆岩和部分裸露的前寒武陆壳,可能是弧前沉积建造.蓝片岩的锆石U-Pb年龄为318±5Ma(范围338~280Ma),这些锆石显示典型岩浆振荡环带结构,因此该年龄可能代表其原岩形成年龄,而其变质应该在280Ma之后.所以,锡林浩特杂岩和混杂带中蓝片岩块的变质变形作用可能发生在晚二叠,与索仑缝合带强烈的弧陆碰撞有关,暗示索仑缝合带的碰撞缝合时间在晚二叠,而不是许多人坚持的泥盆纪. 相似文献
12.
THE METAMORPHIC FEATURE,AGE AND MECHANISM OF AMUGANG GROUP IN NORTHERN TIBET 相似文献
13.
Matteo Maino Giorgio Dallagiovanna Laura Gaggero Silvio Seno Massimo Tiepolo 《Geological Journal》2012,47(6):632-652
In the Ligurian Alps, the Barbassiria massif (a Variscan basement unit of the Briançonnais domain) is made up of orthogneisses derived from K‐rich rhyolite protoliths and minor rhyolite dykes. However, on account of subsequent Alpine deformation and a related blueschist facies metamorphic overprint that are pervasive within the Barbassiria Orthogneisses, little evidence of the earlier Variscan metamorphism is preserved. In this study, new U–Pb laser ablation–inductively coupled plasma–mass spectrometry (LA–ICP–MS) dating of zircon from the Barbassiria Orthogneisses and dykes was undertaken to unravel the relationships between protolith magmatism and the Variscan metamorphic overprint. The results suggest a protolith age for the Barbassiria Orthogneisses of ~315–320 Ma (i.e., Early/Late Carboniferous), and constrain the age of a subsequent rhyolite dyke emplacement event to 260.2 ± 3.1 Ma (i.e., Late Permian). The Variscan high‐temperature (greenschist–amphibolite facies) metamorphic event that affected the Barbassiria Orthogneisses was likely associated with both tectonic burial and compression during the final stages of the Variscan collision during the Late Carboniferous period. Emplacement of late‐stage rhyolite dykes that cut the Barbassiria Orthogneisses is linked to a diffuse episode of Late Permian rhyolite volcanism that is commonly observed in the Ligurian Alps. The age of this dyke emplacement event followed a ~10–15 Ma Mid‐Permian gap in the volcano‐sedimentary cover sequence of the Ligurian Alps, and represents the post‐orogenic stage in this segment of the Variscides. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
14.
JIAN Ping YANG Weiran ZHANG Zichao Institute of Geology CAGS Baiwanzhuang R Beijing China University of Geosciences Wuhan Hubei Yichang Institute of Geology Mineral Resources CAGS Yichang Hubei 《《地质学报》英文版》1999,73(1):78-83
The Huangtuling hypersthene-garnet-biotite gneiss at Luotian County, Hubei Provine, is a typicalgranulite-facies rock of the Dabie Group Complex in the Dabie orogenic belt. Investigations on the morphology andoccurrence of zircons and their internal structures shown in the thin sections lead to the recognition of three types ofzircons, which are in good agreement with the types identified on the basis of morphology, colour and external fea-tures from the related zircon concentrates. The observation of zircons in the rock reveals that part of type 1 zirconsshow signs of a double-layered structure. The interval part existed in the protolith prior to the granulite-facies meta-morphism. Type 2, the prismatic zircons which mainly occur in garnet and hypersthene are metamorphic minerals ofthe granulite-facies metamorphism. Type 3, the round multifaceted zircons in felsic minerals and biotite, are proba-bly attributed to a later geological event related to migmatization. The ~(207)Pb/~(206)Pb zircon dating by direct evaporationon (thermal evaporation ion mass spectrometer) yields ages ranging from 2814 Ma to 1992 Ma. The age discrepancyamong these different zircon types is conspicuous. The yellow-brown(type 1) zircons give ages of 2814±29 Ma to2527±6 Ma, the prismatic euhedral zircons (type 2), 2456±7 Ma to 2254±4 Ma, and the round multifaceted zircons(type 3), 1992±10 Ma. The results are geologically interpreted in consideration of the complicated behaviours of zir-cons during Precambrian geological evolution of the Dabie area. (1) If the protolith of the gneiss is a sedimentaryrock, then type 1 zircons are clastic ones and the ages 2814±29 Ma and 2811±27 Ma may reflect the minimum age ofthe rocks of its source region. also the first geological event in the area. Sedimentation of the protolith occurred be-tween 2814 Ma and 2527 Ma, probably close to 2814 Ma. If the protolith is a volcanic rock, then the formation age ofthe supracrustal rocks of the Dabie Group Complex is around 2814 Ma. The age 2456±7 Ma reflects the time whenthe granulite-facies metamorphism took place. The later migmatization event is dated at aboat 1992±10 Ma, and isprobably the latest early Precambrian event in the area. The present work provides geochronological evidence for the existence of the Dabie Archaean craton, whichhad probably experienced 3 or 4 geological events during its early Precambrian evolution. 相似文献
15.
This study describes a previously unidentified Neoproterozoic mafic dyke emplaced in the northern flank of the Langshan Tectonic Belt. This dyke intruded into the micaquartz schist of the Zhaertaishan Group, and yielded an age of 908 ± 8 Ma. The youngest U-Pb ages of micaquartz schist from the Zhaertaishan Group in the Langshan area were 1118 ± 33 Ma,1187 ± 3 Ma and 1189 ± 39 Ma,suggesting that the depositional age of the protolith of the schist was between 908 ± 8 Ma and 1118 ± 33 Ma. In addition, 436 U-Pb age data and 155 Lu-Hf isotopic data from six samples in the Langshan Tectonic Belt and one Permian greywacke from the Wuhai area show distinct differences between the northern and southern flanks of the Main Langshan area. The U-Pb ages of the northern flank are primarily Meso-Neoproterozoic; similar ages have not been identified in the southern flank to date.Moreover, two-stage Hf model ages of the northern flank feature three age peaks at ~900 Ma,~1700 Ma and ~2600 Ma; this differs from Hf model ages of the southern flank, which feature one strong age peak at ~2700 Ma. These results suggest that the northern and southern flanks of the Main Langshan area have different geochronologic characteristics and should be divided further. Based on the U-Pb ages and Hf model ages, the northern and southern flanks of the Main Langshan area are named the North and South Langshan Tectonic Belts. Comparison of the U-Pb age and two-stage Hf model age distributions from the North Langshan Tectonic Belt, South Langshan Tectonic Belt, Alxa Block and the North China Craton(NCC) reveal that the North Langshan Tectonic Belt is similar to the Alxa Block and that the South Langshan Tectonic Belt is similar to the NCC. In addition, the zircon U-Pb age of 860 ±7 Ma commonly observed in the Alxa Block was detected in the Permian greywacke from the Wuhai area of the NCC, which suggests that the amalgamation of the North and South Langshan Tectonic belts(i.e.,the amalgamation of the Alxa Block and the NCC), occurred between Devonian and late Permian. 相似文献
16.
大兴安岭地区德尔布干断裂带北段构造年代学研究 总被引:16,自引:4,他引:12
德尔布干断裂带是大兴安岭隆起西侧NE向的重要断裂带,处在海拉尔-拉布达林-根河盆地西缘,是著名德尔布干成矿区东南边界断裂带.为了确定德尔布干断裂带运动性质、活动时间,深入探讨该断裂带与中生代海拉尔-拉布达林-根河盆地及大兴安岭盆山格局、认识德尔布干断裂带多金属矿床成因等问题,本文应用锆石SHRIMP和云母40Ar/39Ar定年技术,分别对断裂带内的细粒黑云母花岗岩侵入体、韧性变形的花岗闪长质片麻岩、白云母石英片岩,进行了同位素年代学研究.其中花岗闪长质片麻岩岩浆型锆石SHRIMP谐和年龄300.6±9.3Ma,为花岗闪长质片麻岩海西期的侵位年龄;而花岗闪长质片麻岩中黑云母40Ar/39Ar坪年龄是130.9±1.4Ma,白云母石英片岩的白云母40Ar/39Ar坪年龄是115.6±1.6Ma,代表早白垩世伸展构造变形年龄;细粒黑云母花岗岩侵入体岩浆型锆石SHRIMP谐和年龄130.1±1.4Ma,为同伸展构造变形侵位的岩浆事件.上述地质年代说明德尔布干断裂带是早白垩世(110~130Ma)该区最年轻的重大伸展构造变形产物.控制NE向大兴安岭隆起和中生代海拉尔-拉布达林-根河等火山沉积盆地的发育格局、以及中生代以来的地壳演化与成矿类型. 相似文献
17.
Five detrital white mica concentrates from very low-grade, metaclastic sequences within pre-Variscan basement and post-Variscan cover units of the Upper Austroalpine Nappe Complex (Eastern Alps) have been dated with 40Ar/39Ar incremental heating techniques to constrain the age of tectonothermal events in their respective source areas. Two samples from early Palaeozoic sandstone exposed within the same Alpine nappe record slightly discordant age spectra. The maximum age recorded in one is 562.2±0.7?Ma, whereas the other yielded a 40Ar/39Ar plateau age of 607.3±0.3?Ma. These results indicate a source area affected by Cadomian tectonothermal activity. Three detrital muscovite concentrates from post-Variscan, Late Carboniferous and Permian cover sequences exposed within three different Alpine nappes yielded 40Ar/39Ar plateau ages of 359.6?±?1.1?Ma, 310.5±1.2?Ma, and 303.3±0.2?Ma. The contrasting detrital white mica ages are interpreted to reflect different source areas. Detrital muscovite from a post-Variscan Carboniferous molasse-type sequence and from a Permian Verrucano-type sequence record ages which indicate “late” Variscan (e.g. 330–300?Ma) metamorphic sources. By contrast, detrital white mica from another Permian Verrucano-type sequence suggests a source area affected by “early” Variscan (e.g. 400–360?Ma) metamorphism. These results help clarify palinspastic relationships and tectonic correlations between pre-Late Carboniferous metamorphic basement sequences and Carboniferous to Permian cover sequences. 相似文献
18.
北秦岭高压-超高压岩石的多期变质时代及其地质意义 总被引:14,自引:12,他引:2
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。 相似文献
19.
青藏高原北部古近纪晚期大面积发育唢呐湖组湖相沉积,主要为砖红色、棕色、灰白色泥灰岩、泥岩、粉砂岩互层,夹石膏层和灰岩,广泛出露于羌塘中部、可可西里、东昆仑南部,形成时代为41.1±0.8~32.5!0.3Ma,向可可西里东部过渡为雅西错群。对双湖采坑唢呐湖组上部湖相沉积地层进行详细观测和系统取样,对泥灰岩和粘土岩样品选碎屑锆石作LA-MC-ICP-MS U-Pb同位素测年,对不同层位泥灰岩、粘土岩、灰岩样品作碳、氧同位素分析,结合区域地质相关资料,良好揭示了碎屑锆石来源、沉积地貌环境及古海拔高度。双湖采坑唢呐湖组碎屑锆石绝大部分为岩浆锆石,统计分析碎屑锆石U-Pb年龄,发现存在4期峰值,分别为280~200Ma、780~830Ma、1920~1790Ma、2600~2360Ma;对比区域地质和岩浆岩测年资料,推断晚二叠世—三叠纪(280~200Ma)碎屑锆石主要来自于羌中隆起岩浆岩,新元古代中期(~800Ma)、古元古代晚期(~1800Ma)、太古宙末期—古元古代初期(~2500Ma)碎屑锆石主要来自于东昆仑造山带。双湖采坑碎屑锆石部分测点U-Pb同位素呈线性分布,交点年龄及谐和年龄为1883!51~1837!12Ma、2483!24~2520!37Ma,对应东昆仑造山带早前寒武纪2期岩浆热事件年龄。根据唢呐湖组湖相沉积空间分布和碎屑锆石U-Pb年龄统计分布,推断青藏高原北部古近纪晚期发育自北向南流动的古水系,古洪流将东昆仑造山带出露地表的前寒武纪基底岩浆锆石自北向南长距离搬运,汇聚于双湖古湖盆并沉积于唢呐湖组。根据双湖采坑唢呐湖组湖相沉积碳同位素和氧同位素,估算双湖古湖盆35~34Ma古海拔高度为3427~3510m,这与应用Airy均衡模式根据地壳厚度和密度变化估算的古海拔高度在误差范围内基本吻合。 相似文献