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1.
西藏冈底斯西部江巴、邦巴和雄巴岩体的锆石U-Pb年代学与Hf同位素地球化学 总被引:11,自引:6,他引:5
对青藏高原冈底斯带西部中生代花岗岩的研究依然十分有限。本文选择青藏高原冈底斯带西部狮泉河-革吉-雄巴地区的三个花岗岩基进行了锆石SHRIMP U-Pb定年和锆石Hf同位素分析,并探讨了中冈底斯带中侏罗世-早白垩世花岗岩的分布特征及其揭示的地壳基底的属性。定年结果表明,江巴岩体花岗闪长岩年龄为170±3Ma,雄巴岩体碱长花岗岩年龄为149±3Ma,它们形成于中晚侏罗世;邦巴岩体寄主岩石正长花岗岩和其中的石英二长闪长岩包体年龄分别为144±3Ma和133±3Ma,形成于早白垩世。锆石Hf同位素和地壳模式年龄结果表明,中晚侏罗世的江巴岩体(εHf(t)为-16.8~-13.4,Hf同位素地壳模式年龄为2.1~2.3Ga)与雄巴碱长花岗岩(-11.3~-6.2和1.6~2.0Ga)具有富集的Hf同位素特征,显示了新元古界的地壳基底年龄。邦巴正长花岗岩(-4~-0.8和1.2~1.5Ga)与其中的闪长质包体(-2.8~+0.6和1.2~1.4Ga)具有一致的Hf同位素特征,显示了岩浆混合作用。本文花岗岩定年与Hf同位素结果进一步揭示出中冈底斯带存在未出露地表的古元古代地壳基底。 相似文献
2.
内蒙赤峰楼子店拆离断层带下盘变形花岗质岩石的时代、成因及其地质意义——锆石U-Pb年龄和Hf同位素证据 总被引:2,自引:0,他引:2
对内蒙赤峰楼子店拆离断层带下盘前人划为前寒武纪岩石的糜棱状花岗质岩石中锆石进行了U-Pb年龄测定和Hf同位素测试,结果显示其时代为晚古生代至中生代。楼子店扎兰营子片麻状花岗岩的锆石206Pb/238U年龄为253.6±1.2Ma,锆石εHf(t)值为-8.6~-14.6,锆石Hf同位素地壳模式年龄为1.8~2.2Ga;朝阳沟糜棱岩化片麻状花岗岩的锆石206Pb/238U年龄为150.43±0.79Ma,锆石εHf(t)值为-5.6~-14.9,锆石Hf同位素地壳模式年龄为1.6~2.1Ga;莫里海沟片麻状闪长岩的锆石206Pb/238U年龄为127.6±3.1Ma,锆石εHf(t)值为-5.1~-13.9,锆石Hf同位素地壳模式年龄为1.5~2.1Ga。不同岩性、不同形成年龄的3个样品的εHf(t)值主要为负值,说明这些岩石主要来自地壳岩石的部分熔融。2.2~1.5Ga的锆石Hf同位素两阶段模式年龄表明它们可能主要来源于华北克拉通下地壳物质的部分熔融。结合该区已经获得的锆石U-Pb年龄,将该区古生代至中生代花岗质岩浆作用划分为4个时期:早石炭世(327Ma)、二叠纪(285~252Ma)、中三叠世—早侏罗世(241~184Ma)、中侏罗世—早白垩世(163~125Ma)。早石炭世喇嘛洞混合花岗岩的产出对应于古亚洲洋古生代向南俯冲于华北板块的时期,二叠纪花岗岩是古亚洲洋最后闭合、蒙古弧与华北陆块北缘拼合与伸展有关的岩浆活动的产物,大面积的中三叠世—早侏罗世的花岗岩是西伯利亚与华北陆块碰撞后地壳伸展的记录,中侏罗世—早白垩世(163~125Ma)岩浆活动则发育在伸展构造背景中,与岩石圈减薄存在密切的成因联系。这些新年龄资料将为华北陆块北缘古生代—中生代的地质构造演化提供重要的年代学制约。 相似文献
3.
大兴安岭中南段甘珠尔庙地区晚中生代两期花岗岩的时代、成因、物源及其构造背景 总被引:6,自引:1,他引:5
大兴安岭晚中生代岩浆活动在东北亚晚中生代构造岩浆演化研究中具有重要意义。本文首次报道了大兴安岭中南段甘珠尔庙地区5个晚中生代花岗岩体的锆石U-Pb年龄和地球化学研究结果。这些岩体形成于晚侏罗世(154Ma)和早白垩世(139~125Ma),显示高硅富碱特征,属高钾钙碱性系列,为高分异钙碱性I-A过渡型花岗岩,其中,早白垩世花岗岩分异程度高于晚侏罗世花岗岩。锆石Hf同位素特征显示,这些花岗岩源区以年轻物质为主,其中,晚侏罗世花岗岩εHf(t)值(+9.9~+15.9)高于该区底侵的新生下地壳,源区可能有更年轻的新底侵物质参与。早白垩世花岗岩εHf(t)值略低(+3.4~+13.9),其物源主要为底侵的新生下地壳和古生代俯冲增生杂岩混源,可能还混有少量更年轻的新底侵物质。结合区域资料分析,甘珠尔庙地区晚中生代花岗岩形成于后造山伸展背景,这种背景可能与蒙古-鄂霍茨克洋闭合碰撞后伸展有关。 相似文献
4.
《地球科学进展》2016,(3)
测定了闽西南地区5件基性岩脉的全岩主微量元素,锆石U-Pb年龄和Hf,O同位素。5件岩脉主要为辉绿岩,其全岩SiO_2含量为45%~53%,稀土元素显示轻稀土富集的右倾配分模式。基性岩脉中大部分锆石具明显振荡环带和扇状环带,为典型岩浆结晶锆石特征。锆石U-Pb年龄(96~2 400 Ma)分布较为分散。除少量锆石年龄(96~142 Ma)可能指示岩脉形成年龄外,其余均为捕获锆石。捕获锆石年龄主要分布在4个范围:早元古代(2 467~1 796 Ma),中晚元古代—震旦纪(1 343~647 Ma),志留纪—晚三叠世(427~225 Ma),晚侏罗世(159~140 Ma)。Hf-O同位素显示早元古代锆石来源于接近球粒陨石均一储库的地幔。中晚元古代以后年龄的锆石其Hf-O同位素均具有亏损地幔岩浆与地壳组分混合的特征;志留纪—晚侏罗世锆石主要来源于S型壳源花岗岩的重熔;早白垩世晚期的锆石ε_(Hf)(t)值与δ~(18)O值清晰地显示出亏损地幔与地壳岩浆混合的趋势。闽西南基性岩脉中锆石的二阶段Hf亏损地幔模式年龄(TDM2)峰值主要分布在1.6~1.9 Ga,说明早元古代晚期幔源岩浆作用形成的基性岩地壳可能是形成后期花岗岩的主要源区。 相似文献
5.
大兴安岭南段林西地区花岗岩类的源岩:地壳生长的时代和方式 总被引:16,自引:6,他引:16
本文选择大兴安岭南段林西地区的5个典型花岗岩体,在岩相学、全岩主微量元素和Nd-Sr同位素组成研究的基础上,对5个岩体的继承锆石/前锆石和岩浆锆石进行了系统的SHRIMP U-Pb年龄测定和LA-MC-ICPMS Hf同位素组成测定,试图阐明林西花岗岩源岩的组成和性质。锆石SHRIMP U-Pb定年表明:大部分林西花岗岩侵位于早白垩世(135~125Ma),它们的源岩的年龄为~146Ma。一部分花岗岩类是在早三叠世(241Ma)和晚侏罗世末(146Ma)侵位的,它们的源岩的年龄分别是263Ma和165Ma。测定了100个锆石~(206)Pb/~(238)U年龄,都年轻于300Ma,反映在下地壳源区不存在前寒武纪岩石。做了175个锆石Hf同位素组成测定,均给出高正值ε_(Hf)(t),说明源岩具有初生地壳的性质。在相同的ε_(Nd)(t)值下,林西花岗岩的锆石ε_(Hf)(t)值显著高于地球阵列和夏威夷洋岛玄武岩,这种ε_(Hf)~ε_(Nd)脱耦性指示源岩中含有远洋沉积物即古生代俯冲增生杂岩的组分。~(206)Ph/~(238)U年龄t=263~165Ma的锆石的ε_(Hf)(t)值构成近乎平行于亏损地幔Hf同位素演化线的趋势列,说明源岩基本为俯冲洋壳镁铁-超镁铁岩。t=146~125Ma的锆石的ε_(Hf)(t)值大幅度降低;同时,从晚侏罗世末到早白垩世,发生了强烈的花岗质岩浆活动。地幔上隆和岩浆底侵以及俯冲洋壳的折返,是造成下地壳源岩组成急剧变化和热梯度上升的原因。以底侵镁铁质岩石为主、以古生代俯冲增生杂岩为次的源岩的熔融,产生了马鞍子、夜来改和龙头山2花岗岩(岩套2)。林西镇南西的小城子岩体的源岩则以古生代俯冲增生杂岩为主,并含一定量的底侵镁铁质岩石。5个岩体的岩浆锆石的~(176)Hf/~(177)Hf值系统低于继承锆石/前锆石者,t=146~125Ma的锆石从中心到边缘~(176)Hf/~(177)Hf值呈现降低的趋势或者系统的变化。上述特征反映从源岩的初始熔融直到最终产生花岗岩浆的全过程中,下地壳的熔融区间逐渐扩张、卷入熔融的组分不断增多的过程。岩套1花岗岩类是镁质或Ⅰ型花岗岩,岩套2则表现出A型花岗岩以及从典型到不典型的铁质花岗岩的特征。岩套1和岩套2花岗岩类的岩相学和地球化学特征取决于源岩的性质。岩套1的源岩是相对氧化和含水的洋壳镁铁-超镁铁岩或俯冲增生杂岩;岩套2的源岩则由相对还原和贫水的底侵拉斑玄武岩以及不同分数的俯冲增生杂岩构成。 相似文献
6.
近年来对青藏高原中拉萨地块西部中生代岩浆作用的源区、成因和演化等问题的研究较少。本文针对中拉萨地块西部噶尔县左左乡两个中酸性岩体进行了岩石学、锆石U-Pb年代学、微量元素和锆石Hf同位素,以及主量元素和微量元素地球化学研究。左左乡北侧岩体寄主花岗闪长岩和闪长质包体获得同期(163Ma和160Ma)的年龄,属于晚侏罗世;南侧岩体花岗岩年龄为142~147Ma,属于早白垩世。北侧与南侧的中酸性岩石均属于准铝质-弱过铝质高钾钙碱性I型花岗岩,富集大离子亲石元素和轻稀土元素,亏损高场强元素。晚侏罗世岩体寄主岩具有较为富集的锆石Hf同位素成分(ε_(Hf)(t)=-16.8~-13.6),可能来源于古老下地壳的部分熔融;包体具有相似的Hf同位素成分(ε_(Hf)(t)=-15.7~-13.6),结合晚侏罗世寄主岩与包体较高的MgO(4.13%~6.90%)、Cr(146×10~(-6)~370×10~(-6))和Ni(31×10~(-6)~113×10~(-6))含量,说明包体代表的中基性岩浆可能源于古老富集地幔的熔融,并且在晚侏罗世寄主花岗闪长岩与闪长质包体所代表的两种岩浆间发生过充分的岩浆混合作用。南侧早白垩世花岗岩具有较负且变化范围大的ε_(Hf)(t)值(-8.2~-4.8和-3.8~+0.2),指示早白垩世岩浆活动中有更多亏损地幔物质或新生地壳物质的加入,并且亏损地幔物质或新生地壳物质与拉萨地块古老地壳物质熔融形成的酸性岩浆发生了岩浆混合,经历岩浆混合后中酸性岩浆又发生了角闪石、长石的分离结晶,最终形成南侧早白垩世岩体的一系列中酸性岩石。研究区早白垩世亏损地幔物质或新生地壳物质的增多可能与南向俯冲的班公湖-怒江板片的回转有关。 相似文献
7.
大兴安岭东北部早古生代花岗岩锆石U-Pb年龄、Hf同位素特征及地质意义 总被引:32,自引:23,他引:32
大兴安岭东北部早古生代花岗岩属于Ⅰ型花岗岩。锆石的LA-ICPMS U-Pb年代学研究表明,十八站岩体、内河岩体、白银纳岩体的形成年龄分别为499±1、500±1和460±1Ma,而查拉班河岩体为一多次侵入的杂岩体,其形成年龄在465~481Ma。结合本区和邻区其它早古生代花岗岩体的锆石U-Pb年龄,限定了大兴安岭东北部地区早古生代花岗岩浆活动的时限为460~500Ma。锆石的LA-MC-ICPMS Hf同位素研究显示,本区早古生代花岗岩的锆石ε_(Hf)(t)多数介于 1.5~ 3.8之间,二阶段模式年龄介于1.1~1.4Ga,表明其主要起源于中-新元古代增生的地壳物质。结合兴安地块其它花岗岩的锆石Hf同位素资料,认为额尔古纳地块在中-新元古代时期曾发生一次重要的地壳增生事件,与兴安地块主要为显生宙地壳的特点明显不同。 相似文献
8.
吉林东部大蒲柴河adakites锆石U-Pb年龄、Hf同位素特征及其意义 总被引:2,自引:2,他引:0
地球化学研究表明,大蒲柴河岩体具有典型的埃达克岩特征,来自加厚下地壳的部分熔融作用.本文采用激光等离子质谱对该岩体进行了U-Pb同位素定年,结果表明该岩体为晚侏罗世(165Ma)岩浆活动的产物.锆石的LA-MC-ICPMS Hf同位素研究结果显示,ε_(Hf)(165Ma)范围为-5.02~5.43,二阶段Hf模式年龄(t_(DM2))范围为965~1622Ma,暗示原始母岩浆为两种不同源区岩浆的混合.另外,Hf同位素研究表明,研究区在中-新元古代时(965~1304Ma)曾经历了一次重要的地壳增生事件. 相似文献
9.
在野外地质调查工作的基础上,对日土县—拉梅拉山口一带的日松花岗岩体开展了详细的岩相学、岩石地球化学、锆石U-Pb测年和Hf同位素分析。岩石地球化学数据表明,日松花岗岩体属钙碱性岩类型,绝大多数样品含透辉石标准分子。富集Rb、Pb、Th等而亏损K、Ba等大离子亲石元素,高场强元素Nb、Ta、Ti等明显亏损。稀土元素呈现出右倾缓倾斜型的特征,且存在较为明显的负Eu异常。与前人研究确定岩体的时代为晚白垩世—始新世不同,本文认为岩体的侵位时代主要为白垩纪,可分为早白垩世、晚白垩世两期。获得二长花岗岩样品(D1045-2)的LA-ICP MS锆石U-Pb年龄为108.4±2.1Ma(MSWD=2.4,n=18),结合锆石稀土元素特征、岩浆振荡环带特征(CL图像)及锆石Th/U比值,上述年龄可以代表岩体的形成年龄(早白垩世)。锆石Hf同位素特征显示,二长花岗岩样品(D1045-2)的εHf(t)为正值,介于1.49~3.86间(平均值为2.50);而石英闪长岩样品(D1045)的εHf(t)多数为负值,介于-2.09至0.15之间(平均值为-0.69)。Hf同位素地壳模式年龄分别在763.0~884.5Ma(D1045-2)、959.1~1073.5Ma(D1045)之间。两件样品的εHf(t)和Hf同位素地壳模式年龄均具有较小的变化范围,暗示岩体的岩浆物质来源应该具有较为均一的锆石Hf同位素组成。日松地区早白垩世花岗岩体的锆石U-Pb年龄和Hf同位素特征,基本反映了北冈底斯早白垩世的岩浆活动时间和源区等特征,其成因可能与班公湖-怒江特提斯洋岩石圈向南俯冲过程中幔源物质参与岩浆形成演化有关。本文研究成果,为研究班公湖-怒江结合带构造演化提供了新的资料证据。 相似文献
10.
大兴安岭新林镇岩体的同位素特征及其地质意义 总被引:6,自引:0,他引:6
新林镇岩体位于大兴安岭北部,主要由花岗闪长岩、石英二长岩、二长花岗岩、碱长花岗岩组成,局部见到细粒辉长岩和闪长岩包体。岩石地球化学和岩石学特征表明,该杂岩体属于高钾钙碱性I型花岗岩。两个花岗闪长岩的锆石LA-ICP-MS U-Pb定年结果分别为(132±3)Ma和(131±3)Ma,属于早白垩世岩浆活动的产物。样品的Sr-Nd同位素组成比较均一,而Hf同位素特征变化较大,其εHf(t)变化介于1.32~8.32之间,Hf模式年龄与Nd模式年龄一致,表明花岗质岩浆主要起源于元古代增生的地壳物质,在岩石形成过程中有地幔组分的贡献。岩体的同位素特征将额尔古纳地块地壳增生时间限定在新元古代,而兴安地块地壳增生发生在新元古代—显生宙,暗示它们具有不同的地壳演化过程。 相似文献
11.
K. Czarnota D.C. Champion B. Goscombe R.S. Blewett K.F. Cassidy P.A. Henson P.B. Groenewald 《Precambrian Research》2010
Over the last decade there have been significant advances in our understanding of the stratigraphy, magmatism, deformation, metamorphism and timing of mineralisation, in the eastern Yilgarn Craton (EYC) of Western Australia. The integration of these disciplines has enabled a holistic review of the tectonic history of the EYC which favours a paraautochthonous tectonic model. 相似文献
12.
The Vendian (Baikalian), Late Devonian (Ellesmerian), and Mid-Cretaceous (Brookian) orogenies were three cardinal events in the history of formation and transformation of the continental crust in the eastern Arctic region. The epi-Baikalian Hyperborean Craton was formed by the end of the Vendian (660–550 Ma), when the Archean-Proterozoic Hyperborean continental block was built up by the Baikalian orogenic belt and concomitant collision granitoids. As judged from the localization of deepwater facies, the Early Paleozoic ocean occupied the western part of the Canadian Arctic Archipelago, western Alaska, and the southern framework of the Canada and Podvodnikov basins and was connected with the Iapetus ocean. The closure of the Early Paleozoic Arctic basins is recorded in two surfaces of structural unconformities corresponding to the pre-Middle Devonian Scandian orogenic phase and the Late Devonian Ellesmerian Orogeny; each tectonic phase was accompanied by dislocations and metamorphism. The Ellesmerian collision was crucial in the Caledonian tectogenesis. The widespread Late Devonian-Mississippian rifting probably was a reflection of postorogenic relaxation. As a result, the vast epi-Caledonian continental plate named Euramerica, or Laurussia, was formed at the Devonian-Carboniferous boundary. The East Arctic segment of this plate is considered in this paper. In the Devonian, the Angayucham ocean, which was connected with the Paleoasian and Uralian oceans [62], separated this plate from the Siberian continent. The South Anyui Basin most likely was a part of this Paleozoic oceanic space. The shelf sedimentation on the epi-Caledonian plate in the Carboniferous and Permian was followed by subsidence and initial rifting in the Triassic and Jurassic, which further gave way to the late Neocomian-early Albian spreading in the Canada Basin that detached the Chukchi Peninsula-Alaska microplate from the continental plate [25]. The collision of this microplate with the Siberian continent led to the closure of the South Anyui-Angayucham ocean and the development of the Mid-Cretaceous New Siberian-Chukchi-Brooks Orogenic System that comprised the back Chukchi Zone as a hinterland and the frontal New Siberian-Wrangel-Herald-Lisburne-Brooks Thrust Zone as a foreland; the basins coeval with thrusting adjoined the foreland. Collision started in the Late Jurassic; however, the peak of the orogenic stage fell on the interval 125–112 Ma, when ophiolites had been obducted on the margin of the Chukchi Peninsula-Alaska microplate along with folding and thrusting accompanied by an increase in the crust’s thickness, amphibolite-facies metamorphism, and growth of granite-gneiss domes. The magmatic diapir of the De Long Arch that grew within the continental plate in the Mid-Cretaceous reflected a global pulse of the lower mantle upwelling that coincided with the maximum opening of the Canada Basin. The present-day appearance of the eastern Arctic region arose in the Late Mesozoic and Cenozoic owing to the opening of the Amerasia and Eurasia oceans. Sedimentary basins of various ages and origins—including the Late Devonian-Early Carboniferous grabens, the spatially coinciding Late Jurassic-Early Cretaceous rifts related to the opening of the Canada Basin, the syncollision basins in front of the growing orogen, and the Cretaceous-Cenozoic basins coeval with strike-slip faulting and rifting at the final stages of orogenic compression and during the opening of the Eurasia ocean were telescoped on sea shelves. 相似文献
13.
R.J. Korsch 《Australian Journal of Earth Sciences》2013,60(2):165-166
The Beltana zinc‐lead deposit, the largest of several such small deposits in the Beltana area, owes its formation to intense localised marginal faulting and brecciation of Ajax Dolomite at its contact with the Beltana Diapir. Considerable frictional heat was generated by the upward movement of this diapir. The enormous stresses set up in it squeezed out hot interstitial saline mineralising fluids into the brecciated dolomite footwall to form initially a prominent lead arsenate‐rich horizon containing hedyphane, finnemanite, vanadinite and several minor components. Sporadic, but significant manganese mineralisation also occurred during this phase resulting in the precipitation of coronadite and hollandite. During the final and most prominent stage in the paragenetic sequence, the mineralising fluids became more siliceous and zinciferous leading to extensive replacement of earlier arsenates and precipitation of willemite. Late‐stage alteration is largely confined to the earlier arsenate‐rich zone, which has been carbonated and leached by meteoric waters. 相似文献
14.
《Physics and Chemistry of the Earth, Part A: Solid Earth and Geodesy》1999,24(5):467-474
In the context of a reflection seismic AVA (Amplitude vs. Angle) analysis, data from the western Mediterranean Ridge have been analysed to obtain estimates on the reflection coefficient and the AVA gradient. The study put particular emphasis on the role of the Messinian evaporites, which display a characteristic amplitude signature on the AVA-sections. From the seismic attributes obtained from the Zoeppritz equations it could be infered that the material contrast at the salt/sediment interface of the Messinian evaporites is sufficient to generate converted waves, which are strong enough to survive the processes of NMO-correction and CMP stack. This mode conversion could subsequently be modelled by dynamic Ray-tracing to identify which events on the stacked data are likely to be based on converted waves and thus present some pitfalls for an imprudent interpreter. 相似文献
15.
In the eastern Mediterranean the collision of the Erastosthenes and the Anaximander Seamounts with the Cyprus arc results in a unique tectonic setting due to the small size of the eastern Mediterranean basin. As a result of the collision, some of the motion between the African plate and the Eurasian plate is taking place by thrust faulting along the north African passive margin. It seems that the stress at the plate boundary along the Cyprus arc may be transmitted southward to cause the reactivation of a pre-existing fault zone along the passive margin of eastern north Africa.
Zusammenfassung Im östlichen Mittelmeerbecken hat die Kollision des Erastosthenes und des Anaximander Seamounts mit dem Cypern-Bogen eine spezielle tektonische Situation geschaffen, die durch den engen Raum dieses Beckens bestimmt wird. Als Ergebnis dieser Kollision erscheinen Überschiebungen der Afrikanischen Platte auf Eurasische Platte entlang des passiven nordafrikanischen Randes. Es erscheint möglich, daß das Streßfeld an der Plattengrenze entlang des Zypernbogens südwärts wirkt und dadurch die alte Störungszone entlang des passiven Kontinentrandes von Nordafrika reaktiert wird.
Résumé En Méditerrannée orientale, la collision des guyots Eratosthène et Anaximandre avec l'arc de Chypre a engendré une situation tectonique particulière, due à la faible dimension du bassin est-méditerrannéen. Cette collision a eu pour conséquence la production de charriages de la plaque africaine sur la plaque eurasiatique le long de la marge passive nord-africaine. Il semble que les contraintes règnant au bord de la plaque le long de l'arc de Chypre se soient transmises vers le Sud pour y provoquer la réactivation d'une zône failleuse préexistante le long de la marge passive du NE de l'Afrique.
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16.
17.
中国东部岩石地球化学图 总被引:10,自引:2,他引:8
1986~1995年开展的中国东部地壳与岩石化学组成研究在中国东部(105°E以东)约330万km2的范围内系统采集了500余条标准地层剖面、800多个有代表性的火成岩体和变质杂岩体,总计28253件岩石样品,组合成2718件分析样品,对每个岩石组合样品的63种元素含量进行了准确测定,积累了大量的高质量的元素含量分析结果.选择60种元素SiO2、Al2O3、Fe2O3、FeO、MgO、CaO、Na2O、K2O、CO2、Ag、As、Au、B、Ba、Be、Bi、Cd、Cl、Co、Cr、Cs、Cu、F、Ga、Ge、Hf、Hg、Li、Mn、Mo、Nb、Ni、P、Pb、Pd、Pt、Rb、S、Sb、Sc、Se、Sn、Sr、Ta、Th、Ti、Tl、U、V、W、Zn、Zr、Y、La、Ce、Nd、Sm、Eu、Tb、Yb和Lu制作了中国东部岩石地球化学图.根据中国东部各省区区域地质志和1:50万地质图首次编制的中国东部岩石地球化学图基本反映了与特定岩石性有关的岩石地球化学元素含量分布特征、与大地构造单元有关的区域地球化学元素含量的宏观分布特征及不同大地构造单元元素含量背景的变化趋势.例如,CaO、(MgO) 、CO2和Cl的高背景反映地是碳酸盐岩地区,铁族元素Fe2O3、FeO、Mn、Ti、V、Cr、Co、Ni及MgO、Cu、Zn、P、Ga、Nb、Ta、Zr、Hf、Sc和Eu的高背景反映了基性火山岩地区,SiO2和K2O的高背景反映地是大面积分布的酸性岩石地区的地球化学特征.内蒙古兴安褶皱带为SiO2、K2O、Ag、As和Be的高背景分布区域,华北地台边缘、大别造山带和苏鲁造山带为Sr和Ba高背景分布区域,豫西台隆为Cu、Pb、W和Sc的高背景分布区域.南秦岭、西秦岭造山带以挥发性元素Hg、As、Sb、B以及Cd、Se、S的高背景显著特点.对于整个华南褶皱系而言,W、Sn、Bi、Mo、Rb、Cs、Tl、U、Th、Pb、Y和REE(Eu除外)为高背景,此外东南沿海火山岩带有是SiO2、K2O的高背景,而赣南闽西褶皱带还是碱金属Li,稀有元素Be、Nb、Ta,分散元素Cd及F的高背景. 相似文献
18.
塔里木古大陆东缘的微大陆块体群 总被引:19,自引:0,他引:19
塔里木古大陆东缘至少存在4个微大陆,自北而南分别是阿拉善、祁连、欧龙布鲁克和柴达木微大陆,它们有相近但又有一定差异的早前寒武纪变质基底和中元古代变质沉积地层。每一个微大陆边缘均有复杂的生成历史,特别是新元古代早期的热-构造事件十分发育,并在柴达木微大陆北缘形成一条长700km的花岗片麻岩带,而在多数微大陆边缘则叠加了寒武纪至奥陶纪火山弧或蛇绿混杂岩。在微大陆之间自北而南分别发育了北祁蛇绿岩混杂岩带、南祁连蛇绿岩混杂岩带、沙柳河-鱼卡河高压-超高压变质带和昆仑中部清水泉蛇绿混杂岩,它们代表了微大陆这间的结合带,其形成时代集中在寒武纪至奥陶纪。这几个微大陆总体表现出亲塔里木古大陆的特征,特别是自新元古代以来具有相似的地质演化特征。 相似文献
19.
The eastern part of the Tasman Orogenic Zone (or Fold Belt System) comprises the Hodgkinson—Broken River Orogen (or Fold Belt) in the north and the New England Orogen (or Fold Belt) in the centre and south. The two orogens are separated by the northern part of the Thomson Orogen.The Hodgkinson—Broken River Orogen contains Ordovician to Early Carboniferous sequences of volcaniclastic flysch with subordinate shelf carbonate facies sediments. Two provinces are recognized, the Hodgkinson Province in the north and the Broken River Province in the south. Unlike the New England Orogen where no Precambrian is known, rocks of the Hodgkinson—Broken River Orogen were deposited immediately east of and in part on, Precambrian crust.The evolution of the New England Orogen spans the time range Silurian to Triassic. The orogen is orientated at an acute angle to the mainly older Thomson and Lachlan Orogens to the west, but the relationships between all three orogens are obscured by the Permian—Triassic Bowen and Sydney Basins and younger Mesozoic cover. Three provinces are recognized, the Yarrol Province in the north, the Gympie Province in the east and the New England Province in the south.Both the Yarrol and New England Provinces are divisible into two zones, western and eastern, that are now separated by major Alpine-type ultramafic belts. The western zones developed at least in part on early Palaeozoic continental crust. They comprise Late Silurian to Early Permian volcanic-arc deposits (both island-arc and terrestrial Andean types) and volcaniclastic sediments laid down on unstable continental shelves. The eastern zones probably developed on oceanic crust and comprise pelagic sediments, thick flysch sequences and ophiolite suite rocks of Silurian (or older?) to Early Permian age. The Gympie Province comprises Permian to Early Triassic volcanics and shallow marine and minor paralic sediments which are now separated from the Yarrol Province by a discontinuous serpentinite belt.In morphotectonic terms, a Pacific-type continental margin with a three-part arrangement of calcalkaline volcanic arc in the west, unstable volcaniclastic continental shelf in the centre and continental slope and oceanic basin in the east, appears to have existed in the New England Orogen and probably in the Hodgkinson—Broken River Orogen as well, through much of mid- to late Palaeozoic time. However, the easternmost part of the New England Orogen, the Gympie Province, does not fit this pattern since it lies east of deepwater flysch deposits of the Yarrol Province. 相似文献
20.
Abstract Fluids with compositions in the system CO2 -H2 O-NaCl were trapped in quartz veins enclosed in low-grade metamorphic rocks (chlorite zone) on the southern flank of the Canigó Massif, eastern Pyrenees. The veins, which also contain arsenopyrite crystals, were formed contemporaneously with the main Hercynian foliation and metamorphism. Volumetric properties of the fluid and the results of arsenopyrite geothermometry suggest P-T trapping conditions of 4.6–6 kbar and 450–530° C. This implies that an episode of metamorphism with an average geothermal gradient of 25° C km−1 occurred during the main deformation event. This episode preceded the low- P /high- T metamorphism described around domes and to date considered as characteristic of the Hercynian orogeny in the Pyrenees. 相似文献