滇西漕涧地区崇山杂岩带始新世花岗岩的发现及其地质意义     

黄亮  浦涛  刘军平  王晓林  刘小春  熊波  宋冬虎 《地球学报》2021,42(5):579-592

崇山杂岩带为滇西三江造山系西侧边缘的一条重要边界构造,属青藏高原造山带的南东缘.带内岩浆活动强烈,前人认为其主要由晚元古代、中生代的花岗岩组成;而据地质调查发现,带内新生代的岩浆作用十分发育.本文对带内新发现的灰白色黑云二花岗岩进行研究,获得了锆石U-Pb LA-ICP-MS年龄为34.88 Ma和35.25 Ma,表明其侵位于古近纪始新世.岩石地球化学表明,黑云二花岗岩为钾玄质-高钾钙碱性系列的过铝质花岗岩类,稀土元素配分曲线为右倾,其中LREE明显富集,HREE为不同程度亏损,具明显的负Eu异常;富集Rb、Th、Ce、Sm和亏损K、Ba、Ta、Hf、Y等元素,且为淡色花岗岩特征;据锆石Hf同位素测试分析,εHf(t)值为–2.35～+2.33和TDM2为962～1259 Ma,表明了花岗岩岩浆源区为壳幔混合的产物,以及源岩主要源自中元古代—新元古代陆壳基底物质的部分熔融.综合研究认为,始新世黑云二长花岗岩形成于喜马拉雅期碰撞造山向造山晚期转换阶段,是一套典型的"超厚地壳"部分熔融和壳幔相互作用的淡色花岗岩;以及其侵位时间代表了漕涧地区喜马拉雅碰撞造山阶段的完成和造山晚期阶段的开始,且转换时间约为35 Ma.  相似文献   

东南极拉斯曼丘陵地区变质杂岩的层序与构造变形过程     

胡健民  王伟  赵越  刘晓春  陈虹  董晓朋 《地质力学学报》2021,27(5):719-735

东南极拉斯曼丘陵地区位于兰伯特裂谷东缘普里兹湾东岸,该地区主要出露一套麻粒岩相变质岩,前期对原岩时代、变质过程等进行了详细研究,但是对于变质杂岩的层序和变形过程研究相对薄弱。文章通过大比例尺地质填图,发现拉斯曼丘陵地区变质杂岩总体成层有序,在此基础上建立拉斯曼岩群,并将其划分成6个岩组,原岩形成时代为中元古代。拉斯曼岩群经历了格林维尔期和泛非期变质作用的叠加,变质程度均达到高角闪岩相-麻粒岩相。拉斯曼丘陵地区主体构造线方向为北东东—南西西方向,总体上构成往北东东方向翘起的复式向斜构造,几个岩组的分布也显示由东向西逐渐变新。东部米洛半岛一带明显叠加了北北西—南南东向的构造变形。研究表明,拉斯曼岩群经历了6次重要的构造变形,包括新元古代格林维尔期(D1)、新元古代—早古生代泛非期变质变形作用(D2,D3,D4,D5)以及中新生代伸展作用(D6)。目前岩石中保存的主变形面理是格林维尔期和泛非期两次构造热事件的复合型面理,主要是泛非事件形成,格林维尔期变形面理呈残留状。综合拉斯曼岩群变质年龄及早古生代进步花岗岩体形成时代,认为D2~D5变形时代为550~500 Ma左右。因此,拉斯曼丘陵地区变质变形特征显示,中元古代拉斯曼岩群经历了格林维尔期和泛非期两次重要的造山作用,以及冈瓦纳大陆的裂解。   相似文献   

西秦岭晚新生代构造变形的几何图像、运动学特征及其动力机制     

张逸鹏  郑文俊  袁道阳  王伟涛  张培震 《地质力学学报》2021,27(2):159-177

西秦岭位于东西向展布的秦岭-大别-苏鲁中央造山带与南北向展布的贺兰山-龙门山-川滇地震带构成的巨型"十字"构造区的交汇点,是中国大陆中部"西秦岭-松潘构造结"的重要组成部分。西秦岭晚新生代的构造变形与青藏高原的侧向扩展过程密切相关。该区构造变形的几何图像、运动特征及其深部动力学机制对于揭示青藏高原东北部的动力过程及强震活动具有重要意义。西秦岭地区主要断裂晚新生代以来的滑动速率及跨断裂GPS应变速率的结果表明,这一时期西秦岭构造带发生了明显的构造活动方式转换,主要的构造变形过程是通过其内部一系列低滑动速率的断裂活动以及断裂之间隆起山脉与盆地的变形,共同承担着自东昆仑断裂向西秦岭断裂之间的转换平衡。在调节这种构造转换过程中,西秦岭地区以"连续变形"为特征,即区域内的应变是以多条相对低滑动速率断裂的弥散变形遍布全区,并且西秦岭及其周缘块体的旋转作用也吸收了部分变形分量。综合已查明的区域构造活动特征、新生代岩浆活动、地球物理资料以及现今地貌特征可知,西秦岭在特提斯构造域的影响下,岩石圈的结构存在明显的流变学分层,一方面,西秦岭的上地壳保留了主造山期的地质构造形态,但中—下地壳的弱化使得莫霍面之上的圈层解耦,深部可流动的岩石圈地幔不但改变了陆内造山带的结构,同时也控制了现今上地壳连续变形的发育;另一方面,西秦岭内部的中强震主要发生在高速（或高阻）与低速（或低阻）的构造边界带附近。这种独特的流变学结构导致西秦岭在青藏高原向北生长和侧向扩展的过程中,不同阶段的构造变形过程是截然不同的。因此,进一步深入研究西秦岭地区的晚新生代构造转换过程及其机制,不仅对于理解青藏高原东北部的动力过程具有重要意义,更有助于深入认识南北地震构造带中段未来的强震危险性。   相似文献   

基于KronosFlow软件对逆冲推覆带构造-热演化的初探     

李丹  常健  李晨星  姚同云  刘敏珠 《地质力学学报》2021,27(6):975-986

盆地模拟是含油气盆地勘探评价的重要技术方法之一,然而传统的盆地建模2D模拟技术仅适用于拉张型盆地,使得挤压型盆地横向上的热史重建一直是个难题,从而制约了进一步的油气勘探。目前由法国Beicip-Franlab公司设计的KronosFlow软件突破了传统盆模软件对逆冲推覆带、盐构造和泥底辟等复杂构造的局限性,精确控制了横向和垂向上的构造位移,通过跟踪单个网格连续运动形态、恢复侧向变形量以及与TemisFlow软件无缝衔接,实现了对挤压型盆地埋藏史、热史、生排烃史以及油气运聚史的恢复。以塔里木盆地北缘柯坪逆冲推覆带和库车逆冲推覆带为例,利用KronosFlow软件定量反演了新生代以来的构造-热演化历史,并以实测数据约束并验证挤压环境下盆地模拟结果的有效性。柯坪逆冲推覆带的依木干他乌断层在40~30 Ma再次活动,断层附近志留系—泥盆系的温度大于85 ℃,柯坪塔格断层在15~10 Ma活动,断层附近志留系—泥盆系的温度小于70 ℃,寒武系（烃源岩成熟度为1.3%~1.7%）和奥陶系（烃源岩成熟度为0.7%~1.2%）烃源岩热演化程度高,生烃能力强。库车逆冲推覆带侏罗系北段温度介于50~70 ℃,南段温度介于210~230 ℃,盐构造造成地温异常,其中秋里塔格构造带膏盐岩最厚,降温效果最明显。   相似文献   

新疆博格达中段木垒地区基性侵入岩岩石地球化学、锆石U-Pb年代学及其构造意义     

龙登红 《西北地质》2021,(1)

博格达造山带大量分布基性岩,其成因研究对区域构造演化具有重要意义。本次对博格达造山带中段木垒地区的基性岩进行了系列研究工作,初步对岩石成因和构造环境进行了探讨,为博格达造山带研究提供了新的依据。岩石地球化学特征显示,辉绿岩的SiO₂含量为47.71%~53.7%,K₂O含量为0.61%~1.87%,Na₂O含量为2.97%~5.14%,显示富钠贫钾特征,属准铝质中-高钾钙碱性岩石系列。Mg#值为29.80~47.89,远低于原始玄武质岩浆的参考数值65,表明区内基性岩可能是原始岩浆经历较强程度分异作用后的产物;分异指数(DI)均大于35.00,固结指数均远小于30,均显示辉绿岩分异程度较高。稀土元素特征显示较高稀土总量、轻稀土强烈富集的右倾模式,相对富集Rb、Ba、K、Th等大离子亲石元素,相对亏损Nb、Ti、Hf、Zr等高场强元素。辉绿岩锆石U-Pb年龄为(305.9±3.1)Ma;辉绿岩岩浆可能源于亏损尖晶石橄榄岩相至原始尖晶石橄榄岩相之间,为较低程度部分熔融及分异演化综合作用形成的产物,为晚石炭世博格达弧后裂陷盆地晚期局限性伸展作用的产物。  相似文献   

青海省那陵郭勒河中游晚三叠世侵入岩地球化学特征及地质意义     

吉明甲  魏丽琼  徐博  刘博  白洪溪  陈晓琳  李兄 《西北地质》2021,(1)

那陵郭勒河中游位于东昆仑西段祁漫塔格地区,分布着大量的花岗岩。对该地区晚三叠世侵入岩的研究有助于认识东昆仑造山带印支期构造-岩浆演化历史。对研究区内花岗岩进行了岩石学、年代学及岩石地球化学分析。分析结果表明,研究区花岗闪长岩和二长花岗斑岩锆石LA-ICP-MS U-Pb年龄分别为(225.7±1)Ma、(213.74±1)Ma,为晚三叠世岩浆活动产物。岩石地球化学分析结果显示,该地区晚三叠世侵入岩属高钾钙碱性系列,饱和铝指数显示为偏铝质到过铝质,富集Rb、Th、K等大离子亲石元素和轻稀土元素,明显亏损Nb、P、Ti等高场强元素。花岗岩具有I型花岗岩特征,具有板块俯冲阶段的特征。通过分析认为岩浆岩形成于板块碰撞前的火山弧环境中。  相似文献   

东昆仑山中段布尔汗布达山地区断裂特征及昆中断裂带南界讨论     

周琳雄  尹建华  王勇  郑科  张国忠  邓志龙 《中国地质调查》2021,8(5):74-83

布尔汗布达山西南缘属东昆仑造山带腹地,新太古代以来区域构造作用强烈。中二叠世,随着东昆仑地区多岛洋盆依次关闭,研究区形成数条近于平行的EW向深大断裂组合,构成昆中断裂带主体格架。通过研究分析与断裂相关的地形地貌、遥感影像、地球物理、岩石地层、变形变质、断裂结构组成、显微构造等,总结出主要断裂特征,并梳理了区内构造格架,针对尚未统一认识的昆中断裂带南界问题进行探讨,最终认为温冷恩断裂属昆中断裂带南界断裂。研究成果为进一步开展相关地质问题分析提供了依据。  相似文献   

Geochronological and geochemical evidence for a Late Ordovician to Silurian arc-back-arc system in the northern Great Xing'an Range,NE China     

Bo Liu  Jia-Fu Chen  Bao-Fu Han  Jun-Lai Liu  Jia-Wei Li 《地学前缘(英文版)》2021,12(1):131-145

The early Paleozoic tectonic evolution of the Xing'an-Mongolian Orogenic Belt is dominated by two oceanic basins on the northwestern and southeastern sides of the Xing'an Block,i.e.,the Xinlin-Xiguitu Ocean and the Nenjiang Ocean.However,the early development of the Nenjiang Ocean remains unclear.Here,we present zircon U-Pb geochronology and whole-rock elemental and Sr-Nd isotopic data on the gabbros in the Xinglong area together with andesitic tuffs and basalts in the Duobaoshan area.LA-ICP-MS zircon U-Pb dating of gabbros and andesitic tuffs yielded crystallization ages of 443-436 Ma and 452-451 Ma,respectively.The Early Silurian Xinglong gabbros show calc-alkaline and E-MORB affinities but they are enriched in LILEs,and depleted in HFSEs,with relatively low U/Th ratios of 0.18-0.36 andεNd(t)values of-1.6 to+0.5.These geochemical features suggest that the gabbros might originate from a mantle wedge modified by pelagic sediment-derived melts,consistent with a back-arc basin setting.By contrast,the andesitic tuffs are characterized by high MgO(>5 wt.%),Cr(138-200 ppm),and Ni(65-110 ppm)contents,and can be termed as high-Mg andesites.Their low Sr/Y ratios of 15.98-17.15 and U/Th values of 0.24-0.25 and moderate(La/Sm)_n values of 3.07-3.26 are similar to those from the Setouchi Volcanic Belt(SW Japan),and are thought to be derived from partial melting of subducted sediments,and subsequent melt-mantle interaction.The Duobaoshan basalts have high Nb(8.44-10.30 ppm)and TiO2 contents(1.17-1.60 wt.%),typical of Nb-enriched basalts.They are slightly younger than regional adakitic rocks and have positiveεNd(t)values of+5.2 to+5.7 and are interpreted to be generated by partial melting of a depleted mantle source metasomatized by earlier adakitic melts.Synthesized with coeval arc-related igneous rocks from the southeastern Xing'an Block,we propose that the Duobaoshan high-Mg andesitic tuffs and Nbenriched basalts are parts of the Late Ordovician and Silurian Sonid Zuoqi-Duobaoshan arc belt,and they were formed by the northwestern subduction of the Nenjiang Ocean.Such a subduction beneath the integrated Xing'an-Erguna Block also gave rise to the East Ujimqin-Xinglong igneous belt in a continental back-arc basin setting.Our new data support an early Paleozoic arc-back-arc model in the northern Great Xing'an Range.  相似文献   

Structural and tectonothermal evolution of the ultrahigh-temperature Bakhuis Granulite Belt,Guiana Shield,Surinam:Palaeoproterozoic to recent     

Frank F.Beunk  Emond W.F.de Roever  Keewook Yi  Fraukje M.Brouwer 《地学前缘(英文版)》2021,12(2):677-692

We constrain the multistage tectonic evolution of the Palaeoproterozoic UHT metamorphic(P=0.9–1.0 GPa,T>1000℃,t=2088–2031 Ma)Bakhuis Granulite Belt(BGB)in Surinam on the Guiana Shield,using large-to small-scale structures,Al-in-hornblende thermobarometry and published fluid inclusion and zircon geochronological data.The BGB forms a narrow,NE–SW striking belt between two formerly connected,~E–W oriented granite-greenstone belts,formed between converging Amazonian and West African continental masses prior to collision and Transamazonian orogeny.Inherited detrital zircon in BGB metasediments conforms agewise to Birimian zircon of West Africa and suggests derivation from the subsequently subducted African passive margin.Ultrahigh-temperature metamorphism may have followed slab break-off and asthenospheric heat advection.Peak metamorphic structures result from layer-parallel shearing and folding,reflecting initial transtensional exhumation of the subducted African margin after slab break-off.A second HT event involves intrusion,at ca.0.49 GPa,of charnockites and metagabbros at 1993–1984 Ma and a layered anorthosite at 1980 Ma,after the BGB had already cooled to<400℃.The event is related to northward subduction under the greenstone belts,along a new active margin to their south.A pronounced syntaxial bend in the new margin points northward towards the BGB and is likely the result of indentation by an anticlinorial flexural bulge of the subducting plate.Tearing of the subducting oceanic plate along this bulge explains why the charnockites are restricted to the BGB.The BGB subsequently experienced doming under an extensional detachment exposed in its southwestern border zone.Exhumation was focused in the BGB as a result of the flexural bulge in the subducting plate and localised heating of the overriding plate by charnockite magmatism.The present,straight NE–SW long-side boundaries of the BGB are superimposed mylonite zones,overprinted by pseudotachylites,previously dated at ca.1200 Ma and 950 Ma,respectively.The 1200 Ma mylonites reflect transpressional popping-up of the BGB,caused by EW-directed intraplate principal compressive stresses from Grenvillian collision preserved under the eastern Andes.Further exhumation of the BGB involved the 950 Ma pseudotachylite decorated faulting,and Phanerozoic faulting along reactivated Meso-and Neoproterozoic lineaments.  相似文献   

Timing of Proterozoic magmatism in the Sunsas belt,Bolivian Precambrian Shield,SW Amazonian Craton     

Ingrid M.Nedel  Reinhardt A.Fuck  Amarildo S.Ruiz  Gerardo R.Matos-Salinas  Alanielson da C.D.Ferreira 《地学前缘(英文版)》2021,12(6):277-293

We present new U-Pb zircon and monazite ages from the Sunsas belt granitic magmatism in Bolivia,SW Amazonian Craton.The geochronological results revealed four major magmatic events recorded along the Sunsas belt domains.The older igneous event formed a granitic basement coeval to the Rio Apa Terrane(1.95-1.85 Ga)in the southern domain.The second magmatic episode is represented by 1.68 Ga granites associated to the Paraguá Terrane(1.69-1.66 Ga)in the northern domain.The 1.37-1.34 Ga granites related to San Ignacio orogeny represent the third and more pervasive magmatic event,recorded throughout the Sunsas belt.Moreover,magmatic ages of～1.42 Ga revealed that the granitogenesis asso-ciated to the Santa Helena orogeny also affected the Sunsas belt,indicating that it was not restricted to the Jauru Terrane.Lastly,the 1.10-1.04 Ga youngest magmatism was developed during the Sunsas oro-geny and represents the final magmatic evolution related to Rodinia assembly.Likewise,the 1.95-1.85 and 1.68 Ga inherited zircon cores obtained in the～1.3 Ga and 1.0 Ga granite samples suggest strong par-tial melting of the Paleoproterozoic sources.The 1079±14 Ma and 1018±6 Ma monazite crystallization ages can be correlated to the collisional tectono-thermal event of the Sunsas orogeny,associated to reac-tions of medium-to high-grade metamorphism.Thus,the Sunsas belt was built by heterogeneous 1.95-1.85 Ga and 1.68 Ga crustal fragments that were reworked at 1.37-1.34 Ga and 1.10-1.04 Ga related to orogenic collages.Furthermore,the 1.01 Ga monazite age suggests that granites previously dated by zir-con can bear evidence of a younger thermal history.Therefore,the geochronological evolution of the Sunsas belt may have been more complex than previously thought.  相似文献