全球早古生代造山带(Ⅲ):华南陆内造山   总被引：6，自引：0，他引：6  

李三忠  李玺瑶  赵淑娟  杨朝  刘鑫  郭玲莉  王永明  郝义  张剑 《吉林大学学报(地球科学版)》2016,46(4):1005-1025

华南早古生代加里东期变形、岩浆、沉积等特征表现为陆内造山带特征。通过对加里东期角度不整合分布、褶皱、断裂逆冲极性等特征的分析,发现大明山、大瑶山地区EW轴向的寒武系褶皱不对称性和角度不整合空间上向北的拓展变新规律,指示晚寒武世—早奥陶世的由南向北推覆挤压可能是云开、滇—桂北越地块依次向北推挤的结果;从全球背景看,可能和华南陆块南部一些地块与冈瓦纳大陆北缘依次碰撞接触导致的远程陆内效应有关。然而,湘赣边境、桂北元宝山及越城岭地区的早古生代NE向褶皱不对称性指示向西拓展,这可能是由于华夏地块与扬子地块在晚奥陶世—早志留世沿郴州临武断裂陆内收缩挤压的结果,其全球背景可能和华南陆块顺时针旋转与冈瓦纳全面碰撞相关。总之,加里东期构造运动总体由南向北、由东向西渐新,变形强度由强到弱的特征,反映华南陆内碰撞造山事件的根本原因是其与冈瓦纳北缘碰撞的远程效应。450~420 Ma华南已经属于冈瓦纳北缘一部分。  相似文献   

中亚陆间区南带上古生界构造和油气远景(代序)     

张抗 《地质通报》2018,37(1):1-6

安加拉-阿尔丹和华北-塔里木两大克拉通之间地壳相对活动性的地区,地质界多称为中亚陆间区,其南带大部分在中国境内。近年来,中国开始把其上古生界作为油气新区、新领域。多数人认为,其在晚古生代已形成过渡型地壳区,其中有许多地块已逐步拼合,在其上发育裂谷型沉积地质体,未受到区域变质,若干实体变形微弱并被上覆层掩盖而得到保存。源于上古生界的油气既可赋存在其内,也可运聚于中生界或基岩内,在其西段已发现了大中型油气田群。但其整体地质研究程度偏低,仍有许多重大区域地质、油气地质问题存在歧见。针对其近年来的进展、存在的问题和油气远景评价作了概括性的评论。  相似文献   

Early Cretaceous trachybasalt-trachyte-trachyrhyolitic volcanism in the Nyalga basin (Central Mongolia): sources and evolution of continental rift magmas     

I.S. Peretyazhko  E.A. Savina  S.I. Dril’ 《Russian Geology and Geophysics》2018,59(12):1679-1701

As shown by geological, mineralogical, and isotope geochemical data, trachybasaltic-trachytic-trachyrhyolitic (TTT) rocks from the Nyalga basin in Central Mongolia result from several eruptions of fractionated magmas within a short time span at about 120 Ma. Their parental basaltic melts formed by partial melting of mantle peridotite which was metasomatized and hydrated during previous subduction events. Basaltic trachyandesites have high TiO₂ and K₂O, relatively high P₂O₅, and low MgO contents, medium ⁸⁷Sr/⁸⁶Sr(₀) ratios (0.70526-0.70567), and almost zero or slightly negative ε_Nd(T) values. The isotope geochemical signatures of TTT rocks are typical of Late Mesozoic basaltic rocks from rift zones of Mongolia and Transbaikalia. The sources of basaltic magma at volcanic centers of Northern and Central Asia apparently moved from a shallower and more hydrous region to deeper and less hydrated lithospheric mantle (from spinel to garnet-bearing peridotite) between the Late Paleozoic and the latest Mesozoic. The geochemistry and mineralogy of TTT rocks fit the best models implying fractional crystallization of basaltic trachyandesitic, trachytic, and trachyrhyodacitic magmas. Mass balance calculations indicate that trachytic and trachydacitic magmas formed after crystallization of labradorite-andesine, Ti-augite, Sr-apatite, Ti-magnetite, and ilmenite from basaltic trachyandesitic melts. The melts evolved from trachytic to trachyrhyodacitic and trachyrhyolitic compositions as a result of prevalent crystallization of K-Na feldspar, with zircon, chevkinite-Ce, and LREE-enriched apatite involved in fractionation. Trachytic, trachyrhyodacitic, and trachyrhyolitic residual melts were produced by the evolution of compositionally different parental melts (basaltic trachyandesitic, trachytic, and trachyrhyodacitic, respectively), which moved to shallower continental crust and accumulated in isolated chambers. Judging by their isotopic signatures, the melts assimilated some crustal material, according to the assimilation and fractional crystallization (AFC) model.  相似文献   

Controls on the formation of stratabound dolostone bodies,Hammam Faraun Fault block,Gulf of Suez     

《Sedimentology》2018,65(6):1973-2002

Dolomitization is commonly associated with crustal‐scale faults, but tectonic rejuvenation, diagenetic overprinting and a fluid and Mg mass‐imbalance often makes it difficult to determine the dolomitization mechanism. This study considers differential dolomitization of the Eocene Thebes Formation on the Hammam Faraun Fault block, Gulf of Suez, which has undergone a simple history of burial and exhumation as a result of rifting. Stratabound dolostone bodies occur selectively within remobilized sediments (debrites and turbidites) in the lower Thebes Formation and extend into the footwall of, and for up to 2 km away from, the Hammam Faraun Fault. They are offset by the north–south trending Gebel fault, which was active during the earliest phases of rifting, suggesting that dolomitization occurred between rift initiation (26 Ma) and rift climax (15 Ma). Geochemical data suggest that dolomitization occurred from evaporated (ca 1·43 concentration) seawater at less than ca 80°C. Geothermal convection is interpreted to have occurred as seawater was drawn down surface‐breaching faults into the Nubian sandstone aquifer, convected and discharged into the lower Thebes Formation via the Hammam Faraun Fault. Assuming a ca 10 Myr window for dolomitization, a horizontal velocity of ca 0·7 m year⁻¹ into the Thebes Formation is calculated, with fluid flux and reactivity likely to have been facilitated by fracturing. Although fluids were at least marginally hydrothermal, stratabound dolostone bodies do not contain saddle dolomite and there is no evidence of hydrobrecciation. This highlights how misleading dolostone textures can be as a proxy for the genesis and spatial distribution of such bodies in the subsurface. Overall, this study provides an excellent example of how fluid flux may occur during the earliest phases of rifting, and the importance of crustal‐scale faults on fluid flow from the onset of their growth. Furthermore, this article presents a mechanism for dolomitization from seawater that has none of the inherent mass balance problems of classical, conceptual models of hydrothermal dolomitization.  相似文献   

Geochemical Characteristics and Tectonic Significance of Aoyougou Group Basalts in Western North Qilian     

Yixin Liu  Kexuan Hou  Xin Sha  Zhen Ma  Jinrong Wang 《地球科学进展》2018,33(2):189-205

The North Qilian orogenic belt is a typical plate suture zone, which is studded with numerous different sizes of fragments of micro-continental crust consisting of pre-Sinian metamorphic rocks and the North Qilian orogenic belt provides important study carrier for studying the pre-orogenic tectonic process of the North Qilian. The relatively complete volcanic-clastic-carbonate rocks formation of Zhulongguan Group, Changchengian System, Mesoproterozoic are distributed in the Kawa-Qiqing area, Western North Qilian orogenic belt. Geochemical characteristics of the Aoyougou Group basalts in the North Qilian indicated that the contents of major element were relatively stable, high K₂O contents(4.27%~6.07%), TFe₂O₃(10.49%~13.01%),TiO₂(1.96%~2.90%)and middle MgO(5.37%~6.71%,Mg^# 48~51), CaO(2.57%~5.51%)content. Thus, the Aoyougou Group basalts belong to potassium alkaline basalt. The contents of Cr and Ni of the basalts decreased with the decreasing of Mg^#, and there was a positive correlation between CaO and CaO/Al₂O₃, Furthermore, the Eu anomaly of samples was slightly negative, high contents of high field strength elements (HFSE, Nb, Ta, Ti), and the ratios of Gd/Yb(2.5~3.0), Zr/Y(8.6~10.2), Ta/Yb(0.96~1.23), Ti/Yb(5 074~6 021), Zr/Yb(81~97), Ce/Nb(1.87), Zr/Nb(6.41)indicated that the Aoyougou Group basalts had obvious OIB-type magmatic affinity. In combination with the regional geological background, the study results showed that Aoyougou Group alkaline basalt generated from deep enrichment mantle similar to the source of OIB, with fractional crystallization of olivine and monoclinic pyroxene and a certain degree of contamination of continental crust in the process of magmatism, formed in the background of continental rift, might response to the Proterozoic Columbia supercontinent rifting, which further provides important petrological evidences for the relationship between North China Craton rifting events and Columbia supercontinent rifting during Proterozoic.  相似文献   

U-Pb Zircon and Re-Os Molybdenite Geochronology of theW-Mo Mineralized Region of South Qinling,China, andtheir Tectonic Implications     

HAN Ke  YANG Xingke  CHAO Huixi  HE Hujun  RUAN Shiqi  GAO Yunfeng  ZHANG Weisheng  ZHU Wei  JIN Gang 《《地质学报》英文版》2021,95(2):500-516

A W-Mo mineralized region is located along the northern margin of the South Qinling tectonic belt of China. WMo mineralization occurs mainly in Cambrian–Ordovician clastic and carbonate rocks, and the ore bodies are structurally controlled by NW–SE-and NNE–SSW-striking faults. Evidence for magmatism in the area is widespread and is dominated by intermediate–felsic intrusives or apophyses, such as the Dongjiangkou, Yanzhiba, Lanbandeng, and Sihaiping granitic bodies. Quartz-vein-type mineralization and fault-controlled skarn-type mineralization dominate the ore systems, with additional enrichment in residual deposits. At present, there are few or insufficient studies on(1) the age of mineralization,(2) the relationship between intermediate–felsic granite and W-Mo mineralization,(3) the source of ore-forming materials,and(4) the metallogenic and tectonic setting of the mineralized area. In this paper, we present geochronology results for numerous intrusive granitic bodies in the South Qinling tectonic belt. U-Pb zircon geochronology of the Lanbandeng monzogranite and Wangjiaping biotite monzogranite yields ages of 222.7 ± 2.3 and 201.9 ± 1.8 Ma, respectively. In contrast to the Late Triassic age of the Lanbandeng monzogranite, the age of the newly discovered Wangjiaping biotite monzogranite places it at the Triassic–Jurassic boundary. Re-Os molybdenite geochronology on the Qipangou W-Mo deposit yielded a model age of 199.7 ± 3.9 Ma, indicating the deposit formed in the early Yanshanian period of the Early Jurassic. Granitoid intrusions in the mineralized area are characterized by composite granite bodies that crystallized at ca.240–190 Ma. While there were multiple stages of intrusion, most occurred at 210–220 Ma, with waning magmatic activity at 200–190 Ma. The Re-Os age of molybdenite in the region is ca. 200–190 Ma, which may represent a newly discovered period of W-Mo metallogenesis that occurred during the final stages of magmatism. The heat associated with this magmatism drove ore formation and might have provided additional ore-forming components for metallogenesis(represented by the Wangjiaping biotite monzogranite). Ore materials in the mineralized area were derived from mixed crustal and mantle sources. Enrichment of the region occurred during intracontinental orogenesis in the late Indosinian–Yanshanian, subsequent to the main Indosinian collision. At this time, the tectonic environment was dominated by extension and strike-slip motion.  相似文献   

燕辽东段侏罗、白垩纪构造转变期古地理和古环境的初步分析     

李晓波  张艳  仝亚博 《地学前缘》2021,28(2):391-411

自中、晚侏罗世之交至早白垩世早期,中国东部发生了构造格局和古地理环境的巨大转变。对这一时期燕辽东段古地理和古环境的部分问题进行了多学科整合分析,初步认识如下:中侏罗世开始增强的板块汇聚造成中、晚侏罗世亚洲东部地壳增厚和地势升高,古太平洋伊泽纳崎板块持续俯冲引起深部岩浆上涌、地壳减薄和多期伸展裂陷,同时东亚洋陆过渡带形成一系列逃逸构造,上述构造演化导致燕辽地区在晚侏罗世至早白垩世中期形成高山和盆岭地貌。早白垩世137~131 Ma,嫩江—八里罕断裂至喀喇沁变质核杂岩延伸线两侧出现东高西低的地貌差异,相对下降的冀北—大兴安岭火山-地堑带地层中赋存热河生物群早期化石组合,而辽西—松辽地区为相对隆升的构造高地。130~110 Ma时期裂陷作用扩展,热河生物群中、晚期组合向周围扩散。热河生物群生存时期总体为以干冷为主的温带大陆性气候,这与中生代中国东部高原的潜在环境效应并不矛盾。全球气候演化和区域构造古地理条件共同导致燕辽地区自晚侏罗世至早白垩世的干旱化和寒冷化,并影响到中、晚侏罗世燕辽生物群和早白垩世热河生物群之间的生态群进化演替。  相似文献   

海南岛石碌群中双峰火山岩Sm—Nd同位素特征兼论石碌铁矿成矿背景   总被引：9，自引：1，他引：9  

方中  赵建新 《地球化学》1993,(4):326-336

对海南岛石碌群第６层及其相当层位中海相双峰火山岩Ｓｍ－Ｎｄ同位素，微量和稀土元素的研究表明，位于火山岩带西段军营和石碌的细碧岩具有Ｎ－ＭＯＲＢ特征，在中段和东段芙蓉田和兰洋的变拉斑玄武岩具有Ｅ－ＭＯＲＢ和ＩＲＴ（初始裂谷拉斑玄武岩）特征。石碌群的玄武岩和石碌Ｆｅ－Ｃｏ－Ｃｕ矿床分别与红海裂谷中南段的新生代玄武岩和Ａｔｈａｎｔｉｓ Ⅱ ＤｅｅＰ多金属矿床有许多相同之处。双峰火山岩的另一端元为壳源型石  相似文献   

大陆碰撞构造剖析   总被引：5，自引：0，他引：5       下载免费PDF全文

赵宗溥 《地质科学》1994,(2):120

 首先对青藏高原分布的蛇绿岩带的地质特征进行剖析,认为这些蛇绿岩是陆内裂谷环境产出的初始洋壳而不是大陆缝合线。然后对喜马拉雅山系的构造特征及其造山体制加以讨论,认为以喜马拉雅山系作为碰撞造山的样板并无地质事实的根据,而是一种想当然的臆说,后来也得不到参验。结论:碰撞造山带在大陆是不存在的,是看不到的。  相似文献   

吉林中部石炭系岩石建造及其构造环境     

贾大成  卢焱  崔圣哲 《吉林大学学报(地球科学版)》1994,(1)

吉林中部石炭系出露较全，具有独特的区域大地构造环境，在吉林晚古生代褶皱带演化中具有特殊性。本文将吉中石炭系划分为６个岩石建造，每一建造各具特征，并以岩石建造为手段，进行区域大地构造分析，认为该区石灰纪是在弧后一大陆边缘基础上形成的裂谷一拗陷带的构造环境，具有由先期裂谷发展阶段转变为末期拗陷带的演化过程，从而表明该区石炭纪为一拉张的构造历史时期。  相似文献