冀北地区金矿床He、Ar、Pb同位素组成及其成矿物质来源   总被引：13，自引：0，他引：13  

王宝德  牛树银  孙爱群  李红阳 《地球化学》2003,32(2):181-187

成矿物质来源一直是成矿理论研究和找矿实践的焦点问题。选择了冀北地区3个幔枝构造金矿集中区11个金矿床黄铁矿及部分围岩进行了He、Ar同位素测定。研究表明,冀北地区主要金矿的3He/4He的值域为(0.93～7.30)×10-6,平均3.55×10-6;R/Ra=0.66～4.93,平均2.53;40Ar/36Ar=426～2073,40Ar平均为8.20×10-7cm3/g,4He/40Ar平均为2.17。矿区外围片麻岩和花岗岩的3He/4He值仅为(0.001～0.55)×10-6,反映来源上有明显差别。3He和4He在He同位素浓度图上落于地幔区附近。64个Pb同位素数据表现为矿质以幔源为主,确有部分壳源物质加入。研究认为,本区成矿物质应源于地球深部,随地幔柱多级演化,深部成矿流体由地球深部迁移到浅部,期间不可避免地存在壳幔流体的混合作用,故其值域往往界于地幔和地壳之间。  相似文献   

马鞍坪温泉气体成因地球化学研究     

孙文洁  高柏  孙占学  张文 《华东地质学院学报》2004,27(4):341-344

从赣中马鞍坪地区采集了 11个水样分析了温泉及冷泉的氢、氧同位素组成 ,得出温泉水起源于大气降水补给。在此基础上 ,对 4个温泉采集了气样 ,测定了气体组成的含量和氦同位素组成 ,以及二氧化碳的碳同位素 ,结果表明 :马鞍坪地区地热气体为二氧化碳型 ,温泉气的二氧化碳含量很高 ,占总体积的 97%以上 ,二氧化碳气体的δ1 3C值变化于 -4 18‰～ -7 0‰ ,平均为 -5 .63‰ ,为变质无机成因和幔源无机成因的混合物 ;其3He/4He比值变化于 (1.72± 0 .15 )×10 7～ (2 .5 5± 0 .19)× 10 - 7之间 ,R/Ra值均小于 1,属壳源成因  相似文献   

粤北诸广南部铀矿田流体包裹体的氦氩同位素组成及成矿流体来源示踪   总被引：4，自引：1，他引：3  

庞雅庆  范洪海  高飞  吴建勇  谢小占 《岩石学报》2019,35(9):2765-2773

粤北诸广南部铀矿田是我国重要的花岗岩型铀矿产地之一,有关诸广南部花岗岩型铀矿田的成因,多年来一直存在较大的争议。本文以诸广南部铀矿田典型铀矿床成矿期萤石、方解石和黄铁矿中流体包裹体为测试对象,研究了成矿流体的He、Ar同位素地球化学。研究表明,萤石流体包裹体的~3He/~4He比值为0. 021～0. 186Ra,~(40) Ar/~(36)比值为298. 4～2515. 7;方解石流体包裹体的3He/4He比值为0. 027～0. 209Ra,~(40) Ar/~(36)比值为295. 9～327. 2;黄铁矿流体包裹体的3He/4He比值为0. 021～1. 543Ra,~(40) Ar/~(36)比值为326. 9～1735. 1; He-Ar同位素系统显示成矿流体的3He/4He比值略高于地壳氦同位素特征值(0. 01～0. 05Ra),但低于幔源氦同位素特征值(6～9Ra),~(40) Ar/~(36)比值接近或高于大气氩的同位素组成(~(40) Ar/~(36)=295. 5),成矿流体为壳-幔混合来源。结合H-O、He-Ar、C和Sr等多元同位素证据表明,成矿流体由两个端元组成:一是含有一定放射性成因Ar的大气降水的地壳流体,二是含幔源He的地幔流体。进一步研究表明,受NNW向断裂控制的棉花坑、书楼丘、长排等铀矿床受地幔流体影响比较大,而受NE向断裂控制的蕉坪、东坑、烟筒岭铀矿床受大气降水影响比较大。  相似文献   

山东地区新生代不同类型幔源样品中稀有气体同位素组成与成因     

曾亮  成志雁  也尔哈那提·黑扎提  马锦龙 《地质论评》2013,59(4):677-686

稀有气体是地球流体源区信息的有效示踪剂.利用热熔融法对山东地区幔源巨晶、包体全岩及其单矿物以及寄主玄武岩等幔源样品中稀有气体的测试表明,不同类型样品具有明显不同的稀有气体同位素组成,特别是He同位素比值差异明显.巨晶和包体单矿物中的n(3He)/ n(4He)值分别为0.87～11.31Ra、0.911 ～10.11Ra,均值分别为6.1Ra和3.73Ra,主体介于地幔一大气一地壳源区之间;包体全岩中n(3He)/ n(4He)值0.19 ～ 2.30Ra(均值为1.05 Ra),且均低于相应单矿物中该比值;而玄武岩中n(3He)/ n(4He)值全为10-8数量级,与地壳均值无异.各类幔源样品中n(4Ar)/n(36 Ar)值无明显差异,介于296.4～864.3,高于大气但远低于典型地幔值.所获有限数据中,不同类型样品中n(2Ne)/n(2Ne)值均高于大气,具幔源特征,其中包体全岩及其单矿物n(2Ne)／n(22Ne)值分别为10.19 ～12.42和10.55～11.80,无明显差异;玄武岩中该值介于11.07～13.10,总体高于包体全岩及其单矿物.上述比值特征的差异反映了不同类型幔源样品各自不同的成因和演化特征:巨晶和包体单矿物中的轻稀有气体同位素组成主要反映了由于古板块俯冲所导致的岩浆源区地幔一大气／地壳的昆合特征,个别样品中可能存在宇宙成因3He;除单矿物中所体现的源区混合特征外,包体全岩还存在放射成因4He;而玄武岩在喷出地表后丢失大量地幔稀有气体信息,其同位素组成主要体现了放射成因4He的影响.  相似文献   

华北东部新生代玄武岩中橄榄岩捕虏体的流体及稀有气体组成研究     

汤华云郑建平  余淳梅 《岩石学报》2007,23(6):1531-1542

应用热爆裂质谱测量和高温熔融样品释气技术分别测定了山旺、栖霞和鹤壁新生代玄武岩中橄榄岩捕虏体中的橄榄石颗粒的流体和稀有气体组成。结果表明,鹤壁方辉橄榄岩具低于大气的~3He/~4He 比值0.778Ra 和大气成因的 Ne、Ar、Kr、Xe 组成。三个地区饱满地幔样品均以还原性流体为主,CO_2/~3He、N_2/~3He、N_2/Ar 比值分别为(0.62～4144)×10~9、(2631～64482)×10~6、269～73467。这些还原型流体偏离典型的幔源流体组成而表现出明显的碳和氮元素过剩,具有大气-地幔-壳源组份混合的特点,反映了大气和富含有机质的壳源组份在新生岩石圈上地幔中的影响。同时,这些饱满地幔样品的 Ne、Ar、Kr、Xe 具有大气属性,反映了大气型稀有气体在上地幔源区的广泛混染。其中,山旺和栖霞的~3He/~4He 比值分别为(2.91～3.07)Ra、(1.79～4.01)Ra,均高于大气低于 MORB,具有交代富集地幔的特点,而鹤壁则具有类似 MORB 的~3He/~4He 比值(7.03～7.05)Ra。这样的流体和稀有气体组成差别显示华北东部新生岩石圈地幔具亏损 MORB 型的特点并含壳源组份, 且其东缘所含壳源组份比例高于中部,说明华北东部新生岩石圈地幔中有俯冲洋壳组份的记录。  相似文献   

江西省横迳温泉区地热气体地球化学   总被引：2，自引：0，他引：2  

孙占学  高柏  刘金辉 《现代地质》2004,18(1):116-120

从赣南横迳温泉区采集10个水样并分析了温泉及冷泉的水化学成分,认为热水起源于大气降水补给。在此基础上,还在温泉区采集了4个气样,测定了气体组分的含量及氦同位素．以及CO₂和CH₄的碳同位素。研究结果表明：横迳地区温泉气中CO₂的含量很高(>96％),δC_CO2较重(-4.43‰～-5.50‰),属幔源CO₂;He同位素特征值(R/Ra)变化于1.36～2.11之问．均大于1,有幔源He的加入;本区温泉气的的组合类型为二氧化碳幔源温泉气,从整体上来说属于幔源无机成因气,是地幔脱气的产物。  相似文献   

中条山地区铜矿壳源流体成矿：来自铜矿峪、胡家峪流体包裹体氦、氩同位素的证据     

李志丹  李效广  曾威  张超  王佳营  薛生升 《地质学报》2019,93(9):2245-2259

山西中条山地区是我国重要的铜成矿带,发育铜矿峪斑岩型铜矿和“胡(家峪) 篦(子沟)”型铜矿。本文对铜矿峪铜矿的黄铁矿和黄铜矿、胡家峪铜矿的黄铁矿开展了流体包裹体中的He、Ar同位素组成研究。铜矿峪黄铁矿、黄铜矿流体包裹体中的 4 He含量为46. 23×10 -8 ~1195. 75×10 -8 cm 3 STP/g, 3 He/ 4 He比值为0. 01~0. 06Ra, 40 Ar含量为1. 69×10 -8 ~74. 11×10 -8 cm 3 STP/g; 40 Ar/ 36 Ar为407~2327. 8。胡家峪黄铁矿流体包裹体中 4 He含量为314. 06×10 -8 ~3815. 87×10 -8 cm 3 STP/g; 3 He/ 4 He为0. 003~0. 014Ra , 40 Ar含量为25. 62×10 -8 ~761. 51×10 -8 cm 3 STP/g; 40 Ar/ 36 Ar 值为936. 1~4108. 6。中条山地区铜矿床 3 He/ 4 He值明显指示壳源He特征,铜矿峪、胡家峪样品中幔源He的含量介于0~0. 56%之间,幔源He对成矿的贡献可忽略不计。在成矿流体的 40 Ar/ 36 Ar- 3 He/ 4 He和 40 Ar*/ 4 He 3 He/ 4 He关系图解中所有样品均投点于壳源流体区域,显示Ar为地壳来源。因此,中条山地区大规模成矿作用以壳源流体成矿为主,并未发现幔源流体参与成矿的踪迹。  相似文献   

全球洋岛玄武岩氦同位素组成的地幔动力学意义     

汪洋 《矿物岩石地球化学通报》2001,20(4):225-227

洋岛玄武岩 (OIB)氦同位素组成 (3 He 4 He)在地理分布上具有非均匀性特征。3 He 4 He值为 5～ 6Ra 的OIB主要分布在南半球 ,而分布于冰岛和夏威夷 (包括Loihi)等地的OIB3 He 4 He值为 10～ 35Ra。低3 He 4 He值OIB具有富集大离子亲石元素U、Th的源区 ,由于U、Th衰变释放的4He同位素的积累导致其3 He 4 He值降低。该源区的形成是俯冲作用导致深海沉积物与地幔混合 ,其地理分布受Pangea大陆周边的古俯冲带制约。高3 He 4 He值OIB的源区则是亏损U、Th的地幔胞 (mantleblob) ,该地幔胞是由极度亏损U、Th的再循环洋壳或大陆下地壳与未排气的地幔胞混合形成的。经过 1～ 2Ga的演化形成即相对亏损4He同位素而3 He 4 He值高的源区。同时 ,这种地幔胞富集难融组分 ,所以较洋中脊玄武岩 (MORB)的源区更为稳定 ,即高3 He 4 He值源区的部分熔融需要更高的地幔温度。超级地幔柱上升可以导致地幔升温和高3 He 4 He值源区的熔融。3 He 4 He值OIB地理分布的非均匀性反映出全球地幔对流系统复杂的半球非对称性格局。  相似文献   

河北沽源张麻井铀钼矿床He-Ar同位素示踪     

朱斌  黄志新  李子颖  孙小聪 《铀矿地质》2019,(5)

张麻井矿床是产于华北陆块北缘早白垩世流纹斑岩体内的一个大型火山岩型铀钼矿床。为查明该矿床的成矿流体来源,对成矿流体的He-Ar同位素进行了测定。分析结果表明,石英和萤石中流体包裹体的~3He/~4He分别为0.64Ra～6.73Ra和0.02Ra～0.39Ra; ~(40)Ar/~(36)Ar分别为296.4～362.1和265.7～330.8。成矿流体具有幔源流体和壳源流体混合的特点,且幔源流体具有接近岛弧深部地幔流体的He、 Ar同位素组成特征。结合矿床地质和地球化学特征,认为幔源流体的来源与喜山期裂陷玄武岩活动有关。  相似文献   

陕西柞山地区穆家庄铜矿床成矿流体来源的氦氩氢氧同位素示踪   总被引：5，自引：1，他引：4  

朱华平  张德全  张汉诚  佘宏全  丰成友  李虹 《地质与勘探》2005,41(5):22-26

最近,在秦岭柞山地区泥盆系中又发现了穆家庄铜矿,矿体明显受层间破碎带控制,矿石主要产在铁白云石-石英脉中,其后生成矿现象非常明显.文章利用的黄铁矿流体包裹体He-Ar同位素和氢氧同位素,来探讨这类矿床的成矿流体的来源.穆家庄铜矿床矿石矿物黄铁矿流体包裹体的3He/4He比值为0.322～0.889R/Ra,小于1.0R/Ra.3He/4He比值远远低于地幔流体的比值,与地壳流体的比值在相同的数量级上.穆家庄铜矿成矿流体的40Ar/36Ar比值为377～569,平均470,显然偏离大气氩的同位素组成.穆家庄铜矿成矿流体的40Ar/4He比值为0.09～0.23,平均值为0.164.很显然,该矿床的成矿流体的40Ar/4He比值接近地壳.根据以上分析,柞山地区的穆家庄铜矿床的成矿流体是壳源的.氢氧同位素分析表明穆家庄铜矿的氢氧同位素则落入原生岩浆水范围内,表明穆家庄铜矿的成矿流体为岩浆水.综合对比分析后认为,穆家庄铜矿的成矿流体是由壳源岩浆驱动并参与的岩浆流体提供的.  相似文献   

On the geoecology of Southern Tibet     

Matthias Kuhle Dr.  Jens-Peter Jacobsen Dipl.-Geogr. 《GeoJournal》1988,17(4):597-613

  相似文献   

西藏南部早第三纪钙质超微化石及东特提斯在西藏境内的封闭时限   总被引：14，自引：0，他引：14  

徐钰林 《现代地质》2000,14(3):255-262

研究了西藏南部定日地区曲密巴剖面早第三纪遮普惹组上页岩段的钙质超微化石 ,自下而上划分出 3个超微化石组合 :N annotetrina fulgens-Chiasmolithusgigas组合 ;Discoaster bifax-Chiasmolithussolitus组合及 Sphenolithuspseudoradians-Reticulofenestra bisecta组合 ,确定了上述3组合可与 Martini( 1 971 )超微化石分带的 NP1 5、NP1 6及 NP1 7带对比。还确认了第三超微化石组合的层位是西藏地区海相第三纪目前已知的最高层位 ,它的时代应为中始新世晚期 ,即属 Bartonian期。根据超微化石属种的时限分布的分析 ,东特提斯在西藏境内的封闭时间大约在3 8Ma左右 ,即至该时期 ,海水完全退出青藏高原 ,印度板块和欧亚板块完全拼合 ,青藏高原开始大幅度的隆升。  相似文献   

The Tectonics of Tibet     

P.Tapponnier    Xu Zhiqin   《地学前缘》2000,(Z1)

THE TECTONICS OF TIBET  相似文献   

Quaternary glaciations of the Rongbuk Valley,Tibet     

DANIEL H. MANN  RONALD S. SLETTEN  RICHARD E. REANIER 《第四纪科学杂志》1996,11(4):267-280

Randomisation tests on boulder weathering data distinguish moraines of four different ages in the Rongbuk Valley, all deposited by valley glaciers flowing northward into Tibet from the Himalaya. Lichenometry utilising subgenus Rhizocarpon distinguishes two groups of moraines, those <100 yr old and those older than several thousand years. The degree of soil development has a similar, limited utility in relative-age dating these moraines. The radiocarbon ages of calcium carbonate coatings in the lower horizons of moraine soils provide minimum-limiting ages of 1900 yr BP for the penultimate advance of the Rongbuk glacier (Samdopo moraine) and 9500 yr BP for the Rongbuk moraine, the moraine suggested by previous workers to represent the last glacial maximum. Equilibrium-line depression associated with the Rongbuk moraine probably was slight, <200 m. The small magnitude of this depression relative to glaciers in other mountain ranges could relate to a weakening of the monsoon in full glacial times, recent tectonic uplift, and/or to the insensitivity of these high-altitude glaciers to lowering temperatures in the rain shadow of Mount Everest.  相似文献   

Geochemical Characteristics of the Cenozoic Volcanic Rocks in Central Qiangtang, Tibet: Relation with the Uplift of the Qinghai Tibet Plateau     

TAN Fuwen  PAN Guitang  XU Qiang Chengdu Institute of Geology  Mineral Resources  Chengdu 《Continental Dynamics》2001,(1)

1. Introduction The uplift and evolution of the Qinghai Tibet Plateau has been the most important projects for studying the dynamic process of the plateau, and the uplift mechanism and history are the essential problems. Researches have been done extensively in terms of tectonics, sedimentology, geophysics, paleontology, paleoclimate and paleomagnetism for several tens of years. Many evolution models have been suggested but so far none of them have been explained perfectly. In recent years,…  相似文献   

Western Tibet relief evolution since the Oligo-Miocene     

《Gondwana Research》2017

Western Tibet, between the Karakorum fault and the Gozha–Longmu Co fault system, is mostly internally drained and has a 1.5–2 km amplitude relief with km-large valleys. We investigate the origin of this peculiar morphology by combining a topography analysis and a study of the Cenozoic sedimentation in this area. Cenozoic continental strata correspond to a proximal, detrital fan deposition, and uncomformably rest on a palaeorelief similar to the modern one. Zircon U–Pb dating from trachytic flows interbedded within the Cenozoic continental sediments indicates that detrital sedimentation occurred at least between ca 24 and 20 Ma in the Shiquanhe basin, while K/Ar ages suggest it may have started since ~ 37 Ma in the Zapug basin. The distribution of continental deposits shows that present-day morphology features, including km-large, 1500 m-deep valleys, were already formed by Early Miocene times. We suggest that today's internally drained western Tibet was externally drained, at least during late Miocene, contemporaneously with early motion along the Karakorum Fault. Detailed study of the present day river network is compatible with a dextral offset on the Karakorum Fault of 250 km at a rate of ~ 10 ± 1 mm/yr. Displacement along the Karakorum fault possibly induced the shift from external to an internal drainage system, by damming of the Bangong Co ~ 4 Ma ago, leading to the isolation and preservation of the western Tibet relief.  相似文献   

Birth of Interior Drainages of the Northwestern Tibet Plateau     

ZHAO Yue  LIU Jian  LI Dunpeng  PEI unling 《《地质学报》英文版》2013,87(Z1):108-108

  相似文献   

Subduction of the Indian lower crust beneath southern Tibet revealed by the post-collisional potassic and ultrapotassic rocks in SW Tibet     

《Gondwana Research》2017

New major and trace elemental, Sr–Nd–Pb isotope, and zircon U–Pb geochronological and Hf–O isotope data of post-collisional potassic and ultrapotassic volcanic rocks (PVRs and UPVs, respectively) along with geochemical data of PVRs, UPVs, and Mg-rich potassic rocks (MPRs) in the literature are used to constrain their mantle source and genesis. The PVRs, UPVs, and MPRs share similar geochemical features but with some discrepancies, suggesting that they were derived from subcontinental lithospheric mantle (SCLM) with isotopic heterogeneity resulting from the varying contributions of subducted Indian lower crust into the mantle source (ca. 6–20%, ca. 8–30%, and ca. 9–30%, respectively). The zircon Hf–O isotopic compositions of these rocks can be classified into two groups, including Group I rocks with high δ¹⁸O (6.7–11.3‰), low ε_Hf(t) (− 17.0 to − 12.0), and old Hf crustal model ages (1.87–2.19 Ga) that indicate an ancient SCLM source, and Group II rocks with δ¹⁸O values of 6.8–10.7‰, ε_Hf(t) values of − 11.8 to − 6.3, and younger Hf crustal model ages (1.50–1.86 Ga). The negative correlation defined by δ¹⁸O and ε_Hf(t) of Group II samples suggests a two-component mixing between mantle- and crust-derived melts, in which the latter would be the subducted Indian lower crust as indicated by the similar negative ε_Hf(t) values between Group II samples (− 11.8 to − 6.3) and the High Himalayan gneiss (− 14.2 to + 0.3). Thus we propose two enrichment events to account for the Hf–O isotopic compositions of the PVRs and UPVs/MPRs: the first involves the enrichment of the overlying SCLM that was metasomatized by fluids derived from dehydration of the subducted Indian lower crust, and the second invokes the enrichment of the overlying SCLM metasomatized by melts of the already dehydrated different proportions of the Indian lower crust. We argue that break-off of the northwards subducted Indian Plate in the early Miocene caused the asthenospheric upwelling under the Indian plate through slab window, resulting in varying degrees of partial melting of the overlying metasomatized heterogeneous SCLM to produce the primitive magmas of the PVRs, UPVs, and MPRs in an extensional setting. These observations and interpretations imply that the Indian lower crust was subducted beneath the Lhasa terrane in the Early–Middle Miocene.  相似文献   

青藏高原壳幔结构构造的基本特征          下载免费PDF全文

王桥  潘桂棠  唐发伟  杨剑  夏时斌  张伟  李华  高慧  廖国忠 《沉积与特提斯地质》2022,42(2):319-329

青藏高原是新生代以来由于印度板块与欧亚板块碰撞而迅速隆起,平均海拔超过4000 m的高原,是研究碰撞过程和形成演化的理想窗口。有关青藏高原的碰撞过程及印度板块岩石圈北缘界线,至今仍然存在较大争议,这可能主要是由于不同研究方法获得认识的差异性和局限性所导致。基于此,本文利用前人深部结构资料,讨论了高原岩石圈的壳幔构造及物质组成等,并从新的地质视角讨论了班怒带的大地构造属性。通过梳理前人的深部结构资料,认为青藏高原的壳幔岩石圈结构较为复杂,如高原内部岩石圈厚度显著大于周缘地区,中下地壳及上地幔广泛分布着低速高导层,这些特殊的地质地球物理结构是印亚板块碰撞的结果。此外,本文进一步对比分析了班怒带的地质与地球物理结构,揭示该构造带两侧存在显著的差异,认为其是印度岩石圈的北缘,这对于认识青藏高原的形成演化具有重要的意义。  相似文献   

Tectonic evolution of the Triassic fold belts of Tibet     

《Comptes Rendus Geoscience》2008,340(2-3):180-189

The Triassic fold belt of North Tibet is mainly composed, from west to east, of the Bayan Har, Songpan–Garzê, and Yidun (or Litang–Batang) terranes. The Indosinian orogeny results from interactions between the South China, North China and Qiangtang (North Tibet) blocks during the closure of the Palaeotethys. A synthesis of the tectonic and geochronological data available on this belt is presented and a new geodynamic model of its formation is proposed. At the end of the Permian, a synchronous activity along three subduction zones, Kunlun–Anyemaqen to the north, Jinsha to the south and Yushu–Batang to the east, induced the growth of wide accretionary orogens until the end of the Triassic period. The onset of subduction in Tibet is contemporaneous with Indosinian tectonism in Indochina (pre-Norian). However, the main tectonic events that lead to the closure of the Tethysian basin and the subsequent building of the Triassic belts are younger (220–200 Ma).  相似文献