哈尔里克山晚古生代混合岩地质特征、年代学及其构造意义     

倪兴华  王博  刘珈硕 《高校地质学报》2021,27(2):133-148

哈尔里克山位于天山造山带东北缘,是古亚洲洋板片俯冲、弧—陆（或弧—弧）增生拼贴造山作用的产物。出露于哈尔里克山南麓的中—高级变质带中发育有混合岩,其成因和时代尚无详细研究。文章对哈尔里克变质带中的混合岩进行了野外岩相—构造分析与LA-ICP-MS 锆石U-Pb 年代学研究。结果显示,该混合岩与高级变质沉积岩紧密伴生,可能是变质沉积岩经部分熔融作用形成的。混合岩带中多条变形程度不同的浅色岩脉的锆石U-Pb 年龄均在332~330 Ma 之间,部分浅色岩脉具有典型的同构造变形特征,从而可以限定哈尔里克山南麓变质带的混合岩化作用发生在330 Ma 左右。结合前人对研究区变质岩和侵入岩的研究结果以及区域地质演化特征,笔者认为哈尔里克山地区在330 Ma 可能已进入了后造山伸展阶段,该变质带中混合岩可能形成于后造山伸展减压部分熔融,是哈尔里克岛弧基底的组成部分,其折返抬升与同期后造山岩体的侵位作用有关。  相似文献   

Late Jurassic-Early Cretaceous Northern Qaidam Basin, NW China: Implications for the earliest Cretaceous intracontinental tectonism   总被引：4，自引：0，他引：4  

Lei Wu  Ancheng Xiao  Liqun WangZhongyan Shen  Suping ZhouYuanzhong Chen  Liang Wang  Dong LiuJunya Guan 《Cretaceous Research》2011,32(4):552-564

Formation of Mesozoic western China, which was dominated by tectonic amalgamation along its southern margin and associated intracontinental tectonisms, holds a key for interpreting the succedent Cenozoic evolution. This paper presents new data including lithology, sedimentary facies, stratigraphic contact, seismic interpretation and paleo-structures within the Upper Jurassic-Lower Cretaceous strata in the northern Qaidam Basin, NW China. These data all account for a contractional tectonic deformation in the earliest Cretaceous. The South Qilian Shan, according to the sedimentary features and provenance analysis, reactivated and exhumated during the deformation, controlling the deposition of the Lower Cretaceous sequences. A simplified model for the Late Jurassic-Early Cretaceous paleogeography and tectonics of the northern Qaidam Basin is accordingly proposed. The results also support a ∼25° clockwise rotation of the Qaidam Basin since the Early Cretaceous and a more accurate Mesozoic evolution process for the basin. This earliest Cretaceous deformation, associated with the reactivation of the South Qilian Shan at the time, are part of the intracontinental tectonisms in central Asia during the Mesozoic, and probably driven by both the closure of the Mongol-Okhostk Ocean to the north and the collision of the Lhasa and the Qiangtang blocks to the south.  相似文献   

西秦岭铧厂沟金矿床流体包裹体特征研究及矿床成因   总被引：3，自引：0，他引：3  

周振菊  秦艳  林振文  王立新  汪志强 《岩石学报》2011,27(5):1311-1326

铧厂沟金矿位于西秦岭勉略缝合带南侧,其产出受韧脆性剪切带控制,赋矿围岩为泥盆系细碧岩、凝灰质绢云千枚岩和灰岩。根据脉体穿切关系和矿物交代关系,可以将铧厂沟金矿分为早、中、晚3个成矿阶段。在铧厂沟金矿的石英中发育了CO₂-H₂O型、纯CO₂型、H₂O溶液型和含子矿物型四种类型流体包裹体。早期石英中原生包裹体主要是CO₂-H₂O型和纯CO₂型,其成分为CO₂+H₂O±N₂±CH₄±H₂S,均一温度集中在320~360℃,盐度为0.43%~5.14% NaCleqv;中阶段为主成矿阶段,该阶段石英中包含了所有四种类型的包裹体,其中H₂O溶液型包裹体占了大多数,CO₂-H₂O和水溶液包裹体均一温度集中在240~320℃,盐度为0.43%~11.19% NaCleqv;晚阶段石英仅发育水溶液型包裹体,具有较低的均一温度(118~228℃)和盐度(0.18%~6.59% NaCleqv)。根据CO₂-H₂O型包裹体计算主成矿阶段压力为70~195MPa,成矿深度为5~7km。总体而言,铧厂沟金矿的初始流体具有中高温、富CO₂、低盐度的变质流体特征,晚成矿阶段流体演化为低温、低盐度水溶液流体,流体的不混溶导致了主成矿期的矿质的大量沉淀,铧厂金矿为中浅成的造山型矿床。  相似文献   

Re–Os and U–Pb Geochronology of the Erlihe Pb–Zn Deposit, Qinling Orogenic Belt, Central China, and Constraints on Its Deposit Genesis     

ZHANG Fan  LIU Shuwen  LI Qiugen  SUN Yali  WANG Zongqi  YAN Quanren  YAN Zhen 《《地质学报》英文版》2011,85(3):673-682

The Erlihe Pb–Zn deposit is an important mine of the Pb–Zn metallogenic zone in the South Qinling Orogen. It has been considered a sedimentary exhalative deposit in previous investigations because the ore body occurs concordantly at the transitional location of an upright fold. Re and Os isotopic analyses for paragenetic pyrites with sphalerite and galena from the ore body have been used to determine the timing of mineralization and to trace the source of metallogenic materials. The Re–Os isotopic data of four pyrite samples construct an isochron, yielding a weighted average age of 226±17 Ma (mean square weighted deviation=1.7), which is considered the main mineralization age. A dioritic porphyrite vein sample, showing weaker mineralization, was also dated using the SHRIMP zircon U–Pb isotopic method to constrain the youngest metallogenic age of the ore deposit, because it distributes along a group of tensional joints cutting not only the upright fold in the deposit field, but also the main ore bodies. The dioritic porphyrite sample yields a weighted mean 206Pb/238U age of 221±3 Ma, which is slightly younger than the Re–Os isotopic isochron age of the pyrites, considered as the upper age limit of the mineralization, namely the ending age of the mineralization. The Os isotopic compositions of sulfide minerals distribute within a range between Os isotopic compositions of the crust and the mantle, indicating that the ore deposit can be derived from magma-related fluid, and the metallogenic materials are most likely derived from the mixing source of the crust and the mantle. The Erlihe Pb–Zn deposit and associated dioritic porphyrite vein, important records of Qinling tectonic–magmatism–mineralization activities, were formed during the Triassic collisional orogeny processes.  相似文献   

大别山鲁家寨花岗岩地球化学、锆石年代学和Hf同位素特征:扬子克拉通北东缘新元古代岩浆活动证据          下载免费PDF全文

孙洋  马昌前  张超 《地学前缘》2011,18(2):85-99

对大别山造山带的鲁家寨花岗岩进行了锆石U-Pb年代学、锆石Hf同位素和岩石地球化学研究.锆石LA-ICP-MS U-Pb定年结果表明鲁家寨花岗岩形成于新元古代((816±17)Ma).鲁家寨花岗岩总体具有高硅(SiO2 69.13%～75.47%)、准铝-弱过铝(A/CNK=0.98～1.01)的化学组成特征.稀土元素...  相似文献   

湘东北岳阳地区冷家溪群和板溪群凝灰岩 SHRIMP 锆石U-Pb年龄 ——对武陵运动的制约   总被引：16，自引：3，他引：13  

高林志  陈峻  丁孝忠  刘耀荣  张传恒  张恒  刘燕学  庞维华  张玉海 《地质通报》2011,30(7):1001-1008

对冷家溪群及其上覆板溪群斑脱岩中的锆石进行研究,测得冷家溪群小木平组斑脱岩SHRIMP锆石U-Pb年龄(822Ma±10Ma)和上覆板溪群张家湾组斑脱岩锆石U-Pb年龄(802.6Ma±7.6Ma),结合“江南造山带”东部变质基底双桥山群和西南地区四堡群、下江群的SHRIMP锆石U-Pb年龄,将冷家溪群与其相应的江南古陆变质地层明确定位于新元古界。该年龄对重新界定“武陵运动”的时限和进行同期地层的区域对比、构造演化研究都有重要意义。冷家溪群与双桥山群、梵净山群、四堡群、双溪坞群一样,均为低变质绿片岩系,构成了江南古陆地区的变质基底。多年来冷家溪群一直划归中元古界,并且视为“武陵运动”的主体,其时代的定位将影响整个江南古陆变质基底的地层划分和对比,也将制约江南造山带的地质背景和成矿条件解疑。上述锆石U-Pb年龄不仅标示了湘东地区新元古代地层的时代,也为江南古陆中部变质基底提供了新的、精确的年代学数据。  相似文献   

Structure and age of the northern Leeuwin Complex,Western Australia: Constraints from field mapping and U–Pb isotopic analysis     

A. S. Collins 《Australian Journal of Earth Sciences》2013,60(4):585-599

Rocks in the northern Leeuwin Complex of southwestern Australia preserve evidence of having formed during the breakup of Rodinia and the subsequent amalgamation of Gondwana. Detailed field mapping, structural investigation and U–Pb isotopic zircon analysis, using the Sensitive High‐mass Resolution Ion Microprobe (SHRIMP), have revealed that: (i) protoliths of pink granite gneiss and grey granodiorite gneiss crystallised at ca 750 Ma, coeval with breakup of western Rodinia; (ii) granulite/upper amphibolite facies metamorphism occurred at 522 ± 5 Ma, in the Early Cambrian, ～100 million years later than previous estimates and of identical age to estimates of the final amalgamation of Gondwana; and (iii) three major phases of ductile deformation occurred during or after this metamorphism and represent a progressive strain evolution from subvertical shortening (D1) to subhorizontal east‐west (D2) then north‐northwest‐south‐southeast (D3) contraction.  相似文献   

Geologists: And their contribution to Australia     

F. Canavan 《Australian Journal of Earth Sciences》2013,60(2):163-174

Abstract

Eight sets of stratigraphic layers and igneous rocks are the basis for the recognition of eight tectonic periods, TP1‐TP8, in the history of the New England and Yarrol Orogens from the Devonian to the opening of the Tasman Sea in the Late Cretaceous. The opening of the Tasman Sea caused the removal of an eastern section of the New England Orogen to form parts of the Lord Howe Rise and Norfolk Ridge. The Gwydir‐Calliope and Kuttung volcanic arc systems of TP1 and TP2 in the Devonian and Carboniferous were possibly W‐facing, and probably formed far to the NE of their present positions relative to the Lachlan Orogen. They moved SW as they developed, and in the latest Carboniferous or earliest Permian were cut obliquely by the Mooki Fault on which there was a dextral strike‐slip of about 500 km before the Kuttung volcanic arc became extinct. In the Late Carboniferous a narrow region on the E side of the Peel Fault was elevated to form the Campbell High which was intruded by the Bundarra Plutonic Suite and has probably remained elevated since then. Plutons of similar ages were intruded into a high to the E of the Bowen Basin (and the northern part of the Mooki Fault). The two highs and the intrusives in them divided the Yarrol Belt of the Yarrol Orogen from the Tamworth Belt of the New England Orogen, and the two belts have developed in different ways since the Visean. In Latest Carboniferous to Early Permian there was a major tectonic change and the Gympie‐Brook Street volcanic arc developed. The New England Orogen was in a back arc setting and broke into a mosaic of microplates, the relative motions between them being accompanied by deposition of diamictites, by metamorphism, by folding on W to NW trending axes, and by the intrusion of the Hillgrove Plutonic Suite. Further W, sediments of the Sydney, Gunnedah and Bowen basins were deposited above the Mooki Fault System and above the two segments of the Kuttung arc system that had been displaced along the Mooki Fault System.  相似文献   

Potassium‐argon dates from the Arltunga Nappe complex,northern territory     

A. J. Stewart 《Australian Journal of Earth Sciences》2013,60(2):205-211

Twenty‐four mineral separates from the Arunta Complex, four from the metamorphosed Heavitree Quartzite (White Range Quartzite), and one whole rock sample of metamorphosed Bitter Springs Formation, all from the western part of the White Range Nappe of the Arltunga Nappe Complex, and two samples from the autochthonous basement west of the nappe have been dated by the K‐Ar method. The samples from the basement rocks form two groups. Those in the southern or frontal part of the nappe are of Middle Proterozoic (Carpentarian) age (1660–1368 m.y.), determined on hornblende, biotite, and muscovite. In the northern or rear part of the nappe, all but one of the muscovite samples and two biotites are of Middle Silurian to Early Carboniferous age (431–345 m.y.); the remainder of the biotite dates range from 1775 to 548 m.y. (including the two samples from the autochthon), and two hornblendes gave dates of 1639 and 2132 m.y. respectively. All the muscovite samples from the Heavitree Quartzite, and the whole rock sample from the Bitter Springs Formation gave Early to Middle Carboniferous dates (358–322 m.y.). The findings support the identification of the White Range Quartzite as the metamorphosed part of the Heavitree Quartzite, which in turn supports the interpretation of the structure of the area as a large, basement‐cored fold nappe. In addition, they date the time of the Alice Springs Orogeny as pre‐Late Carboniferous, which agrees with fossil evidence from elsewhere in the area. The Alice Springs Orogeny was accompanied by widespread greenschist facies meta‐morphism that progressively metamorphosed the Heavitree Quartzite and Bitter Springs Formation, and retrogressively metamorphosed the Arunta Complex. However, the basement rocks in the southern part of the nappe escaped this metamorphism and retain a Middle Proterozoic age, thus dating the time of the Arunta Orogeny in this region as Carpentarian or older.  相似文献   

Abraham Gottlob Werner: History and folk‐history     

George Seddon 《Australian Journal of Earth Sciences》2013,60(4):381-395

The Neptunist‐Vulcanist controversy has distorted the reputations of both James Hutton and Abraham Gottlob Werner. Among English‐speaking geologists, Hutton is often presented as the Father of Modern Geology, whereas Werner's views are seen as ‘palpably absurd’. Both men made major contributions to geology, but they were men of their age, the second half of the eighteenth century, and remote in their general ideas from those current since Lyell's day in the mid‐nineteenth. Werner was greatly admired by some of his ablest contemporaries, and their admiration becomes inexplicable if we regard his views as ‘palpably absurd’. Historical research in the last few years, reviewed here, is able to show how Werner's views arose and why they seemed persuasive at the time. Some examples of Neptunist observations in Australia in the 1820's are given to show the application and later modification of the theory.  相似文献