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1.
《地学前缘(英文版)》2019,10(6):1993-2006
We present new U-Pb and Hf zircon isotope data on a suite of granitoids from a hitherto unstudied area of the Palaeoproterozoic Lupa terrane of the Ubendian belt in SW Tanzania.The major part of the area comprises a sequence of upper amphibolite grade paragneisses and migmatites.Subsequently,the field relations show a complex history of granitoid emplacement from early pre-tectonic strongly foliated diorite-tonalite-granodiorite orthogneiss to late tectonic,weakly deformed ellipsoidal granitoid plutons.These were followed by emplacement of undeformed K-feldspar rich porphyritic alkali granite.U-Pb zircon data on the granitoids show their emplacement ages span the period~1925 Ma to 1890 Ma and constrain the culmination of the Ubendian orogeny in the Lupa terrane to about 1900 Ma.The undeformed K-feldspar rich Chimala granite,previously considered to be unconformably overlain by the Buanji Group volcano-sedimentary rocks(recently shown to be~1675 Ma,not Neoproterozoic as originally thought) was dated at~1407 Ma showing that it must intrude the sedimentary rocks,although the age relationships are not exposed in the mapping area.This is the first record of early Irumide/Kibaran-aged post-tectonic granites in this part of East Africa.Hf isotope data from the zircons show that the granitoids have a long crustal pre-history stretching back to as far as~3.9 Ga,and showing that the Lupa terrane may form part of the "metacratonic" margin of an originally much more extensive Tanzania Craton.  相似文献   

2.
青藏高原北部风火山花岗斑岩与逆冲推覆构造存在密切关系,岩浆侵位发生在区域地质构造演化的重要历史时期。对风火山北麓花岗斑岩及暗色包体,在显微观测和矿物鉴定的基础上,通过单颗粒锆石离子探针U-Pb同位素测年,获得高精度的测年资料。测得早期岩浆锆石结晶平均年龄为(34.5±1.4) Ma,对应于岩浆源区地壳局部熔融时代;晚期岩浆锆石结晶平均年龄为(27.6±0.5)Ma,对应于岩浆向上侵入雅西错群的岩浆侵位时代。风火山北麓花岗斑岩属青藏高原北部出露的最年轻花岗岩,岩体内部不同类型锆石的U-Pb同位素测年为区域地层、区域构造和高原隆升的研究提供了重要的年代学约束。  相似文献   

3.
Kinetics of isotopic equilibrium in the mineral radiometric systems of igneous and metamorphic rocks is an important issue in geochronology. It turns out that temperature is the most important factor in dictating isotopic equilibrium or disequilibrium with respect to diffusion mechanism. Contemporaneous occurrence of Mesozoic granites and gneisses in the Dabie orogen of China allows us to evaluate the thermal effect of magma emplacement and associated metamorphism on mineral radiometric systems. Zircon U-Pb, mineral Rb-Sr and O isotope analyses were carried out for a Cretaceous granite and its host gneiss (foliated granite) from North Dabie. Zircon U-Pb dating gave consistently concordant ages of 127 ± 3 Ma and 128 ± 2 Ma for the granite and the gneiss, respectively. A direct correspondence in equilibrium state is observed between the O and Rb-Sr isotope systems of both granitic and gneissic minerals. Mineral O isotope temperatures correlate with O diffusion closure temperatures under conditions of slow cooling, indicating attainment and preservation of O isotope equilibrium in these minerals. The mineral Rb-Sr isochron of granite, constructed by biotite, feldspar, apatite and whole-rock with the O isotope equilibrium, yields a meaningful age of 118 ± 3 Ma, which is in accordance with the mineral Rb-Sr isochron age of 122 ± 1 Ma for the host gneiss. The consistency in both U-Pb and Rb-Sr ages between the granite and the gneiss suggests a contemporaneous process of crystallizing the zircons and resetting the Rb-Sr radiometric systems during magma emplacement and granite foliation. Whereas the zircon U-Pb ages for both granite and gneiss are interpreted as the timing of magma crystallization, the young Rb-Sr isochron ages record the timing of Sr diffusion closure during the slow cooling. Protolith of the gneiss crystallized shortly before intrusion of the granite, so that it was able to be foliated by voluminous emplacement of coeval mafic to felsic magmas derived by anatexis of orogenic lithospheric keel. Therefore, extensional collapse of collision-thickened crust at Early Cretaceous is suggested to trigger the post-collisional magmatism, which in turn serves as an essential driving force for the contemporaneous high-T deformation/metamorphism.  相似文献   

4.
吉林辽源西保安群是大面积花岗岩侵入体中的残留的构造岩片,传统认为属于华力西晚期或中侏罗世花岗闪长岩-二长花岗岩系。本文通过对接触界线附近花岗质糜棱岩样品采集和锆石SHRIMP U-Pb定年,获得多组锆石年龄值为236~231Ma、267.6~358.6Ma、416.3±6.8Ma、956±16Ma。认为该区花岗岩的侵入期次相当复杂,发育有早中三叠世岩体和发生了中、晚华力西期岩浆活动,西拉木伦河碰撞带可以东延至此,残留锆石的年龄与加里东期和Rodinia期拼合的构造岩浆活动相对应。  相似文献   

5.
雅拉香波穹隆位于特提斯喜马拉雅构造带东部,出露显生宙不同时期的岩石地层,发育强烈韧性剪切变形和多期岩浆热事件,良好地记录了印度大陆俯冲导致的构造变形和岩浆热历史。对雅拉香波穹隆不同构造部位的花岗质岩石进行LAICP-MS锆石U-Pb同位素测年,获得4期构造岩浆事件的高精度测年数据。早期锆石年龄520.4±6.3Ma与536±12Ma指示喜马拉雅地块结晶基底泛非期岩浆侵位时代,晚期锆石年龄揭示新生代碰撞造山不同阶段构造热事件的发生时代。其中,45.6±1.2~44.16±0.88Ma反映印度大陆向北俯冲的起始时代,35.00±0.48Ma对应于始新世晚期增厚地壳深部构造热事件年龄,15.67±0.50Ma指示雅拉香波核部花岗岩侵位及穹隆的形成时代。  相似文献   

6.
对乌拉特中旗乌兰地区含石榴石花岗岩进行了同位素地质年代学和岩石地球化学研究,探讨了其形成时代和构造背景。利用锆石SHRIMP U-Pb法测得含石榴石花岗岩岩体的年龄为(256.4±2.2) Ma,表明其形成于晚二叠世;岩石地球化学特征显示属弱过铝质I型花岗岩,物源主要为上陆壳硬砂岩,形成于后碰撞构造环境,源区岩浆部分熔融程度较低,可能是由I型花岗质流体与岩浆演化后期热液流体反应而分异结晶形成的。根据含石榴石花岗岩产出的大地构造位置、形成环境及侵位时代,推断研究区内华北板块北缘与西伯利亚板块南缘的碰撞缝合时间上限早于256.4 Ma。  相似文献   

7.
雅拉香波穹隆位于特提斯喜马拉雅构造带东部,出露显生宙不同时期的岩石地层,发育强烈韧性剪切变形和多期岩浆热事件,良好地记录了印度大陆俯冲导致的构造变形和岩浆热历史。对雅拉香波穹隆不同构造部位的花岗质岩石进行LA-ICP-MS锆石U-Pb同位素测年,获得4期构造岩浆事件的高精度测年数据。早期锆石年龄520.4±6.3Ma与536±12Ma指示喜马拉雅地块结晶基底泛非期岩浆侵位时代,晚期锆石年龄揭示新生代碰撞造山不同阶段构造热事件的发生时代。其中,45.6±1.2--44.16±0.88Ma反映印度大陆向北俯冲的起始时代,35.00±0.48Ma对应于始新世晚期增厚地壳深部构造热事件年龄,15.67±0.50Ma指示雅拉香波核部花岗岩侵位及穹隆的形成时代。  相似文献   

8.
哀牢山构造带是青藏高原东南缘重要的边界构造带,其内出露的深变质岩系一直被认为是古老的变质基底岩石。利用LA-ICP-MS原位微区分析技术对哀牢山深变质岩系锆石进行U-Pb年龄、微量元素分析。结果表明深变质岩系的原岩有728±8Ma、727±3Ma、231±4Ma的花岗质岩石和其它年龄的碎屑岩,变质时代为27.8~23.7Ma。综合野外地质特征和分析结果,我们认为哀牢山深构造带在晚渐新世27.8~23.7Ma发生了大规模的地壳深熔作用,现今所见深变质岩系是由不同时代、不同岩性的原岩在晚渐新世(27.8~23.7Ma)变质形成,不全是古老的变质基底岩石。深熔过程中熔/流体发生了明显的迁移。哀牢山变质带具有混合岩化特征的岩石很可能是峰期变质作用后减压熔融的产物。晚渐新世地壳深熔作用与左行走滑剪切是哀牢山深变质带折返过程中近似同时发生的两种不同变质表现形式,两者相互影响、相互制约。  相似文献   

9.
对乌拉特中旗德尔斯地区黑云母二长花岗岩岩相学、锆石SHRIMP U-Pb年代学和岩石地球化学进行了研究,并讨论了岩石成因及研究区晚海西期构造演化。黑云母二长花岗岩发育两期:早期为中粗粒斑状黑云母二长花岗岩,晚期为中细粒黑云二长花岗岩。岩石中的锆石大部分具核-边结构:边部震荡环带发育,Th/U值为0.16~0.50,反映了岩浆成因;核部呈浑圆状,多数具岩浆环带,个别弱分带-无分带,Th/U值为0.06~0.44,表明核部大部分属岩浆型残留锆石,个别为变质型残留锆石。测年结果显示:边部锆石加权平均年龄为早、中二叠世((279±3) Ma、(266±3) Ma),代表黑云母二长花岗岩形成时代;核部残留锆石加权平均年龄为(1 972±63) Ma 、(1 962±43) Ma,代表源岩的形成时代。岩石属于亚碱性系列,REE配分形式呈右倾型,LREE/HREE为5.86~22.81,明显亏损高场强元素Nb,富集大离子亲石元素Rb、Ba,显示活动大陆边缘火成岩的地球化学特征。黑云母二长花岗岩地球化学属性反映了早、中二叠世古亚洲洋向华北板块北缘的俯冲作用及古亚洲洋消亡的演化历史。  相似文献   

10.
Over 400 ion microprobe U-Pb isotopic ages measured for zircons extracted from 24 geothermal wells that penetrate the Geysers Plutonic complex (GPC) allow us to conclude that the entire known extent of the GPC crystallized during the early Pleistocene. Nine samples of the microgranite porphyry that forms the shallow cupola (100-1,500 m below sea-level, mbsl) of the GPC yield the oldest model U-Pb age (1.75 ± 0.01 Ma after correction for initial U series disequilibrium; errors 1σ). Twelve samples from the main intrusive phase (orthopyroxene-biotite granite) present at depths >1,250 mbsl define a crystallization age of 1.27 ± 0.01 Ma. This coincides with the age determined for a structurally and compositionally distinct body of granodiorite (1.25 ± 0.01 Ma; N = 5 samples) that is intruded over a similar depth range. Two petrographically distinct varieties of orthopyroxene-biotite granite yield ages of 1.46 ± 0.03 (GPC21-6000) and 1.16 ± 0.02 Ma (CA5636 74F 21; three samples). U-Pb zircon ages for dikes intruded in metagraywacke country-rocks overlap with those obtained from the main body of the GPC and include the youngest material identified (dike sample NEGU2 ST1-7700: 1.11 ± 0.03 Ma). Overall, the U-Pb results demonstrate that the main body of the GPC (∼300 km3) was emplaced and crystallized within the upper crust over a short time interval (0.2 Ma) that overlaps with zircon crystallization ages of overlying silicic volcanic units.  相似文献   

11.
吉林通化地区光华岩群出露于太古宙TTG片麻岩之中,其形成时代一直存在争议.利用SHRIMP与LA-ICPMS技术,对其代表性岩石样品开展了锆石U-Pb定年分析,包括石榴黑云片岩、黑云二长片麻岩、石榴角闪片岩和侵入光华岩群底部的钾长花岗岩.结果显示,光华岩群4件变质岩石样品尽管位置不同,但碎屑锆石年龄非常接近,207Pb/206Pb谐和年龄集中在2.6~2.5 Ga之间,加权平均值分别为2 529±7 Ma、2 568±4 Ma、2 526±11 Ma和2 530±6 Ma,表明其成岩物质来源于新太古代地体.部分变质岩石记录了2 525±10 Ma、1 926±40 Ma和1 878±16 Ma的变质锆石年龄,表明其既经历了太古代末期的构造热事件改造,又遭受了古元古代晚期碰撞造山事件的扰动.确定侵入光华岩群底部的钾长花岗岩的侵位年龄为2 154±7 Ma,岩石未遭受变形改造,其成因可能与陆内裂谷发育过程有关.   相似文献   

12.
The study evaluates the relationships between measured U-Pb ages and zircon characteristics of five morphologically, texturally, and isotopically complex zircon populations and compares the zircon development stages to the orogenic evolution of the Favourable Lake area. Two distinct zircon types from a hornblendite xenolith in a granitoid batholith of the Sachigo subprovince of the Superior Province yield U-Pb ages of 2729.0±6.8 Ma and 2714.8 –6.4 +7.4 Ma, which date specific metamorphic phases coinciding with major plutonic pulses in the batholith. Zircons from a metamorphosed felsic dike, crosscutting the hornblendite, consist of an old zircon component with a minimum age of 2788 Ma possibly reflecting igneous crystallization 2950 Ma ago, and a younger component with an inferred age of 2725±15 Ma, probably reflecting metamorphism during batholith emplacement.In the Berens River subprovince to the south, granodiorite forms both a late tectonic phase in a large batholith and a post-tectonic pluton intruded into the batholith, yet zircons from these granodiorites have identical ages of 2697.3±1.7 Ma and 2696.2±1.2 Ma, respectively. The late tectonic granodiorite also contains inherited zircons with a minimum age of 2767 Ma which are indirect evidence for the presence of old sialic crust in this subprovince. Zircons from a sheared monzonite near the boundary fault between the two subprovinces yield an upper intercept age of 2769 –26 +63 Ma, which we interpret as the intrusion age of the monzonite. This rock is older than most dated units in the surrounding batholiths and suggests that the boundary is a long-lived Archean structure.A lower intercept age of about 1750 Ma for zircons of the hornblendite is the result of chemical alteration of the zircons. This, and a similar lower intercept age shown by the sheared monzonite zircons, are thought to reflect increased fluid activity and possibly shearing during the Early Proterozoic Hudsonian orogeny which occurred in the Churchill Province to the northwest. A later Pb-loss mainly from near-surface domains of the zircons is indicated by lower intercept ages of about 500–100 Ma.Publication approved by the Director, Ontario Geological Survey  相似文献   

13.
勉略构造带作为秦岭造山带内重要的构造边界,关于其构造属性及晚古生代以来的地质背景,一直是学术界争论的焦点。碎屑锆石U-Pb年代学在限定地层单元的最大沉积年龄、研究区域构造岩浆事件及约束构造地质背景等方面行之有效。基于此,通过对勉略带内五郎坪北侧两河口变沉积地层和侵入其中的变形花岗岩脉体进行LA-ICP-MS锆石U-Pb年代学研究。获得2件变形花岗岩脉的结晶年龄均为406±1Ma。碎屑锆石主年龄谱分别为422~456Ma和558~826Ma,峰值年龄为441Ma和771Ma、813Ma,次级年龄谱分别为942~1495Ma和1658~2981Ma,峰值年龄不明显。依据最小一组碎屑锆石的峰值年龄(441Ma),和侵入其中的变形花岗岩脉(406±0.6Ma),限定该变沉积地层形成时代为406~441Ma(S_1-D_1)。碎屑锆石年龄谱显示该套变沉积地层物质来源较为复杂,其中秦岭造山带及扬子板块北缘早古生代、新元古代岩浆岩为其提供了74%±的物源,古老变质基底为其提供了26%±的物源。通过与区域上已有资料对比,认为勉略构造带内晚古生代沉积地层形成环境与邻区大致相同,且本次所获得的变沉积岩碎屑锆石年龄谱也与邻区泥盆系相似。综合认为,勉略构造带与邻区在晚古生代应属同一构造环境,晚古生代"勉略海盆"应当包括整个南秦岭。  相似文献   

14.
The Vestfold Hills, one of several Archaean cratonic blocks within the East Antarctic Shield, comprises a high-grade metamorphic basement complex intruded by at least nine generations of Early to Middle Proterozoic mafic dykes. Extensive U-Pb ion microprobe (SHRIMP) analyses of zircons, derived predominantly from late-stage felsic differentiates of the mafic dykes, provide precise crystallisation ages for several dyke generations. These new ages enable constraints to be placed on both the history of mafic magmatism in the Vestfold Hills and the timing of the various interspersed Proterozoic deformation events. In addition to demonstrating the utility of zircons derived from felsic late-stage differentiates for the dating of co-genetic mafic dykes, this study also places doubt on previous wholerock Rb-Sr dating of mafic dyke suites in this and other areas of East Antarctica. The 207Pb/206Pb zircon ages of 2241±4 Ma and 2238±7 Ma for the Homogeneous and Mottled Norites, respectively, provide a younger emplacement age for associated group 2 High-Mg tholeiite dykes than the whole-rock Rb-Sr date (2424±72 Ma) originally interpreted as the age of all high-Mg intrusives in the Vestfold Hills. Zircon ages of 1754±16 Ma and 1832±72 Ma confirm the previously defined Rb-Sr age of the group 2 Fe-rich tholeiites. Two later dyke generations, the group 3 and 4 Fe-rich tholeiites, are distinguished on the basis of field orientations and cross-cutting relationships, and yield zircon emplacement ages of 1380±7 Ma and 1241±5 Ma which also define minimum ages for two suites of lamprophyre dykes. Xenocrystic zircons within both felsic segregations and mafic dykes yield zircon ages of 2478±5 Ma to 2740 Ma, indicating the presence of Archaean crustal source rocks of this antiquity beneath the Vestfold Hills.  相似文献   

15.
文章对苗儿山—越城岭地区西北侧猫儿界花岗斑岩开展了锆石U-Pb年代学、岩石地球化学和Nd同位素研究,探究了岩体的形成时代、成因类型及源区性质.三件花岗斑岩样品LA-ICP-MS锆石U-Pb定年给出的206Pb/238U加权年龄分别为824.3±4.5 Ma、825.4±4.1 Ma和826.8±4.8 Ma,表明猫儿界...  相似文献   

16.
戴盼  吴胜华  丁成武 《岩石学报》2018,34(9):2598-2614
王坞斑岩型Mo-Cu矿床位于北武夷地区,地处钦杭构造岩浆成矿带北段。目前钻孔信息显示,该矿床的矿体主要由网脉状石英-辉钼矿-黄铜矿矿石组成,也含少量的浸染状和细脉浸染状Cu-Mo矿化,主要的蚀变作用包括硅化、绢英岩化和绿泥石化。矿区内隐伏燕山期的花岗斑岩脉及石英闪长玢岩脉。本文对该矿床的花岗斑岩进行了LA-ICP-MS锆石U-Pb测年,对主要矿石类型(网脉状石英-辉钼矿矿石)中的辉钼矿进行了Re-Os同位素测年。结果显示,花岗斑岩的锆石U-Pb年龄为136. 7±2. 2Ma,辉钼矿的Re-Os同位素模式年龄为132. 6±1. 8Ma~134. 5±2. 0Ma,加权平均值为133. 7±0. 94Ma,对应的Re-Os等时线年龄为134. 8±2. 1Ma。花岗斑岩的锆石U-Pb年龄和辉钼矿的Re-Os年龄在误差范围内基本一致,且花岗斑岩和矿体之间具有密切的空间关系,指示王坞Mo-Cu矿床的Mo矿化可能与矿区内的花岗斑岩存在密切的成因联系。北武夷地区主要的斑岩-矽卡岩和岩浆热液脉型Cu-Mo多金属矿床的成岩成矿年龄数据的统计结果显示,北武夷地区的Cu-Mo-Pb-ZnAg成矿作用主要集中在燕山期,可被划分为150~165Ma和140~125Ma两个阶段。结合区域构造背景资料,王坞Mo-Cu矿床形成于早白垩纪伸展的构造背景下。  相似文献   

17.
Alkaline granitic dikes intruding the metasedimentary mantle and orthogneiss cores of the Aston and Hospitalet domes of the Axial Zone of the Pyrenees are subjects of a laser ablation ICP-MS U-Pb zircon geochronology study. The age spectra recorded by detrital, magmatic xenocrystic and inherited zircons reveal a more complex, nearly continuous Paleozoic magmatic history of the Variscan basement of the Pyrenees than previously known. Inherited and detrital zircons of Mesoarchean, Paleoproterozoic to Ediacaran ages attest to the Peri-Gondwana location of the Cambrian sediments that later form the metamorphic core of the Variscan Pyrenees. The youngest magmatic zircon ages fall into the late Carboniferous and earliest Permian, ranging from ca. 306–297 Ma, and represent the emplacement ages of the dikes and small granite intrusions. The age spectra of magmatic xenocrystic zircons contain several maxima, middle (475–465 Ma) and late Ordovician (455–445 Ma), early (415–402 Ma) and late Devonian (385–383 Ma), early (356–351 Ma) and middle Carboniferous (ca. 328 Ma). Middle Ordovician and middle Carboniferous ages are obtained from xenocrystic zircons that were assimilated from the rocks the dikes intruded, the Aston and Hospitalet orthogneisses and the Soulcem granite. The presence of early-mid Carboniferous magmatic zircons in several samples lends further support to a wide-spread early Variscan magmatic activity in the central Pyrenees. The other age peaks do not have equivalent igneous or metaigneous rocks in the central Axial Zone, but are thought to be present in the Pyrenean crust, not exposed and yet to be identified. The diversity of Ordovician, Devonian and Carboniferous up to Permian magmatic ages indicates polyphase emplacement of intrusive bodies during pre-Variscan and Variscan orogenies. The source of the heat for the Devonian to early-mid Carboniferous magmatic activity remains elusive and may involve intracontinental subduction zone, lithospheric-scale shearing or a mantle plume (TUZO).  相似文献   

18.
为厘定哀牢山岩群的时代和大地构造归属,选取哀牢山岩群中的花岗质片麻岩(SM-15)、花岗闪长质片麻岩(SM-22)、同变形的花岗质岩脉(SM-18)及紧邻哀牢山岩群的变质砂岩(NO-1)为研究对象,运用LA-ICP-MS锆石U-Pb定年法对其进行定年。结果显示,样品SM-15中有岩浆锆石和变质锆石2类,岩浆锆石的年龄集中于722~740Ma之间,变质锆石的~(206)Pb/~(238)U年龄加权平均值为29.9±0.5Ma。样品SM-22中2组~(206)Pb/~(238)U年龄加权平均值,原岩年龄为232.3±4.3Ma;后期变质重结晶年龄为29.2±0.4Ma。样品SM-18中锆石~(206)Pb/~(238)U年龄加权平均值为27.19±0.36Ma,代表变质年龄。样品NO-1中的碎屑锆石年龄分4组:246~276Ma、600~800Ma、800~1000Ma和1000Ma以上。以上年龄数据表明,哀牢山岩群中至少包括元古宙岩浆岩(722~740Ma)、二叠纪末—三叠纪初岩浆岩或地层(235~255Ma),以及新近纪岩浆岩(27~32Ma),是一个复杂的变质岩带,而不是以往认为的全部属于元古宙扬子地台的结晶基底。哀牢山岩群的主变质时代集中在27~32Ma之间,哀牢山岩群现今的面貌主要在这一时期成型。  相似文献   

19.
魏家钨矿床位于湘南西部铜山岭地区,是近年来在南岭成矿带西端新发现的一超大型矽卡岩型钨矿床。矿体主要产于祥林铺花岗岩与其围岩的接触带内,其形成与祥林铺花岗岩密切相关。为厘清其成岩成矿时代,本文对魏家钨矿区的花岗斑岩和石英斑岩进行了锆石LA-MC-ICP-MS U-Pb测年。结果显示,矿区花岗斑岩侵位时间为(157.8±0.9)Ma(MSWD=1.06),石英斑岩侵位时间为(158.3±1.4)Ma(MSWD=0.2)。矿区内花岗斑岩与石英斑岩侵位时间在误差范围内一致,表明两者可能是同一岩浆演化至不同阶段的产物,矿区内花岗质岩浆活动与钨多金属成矿作用时限约为158 Ma,为南岭地区中生代"大规模成矿"作用(160~150 Ma)的组成部分。另外,花岗斑岩中捕获有少量加里东期的岩浆锆石(435 Ma),指示该区曾发生加里东期岩浆活动,这与华南地区广泛存在的加里东期构造岩浆活动事件吻合。魏家钨矿成岩成矿时代的厘定对于在南岭成矿带西端寻找晚侏罗世钨矿具有重要的指示意义。  相似文献   

20.
点苍山变质杂岩新生代变质-变形演化及其区域构造内涵   总被引:3,自引:2,他引:1  
点苍山变质杂岩体是哀牢山-红河韧性剪切带四个变质杂岩体之一,遭受了多期多阶段变质-变形作用改造。本文重点针对点苍山杂岩的新生代变质-变形作用,尤其是以富铝质高级变质岩即夕线石榴黑云片麻岩和侵位于其中的糜棱岩化细晶花岗质岩石开展了深入研究。对夕线石榴黑云片麻岩的显微构造分析与矿物共生组合研究,确定了高角闪岩相和低角闪岩相变质矿物共生组合,分别为:石榴石(Grt)+夕线石(Sil)+钾长石(Kfs)+黑云母(Bi)+斜长石(Pl)±石英(Q)和夕线石(Sil)+白云母(Ms)+黑云母(Bi)+石英(Q)。对其中的变质锆石进行SHRIMP U-Pb测试,获得了新生代三个阶段的变质作用年龄,即54.2±1.7Ma、31.5±1.5Ma和27.5±1.2Ma.本文还深入研究了侵位于高级变质岩中的一个花岗岩质糜棱岩的宏观与显微构造特点,其LA-ICP-MS年龄为24.4±0.89Ma,代表着同剪切就位花岗质岩浆侵位和结晶年龄。夕线石榴黑云片麻岩中变质锆石从2150~27Ma多期多阶段表观年龄的发育,表明点苍山变质杂岩体具有复杂的构造演化史。点苍山杂岩的多阶段新生代构造-热演化归咎于印度-欧亚板块会聚与碰撞作用(约54Ma)、造山后伸展作用(大约40~30Ma)和沿着哀牢山-红河剪切带大规模左行走滑变形作用(约27~21Ma)。  相似文献   

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