南秦岭西坝花岗质岩体矿物学特征及成岩意义

西坝花岗质岩体位于南秦岭构造-岩浆带中部,为南秦岭印支期花岗岩带五龙岩体群的重要组成部分,与双王金矿有密切的空间关系。该岩体主要由石英二长闪长岩和花岗闪长岩组成,岩体中发育较多的镁铁质包体。通过对岩体及镁铁质包体的系统的矿物学特征研究发现,本区花岗质岩体属于I型花岗岩类,成岩物质主要来源于地壳,并且有地幔物质的加入。岩体及镁铁质包体显示有多种壳-幔岩浆混合的岩相学证据:如包体的冷凝边、斜长石环带成分显示核部和边缘偏基性,而幔部偏酸性,包体中见大量的长针状磷灰石及角闪石,包体中有两种产状的角闪石等。根据矿物温度压力计计算,西坝岩体的结晶温度为646.72~703.84℃,压力为1.67×108~3.66×108Pa,平均为3.12×108Pa。岩体形成于相对高氧逸度(lgfO2为-16.16×105~-17.06×105Pa)、中等水逸度(fH2O为46.82×105~136.85×105Pa)和氢逸度(fH2为0.32×105~0.91×105Pa)环境。岩体的这种高氧逸度条件有利于金进入熔体相或流体相,是金矿形成的有利条件。     

Feldspar Lead Isotopic Composition of Granitoids from the Eastern Qinling Orogenic Belt and Their Tectonic Significance

This paper reports 48 feldspar lead isotope analyses from 27 granitic intrusions,which formed from the Late Proterozic to Mesozoic within the Eastern Qinling oregenic belt. Itis found that the granitic rocks of South Qinling are characterized by a strong block-effect anddepletion in U-Pb and Th-Pb, showing that these rocks came from the same lead isotopetectono-geochemical province, while those of North Qinling are characterized by higher U-Pband Th-Pb for Late Proterozoic to Early Paleozoic ones and lower U-Pb and Th-Pb forLate-Palaeozoic and younger ones in their feldspar lead isotopic composition. In the NorthQinling block, lead isotopic signatures reflect that the source of granitic magma had changedsince the Late Palaeozoic. Comparison of feldspar lead isotopic composition between SouthQinling and North Qinling shows that there is marked difference in lead isotopic compositionfor pre-Palaeozoic granitoids, indicating that the South Qinling and the North Qinling blocksbelong to different tectonic units, but the similarities in lead isotopic composition are quiteclear, which indicates that the South Qinling block had been welded with the North Qinlingblock and that the magma sources of both blocks were identical. The analysis provides directevidence for underplating of the continental crust of South Qinling beneath the North Qinlingblock in the continent-continent interaction stage of the Eastern Qinling oregenic belt.     

Petrogenesis of Indosinian Granitoids in Middle-Segment of South Qinling Tectonic Belt: Constraints from Sr-Nd Isotopic Systematics

South Qinling Tectonic Belt (SQTB) is located between the Shangzhou-Danfeng and Mianxian-Lueyang sutures. There are a lot of early Mesozoic granitoid plutons in its middle segment, comprising the Dongjiangkou-Zhashui granitoid plutons at the northeast, Huayang-Wulong-Laocheng granitoid plutons at the central part, Xiba granitoid pluton at the northwest and Guangtoushan-Liuba granitoid plutons at the southwest. These Indonisian granitoids contain a mass of various scale mafic enclaves, which show sometimes clear boundaries and sometimes transitional boundaries with their host granitoids. These granitoids also exhibit metaluminous to peraluminous series, commonly higher Mg# and a wide range of petrochemistry from low-K tholeiite series, through mid-K and high-K calc-alkaline series to shoshonite series and predominated samples are attributed to mid-K and high-K calc-alkaline series. Detailed analyses in Sr-Nd isotopic systematics and petrochemistry reveal that there may be regionally initial granitoid magma of the Indonisian granitoid plutons, comprising Dongjiangkou-Zhashui, Huayang-Wulong-Laocheng, Xiba, and Guangtoushan-Liuba granitoid plutons, which were produced by hybrids of magmas in various degrees, and the initial magmas were derived from both the mantle and the lower continental crust (LCC) sources in the SQTB. The initial granitoid magma further did the magma hybrid with the magmas from the LCC, crystallization fractionation, and assimilation with upper crustal materials during their emplacement to produce these granitoid plutons in the SQTB. These magmatism processes are most likely to occur under continent marginal arc and syn-collision to post-collision tectonic backgrounds.     

南秦岭铁瓦殿岩体的成岩时代及地质意义

铁瓦殿岩体位于陕西省南部汉阴县、石泉县和紫阳县交界部位,大地构造位置属于南秦岭构造带南部,主要由闪长岩、石英闪长岩、石英二长闪长岩、石英二长岩和二长花岗岩组成.LA-ICP-MS锆石U-Pb同位素定年结果表明铁瓦殿岩体存在3阶段的岩浆侵位:早期阶段的石英二长岩形成于742±5 Ma,中期阶段的石英闪长岩、石英二长闪长岩及二长花岗岩形成于～722 Ma;晚期阶段的石英闪长岩形成于704±4 Ma.通过与扬子北缘汉南杂岩中的中酸性火山岩及侵入岩的岩石组合和形成时代对比,发现铁瓦殿深成侵入岩与扬子克拉通北缘汉南杂岩中中酸性侵入岩具有相似的岩石组合和形成时代,表明它们经历了相似的构造-岩浆演化.铁瓦殿岩体是南秦岭地区新元古代俯冲作用相关的重要地质记录.     

秦岭造山带早中生代花岗岩成因及其构造环境

秦岭早中生代花岗岩以准铝到过铝质中钾—高钾钙碱性岩石为主。它们具有相对富集LILE,LREE,贫化HFSE和Nb,Ta不同程度亏损的后碰撞花岗岩的地球化学特征,部分花岗岩显示了埃达克质（或高Sr、低Y）花岗岩和I-A型过渡的环斑结构花岗岩的特征。综合分析这些花岗岩体的构造和岩石地球化学特征,并结合与其同时代煌斑岩和基性岩脉构成的双峰式岩浆作用特点,认为秦岭早中生代花岗岩主要形成于后碰撞环境。其中,埃达克质花岗岩形成较早,与后碰撞早期环境的地壳增厚紧密相关,其后产出的大量正常块状花岗结构的花岗岩类主要形成于后碰撞阶段拆沉作用发生的伸展阶段,最终侵位的高分异富钾花岗岩和环斑花岗岩标志着秦岭已进入后碰撞晚期阶段。     

南秦岭枣木栏岩体LA-ICP-MS锆石U-Pb年龄、岩石地球化学特征及其地质意义

南秦岭地区印支期花岗质岩浆侵入活动频繁,出现了不同类型的花岗岩,高锶低钇花岗岩就是其中的一种,前人对其进行了广泛的研究,但仍有不同的认识。枣木栏岩体位于南秦岭光头山岩体群北部,为典型的印支期高锶低钇花岗岩,前人对其缺乏研究。本文在对其详细野外地质调查的基础上,进行了较系统的岩石学、岩石地球化学、LA-ICP-MS锆石U-Pb年代学研究,认为其主体为石英闪长岩,岩石中发育大量的暗色包体,低SiO_2(53.72%~62.21%),高镁(MgO:3.84%~7.19%),高Mg~#(65~70),属于准铝质高钾钙碱性岩石。岩石具有高Sr(402×10~(-6)~811×10~(-6))、低Y(5.91×10~(-6)~12.7×10~(-6),18×10~(-6))和重稀土,Yb含量为0.58×10~(-6)~1.22×10~(-6),1.8×10~(-6)),高Sr/Y比值(35~94)的高锶低钇中酸性岩(Adakite)的典型地球化学特征。LA-ICP-MS锆石U-Pb年龄为199±3Ma(MSWD=4.3),限定枣木栏岩体的形成时代为晚三叠世晚期—早侏罗世早期。结合区域地质资料,认为其应该是主碰撞造山后期,地壳加厚背景下形成的具有高锶低钇属性的壳幔混合花岗岩。同时表明南秦岭地区在200Ma左右,仍为后碰撞构造环境,为区域构造演化提供了信息。     

西秦岭党川地区花岗岩的成因及其构造意义

对西秦岭造山带党川地区的党川花岗岩和石门花岗岩进行了LA-ICP-MS锆石U-Pb定年、元素地球化学和Sr-Nd-Pb同位素组成的研究.结果表明, 党川花岗岩和石门花岗岩的岩浆结晶年龄分别为438±3Ma和220±2Ma.在岩石地球化学特征上, 党川花岗岩类似于C-型埃达克质岩石, 岩浆产生于增厚地壳物质的部分熔融, 而石门花岗岩类似于普通的地壳深熔型花岗岩.党川花岗岩的I_Sr=0.70660~0.70929, ε_Nd (t) =-2.24~-4.48;石门花岗岩的I_Sr=0.70581~0.70804, ε_Nd (t) =-3.73~-4.72.Sr-Nd同位素组成进一步指示它们的岩浆派生于地壳物质.然而, 在Pb同位素组成上, 党川花岗岩和石门花岗岩存在着明显的差异.党川花岗岩以相对富放射成因Pb同位素组成为特征, 初始Pb同位素比值为: 206Pb/204Pb=18.288~18.484, 207Pb/204Pb=15.677~15.693, 208Pb/204Pb=38.182~38.283;而石门花岗岩以相对低的放射成因Pb同位素组成为特征, 初始Pb同位素比值为: 206Pb/204Pb=17.989~18.189, 207Pb/204Pb=15.560~15.567, 208Pb/204Pb=37.982~38.000.这表明党川花岗岩和石门花岗岩的岩浆来自于不同地壳物质的部分熔融.区域分析表明, 西秦岭党川地区中古生代和早中生代的岩浆事件、岩石成因机制及岩浆源区均可与东秦岭地区北秦岭构造单元相对比, 由此说明西秦岭党川地区是东秦岭地区北秦岭构造单元的西延, 并且东秦岭地区早中生代南秦岭块体向北秦岭块体的大陆俯冲作用向西一直延至到西秦岭地区.      

Mineralogy and Geochemistry of Pyrite and Arsenopyrite from the Zaozigou Gold Deposit in West Qinling Orogenic Belt,Central China: Implications for Ore Genesis

The Zaozigou gold deposit lies in the West Qinling orogenic belt, Gansu Province, China. It is one of the largest gold deposits, and the orebodies are hosted in fine‐grained slates intercalated with limestone of the Middle‐Triassic Gulangdi Formation and varied dykes. The gold orebodies are strictly controlled by the NE‐, NW‐, and SN‐trending tensional and shearing faults with high dipping angle. The mineralogy and geochemistry of pyrite and arsenopyrite are measured by electron microprobe. Pyrite has up to 0.12 wt.% Au, and arsenopyrite contains up to 0.17 wt.% Au. The antithetic correlation between S and As indicates the substitution of As for S in pyrite, and arsenic occurs in anionic As^1? state in the pyrite structure under the reduced conditions. Pyrite has relatively high Co (~364–2248 ppm) but relatively low Ni (~109–497 ppm) contents, with Co/Ni ratios ranging from ~1.63 to 10.50, indicating that the deposit originated from a volcanogenic fluid and remobilized by hydrothermal fluid. Au in arsenopyrite occurs as cationic Au in solid solution, whereas Au in pyrite is in solid solution and metal nanoparticles (Au⁰). The texture characteristics and trace element geochemistry among cores, transition zones, and rims of pyrites demonstrate that there are at least four pulses of fluid participating in the generation of pyrite in the deposit. The calculated formation temperatures of the Zaozigou deposit vary from 148°C to 304°C, with an average temperature of 213°C based on Au contents in pyrite. The Pb isotopic compositions of pyrite samples suggest that the metallogenic materials of the Zaozigou deposit were derived from the mantle and upper crust. All the characteristics above lead us to draw the conclusion that the Zaozigou gold deposit is classified as an epithermal deposit.     

南秦岭小茅岭复式岩体地球化学特征及其构造意义

南秦岭北缘小茅岭复式岩体主要由宋家屋场基性辉绿(辉长)岩,迷魂阵、磨沟峡和叶家湾中性-偏酸性闪长岩组成,形成于新元古代早期870~840 Ma。岩石地球化学研究显示,宋家屋场基性岩属亚碱性系列岩石,富集轻稀土元素及大离子亲石元素,Nb、Ta、Ti、P等具有弱的负异常,Zr、Hf等高场强元素的含量较高,Zr/Y、Ta/Yb比值较高,Zr/Nb比值较低,与岛弧玄武岩的地球化学特征相似,在构造环境判别图解中投于火山弧岩石区域,一些元素的富集特征可能来源于受俯冲块体流体交代的岩石圈地幔。迷魂阵、磨沟峡及叶家湾闪长岩体均属准铝质亚碱性系列岩石,具有岛弧火成岩的地球化学特征。Sr-Nd-Hf同位素地球化学分析显示,宋家屋场岩体主要来自亏损地幔源区,磨沟峡和叶家湾岩体主要为新生基性下地壳的部分熔融,而迷魂阵岩体主要为古老地壳物质的部分熔融。上述特征表明小茅岭复式岩体各组成部分可能形成于870~840 Ma俯冲相关的岛弧构造背景,俯冲块体脱水形成的流体交代上覆地幔楔,这种地幔部分熔融形成了宋家屋场角闪辉绿(辉长)岩,由于基性岩浆的加热,诱发新生基性下地壳及原古老地壳物质部分熔融,岩浆上升、侵位,形成磨沟峡、叶家湾及迷魂阵岩体。结合陡岭地区~850–780 Ma变质作用及岩浆事件相关报导,在南秦岭北缘小茅岭—陡岭隆起带上,新元古代早期存在一期构造-岩浆-变质事件,该事件的区域大地构造属性则有待进一步研究。     

秦岭造山带主要大地构造单元的新划分

根据近年来的地层、沉积、岩浆-火山和构造变形及岩石地球化学等方面研究新进展,结合前人的成果,按照大地构造相单元划分原则,将秦岭造山带分为13个主要构造单元: ①华北南缘陆坡带,包括第一层序的青白口系大庄组、震旦系罗圈组和寒武系,与之对应的豫西栾川群;第二层序的奥陶纪陶湾群;②北秦岭弧后杂岩带,以宽坪群和部分二郎坪群中的基性火山岩与碳酸盐岩的构造块体与变质的古生代深海碎屑岩混杂为特征;③秦岭岛弧杂岩带,由丹凤群不同的古洋隆块体、富水幔源岛弧基性岩浆杂岩、云架山群、斜峪关群和草滩沟群的岛弧钙碱性岩浆岩和火山岩及深海沉积物及秦岭群弧基底杂岩等构成,时间跨度为奥陶纪-石炭纪;④秦岭弧前盆地系,泥盆系及其它晚古生代地层是其主要充填物,同沉积断裂控制了一系列的次级盆地;⑤秦岭增生混杂带,由泥、砂岩组成的基质和基性、超基性岩、火山岩、灰岩、硅质岩等岩块构成,最终形成于二叠纪末-三叠纪初;⑥南秦岭岛弧杂岩带,碧口群的基性-中酸性火山岩和岩浆岩组成,称碧口弧;由三花石群的中基性火山岩以及西乡群的中酸性火山岩共同构成,称西乡弧;由耀岭河群和郧西群中基性熔岩和中酸性火山岩组成,称安康弧;⑦南秦岭弧前盆地系,碧口弧前盆地充填物是以碎屑岩为主的横丹群和关家沟群;西乡弧前沉积主要由三花岩群包括王家坝组砂岩以及由泥岩、砂岩和中酸性火山岩变质而成的片岩、片麻岩和石英岩组成.安康弧前盆地具有明显的深海扇沉积特征梅子垭群和大贵坪组;⑧南秦岭弧后盆地系,包括后龙门山的茂县群和上古生界及三叠系,大巴山的洞河群和部分耀岭河群的火山岩;⑨南秦岭弧后陆坡带,只保留大巴山弧后陆缘,是高川-毛坝以南的下古生界;⑩南秦岭前陆褶冲带,包括龙门山北段、米仓山和大巴山前陆褶冲带.三带形成于印支-燕山期,但构造线不同,且在出现的时间上,由西到东由早到晚;(11)三叠纪残余海盆;(12)中-新生代走滑拉分和断陷盆地;(13)基底断块.     

北秦岭斜峪关群和草滩沟群火山岩成因的地球化学和同位素约束、SHRIMP年代及其意义

地球化学分析结果表明:北秦岭斜峪关群基性熔岩的LREE轻度富集,(La/Yb)N=1.31~3.27,中—酸性熔岩的LREE显著富集,(La/Yb)N=4.22~26.54。草滩沟群基性火山岩LREE中度富集,(La/Yb)N=2.50~2.97,中—酸性熔岩的LREE显著富集,(La/Yb)N=4.57~10.15。低δEu值(0.62~1.14)暗示斜峪关群和草滩沟群火山岩初始玄武质岩浆的分离结晶程度很低、初始岩浆中斜长石分异作用很弱,大离子亲石元素明显富集,而相对N-MORB较低的高场强元素丰度,特别是明显的Ta、Nb低谷,展示了典型的岛弧火山岩的特征。同位素地球化学分析揭示,斜峪关群和草滩沟群火山岩的初始Sr比值为0.703438~0.708329,初始Nd比值为0.511948~0.512327,多集中于0.512003~0.512327间,εNd均为正值( 5.42~ 12.81),表明二群火山岩主要来自富集地幔源区。斜峪关群和草滩沟群火山岩的岩浆源区为混染的富集地幔源区,是俯冲板片熔融和地壳混染的产物,形成于岛弧构造环境。SHRIMP锆石U-Pb测年表明斜峪关群基性熔岩形成时代为早奥陶世(472±11Ma),其中的古老捕晶锆石(1294±34Ma)表明斜峪关群火山岩的岩浆源区存在元古宙地壳混染。     

秦岭造山带中部两河口岩体花岗岩锆石U-Pb年代学、地球化学及地质意义

北秦岭两河口岩体位于太白地区,侵位于秦岭群杂岩中,主要岩性为眼球状花岗岩、片麻状花岗岩和二长花岗岩。 本文研究的眼球状花岗岩和片麻状花岗岩的结晶年龄分别为928±19 Ma 和940±12 Ma,岩石中还保留古元古代至中元古代的 继承锆石。眼球状花岗岩含有富铝矿物石榴子石和白云母。岩石的A/CNK 多大于1.1,具有高Si、富铝的特征,属于高钾钙 碱性系列。岩石轻、重稀土分馏明显,具有中等负Eu 异常。岩石富集大离子亲石元素（Rb, Ba, K 等）、亏损高场强元素 （Nb, Ta, Ti 等）,具有明显的Ba, P, Sr 负异常。矿物学和地球化学特征显示眼球状花岗岩和片麻状花岗岩为S 型花岗岩。两河 口岩体初始Sr 同位素组成变化大,87Sr/86Sr(t)=0.701067~0.739451,具有较低的εNd(t)=-5.7~-3.3, 两阶段Nd 模式年龄为TDM2= 1.9~2.1 Ga。样品具有高的放射成因Pb 同位素组成,指示两河口岩体是壳源成因岩石,其源岩可能为秦岭群斜长角闪岩和 片麻岩。结合区域地质背景,认为两河口岩体源于新元古代陆壳碰撞晚期的构造转换阶段古老中下地壳的熔融作用,是对 Rodinia 超大陆汇聚事件的响应。     

Geochronology,Petrogenesis and Tectonic Setting of the Late Jurassic I-type Granites in the North Qinling Orogenic Belt,Central China

The North Qinling Orogenic Belt(NQOB) is a composite orogenic belt in central China. It started evolving during the Meso–Neoproterozoic period and underwent multiple stages of plate subduction and collision before entering intra-continental orogeny in the Late Triassic. The Meso–Cenozoic intra-continental orogeny and tectonic evolution had different responses in various terranes of the belt, with the tectonic evolution of the middle part of the belt being particularly controversial. The granites...     

Revised Chronostratigraphic Framework of the Metamorphic Strata in the Jiangnan Orogenic Belt,South China and its Tectonic Implications

In a re-study of regional geology by the China Geological Survey (CGS), the key problem is in the stratigraphical division and correlation. According to the new isotopic dating of the Meso- and Neoproterozoic in China, there have been great changes in the strata correlation and tectonic explanation. The authors obtained four zircon sensitive high resolution ion micro-probe (SHRIMP) U-Pb datings from the bentonite of the Lengjiaxi Group (822±10 Ma, 823±12 Ma and 834±11 Ma) and Banxi Group (802.6±7.6 Ma) in north Hunan Province, which is considered to be the middle part of the Jiangnan Orogenic Belt. On the basis of the zircon dating mentioned above, the end of the Wuling orogen is first limited in the period from 822 Ma to 802 Ma in one continued outcrop (Lucheng section) in Linxiang city, Hunan Province. Combining a series of new zircon U-Pb datings in the Yangtze and Cathaysia blocks, several Neoproterozoic volcanic events and distribution of the metamorphic rocks in the Jiangnan Orogenic Belt have been distinguished. In the context of the global geodynamics, it is useful to set up a practical and high precision chronological framework and basic and unified late Precambrian section in South China.     

秦岭造山带中段重磁异常与成矿带的关系

成矿带的展布受地质构造的控制,而地质构造在重磁异常上有明显反映。为了研究秦岭造山带中段重磁异常与成矿 带的关系,该文系统整理、处理了秦岭造山带中段已获得的重磁力测量资料,分析研究了重磁异常的展布特征、推断了研 究区的断裂构造,讨论了结晶基底的起伏特征,并结合区域地质资料及矿床分布资料讨论了重磁场特征及其与地质构造、 成矿带的关系。结果表明,秦岭造山带中段成矿带均分布在重、磁异常梯度带上或几组不同方向异常的交汇部位,尤其在 局部重力高异常范围内及其边部梯度带上矿体富集。这一结果为研究秦岭造山带的地质演化、地质构造（尤其是深部构 造）、断裂分布及下一步的成矿有利区预测提供重要的参考信息。     

Triassic Granitic Magmatism at the Northern Margin of the North China Craton: Implications of Geochronology and Geochemistry for the Tectonic Evolution of the Central Asian Orogenic Belt

The early Mesozoic marked an important transition from collisional orogeny to post-orogenic extension at the northern margin of the North China Craton(NCC). In this study, we undertook zircon U-Pb dating and whole-rock majorand trace-element geochemical analyses of early Mesozoic granitic rocks in the Chifeng area to establish their geochronological framework, petrogenesis, and implications for the tectonic evolution of the eastern Central Asia Orogenic Belt(CAOB). Zircon U-Pb dating results show that these rocks were emplaced in three stages during the Triassic:(1) syenogranites during 250–248 Ma,(2) granodiorites during 244–243 Ma, and(3) monzogranites and granodiorites during 232–230 Ma. These Triassic granitoids belong to the high-K calc-alkaline series and are evolved I-type granites. They have high SiO_2 and low Mg O contents with enrichments in light rare-earth elements, Zr, Hf, Rb, Th, and U, and depletions in Ba, Nb, Ta, Sr, and Eu. These geochemical data indicate that the granitoids were derived from partial melting of a lower-crustal source under relatively low-pressure conditions and subsequently underwent extensive fractional crystallization. Considering both the geochemical data and regional geological information, we propose that the 250–248 Ma syenogranites were emplaced in an extensional environment linked to slab break-off after closure of the Paleo-Asian Ocean(PAO) along the Solonker-Xra Moron-Changchun suture zone. The 244–243 Ma granodiorites were formed in a compressional orogenic setting during collision between the Erguna-Xing'an-Songliao composite block and the NCC. The 232–230 Ma granodiorites and monzogranites were emplaced during the transition from compressional orogeny to post-orogenic extension. Overall, the early Mesozoic tectonic evolution of the Chifeng area can be divided into three main stages:(1) closure of the Paleo-Asian Ocean and extension related to slab break-off during the Early Triassic;(2) continuous collisional compression during the Middle Triassic after closure of the PAO; and(3) post-orogenic extension during the Late Triassic, most probably due to lithospheric delamination after amalgamation of the Erguna-Xing'an-Songliao composite block and the NCC.     

喜马拉雅碰撞造山带不同类型部分熔融作用的时限及其构造动力学意义

喜马拉雅新生代淡色花岗岩,是世界上S型花岗岩的典例,主要分布于两条近平行排列的东西向构造带内,特提斯喜马拉雅带和高喜马拉雅带。实验岩石学和理论研究表明:这些淡色花岗岩是中—下地壳岩石进行不同性质的地壳深熔作用的产物,部分熔融类型与构造变形密切耦合。具体表现在:146~35 Ma,在增厚地壳条件下,以角闪岩部分熔融作用为主,形成了具有高Sr/Y比值的二云母花岗岩;228~9 Ma,减压条件下,俯冲物质快速折返,白云母发生脱水部分熔融,形成具有较高Rb/Sr比值的花岗岩;3其中,在21~16 Ma期间,与藏南裂谷系E—W向伸展作用开启密切相关,变泥质岩发生水致白云母部分熔融作用,形成Rb/Sr比值较低,Sr和Ba含量较高的花岗岩;4在25~27 Ma期间,局部地区发生高压水致部分熔融作用。     

北喜马拉雅淡色花岗岩地球化学: 区域对比、岩石成因及其构造意义

北喜马拉雅出露一系列片麻岩穹窿,这些穹窿被形成于27.5～10Ma的淡色花岗岩侵入.淡色花岗岩的岩石类型为二云母花岗岩,它们的主量元素组成为SiO2=70.97%～74.54%、K2O+Na2O=6.27%～8.09%、K2O/Na2O=0.91～1.36及A/CNK=1.10～1.33.然而,它们在微量元素组成上呈现出较大的变化:Rb=(41～322)×10-6、Sr=(26～139)×10-6、Ba=(135～594)×10-6、(La/Yb)N=0.97～17.31、Eu/Eu=0.29～0.72.北喜马拉雅淡色花岗岩的主量元素和微量元素组成特征类似于高喜马拉雅中新世的二云母花岗岩,而在Ti、Mg、Ca、Ba含量和Rb/Sr比值上明显不同于高喜马拉雅中新世的电气石-白云母花岗岩.北喜马拉雅淡色花岗岩(87Sr/86Sr)t=0.7344～0.8503(t=10Ma),εNd(10Ma)=-12.5～-19.3,与高喜马拉雅淡色花岗岩无明显差异.在岩石成因上,北喜马拉雅和高喜马拉雅中新世淡色花岗岩均起因于构造减压作用,由此导致白云母发生脱水反应诱发高喜马拉雅结晶岩系的深熔.但北喜马拉雅淡色花岗岩形成的地质背景明显不同于高喜马拉雅淡色花岗岩,前者具有较长的时间跨度,开始形成于喜马拉雅渐新世的地壳增厚期,之后形成于中新世穹窿片麻岩的折返时期,而高喜马拉雅淡色花岗岩与中新世高喜马拉雅结晶岩系的构造挤出作用有关.因此,北喜马拉雅和高喜马拉雅淡色     

Middle Devonian Picrites of the Southern Margin of Altay Orogenic Belt and Implications for the Tectonic Setting and Petrogenesis

INTRODUCTION Inrecentyears,greatprogressonthegeologic tec tonicevolutionandmineralresourcesofXinjianghas beenachieved.However,manyissuesarestilldebated, suchasancienttectonicpatternsandtheclosuretimeof theancientoceanicbasin(LiandXu,2004).Theseis sueshavelimitedourknowledgeoftheformationande volutionofAsiancontinents,aswellastheexploration anddevelopmentofmineralresources. Recently,theHilaketehalasuporphyrycopperde positwasdiscoveredinthestrataoftheMiddleDevoni anBeitashanFormatio…     

Pb Isotope Mapping in the Tongbai-Dabie Orogenic Belt, Central China

Tongbai-Dabie orogenic belt in Central China is a part of the collisional belt between the Yangtze and North China cratons. It represents one of the most extensive ultrahigh-pressure （UHP） and high-pressure （HP） metamorphic rocks in the world. The Pb isotope mapping in this area is a significant method to constrain the crustal structure and tectonic evolution and to identify the tectonic boundaries within the vertical tectonic stack. Based on the Pb isotope compositions of the Dabie complex （DBC）, the Tongbai complex （TBC）, UHP and HP metamorphic rocks and associated foliated granites, the lower metamorphosed rocks from North Huaiyang （NHY） tectonic belt, and Cretaceous granites in the Tongbai-Dabie orogenic belt, we determined the Pb isotope geochemical map of the Tongbai-Dabie orogenic belt. The Pb isotope map shows that the Pb isotope compositions are similar within each geological body or lithotectonic unit, but the Pb isotope compositions of different lithotectonic units show systematic variations in the Tongbai-Dabie orogenic belt. The NHY tectonic belt contrasts strongly with the Tongbai-Dabie UHP.HP metamorphic belt in Pb isotope compositions. It is suggested that the line along the Xiaotian-Mozitan fault, the north limit of the Tongbai-Dabie UHP and HP metamorphic rocks, represents an important tectonic boundary. Within the Tongbai-Dabie HP -UHP metamorphic belt, to the south of Xiaotian-Mozitan fault, the vertical variations of Pb isotope compositions in different lithotectonic units and the spatial relationship among different major lithotectonic units have been constrained.