共查询到18条相似文献,搜索用时 91 毫秒
1.
柴达木北缘滩间山群时代及其地质意义 总被引:4,自引:1,他引:4
滩间山群是柴北缘早古生代重要的火山-沉积建造。基于野外地质特征、古生物组合、同位素年龄、构造-热事件等的综合分析,本文认为滩间山群形成于早-晚奥陶世,时限496~440Ma,与该区超高压变质作用不同步,后者时限545~485Ma。新的滩间山群火山-沉积建造序列表明,柴北缘从新元古代-早古生代可能存在两次构造开合演化过程。 相似文献
2.
柴达木盆地北缘滩间山群新厘定 总被引:12,自引:0,他引:12
滩间山群是柴达木盆地北缘早古生代重要的火山-沉积建造,总体为一套绿片岩相和强烈变形岩石。基于野外地质特征、古生物组合、同位素年龄、构造-热事件和火山-沉积演化等的综合分析,笔者认为滩间山群形成于早—晚奥陶世,同位素年龄在496~440Ma。重新厘定的滩间山群从老到新岩石地层单位有:早—中奥陶世火山-碎屑岩组;晚奥陶世沉积岩组;晚奥陶世熔岩-次火山岩组。原滩间山群c岩组(紫色砂砾岩组)变质微弱,仅达千枚岩相,与晚奥陶世熔岩-次火山岩组间呈角度不整合接触。其中的泥质岩Rb-Sr等时线年龄为313±1.0Ma(代表其千枚岩相的变质年龄),将其从滩间山群中剥离,归属早志留世。新的层序总体反映柴北缘早古生代经历了大陆裂谷开合的演化过程。 相似文献
3.
4.
柴北缘构造带断续出露的寒武-奥陶纪滩间山群火山-沉积岩系是早古生代时期原特提斯洋俯冲造山作用的产物,也是中国西部块状硫化物和造山型金矿床的重要含矿岩系。前人已对滩间山群火山岩组开展了大量的地球化学和同位素年代学研究,而碎屑岩组的沉积序列和沉积相研究相对薄弱。我们在柴北缘托莫尔日特地区地质填图过程中,对该地区的滩间山群碎屑岩组开展了系统的沉积组合序列和沉积相研究。托莫尔日特地区滩间山群碎屑岩组是由富含火山碎屑物质的含砾砂岩、砂岩、粉砂岩、泥岩、沉凝灰岩、硅质凝灰岩、硅质岩及少量砾岩共同组成。可分为下岩性段和上岩性段,其中下岩性段为一套形成于海底扇外扇环境以沉凝灰岩为主的沉积组合;上岩性段包含海底扇内扇、中扇和外扇沉积,且以中扇环境的沉积为主。垂向上,它们呈现出粒度向上逐渐变细特征;空间上,具有向北西方向火山物质成分逐渐增多、砾岩和砂岩厚度变薄且砾岩消失的变化特征。砂岩主要为岩屑长石杂砂岩,其中岩屑主要是安山岩和少量玄武岩、英安岩、凝灰岩;长石主要为斜长石;石英碎屑相对缺失。砾岩中砾石以安山岩和硅质岩为主,并含有少量灰岩和凝灰岩砾石。底冲刷面、正粒序、平行层理和波纹层理等沉积构造普遍发育,呈现出典型的浊流沉积特征;同时在局部露头见有滑塌构造和波痕。区域上,这套沉积组合序列位于寒武-奥陶纪岛弧火山岩的南侧;古水流分析显示,它们的碎屑物质主要来自于其北东方向。这些结果表明,柴北缘构造带东段的滩间山群碎屑岩组是一套成熟度极低且与寒武-奥陶纪岛弧火山活动密切相关的沉积组合。 相似文献
5.
锡铁山块状硫化物铅锌矿床成矿构造环境及矿区南部找矿潜力:来自滩间山群火山岩岩石化学、地球化学证据 总被引:4,自引:1,他引:3
近年来海底块状硫化物矿床的深入研究表明,块状硫化物矿床形成与其成矿构造环境演化期间特定阶段的构造-火山作用有关,矿床持续形成时间一般不超过几个百万年。锡铁山矿床是我国西北地区最大的海底热液块状硫化物铅锌矿床,本文通过锡铁山矿床赋矿岩系火山岩岩石化学及地球化学特征的系统研究,对锡铁山矿床赋矿火山岩系岩浆演化过程及成矿构造环境得出如下几点认识:(1)锡铁山矿区赋矿滩间山群火山岩岩石化学及地球化学特征一致表明滩间山群岩浆活动具有自酸性向基性同源岩浆演化的特点。矿区滩间山群不同岩组/段的火山岩代表了同源岩浆不同演化阶段的产物。自O1-2tna-1岩段、O1-2tnb岩组→O1-2tnd-1岩段→O1-2tnd-3岩段,矿区火山岩岩石化学及稀土与微量元素地球化学具有明显的渐变过渡关系。(2)矿区滩间山群火山岩稀土、微量元素组成特征及成岩构造环境判别图解一致揭示,从O1-2tna-1岩段、O1-2tnb岩组→O1-2tnd-1岩段→O1-2tnd-3岩段,滩间山群火山岩成岩构造环境经历了从陆缘基底岛弧→洋陆过渡型地壳→典型大洋地壳的连续过渡变化。(3)矿区滩间山群火山岩岩浆演化过程及Rb、Sr组分变化趋势与大陆边缘弧后盆地火山岩岩浆演化过程相近,与现代西太平洋冲绳海槽形成过程相似。(4)综上推断,矿区深部及外围找矿工作的重点对象是弧后盆地拉张早期形成的具有双峰式火山岩组合的下部火山-沉积组合,而矿区南部O1-2tnd岩组找寻同类矿床的可能性不大。 相似文献
6.
7.
柴北缘绿梁山地区辉长岩的锆石U-Pb年龄及意义 总被引:11,自引:0,他引:11
柴达木盆地北缘绿梁山地区的辉长岩侵入到古生代滩间山群及超基性岩中 ,地球化学、微量元素、稀土元素显示出源幔特征。选自其中的锆石明显具岩浆型锆石特点 ,4个单颗粒锆石U -Pb同位素年龄均为谐和年龄 ,2 0 6 Pb 2 38U表面年龄统计权重平均值为 (496 .3± 6 .2 )Ma ,代表了该岩体的结晶年龄 ,从而间接地否定了本区滩间山群的时代为晚奥陶世 -志留纪的认识。辉长岩与滩间山群是柴北缘活动大陆边缘火山岛弧的组成部分。此类岩体同位素地质年龄的确定对柴北缘榴辉岩、滩间山群时代及大地构造性质的重新认识具有重要意义 相似文献
8.
9.
10.
11.
东昆仑西段祁漫塔格群的重新厘定 总被引:5,自引:0,他引:5
通过区域地质调查和研究,认为前人所建立的的祁漫塔格群或滩间山群包括了不同时代的浅变质碎屑岩、中酸性火山岩及基性-超基性岩。根据在东昆仑原划奥陶系祁漫塔格群第一亚群(下部碎屑浊积岩)中采集到早志留世笔石化石组合(这是首次证实东昆仑地区存在志留系地层)及同位素测年资料(鸭子大板火山岩年龄),其时代包含了奥陶纪、志留纪和三叠纪等,根据中国地层指南及中国地层指南说明书和地层清理,对祁漫塔格群进行了解体,将其重新厘定为奥陶纪滩间山群(OT)、志留纪白干湖岩组(Sb)弧后盆地复理石沉积和鸭子泉组(Sy)岛弧火山岩、石炭纪鸭子大坂硅质岩(S i)、三叠纪鄂拉山组(T3e)、蓟县纪狼牙山岩组(Jx l)和南华—奥陶纪阿牙克库木湖蛇绿混杂岩[(N h—O)aΣ]。该成果对于祁漫塔格地区早古生代地层划分对比、构造演化提供了重要新证据。 相似文献
12.
柴北缘造山带位于青藏高原北缘,其复杂的地质演化过程造就了区域上多期多阶段的岩浆活动与金铅锌多金属成矿作用。地处柴北缘西段的滩间山大型金矿田,以广泛发育中酸性岩脉(墙)为显著特征,但岩浆活动的时代、构造背景及其与金成矿关系尚不清楚。本文以野外调查与显微观测为基础,对新识别出的青龙沟闪长玢岩、青龙滩细晶闪长岩和金龙沟霏细斑岩,开展了LAICP-MS锆石U-Pb定年,结合已有资料探讨了滩间山金矿田岩浆侵入序列及其构造背景,分析了岩浆活动与金成矿的时空-成因联系。结果表明,滩间山金矿田先后经历早奥陶世(474.6±1.3 Ma)、中泥盆世(383.9±0.8 Ma)、早白垩世(127.4±0.6 Ma)三期构造-岩浆活动。早奥陶世闪长玢岩侵位于大规模金成矿前,是柴北缘洋俯冲阶段的产物;中泥盆世和早白垩世岩浆活动均与碰撞后陆内造山地质过程有关,并呈现出绢云母化-硅化蚀变组合及浸染状黄铁矿和黄铜矿化。研究认为晚古生代-中生代多期岩浆-热液叠加可能是滩间山大型金矿田成矿的关键。 相似文献
13.
北祁连永登县石灰沟作为奥陶纪中堡群命名地,历来是研究北祁连奥陶纪构造演化的理想场所。依据实测地层剖面,石灰沟奥陶纪中堡群可以划分为上、下两段:下段以中基性火山岩、火山碎屑岩为主;上段以出现大量碳酸盐岩、硅质岩、粉砂岩,夹中基性火山碎屑岩为特征。野外调查过程中发现,中堡群上段发育多层硅质岩,其层内发育强烈的构造变形。经岩石组合、地层序列、沉积相、火山喷发相、变形特征及空间组合关系研究,认为该套特殊的沉积层系为典型的滑塌堆积。根据滑塌堆积的内部结构特征及火山-沉积相序等分析,初步判断其形成于靠近岛弧的深水盆地环境,具多岛洋构造背景。这将为恢复和建立北祁连造山带奥陶纪沉积环境和古地理演化提供可靠依据,也为进一步研究北祁连奥陶纪沟-弧-盆体系空间格局提供了重要沉积学佐证。 相似文献
14.
LIANG Xinquan FU Jiangang WANG Ce JIANG Ying ZHOU Yun YANG Yongqiang WANG Zeli PAN Chuanchu 《《地质学报》英文版》2014,88(2):394-409
The Tanjianshan Group, which was previously divided into a, b, c and d formations, has been controversial for a long time. It mainly distributes in the northern margin of Qaidam Basin and is an important early Paleozoic greenschist facies metamorphic volcanic sedimentary rock formation. Detailed field investigation and zircon LA-ICPMS U-Pb dating of the key strata suggest that the original lower part of a Formation(a-1) versus the original middle upper of d Formation(d-3 and d-4), the original upper part of a Formation(a-2) and b Formation versus the original lower part of d Formation(d-1 and d-2) of Tanjianshan Group are contemporaneous heterotopic facies volcanicclasolite deposit, respectively. The former formations formed during the middle-late Ordovician(463–458 Ma), while the latter ones formed in the late Ordovician(about 445 Ma). The original c formation of Tanjianshan Group, which formed after 430 Ma, is similar to the Maoniushan Formation of Kunlun Mountains and north Qaidam Basin. According to the rules of stratigraphic division and naming, new stratum formations of Tanjianshan Group are re-built and divided into Duancenggou(O1-2td), Zhongjiangou(O2-3tz) and Xitieshan(O3tx) formations. The original c Formation is separated from Tanjianshan Group and is renamed as the Wuminggou Formation(S3-D1w), which shows a discordant contact with underlying Tanjianshan Group and overlying Amunike Formation(D3a). The zircon U-Pb age frequency spectrogram of Tanjianshan Group indicates three prominent peaks of 430 Ma, 460 Ma and 908 Ma, which is consistent with the metamorphic and magmatic crystallization ages obtained from para- and orthogneisses in north Qaidam HP-UHP metamorphic belt, implying that strong Caledonian and Jinningian tectonic and magmatic events have ever happened in North Qaidam. 相似文献
15.
16.
青海锡铁山铅锌矿床的矿体成因类型讨论 总被引:3,自引:0,他引:3
在青海锡铁山大型铅锌矿床中,奥陶系滩涧山群3个不同层位(O3tn^b组片岩、O2tn^b组片岩与大理岩过渡带、O3tn^a-2组片岩)同时发育层状矿体和脉状矿体,大理岩中还发育不规则囊状矿体。通过对上述不同层位、不同类型矿体的分布特征、产状、矿石结构和构造的详细观察和研究发现.3个层位的层状矿体均是SEDEX型海底喷流沉积作用的结果。O3tn^b组片岩及其与大理岩过渡带中的层状矿体属近源(proximal)产物.与之伴生的脉状矿体则属该层状矿体的喷流沉积补给带;O3tn^a-2组片岩中的层状矿体属远源(distal)沉积,而大理岩中的不规则囊状矿体则是造山后深部流体活化围岩或再活化早期层状矿体中的成矿物质.并强烈交代大理岩的产物:北侧O3tn^a-2组片岩中的脉状矿体也为造山后流体叠加的产物,可能是大理岩中不规则囊状矿体的导矿通道。 相似文献
17.
The Xitieshan deposit (~ 64 Mt at 4.86% Zn, 4.16% Pb, 58 g/t Ag, and 0.68 g/t Au) is hosted by the Middle to Late Ordovician Tanjianshan Group of the North Qaidam tectonic metallogenic belt, NW China. This belt is characterized by island arc volcanic, ultra-high pressure (UHP) metamorphic and ophiolitic rocks. The Tanjianshan Group constitutes a succession of metamorphosed bimodal volcanic and sedimentary rocks, which are interpreted to have formed on the margin of a back-arc ocean basin between the Qaidam block and the Qilian block.Four stratigraphic units are identified within the Ordovician Tanjianshan Group. From northeast to southwest they are: 1) unit a, or the lower volcanic-sedimentary rocks, comprising bimodal volcanic rocks (unit a-1) and sedimentary rocks (unit a-2) ranging from carbonates to black carbonaceous schist; 2) unit b, or intermediate-mafic volcaniclastic rocks, characterized by intermediate to mafic volcaniclastic rocks intercalated with lamellar carbonaceous schist and minor marble lenses; 3) unit c, a purplish red sandy conglomerate that unconformably overlies unit b, representing the product of the foreland basin sedimentation during the Early Silurian; 4) unit d, or mafic volcanic rocks, from base to up, comprising the lower mafic volcaniclastic rocks (unit d-1), middle clastic sedimentary rocks (unit d-2), upper mafic volcaniclastic rocks (unit d-3), and uppermost mafic volcanic rocks (unit d-4). Unit a-2 hosts most of the massive sulfides whereas unit b contains subordinate amounts.The massive stratiform lenses constitute most of the Xitieshan deposit with significant amount of semi-massive and irregularly-shaped sulfides and minor amounts in stringer veins. Pyrite, galena and sphalerite are the dominant sulfide minerals, with subordinate pyrrhotite and chalcopyrite. Quartz is a dominant gangue mineral. Sericite, quartz, chlorite, and carbonate alteration of host rocks accompanies the mineralization.U-Pb zircon geochronology yields three ages of 454 Ma, 452 Ma and 451 Ma for the footwall felsic volcanic rocks in unit a-1, sedimentary host rocks in unit a-2 and hanging-wall unit b, respectively. The Xitieshan deposit is considered to be coeval with the sedimentation of unit a-2 and unit b of the Tanjianshan Group. The Xitieshan deposit has been intensely deformed during two phases (main ductile shear and minor ductile-brittle deformation). The main ductile shear deformation controls the general strike of the ore zones, whereas minor deformation controls the internal geometry of the ore bodies. 40Ar-39Ar age of muscovite from mylonitized granitic gneisses in the ductile shear zone is ~ 399 Ma, which is interpreted to date the Xitieshan ductile shear zone, suggesting that Early Devonian metamorphism and deformation post-dated the Tanjianshan Group.The Xitieshan deposit has many features similar to that of the Bathurst district of Canada, the Iberian Pyrite Belt of Spain, the Wolverine volcanogenic massive sulfide deposit in Canada. Based on its tectonic setting, host-rock types, local geologic setting, metal grades, geochronology, temperatures and salinities of mineralizing fluid and source of sulfur, the Xitieshan deposit has features similar to sedimentary exhalative (SEDEX) and VMS deposits and is similar to volcanic and sediment-hosted massive sulfide (VSHMS) deposits. 相似文献
18.
柴达木盆地北缘阿木尼克山北坡滩间山群火山岩呈带状出露,广泛分布。本文通过对该套火山岩岩石组合、地球化学、锆石测年等研究,查明其岩性以流纹岩、英安质晶屑凝灰岩为主,间有碳酸盐岩、碎屑岩夹层。火山岩相包括溢流相、爆发沉积相。火山岩w(SiO2)=61.22%~83.88%,属中酸性岩范畴;里特曼指数(δ)均小于3.3,属于钙碱性岩,且A/CNK均小于或等于1.1。火山岩大离子亲石元素K、Rb、Ba及强不相容元素Th富集,高场强元素Ta、Nb亏损明显。中酸性火山岩稀土总量w(ΣREE)值介于75.58×10^-6~174.10×10^-6,w(LREE)/w(HREE)值介于7.09~13.31间,轻稀土明显富集,重稀土亏损,轻重稀土分馏程度中等到强烈;稀土分配曲线右倾,重稀土部分相对平坦。该区火山岩地球化学特征与赛什腾山地区吻合度很高,说明具有相似的大地构造属性,判断为岛弧环境。英安质晶屑凝灰岩和流纹岩两件样品206Pb/238U年龄分别是464.5Ma±8.5Ma、510Ma±15Ma,分别对应早-中奥陶世、早-中寒武世;通过综合研判认为柴达木盆地北缘地区早古生代秦祁昆多岛洋主域裂解离散阶段可能在早-中寒武世已经开始,该区滩间山群火山岩为洋壳俯冲的产物,发生的大规模的洋-陆俯冲发生在奥陶纪。 相似文献