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1.
阿奇山-雅满苏构造带是东天山造山带的重要组成部分,其大地构造属性至今仍存在争议.小东山火山岩出露于阿奇山-雅满苏构造带的西段,包括基性到酸性系列火山岩,是认识阿奇山-雅满苏构造带属性和演化的有效“岩石探针”.本次工作对其开展了系统的岩石学、锆石U-Pb年代学、元素和同位素地球化学研究.研究结果表明,小东山火山岩主要由花岗斑岩、英安斑岩、安山岩、玄武岩以及橄榄玄武岩组成,元素协变关系指示该套火山岩系列属于同源岩浆的演化产物.锆石LA-ICP-MS U-Pb测年结果显示,小东山火山岩年龄为318~308 Ma,形成于晚石炭世.该套火山岩SiO2含量变化范围较大(48.10%~76.82%),Al2O3含量整体较低且变化范围较小.从基性岩到酸性岩,稀土总量逐渐增加,Eu/Eu*值逐渐降低.中酸性火山岩大离子亲石元素Rb、K、Pb、Sr等相对富集,高场强元素Nb、Ta、Ti、P、Th等强烈亏损.而基性火山岩主要表现为Nb、Ta、Zr、Hf、Ti负异常,K、Pb、P正异常.所有火山岩均以低(87Sr/86Sr)i(0.704 50~0.707 14)、高εNd(t)(+3.16~+5.71)以及高εHf值(+5.45~+12.18)为特征.上述元素和同位素地球化学特征指示了小东山火山岩形成于岛弧构造环境,起源于交代地幔楔的部分熔融并经过了结晶分异作用.结合前人对区域构造-岩浆活动的认识,本文认为小东山火山岩所在的阿奇山-雅满苏岛弧带是在石炭纪古天山洋向南俯冲过程中形成. 相似文献
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西藏冈底斯碰撞造山带两套埃达克岩的锆石SHRIMP U-Pb年龄及地球化学特征 总被引:1,自引:1,他引:1
锆石SHRIMP U-Pb定年和岩石地球化学研究发现冈底斯造山带发育两套埃达克岩。早期的年龄为(46.8±1.0)Ma,地球化学上以低K2O、高Na2O、富Ba、Sr、Pb和Sr/Y比值高为特征,缺少铜矿化;晚期的年龄为(15.3±0.3)Ma, 地球化学以富K2O、低Na2O、Ba相对亏损和Sr/Y比值低为特征,是冈底斯斑岩铜矿的成矿母岩。成因上早期埃达克岩与由俯冲洋壳熔融形成的埃达克岩相似,晚期埃达克岩生成于下地壳底侵镁铁质岩石的部分熔融。 相似文献
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在柴北缘东段识别出早古生代埃达克岩-富Nb玄武岩的火山岩组合。埃达克岩富Na2O、贫K2O,K2O/Na2O比值介于0.14~0.43之间;高Sr(614×10-6~1043×10-6),但亏损Y(3.26×10-6~14.1×10-6)和Yb(0.33×10-6~1.46×10-6),具有高的Sr/Y比值(44~282);富集Sr、Ba等大离子亲石元素,亏损Nb、Ta、Ti等高场强元素及Cr、Ni、Co、V等相容元素。富Nb玄武岩富Na2O、贫K2O、高TiO2,其Nb含量较高,介于16.9×10-6~17.9×10-6之间,具有高的Nb/Ta、Nb/U、(Nb/La)N比值,同时富集高场强元素。埃达克岩锆石U-Pb定年得到453±4Ma和457±4Ma的结晶年龄。锆石εHf(t)范围较大,介于3.40~13.23之间,对应的二阶段模式年龄tDM2介于1059~566Ma之间,显示以新生物质为主的特征。综合研究表明柴北缘东段埃达克岩可能为岛弧环境下俯冲的南祁连大洋板片部分熔融的产物。板片来源的埃达克质熔体交代或与上覆地幔楔橄榄岩反应,导致被交代的地幔橄榄岩部分熔融而形成富Nb玄武质岩浆。柴北缘东段埃达克岩-富Nb玄武岩火山岩组合的厘定表明南祁连洋可能直到~455Ma之前并未完全闭合,同时表明俯冲大洋板片的部分熔融可能是柴北缘早古生代地壳增生的一种重要方式。 相似文献
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新疆三塘湖盆地后碰撞火山岩的锆石SHRIMP U-Pb定年及其地质意义 总被引:9,自引:4,他引:5
新疆三塘湖盆地广泛出露哈尔加乌组地层,主要为陆相中性喷发岩夹火山碎屑岩。火山岩锆石SHRIMP U-Pb年龄为319.6±9.8Ma(MSWD=4.8)。地球化学分析表明,哈尔加乌组火山岩高钾富碱,属于高钾钙碱性系列;LREE强烈富集、大离子亲石元素(LILE)强烈富集、大多数高场强元素(HFSE)明显高于MORB,没有Ti的负异常和P的正异常,Nb、Ta负异常明显,基本没有Eu、Ce的异常,Ti/Y(467~494)、Nb/Y(0.41~0.43)值高。判别图解投入板内火山岩和岛弧火山岩区域,整体显示板内火山岩的特征又携带岛弧火山岩的地球化学痕迹。εNd (t)值(+5.90~+6.31)为正值、Mg#较高(0.54~0.57),显示与亏损地幔相关的源区特点,(87Sr/86Sr) i值(0.70397~0.70464)相对于亏损地幔高、La/Nb(3.12~3.39)、Nb/U(5.86~9.80)比值显示源区有陆壳组分的参与。综合区域地质特征和前人研究资料表明,三塘湖盆地哈尔加乌组火山岩是碰撞造山中增厚的岩石圈根部拆沉作用致使软流圈地幔上涌底侵,致使早期的陆壳组分和弧组分部分熔融而形成的火山喷发,形成于后碰撞伸展转换背景。 相似文献
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在龙江盆地地区,龙江组由中—中酸性火山岩、火山碎屑岩和火山碎屑沉积岩组成。岩石地球化学显示为钙碱性岛弧火山岩系列,火山熔岩主体具有高SiO_2、Na_2O、Al_2O_3、Sr,低MgO、Y、Yb,和高场强元素Ta、Nb明显亏损等特征,与典型埃达克岩地球化学特征吻合,Sr和Sr/Y值显示为俯冲型埃达克岩。地球化学相关图解等表明岩浆在早期演化过程阶段可能发生了陆壳混染,经历了斜长石、辉石、铁钛氧化物和磷灰石的分离结晶作用。锆石LAICP-MSU-Pb谐和年龄为(125.9±1.5)Ma,与在该组中发现的化石资料完全一致,代表了火山岩的形成年龄。从东北地区火山岩的定年结果及其空间展布来看,龙江组火山岩的形成既与环太平洋构造体系有关,又与蒙古—鄂霍茨克构造带相联系。 相似文献
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西北天山京希-伊尔曼德金矿区狮子山次火山岩的年代学、地球化学特征及其地质、成矿意义 总被引:2,自引:1,他引:1
京希-伊尔曼德金矿位于西北天山吐拉苏盆地中,矿区出露晚古生代火山-沉积岩和狮子山次火山岩;狮子山次火山岩主要为安山玢岩、英安玢岩,侵位于火山-沉积岩底部的凝灰质砂岩、凝灰岩、流纹岩以及安山岩组合中。锆石SHRIMP U-Pb年代学研究表明,狮子山次火山岩的形成年龄为370.5±2.1Ma,略晚于围岩火山岩。狮子山次火山岩MgO、TiO2、K2O含量低,为低钾拉斑系列,稀土元素总量低(5.1×10-6~8.8×10-6),轻稀土弱富集((La/Yb)N=2.7~3.8),弱Eu正异常和Ce负异常,相对富集大离子亲石元素和Zr、Hf,亏损Nd,地球化学特征与围岩安山岩明显不同。具有亏损的Sr-Nd同位素特征,(87Sr/86Sr)i=0.703185~0.703810,εNd(t)=4.03~4.54。狮子山次火山岩形成于火山弧环境,是火山弧中少量拉斑系列岩石的代表,其岩浆源区为俯冲带流体交代的亏损地幔,地幔石榴石二辉橄榄岩经~5%部分熔融形成原始玄武质岩浆,玄武质岩浆经~20%的矿物分离结晶形成狮子山次火山岩,其形成环境以及演化过程非常有利于岩浆演化形成热液型金矿床,可能与京希-伊尔曼德金矿具有密切的成因联系。 相似文献
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8.
新疆准噶尔北缘北塔山组火山岩年龄及岩石成因 总被引:9,自引:7,他引:2
对准噶尔北缘北塔山组辉石玄武岩进行了LA-ICP-MS锆石U-Pb 年龄测定, 获得了玄武岩的喷发年龄380.5±2.2Ma,表明北塔山组火山岩形成于中泥盆世。该地层火山岩中辉石玄武岩和无斑玄武岩的SiO2含量为47.55%~52.97%、Al2O3的含量为8.44%~20.00%、TiO2为0.5%~1.2%,MgO含量为2.8%~15.35%、CaO为3.98%~14.83%、FeOT为9.46%~19.23%,具有亚碱性拉斑玄武岩的特征。其微量元素显示富集大离子亲石元素(LILE)和轻稀土元素(LREE),亏损Nb、Ta和Ti,Eu异常不明显。它们具有极低的初始87Sr/86Sr同位素比值(0.703835~0.704337)和高的εNd(381Ma)值(+6.84~+12.3,t=381Ma)的亏损地幔源区特征。结合区域地质背景,北塔山组火山岩形成于与俯冲作用相关的构造环境,是准噶尔古洋盆于泥盆世时发生的俯冲-消减所引发的岛弧岩浆作用的地质记录。岩浆源区为被流体或沉积物熔体交代改造的地幔楔和软流圈地幔,不同类型的岩石系不同成分的原始岩浆经不同演化过程的产物。 相似文献
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云县-景谷火山弧带大中河晚志留世火山岩的发现及其地质意义 总被引:9,自引:4,他引:5
云县-景谷火山弧带大中河地区新识别出一套晚志留世中基性-中酸性火山岩组合,其LA-ICPMS锆石U-Pb年龄为421.2±1.2Ma和417.6±5.1Ma。该套火山岩具有富铝(12.73%~16.63%)、富钠(K2O/Na2O=0.56~0.99)和高Mg#(46.0~50.0)的特征,属于钙碱性系列岩石;同时富集轻稀土,Eu具有不同程度的弱亏损,亏损高场强元素(Nb、Ta、Ti),具有正εNd(t)值(3.86~4.39)和较高的Th/Ta比值(15~17),显示与活动大陆边缘岛弧型火山岩相似的地球化学性质。大中河晚志留世火山岩很可能是俯冲沉积物流体交代地幔楔物质部分熔融的产物,并在岩浆上升过程中经历了一定的分离结晶作用和浅部地壳物质的同化混染;结合区域同期(410~420Ma)岩浆活动及相关的高压变质事件分析,应为原-古特提斯洋在早古生代末期向东俯冲消减作用的产物,从而为扬子陆块西部边缘晚古生代"三江"多岛弧盆系的形成演化提供了前锋弧发育的岩石学证据及其动力学机制。 相似文献
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杨斜中型金矿床是东秦岭杨斜-丰北河地区典型的石英脉型金矿床,成矿与区内石英闪长玢岩密切相关,具中高温蚀变特征及矿物组成。LA-ICP-MS锆石U-Pb测年结果表明,石英闪长玢岩锆石206Pb/238U加权平均年龄为149.5±2.7 Ma,谐和年龄为149.5±2.1 Ma,属晚侏罗世。岩石地球化学研究显示,石英闪长玢岩具有高SiO2(65.53%~65.76%)、高Al2O3(15.65%~15.87%)、富碱(N2O+K2O=8.07%~8.30%)及贫MgO(1.37%~1.40%)特征,属于高钾钙碱性准铝质系列岩石;相对富集Rb、Ba、K、Pb、Sr等大离子亲石元素和LREE,亏损Nb、Ta、Ti等高场强元素和HREE;其高Sr、高Sr/Y、低Y和低Yb值及正Eu异常等特征参数,与典型埃达克质岩一致,岩浆应起源于加厚下地壳的部分熔融。综合研究认为,杨斜金矿属岩浆期后热液型金矿床,成岩成矿时代一致,形成于秦岭造山带晚侏罗世-早白垩世陆内俯冲向伸展转换的构造环境。 相似文献
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P. R. Messenger 《Australian Journal of Earth Sciences》2013,60(6):1015-1028
Archaean felsic metavolcanic rocks occur throughout the Yandal belt in the north of the Eastern Goldfields of Western Australia where they are most abundant in the higher parts of the stratigraphy. With the exception of the Spring Well Sequence at the southern end of the belt, these rocks are typically dacites showing geochemical affinities with Archaean high‐Al trondhjemite‐tonalite‐dacite (TTD) suites. They have high Sr, Al2O3, and (La/Yb)N; low Y, Nb, Zr and heavy rare‐earth elements (HREE); and lack a significant Eu anomaly. In contrast, broadly coeval mafic volcanic rocks have flat REE patterns and trace‐element compositions more typical of modern backarc basin basalts. The Spring Well Sequence is readily distinguished lithologically and geochemically from the remainder of the Yandal belt. Spring Well basaltic andesites are geochemically similar to modern calc‐alkaline arc magmas, i.e. negative Nb–Ta anomalies and enrichment of both large‐ion lithophile elements (LILE) and light rare‐earth elements (LREE). Andesites and rhyolites, both abundant in the Spring Well Sequence, have elevated LILE relative to high field strength elements, and moderate to strong negative Nb, Ta, Sr and Ti anomalies. Rhyolites have low Sr/Y and relatively flat REE patterns ((La/Yb)N = 4.2–5.0). The chemistry and lithostratigraphic associations of the Yandal belt, with the exception of the Spring Well area, suggest a similarity with the Kalgoorlie Terrane, which is supported by published geochronological data. In contrast, the abundance of rhyolite, distinctive calc‐alkaline chemistry and ca2690 Ma age of the Spring Well Sequence suggests a possible association with ca2692 Ma bimodal calc‐alkaline arc‐rift sequence at Teutonic Bore and similar rocks at Melita and Jeedamya, 150 km south of Spring Well. The abundance of TTD dacite and tholeiitic basalt throughout the Yandal belt suggests magma generation from both decompression partial melting of mantle peridotite to produce backarc tholeiitic magma, and partial melting of subducted oceanic lithosphere to produce high‐Al dacite‐tonalite magma. Based on field relationships of the lithological associations, spatial geochemical patterns and published geochronological data, a shallow, west‐dipping subduction model is postulated for the Yandal belt. In this model, widespread tholeiitic basalt and TTD dacite volcanic sequences are thought to have formed in a backarc basin west of a predominantly submerged continental margin volcanic arc. The dominance of dacite in the upper stratigraphy of the Yandal belt could indicate the development of a secondary volcanic ridge or arc in this basin. The Spring Well Sequence is interpreted to occupy the northern preserved portion of the primary arc, remnants of which now extend south through Teutonic Bore to the Melita and Jeedamya volcanic centres. South of Spring Well, volcanic sequences become distinctly bimodal with basalt and high silica rhyolite suggesting an increasing influence of arc extension toward the south. 相似文献
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内蒙古达茂旗北部奥陶纪埃达克岩类的识别及其意义 总被引:19,自引:0,他引:19
内蒙古达茂旗北部奥陶纪侵入岩分布于槽台边界断裂(乌兰布拉格—哥舍深大断裂)以北,岩石类型主要有闪长岩、石英闪长岩、英云闪长岩和花岗闪长岩。该套侵入岩具高w(Sr)、低w(Y)和w(Yb)的特征,具高的w(Sr)/w(Y)和w(La)/w(Yb)比值;轻稀土富集,重稀土亏损,具正铕异常或微弱的负铕异常;微量元素蛛网图中具明显的Sr峰和Nb、Ti低谷,与典型的埃达克岩(adakite)特征一致。通过与典型adakite、太古代TTD(G)及岛弧和大陆边缘弧ADR的对比,表明本区奥陶纪侵入岩以具轻、重稀土强烈分馏型而与岛弧和大陆边缘弧ADR区别明显,而与adakite和TTD(G)相似,同时又以具明显的Sr正异常而区别于太古代的TTD(G)。地球物理、重力及航磁资料显示槽台边界断裂两侧有完全不同的地壳结构。北侧可能是在晚古生代早期拼贴到华北陆块的一个小微地块,拼贴过程中二者之间的加里东洋壳向微地块之下俯冲消减,俯冲板片在榴辉岩相或角闪岩相—榴辉岩相过渡相发生部分熔融形成adakite岩浆,熔融残留物主要为石榴石。 相似文献
13.
伊宁地块不是一个之前一贯认为的"均匀地块"或"均一地块",而是以乌孙山-塔勒得近东西向区域性大断裂为界的南、北两大次级构造带("弧-盆"体系)叠加拼贴增生而成,火山岩浆作用为这一新的构造单元划分与建立提供了佐证。南构造带由喀拉峻岛弧带和其北的阿腾套弧后盆地构成,主要发育于晚泥盆世-早石炭世早期,火山岩同位素年龄峰值为355~350Ma,17个年龄平均值为351Ma;北构造带由北而南可再细分出清水河-苏布台弧后盆地→阿吾拉勒叠加岛弧带→特克斯-新源弧前盆地,主要发育于早石炭世中-晚期,同位素年龄峰值集中于345~329Ma,18个火山岩年龄平均值为340Ma。这两个"弧-盆"体系以大哈拉军山组钙碱性火山岩为主体,共生早石炭世海相阿克沙克组弧前及弧后沉积岩组合。大哈拉军山组火山岩主体以岛弧火山岩为主,见有富Nb玄武岩、高镁安山岩等,共生埃达克岩和高分异I型花岗岩等小岩体;在弧后还见有碱性火山岩、碱性球泡流纹岩,共生双峰式火山岩。不仅大哈拉军山组火山岩在各构造相中显著有别,而且共生的阿克沙克组在各构造相中差异极为显著。两大次级构造带具有独立的基底建造史,差异显著的盆地沉积史,独特的火山岩浆史和构造演化史。早晚石炭世之间的鄯善运动使南、北两个次级构造带叠加拼贴,构成统一的伊宁地块,晚石炭世进入统一的陆内构造发展演化阶段,发育以伊什基里克组碱性双峰式火山岩为代表的裂谷火山岩浆建造。 相似文献
14.
The Eastern Tianshan Orogenic Belt (ETOB) in NW China is composed of the Dananhu–Tousuquan arc belt, the Kanggurtag belt, the Aqishan–Yamansu belt and the Central Tianshan belt from north to south. These tectonic belts have formed through arc–continent or arc–arc collisions during the Paleozoic. A number of Fe(‐Cu) deposits in the Aqishan–Yamansu belt, including the Heifengshan, Shuangfengshan and Shaquanzi Fe(‐Cu) deposits, are associated with Carboniferous–Early Permian volcanic rocks and are composed of vein‐type magnetite ores. Metallic minerals are dominated by magnetite and pyrite, with minor chalcopyrite. Calcite, chlorite, and epidote are the dominant gangue minerals. Pyrite separates of ores from those three deposits have relatively high and variable Re contents ranging from 3.7 to 184 ppb. All pyrite separates have very low common Os, allowing us calculation of single mineral model ages for each sample. Pyrite separates from the Heifengshan Fe deposit have an 187Re–187Os isochron age of 310 ± 23 Ma (MSWD = 0.04) and a weighted mean model age of 302 ± 5 Ma (MSWD = 0.17). Those from the Shuangfengshan Fe deposit have an isochron age of 295 ± 7 Ma (MSWD = 0.28) and a weighted mean model age of 292 ± 5 Ma (MSWD = 0.33). The Shaquanzi Fe‐Cu deposit has pyrite with an isochron age of 295 ± 7 Ma (MSWD = 0.26) and a weighted mean model age of 295 ± 6 Ma (MSWD = 0.23). Pyrite separates from these Fe(‐Cu) deposits have δ34SCDT ranging from ?0.41‰ to 4.7‰ except for two outliers. Calcite from the Heifengshan Fe deposit and Shaquanzi Fe‐Cu deposit have similar C and O isotope compositions with δ13CPDB and δ18OSMOW ranging from ?5.5‰ to ?1.0‰ and from 10‰ to 12.7‰, respectively. These stable isotopic data suggest that S, C, and O are magmatic‐hydrothermal in origin. The association of low‐Ti magnetite and Fe/Cu‐sulfides resembles those of Iron–Oxide–Copper–Gold (IOCG) deposits elsewhere. Our reliable Re–Os ages of pyrite suggest that the Fe(‐Cu) deposits in the Aqishan–Yamansu belt formed at ~296 Ma, probably in a back‐arc extensional environment. 相似文献
15.
The late Paleozoic Bailingshan intrusions and volcanic rocks are located in the Aqishan–Yamansu arc belt in the southern part of the eastern Tianshan and are associated with an important group of iron skarn deposits. The exposed intrusive rocks are mainly granodiorite, monzonitic granite, and granite. Zircon U–Pb dating of the Tugutublak Formation tuffaceous dacitic lava yields an age of 324 Ma, whereas dates of the Bailingshan granodiorite, monzonitic granite, and granite yields ages of 317 Ma, 313 Ma, and 307 Ma, respectively. The results indicate that the Bailingshan granitoids were emplaced soon after the eruption of the Tugutublak dacite. All these rocks studied show calc-alkaline to high-K calc-alkaline and metaluminous affinities, with A/CNK values ranging 0.83–1.10. They are enriched in Rb, K, and Pb, depleted in Nb, Ta, Ti, and P, and contain low Sr/Y (4.16–23.7) and Sr (109.0–347.0 ppm) values, displaying typical arc geochemical affinities. The tuffaceous dacitic lava has low Nb/Ta (10.3–14.1) values, a wide range of Mg# (6–64), positive zircon εHf(t) (3.2–7.5) values, and elevated whole-rock εNd(t) (2.03–4.41), but low ISr values (0.70427–0.70530), indicating that the source magma may have been derived from the juvenile lower crust with minor mantle input. The Bailingshan I-type intrusions also exhibit a mixed source signal, as constrained by Nb/Ta ratios, Mg#, and isotopes characteristics. Because the granodiorite, monzonitic granite, and granite intrusions have higher zircon εHf(t) (3.3–7.5, 11.8–13.5, and 10.2–14.4, respectively) and εNd(t) (3.90, 5.78, and 5.94, respectively) values than those of the tuffaceous dacitic lava, it is suggested that mantle-derived materials may have played a more prominent role with their petrogenetic evolution. Integrating our new geological, age, geochemical and isotopic data we propose that the Aqishan–Yamansu iron skarn belt may have formed in a back-arc position or within an intra-arc basin generated by the southward subduction of the Kanggur oceanic plate beneath the Yili–Central Tianshan block during the late Paleozoic, with felsic-intermediate magmatism occurring during the basin inversion. 相似文献
16.
新疆西准噶尔萨吾尔地区阿克塔木组(新建)为一套中性火山熔岩、火山碎屑岩夹少量酸性火山熔岩建造。流纹岩LA-ICP-MS锆石U-Pb年龄为337.9±0.77Ma,属早石炭世。安山岩地球化学特征表现为高Si O2(53.42%~64.74%)、A12O3(16.05%~19.23%),富Na2O(4.05%~8.13%)贫K2O(0.36%~3.65%),富Sr(448.1×10-6~1507×10-6),低Yb(0.94×10-6~1.79×10-6)、Y(8.48×10-6~16.92×10-6),高Sr/Y比值(36.6~89.0),富集LREE,亏损HREE,弱Eu正异常,明显的Nb、Ta、Ti负异常,具有典型的埃达克岩特征,为玄武质洋壳在石榴角闪岩相高度部分熔融的产物。阿克塔木组火山岩形成于与洋内俯冲有关的岛弧环境,为早石炭世额尔齐斯-斋桑洋南向俯冲的岩浆记录。俯冲板片边缘受到来自板片窗的高温软流圈物质加热,部分熔融形成的埃达克质熔体与地幔橄榄岩发生熔体-岩石反应,从而形成埃达克岩+富Nb玄武岩组合,同时发生与之相关的Cu-Au成矿作用。阿克塔木组早石炭世埃达克岩的发现,为西准噶尔地区晚古生代岩浆活动、构造演化和金属成矿等研究提供了可靠的依据。 相似文献
17.
滇东南建水火山岩LA-ICP-MS锆石U-Pb测年、地球化学特征及地质意义 总被引:1,自引:0,他引:1
滇东南建水地区位于师宗-弥勒构造带的南段,区内出露一套玄武岩–安山岩–英安岩–流纹岩组合。研究这套火山岩的形成时间和形成环境对认识滇东南构造格局有着重要意义。本文首次对建水火山岩进行LA-ICP-MS锆石U-Pb测年,获得两个样品的年龄分别为261.9±2.2 Ma(MSWD=0.80)、264.8±1.7 Ma(MSWD=1.12),属中二叠世晚期,代表建水火山岩的形成时间。建水玄武岩与安山岩具有低TiO_2含量(0.50%~0.88%)、高Mg~#(52.0~64.5)、弱富集LREE((La/Yb)_N=1.42~3.44)、富集LILE(Rb,Th,U,Pb)、轻微亏损HFSE(Nb,Ta,Ti)的特点,具典型岛弧玄武岩的特征;英安岩和流纹岩高ΣREE含量(139.5×10~(–6)~313.6×10~(–6))、富集LREE((La/Yb)N=4.16~9.78)和LILE(Rb,Ba,Th,U)、亏损HFSE(Nb,Ta)、强亏损Sr、Ti、Y等元素的特点与典型的岛弧流纹岩相似,但高钾(K_2O含量平均7.73%)、钙碱性(δ=0.93~2.94)、强过铝质(A/CNK=1.13~2.10)的特点使之区别于一般岛弧酸性火山岩,而具有一些上地壳部分熔融形成的S型花岗岩的特点。综合建水火山岩岩石组合、地球化学和区域地质背景,认为建水火山岩形成于活动大陆边缘的弧后盆地伸展环境,是地幔部分熔融形成的玄武质岩浆结晶分异与上地壳混染作用的共同结果,与滇桂交界处岛弧火山岩、两广交界处岛弧玄武岩等同为哀牢山洋向北俯冲的产物。 相似文献
18.
东天山党罗塔格构造带晚古生代火山岩地球化学特征及意义 总被引:14,自引:5,他引:14
本文报道了觉罗塔格构造带中企鹅山群和雅满苏组火山岩的元素和Sr-Nd同位素地球化学研究结果。企鹅山群和雅满苏组火山岩分别以低钾拉斑系列和钙碱性系列为主,玄武岩和安山岩均相对于N-MORB富集轻稀土元素和Sr、Ba、Th等大离子亲石元素,而亏损Nb、Zr和Ti等高场强元素,具有较高的Th/Ta和Ta/Yb比值,表明这些火山岩形成于具有陆壳基底的岛弧环境。但是,雅满苏组比企鹅山群具有偏高的K2O、Rb、Th、U、Nb、Zr和REE等不相容元素含量和较高的K2O/Na2O比值。Sr-Nd同位素组成表明企鹅山群和雅满苏组都来自亏损的地幔源区,但后者遭受了明显的陆壳物质混染。这种地球化学组成的差异反映了陆壳基底性质和厚度的不同。结合已有的地质调查结果,我们认为康古尔断裂作为俯冲带是比较合理的,早石炭世存在康古尔洋,而且它很可能发生了南北双向俯冲作用。企鹅山群火山岩是向北侧俯冲在大南湖泥盆纪岛弧南侧增生的产物,而雅满苏组火山岩是通过向南俯冲在中天山地块北缘形成的陆缘弧火山岩。 相似文献
19.
埃达克岩是一种新型的火成岩(Sr/Y值≥20),形成于环太平洋带的大洋岛弧、大陆边缘造山带和陆缘火山弧环境,依据REE配分模式可将其划分为两种成因类型:大洋型(O-型)埃达克岩和大陆型(C-型)埃达克岩。西南太平洋带是世界上新生代埃达克岩和类埃达克岩广泛分布的地区之一。这些中酸性岩浆岩广泛分布于东南亚地区的菲律宾群岛、苏拉威西和加里曼丹中部、印度尼西亚几内亚岛和巴布亚新几内亚至所罗门群岛一带,零星见于班达岛弧、苏门答腊和西爪哇等地。研究结果表明:不同成因类型的埃达克岩具有不同的含矿性,反映各自来源于不同的岩浆岩源区。无论在西南太平洋带还是东太平洋带(智利),C-型埃达克岩(La/Yb值≥12)是俯冲板块的部分熔融作用叠加岩浆上侵过程中MASH(熔融-混染-储存-均一化)和AFC(混染-分异-结晶)作用的产物,与世界级斑岩铜-金矿床共生;而O-型埃达克岩(La/Yb比值≤12)则与俯冲的海洋平缓板块部分熔融作用有关,在西南太平洋带主要与浅成热泉金矿带和喷气型矿床有成因联系。 相似文献