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1.
巴里坤塔格地区晚石炭世—早二叠世侵入岩主要包括闪长岩、花岗闪长岩、花岗岩和辉绿岩,相互呈侵入接触关系,形成时代在误差范围内一致。在地球化学上,均属过铝质钙碱性和高钾钙碱性系列,富集轻稀土元素、大离子亲石元素以及不相容元素,亏损高场强元素,显示火山弧花岗岩的特征,低Sr、低Pb、高Nd的同位素组成特征表明该区侵入岩起源于亏损地幔。通过对综合区域地质演化分析,认为巴里坤塔格地区在晚石炭世—早二叠世为后碰撞拉张环境,其侵入岩的岛弧特征可能是由于岩浆源区受过早期俯冲作用的影响。TDM=1 076~806 Ma,指示中酸性侵入岩类的来源可能是古亚洲洋俯冲形成的新生陆壳,该陆壳起源于亏损地幔。因此,认为晚石炭世—早二叠世晚期巴里坤塔格与邻区博格达、哈尔里克地区自晚石炭世全面进入板内构造演化阶段。 相似文献
2.
内蒙古狼山地区早石炭世角闪辉长岩、花岗闪长岩的岩石成因及构造意义 总被引:2,自引:0,他引:2
内蒙古狼山山脉西侧分布有大面积的晚古生代岩浆岩,时代集中在早石炭世—晚二叠世,早石炭世角闪辉长岩、花岗闪长岩体出露于潮格温都尔镇西侧。角闪辉长岩体呈岩滴状产出,被花岗闪长岩体侵入,LA-ICP-MS锆石U-Pb年龄显示,角闪辉长岩的~(206)Pb/~(238)U加权平均年龄为329.0±2.3 Ma,花岗闪长岩的~(206)Pb/~(238)U加权平均年龄为331.1±0.9 Ma~330.0±4.2 Ma。花岗闪长岩暗色矿物以角闪石为主,富钠(Na2O=3.48%~4.46%),高钠钾比值(Na2O/K2O=1.03~2.39),钙碱性系列,P2O5-SiO_2之间存在较好的负相关性,岩石地球化学特征具Ⅰ型花岗岩的特点。Hf同位素及元素地球化学特征指示了角闪辉长岩及花岗闪长岩均来自于受地壳混染的亏损地幔,为同源岩浆演化的产物。角闪辉长岩及花岗闪长岩稀土元素配分型式一致,均为轻稀土元素富集,重稀土元素亏损,具弱的负Eu异常;角闪辉长岩富集Ba、Sr,亏损Nb、Ta、Zr、Hf;花岗闪长岩富集大离子亲石元素Rb、K、Pb、Sr,不同程度地亏损高场强元素Nb、Ta、P、Ti,总体反映了岩浆弧的地球化学特征。结合区域地质背景,早石炭世狼山地区侵入岩岩石组合为角闪辉长岩(闪长岩)+石英闪长岩+花岗闪长岩,认为狼山地区早石炭世处于大陆边缘弧构造背景。 相似文献
3.
黑红山二长花岗岩分布于红石山-百合山-蓬勃山蛇绿岩带北部,地球化学特征显示其属于准铝质-弱过铝质、中-高钾钙碱性系列,为高分异的I型花岗岩;轻稀土元素富集,轻、重稀土元素分馏明显,具弱负Eu异常,稀土元素曲线为右缓倾。微量元素相对富集Ba、K、Zr、Hf,亏损Ta、Nb、P、Ti,显示与俯冲有关的侵入岩特征,形成于碰撞前的火山弧环境。LA-ICP-MS锆石U-Pb定年获得~(206)Pb/~(238)U年龄加权平均值为315.2±2.5Ma。综合研究表明,黑红山地区在晚石炭世属于活动大陆边缘的火山弧,红石山-百合山-蓬勃山蛇绿岩带所代表的洋盆在此尚未消亡。 相似文献
4.
《地质通报》2020,(7)
内蒙古狼山山脉西侧分布大面积的晚古生代岩浆岩,时代集中在早石炭世—晚二叠世,早石炭世石英闪长岩体出露于潮格温都尔镇西侧。该岩体岩性为石英闪长岩,LA-ICP-MS锆石U-Pb年龄显示,石英闪长岩的~(206)Pb/~(238)U年龄加权平均值为337.4±6.6 Ma。岩石暗色矿物以角闪石为主,黑云母次之,富铁,富钠,高钠钾比值,为钙碱性系列;富集大离子亲石元素Rb、K、Pb,不同程度的亏损高场强元素Nb、Ta、P、Ti的特点,稀土元素配分型式为轻稀土元素富集,重稀土元素亏损,弱的负Eu异常,总体反映岩浆弧的地球化学特征。构造环境判别图显示样品点落在大陆边缘弧范围,岩石地球化学特征表明狼山地区早石炭世处于大陆边缘弧构造背景,古亚洲洋石炭纪存在向南俯冲。对比北部造山带西乌旗地区的早石炭世石英闪长岩,两者地球化学特征基本相同。因此,早石炭世古亚洲洋发生了双向俯冲,形成了以石英闪长岩为主的岩石类型。 相似文献
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6.
大兴安岭富克山地区兴华渡口群地球化学及锆石U-Pb年龄特征 总被引:1,自引:0,他引:1
对富克山地区兴华渡口群岩石地球化学、锆石LA-ICP-MS U-Pb年代学研究结果表明,5件样品:Si O_2=50.24%~54.66%,Al_2O_3=14.41%~17.36%,Ca O=6.5%~8.68%,Na_2O=2.62%~4.67%,K_2O=1.36%~2.29%,Na_2O+K_2O=4.09%~6.3%,稀土总量∑REE=108.33×10~(-6)~240.28×10~(-6),稀土元素配分模式表现为轻稀土元素富集,重稀土元素相对亏损的右倾型曲线,具有弱的负铕异常。富集大离子亲石元素(K、Rb、Ba),相对亏损高场强元素(Nb、Ta、Zr、P、Ti等)。锆石U-Pb测年结果表明其岩浆形成时代为晚寒武世—早奥陶世(486.6±3.3 Ma)。富克山地区兴华渡口群原岩岩石组合类型为基性火山岩,为一套晚寒武世—早奥陶世活动大陆边缘火山建造。 相似文献
7.
巴斯克花岗闪长岩位于野马泉岛弧内,本文综合野外地质、岩相学、地球化学以及锆石U-Pb年代学等多学科手段,进而为该地区晚石炭世时期构造背景提供岩浆岩约束。岩石地球化学研究表明,岩体主量元素具有高硅、准铝—弱过铝质、钙碱性的I型花岗岩特征;岩石样品稀土元素总量在83.79×10-6至 125.67×10-6之间,且轻/重稀土之间的比值介于5.32至8.63之间(平均值为7.1),指示轻稀土较重稀土富集。Eu 元素轻度负异常 (δEu=0.69~0.89)。样品富集大离子亲石元素(如K、Rb、Ba),且亏损高场强元素(HFSE,如Nb、Ta和Ti)及P, Nb、Ta负异常明显。岩体锆石206U/238Pb加权平均年龄为301.3±2.5 Ma (MSWD=0.33)和310.7±3.6 Ma (MSWD=0.75),表明岩体形成时代为晚石炭世。综合区域地质特征、岩石地球化学和岩浆源区特征,表明东准噶尔地区晚石炭世(310~301 Ma)处于造山带碰撞后的陆壳伸展构造体制,且岩浆具有壳幔混合和分批熔融、增量生长的特征。 相似文献
8.
花岗岩的形成时代和岩石地球化学特征在揭示岩浆源区、形成环境和构造演化方面具有重要作用。本文对位于雅干断裂北侧的达伦乌苏中酸性侵入岩体开展了系统的岩相学、岩石地球化学及锆石U-Pb年代学研究。结果显示,达伦乌苏中酸性侵入体由石英闪长岩和花岗闪长岩组成,其加权平均年龄分别为(300.4±2.6)Ma和(303.6±2.5)Ma,表明其形成时代为晚石炭世。岩石地球化学特征显示,达伦乌苏中酸性侵入岩具有较低的SiO2含量(57.27%~67.37%)和(K2O+Na2O)含量(4.74%~6.77%),整体相对富钠(Na2O/K2O>1),具有典型I型花岗岩特征;富集Rb、Th、K、Hf等大离子亲石元素,亏损Nb、Ta、P、Ti、Sr等高场强元素,显示轻稀土元素富集、重稀土元素亏损的右倾稀土元素配分模式,具有弧火山岩特点;同位素示踪结果显示石英闪长岩的[(87Sr/86Sr)i=0.7051~0.7053)],暗示... 相似文献
9.
《现代地质》2016,(2)
选择南天山东段早石炭世—早二叠世典型花岗岩类,即阿訇开里得南岩体、盲起苏岩体、东泉戈壁岩体和库米什北岩体进行岩石学与地球化学对比研究。结果表明,这些岩体属于准铝质—过铝质高钾钙碱性系列花岗岩,富集Ba、Rb、Th、U等大离子亲石元素,亏损Nb、Ta、Zr、Hf等高场强元素,稀土元素配分模式呈右倾型,富集轻稀土元素、亏损重稀土元素,铕出现中等负异常(δEu=0.52~0.96)。基于上述相似特征,并结合前人研究成果,认为它们形成于陆-陆碰撞环境。基于南天山造山带东西段高压变质岩、岩浆岩、沉积岩和蛇绿混杂岩等方面的岩石成岩年龄对比,认为南天山晚古生代构造演化过程具有区域差异性,碰撞作用在其东段发生于早石炭世,而在其西段发生于晚石炭世。南天山洋东段闭合时间早于西段。 相似文献
10.
《地质通报》2020,(9)
分布于内蒙北山地区小红山南一带的晚石炭世花岗岩,是由英云闪长岩(T_1)、花岗闪长岩(G_1)和奥长花岗岩(T_2)组成的一套TTG岩石组合。该套组合具有富硅、富钠、低铝的地球化学特征,稀土元素总量偏低,∑REE=27.86×10~(-6)~104.56×10~(-6),轻稀土元素富集,LREE/HREE值为4.71~22.76,(La/Yb)值为4.78~43.18,δEu为0.62~1.72,稀土元素配分曲线为右倾型,微量元素总体表现为富集大离子亲石元素(LILEs),亏损高场强元素(HFSEs),且具有明显的Nb、P、Ti负异常,Y、Yb含量低。利用LA-ICP-MS锆石U-Pb同位素测定技术,测得该套TTG组合酸性侵入体中花岗闪长岩、英云闪长岩、奥长花岗岩~(206)Pb/~(238)U年龄加权平均值分别为315.6±1.6 Ma、310.8±1.4 Ma、305±1.9 Ma,形成于晚石炭世。研究认为,小红山晚石炭世TTG花岗岩组合具有陆缘弧花岗岩的成因特点,形成于石炭纪百合山弧间洋盆向南侧陆缘消减过程中洋壳俯冲板片的部分熔融,这套与百合山蛇绿岩同期形成的明水陆缘弧的发育,指示了百合山构造带形成于弧盆体系的演化阶段。 相似文献
11.
ABSTRACTThe West Junggar region, located in the Central Asian Orogenic Belt (CAOB), is characterized by extensive Carboniferous magmatism and porphyry Cu (-Au) deposits. The Shiwu porphyry Cu-Au deposit, located in the east of the Barluk Mountains, the West Junggar region, is not only a newly discovered deposit but also a representative porphyry Cu-Au deposit in this area. The volcanic rocks (including andesite and tuff) and intrusive rocks (including diorite, quartz diorite, quartz diorite porphyry, and tonalite porphyry) occurred in the Shiwu area and the mineralization associated with the quartz diorite porphyry. The secondary ion mass spectrometry (SIMS) zircon U–Pb ages of quartz diorite porphyry and tonalite porphyry are 310.4 ± 2.3 Ma and 310.1 ± 2.4 Ma, respectively, indicating that the Shiwu deposit is related to the Late Carboniferous magmatism. Intrusive rocks, which were characterized by the enrichment of large ion lithophile elements (LILEs) and pronounced negative high field strength elements (HFSEs), belong to the calc-alkaline or tholeiitic series. Their (87Sr/86Sr)i, (143Nd/144Nd)I, and εNd(t) values range from 0.703569 to 0.704311, 0.512488 to 0.512512, and 4.9 to 5.3, respectively. Volcanic rocks, which belong to the calc-alkaline series, have similar geochemical features as the intrusive rocks, and their (87Sr/86Sr)i, (143Nd/144Nd)i, and εNd(t) values, respectively, are 0.703704–0.704071, 0.512520–0.512542, and 5.49–5.92. These characters indicate that the igneous rocks in the Shiwu area derived dominantly from the mantle and formed in an island arc setting. These characters also further confirmed that the Barluk Mountains is still in an island arc setting in the Late Carboniferous and the accretionary orogenesis can exist until 310 Ma at least. 相似文献
12.
《International Geology Review》2012,54(10):1278-1293
ABSTRACTZircon U–Pb geochronological and geochemical analyses are reported for a suite of the early Carboniferous volcanic rocks from West Junggar (Northwest China), southern Central Asian Orogenic Belt (CAOB), with the aim to investigate the sources, petrogenesis, and tectonic implications. Laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) U–Pb analysis from an andesite yielded concordant weighted mean 206Pb/238U age of 345 ± 3 Ma, indicating the presence of early Carboniferous volcanic rocks in West Junggar. The early Carboniferous volcanic rocks consist of basalt, basaltic andesite, and andesite. Geochemically, all the samples bear the signature of ocean island basalt (OIB), and are characterized by alkaline affinity with minor variations in SiO2 compositions (45.13–53.05 wt.%), high concentrations of Na2O + K2O (5.08–8.89 wt.%) and TiO2 (1.71–3.35 wt.%), and LREE enrichment and HREE depletion ((La/Yb)N = 7.1–12.4), with weak Eu anomalies (Eu/Eu* = 0.9–1.1) and no obvious Nb, Ta, and Ti negative anomalies. These features suggest that the early Carboniferous volcanic rocks were derived from an OIB-related source that consists of oceanic lithosphere with ~1–3% degree partial melting of garnet lherzolite. From these observations, in combination with previous work, we conclude that the early Carboniferous alkaline volcanic rocks in Karamay region formed by upwelling of asthenospheric mantle through a slab window in a forearc setting during consumption of the West Junggar Ocean. Meanwhile, seamounts, which formed in the Late Devonian and were accreted and subducted in Karamay arc, also brought geological effects in the subduction zone. 相似文献
13.
《Australian Journal of Earth Sciences》2013,60(5):645-664
Laser ablation‐inductively coupled plasma‐mass spectrometry (LA‐ICP‐MS) analysis of zircons confirm a Late Devonian to Early Carboniferous age (ca 360–350 Ma) for silicic volcanic rocks of the Campwyn Volcanics and Yarrol terrane of the northern New England Fold Belt (Queensland). These rocks are coeval with silicic volcanism recorded elsewhere in the fold belt at this time (Connors Arch, Drummond Basin). The new U–Pb zircon ages, in combination with those from previous studies, show that silicic magmatism was both widespread across the northern New England Fold Belt (>250 000 km2 and ≥500 km inboard of plate margin) and protracted, occurring over a period of ~15 million years. Zircon inheritance is commonplace in the Late Devonian — Early Carboniferous volcanics, reflecting anatectic melting and considerable reworking of continental crust. Inherited zircon components range from ca 370 to ca 2050 Ma, with Middle Devonian (385–370 Ma) zircons being common to almost all dated units. Precambrian zircon components record either Precambrian crystalline crust or sedimentary accumulations that were present above or within the zone of magma formation. This contrasts with a lack of significant zircon inheritance in younger Permo‐Carboniferous igneous rocks intruded through, and emplaced on top of, the Devonian‐Carboniferous successions. The inheritance data and location of these volcanic rocks at the eastern margins of the northern New England Fold Belt, coupled with Sr–Nd, Pb isotopic data and depleted mantle model ages for Late Palaeozoic and Mesozoic magmatism, imply that Precambrian mafic and felsic crustal materials (potentially as old as 2050 Ma), or at the very least Lower Palaeozoic rocks derived from the reworking of Precambrian rocks, comprise basement to the eastern parts of the fold belt. This crustal basement architecture may be a relict from the Late Proterozoic breakup of the Rodinian supercontinent. 相似文献
14.
广西东南部钦防海槽地区晚古生代硅质岩十分发育。对硅质岩主量元素、微量元素及稀土元素的分析结果表明:该区晚古生代硅质岩含有较高的SiO2,硅化程度较高;除上泥盆统弗拉斯阶及下石炭统硅质岩具有较低的Al/(Al+Fe+Mn)值(0.14~0.24;0.07~0.81)及较高的U/Th值(0.34~5.09;0.16~10.1)外,其他层位硅质岩具有较高的Al/(Al+Fe+Mn)值(0.4~0.95)及较低的U/Th值(0.1~2.1);上泥盆统硅质岩稀土元素比值Ce/Ce*、LaN/YbN及LaN/CeN值分别为0.78~1.08、0.4~1.52和0.88~1.35,而下石炭统硅质岩具有较低的Ce/Ce*值(0.55~0.91)、LaN/YbN值(0.12~1.8)及较高的 LaN/CeN值(1.12~1.79),中下二叠统硅质岩Ce/Ce*、LaN/YbN及LaN/CeN值分别为1.01~1.62、0.72~2.71和0.62~1.9。钦防海槽晚古生代硅质岩地球化学特征表明:晚泥盆世钦防海槽发生扩张,热液活动比较强烈,处于大陆边缘海环境;早石炭世钦防海槽再次发生扩张,热液活动强烈,硅质岩形成于远离陆源的深海海盆环境;早中二叠世,钦防海槽逐渐收缩,海水变浅。钦防海槽晚古生代并没有出现真正的洋壳,可能属于晚古生代古特提斯分支洋盆的一个坳拉槽盆地。 相似文献
15.
西藏玛依岗日地区侵入脉岩为辉长岩,通过采集辉长岩样品,观察显微照片,并进行主量元素、微量元素和稀土元素含量测试。结果表明:Na2O与K2O含量变化范围不大,全碱(K2O+Na2O)含量为186%~411%,样品K2O/Na2O值的范围为025~066。岩石富集轻稀土、亏损重稀土,铕无正负异常。总体富集Hf、La、Nd、Ti,亏损P、Yb、Y等元素。地球化学特征表明其形成于陆内裂谷环境,岩浆来源于富集地幔,受到硅铝质地壳物质的混染。结合辉长岩围岩为晚石炭世—早二叠世浅变质岩系以及早二叠世晚期之后的地层中不发育岩墙群的事实,而且根据前人对藏北羌塘南部地区基性岩墙群为晚石炭世—早二叠世的年龄约束,推断研究区内南北向辉长岩可能为古特提斯洋拉张初期的产物。 相似文献
16.
阿尔泰山南缘晚古生代火山岩的地质地球化学特征及其对构造演化的启示 总被引:15,自引:0,他引:15
阿尔泰山南缘晚古生代火山岩十分发育,从早泥盆世到早二叠世均有发育。其中中泥盆世北塔山组为一套中基性火山岩,并且底部含有厚度超过100m的苦橄岩;中泥盆世蕴都喀拉组为一套浅海相细碎屑沉积岩夹中性、中基性火山岩;晚泥盆世江孜尔库都克组为火山碎屑岩夹中基性和中酸性火山岩组合;而晚石炭世巴塔玛依内山组以玄武岩和玄武安山岩为主,夹凝灰岩、粉砂岩和炭质页岩。对这4个组火山岩的主要元素、微量元素地球化学特征研究表明,北塔山组和蕴都喀拉组为拉斑和钙碱性系列,并且均具有大离子亲石元素(LILE)富集,而高场强元素与MORB相当,说明其为岛弧环境。江孜尔库都克组火山岩为钾玄岩系列,并且具有较高的LILE富集,表明其形成于岛弧演化的晚期阶段;巴塔玛依内山组火山岩为碱性系列,并且具有强烈富集LILE的特征,指示了其形成于大陆板内环境。因此,从火山岩的时间和空间演化来看,本区晚古生代火山岩与准噶尔洋板块向北的俯冲有关,西伯利亚板块和准噶尔板块的碰撞发生在早石炭-晚石炭世。 相似文献
17.
A. Zeh M. A. Cosca H. Brätz M. Okrusch M. Tichomirowa 《International Journal of Earth Sciences》2000,89(1):52-71
40 Ar/39Ar–mica and 207Pb/206Pb–zircon dates are presented and combined with existing P–T data and the sedimentary record. These data indicate that the
RCC was faulted into three segments which underwent different exhumation histories during the Late Carboniferous/Early Permian.
The eastern segment shows 40Ar/39Ar–biotite data of336 ±4 and 323±3 Ma. Furthermore, it is intruded by the Thuringian Hauptgranite dated at 337±4 Ma by the
207Pb/206Pb single zircon method. At approximately 300 Ma rocks of the eastern segment were finally exposed and, subsequently, subsided
as part of the Oberhof pull-apart basin, filled by Late Carboniferous/Early Permian molasse sediments and volcanic rocks (296–285 Ma;
Goll 1996). A similar Late Carboniferous evolution is inferred for the western segment, since it is also overlain by Upper
Carboniferous volcanic rocks. In contrast to the eastern and western segments, distinctly younger intrusion and cooling ages
were recorded for the central segment of the RCC (40Ar/39Ar muscovite: 311±3 Ma; 40Ar/39Ar biotite: 293–288±3 Ma) that was intruded by the Trusetal Granite, the Ruhla Granite and Brotterode Diorite (207Pb/206Pb single zircon: 298±2, 295±3, 289±4 Ma, respectively). These young data are unique in the MGCR and testify that plutonic
activity and cooling of basement rocks took place simultaneously with basin formation and volcanism in the eastern and western
segments. Overlying Upper Permian (Zechstein) and Triassic sediments indicate final exposure of the central segment by approximately
260 Ma, as a part of the Ruhla-Schleusingen Horst. Combination of these results with P–T data from the contact aureole of
the Trusetal granite indicate that the central segment was unroofed by at least 8.5 km during the Late Carboniferous. The
Late Carboniferous/Early Permian horst-basin formation, documented in the RCC, is due to dextral transtensional movements
along the NW-trending Franconian fault system. It may have been enhanced by mantle upwelling widespread in Central Europe
during the Early Permian that also caused intensive magmatism in the Thuringian Forest region.
Received: 2 February 1999 / Accepted: 15 November 1999 相似文献
18.
《International Geology Review》2012,54(7):823-844
The paper presents new U–Pb zircon ages and geochemical data from early Carboniferous volcanic rocks of the Wuerkashier Mountains in the northern West Junggar region, NW China, and of the Char suture–shear zone in East Kazakhstan. The study included analysis of geological setting, major and trace elements, and rock petrogenesis. Both localities host early Carboniferous volcanic units dominated by plagioclase-porphyry andesites and dacites. A West Junggar dacite yielded a 206Pb/238U age of 331 ± 3 Ma. The Junggar volcanic rocks are tholeiitic, and the Char samples are intermediate between tholeiitic and calc-alkaline. Both the Junggar and Char volcanic units are characterized by LREE enriched rare-earth spectra (La/Smn = 1.1–2.4) with Eu negative anomalies (Eu/Eu* = 0.12–1.0) and Nb-Ta minimums (Nb/Thpm = 0.15–0.35; Nb/Lapm = 0.3–0.7) on multi-element spectra. The Junggar andesites and dacites have higher REE and HFSE (Ti, Nb, Zr, Y, and Th) compared with the Char rocks, suggesting their derivation from a different mantle source. The melting modelling in the Nb-Yb system showed that the Junggar volcanic rocks formed by low- to medium- (2–5%) degree melting of depleted mantle harzburgite and spinel lherzolite. The Char volcanic rocks formed by high-degree melting (15–20%) of spinel lherzolite and garnet-bearing peridotite. The regional geology of West Junggar and East Kazakhstan and the geochemical features of the rocks under study (i.e. depletion in Nb, Ta, and Ti and enrichment in Th, and combination of LREE enrichment and HFSE depletion) all suggest a subduction-related origin of both Junggar and Char volcanic rocks. The early Carboniferous volcanic rocks of West Junggar possibly formed by subduction of the Junggar-Balkhash ocean beneath an active margin of the Kazakhstan continent, whereas those of East Kazakhstan formed by subduction of the Irtysh-Zaisan Ocean beneath an intra-oceanic arc at the active margin of the Siberian continent. 相似文献
19.
西天山昭苏东南部阿登套地区大哈拉军山组火山岩及花岗岩侵入体的地球化学特征、时代和构造环境 总被引:9,自引:4,他引:5
西天山昭苏东南部阿登套地区大哈拉军山组火山岩主要由玄武质安山岩组成,具有富集大离子亲石元素、亏损高场强元素(如Nb、Ta、Ti)、稀土元素高度分馏的特征。这些玄武安山岩被一些钾长花岗岩和花岗斑岩脉体侵入。钾长花岗岩脉为准铝质,含有较高的Na2O+K2O、轻稀土元素、Zr、Nb、Y含量和较高的FeOT/MgO及Ga/Al比值。两类花岗岩均亏损Ba、Sr、P、Ti和Eu。钾长花岗岩和花岗斑岩给出的Laser-ICPMS锆石U-Pb年龄分别为354.2±2.3Ma和339.5±2.3Ma,表明其围岩即大哈拉军山组火山岩的形成时代不晚于早石炭世早期。综合野外地质观察、区域地质构造以及上述岩石的地球化学特征和时代,我们认为西天山昭苏南部大哈拉军山组火山岩及侵入其中的早石炭世A型花岗岩脉可能形成于活动陆缘弧后拉张环境。 相似文献