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1.
《Journal of Asian Earth Sciences》2009,34(5-6):323-336
Geologic mapping and U–Pb detrital zircon geochronologic studies of (meta)sedimentary rocks in the Damxung area (∼90 km north of Lhasa) of the southern Lhasa terrane in Tibet provide new insights into the history of deformation and clastic sedimentation prior to late Cenozoic extension. Cretaceous nonmarine clastic rocks ∼10 km southeast of Damxung are exposed as structural windows in the footwall of a thrust fault (the Damxung thrust) that carries Paleozoic strata in the hanging wall. To the north of Damxung in the southern part of the northern Nyainqentanglha Range (NNQTL), metaclastic rocks of previously inferred Paleozoic age are shown to range in depositional age from Late Cretaceous to Eocene. The metaclastic rocks regionally dip southward and are interpreted to have been structurally buried in the footwall of the Damxung thrust prior to being tectonized during late Cenozoic transtension. Along the northern flank of the NNQTL, Lower Eocene syncontractional redbeds were deposited in a triangle zone structural setting. All detrital zircon samples of Cretaceous–Eocene strata in the Damxung area include Early Cretaceous grains that were likely sourced from the Gangdese arc to the south. We suggest that the that newly recognized Late Cretaceous to Early Eocene (meta)clastic deposits and thrust faults represent the frontal and youngest part of a northward directed and propagating Gangdese retroarc thrust belt and foreland basin system that led to significant crustal thickening and elevation gain in southern Tibet prior to India-Asian collision. 相似文献
2.
拉萨地块北部逆冲推覆构造系统 总被引:22,自引:0,他引:22
拉萨地块北部发育大型逆冲推覆构造系统(NLT),由前锋纳木错构造带,根部安多-伦坡拉构造带和底部滑脱构造带所构成,前锋纳木错构造带总体呈WNW向展布,由20多条向北倾斜的逆掩断层,宽阔的韧性剪切带,4条蛇绿岩片带与大量不同类型的构造岩片所组成,根部安多一伦坡拉构造带位于班公-怒江缝合带中段,由3条WNW向一近EW向逆冲断裂带,宽阔的绿蛇混杂岩岩片中与发生褶皱的古近纪盆地所组成,底部为中上地壳滑脱带,对应于15~30km深处的高导层,主要由蛇绿岩和构造岩组成,NLT推覆距离达120~150km,主要形成时代为古近纪晚期一新近纪早期。 相似文献
3.
Miocene Tectonic Evolution from Dextral-Slip Thrusting to Extension in the Nyainqentanglha Region of the Tibetan Plateau 总被引:4,自引:0,他引:4 
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下载免费PDF全文 WU Zhenhan Patrick J. BAROSH ZHAO Xun WU Zhonghai HU Daogong LIU Qisheng 《《地质学报》英文版》2007,81(3):365-384
Dextral-slip in the Nyainqentangiha region of Tibet resulted in oblique underthrusting and granite generation in the Early to Middle Miocene, but by the end of the epoch uplift and extensional faulting dominated. The east-west dextral-slip Gangdise fault system merges eastward into the northeast-trending, southeast-dipping Nyainqentangiha thrust system that swings eastward farther north into the dextral-slip North Damxung shear zone and Jiali faults. These faults were took shape by the Early Miocene, and the large Nyainqentangiha granitic batholith formed along the thrust system in 18.3-11.0 Ma as the western block drove under the eastern one. The dextral-slip movement ended at -11 Ma and the batholith rose, as marked by gravitational shearing at 8.6-8.3 Ma, and a new fault system developed. Northwest-trending dextral-slip faults formed to the northwest of the raisen batholith, whereas the northeast-trending South Damxung thrust faults with some sinistral-slip formed to the southeast. The latter are replaced farther to the east by the west-northwest-trending Lhunzhub thrust faults with dextral-slip. This relatively local uplift that left adjacent Eocene and Miocene deposits preserved was followed by a regional uplift and the initiation of a system of generally north-south grabens in the Late Miocene at -6.5 Ma. The regional uplift of the southern Tibetan Plateau thus appears to have occurred between 8.3 Ma and 6.5 Ma. The Gulu, Damxung-Yangbajain and Angan graben systems that pass east of the Nyainqentangiha Mountains are locally controlled by the earlier northeast-trending faults. These grabens dominate the subsequent tectonic movement and are still very active as northwest-trending dextral-slip faults northwest of the mountains. The Miocene is a time of great tectonic change that ushered in the modern tectonic regime. 相似文献
4.
Alex Pullen Paul Kapp George E. Gehrels Peter G. DeCelles Edwin H. Brown J. Matthew Fabijanic Lin Ding 《Journal of Asian Earth Sciences》2008,33(5-6):323-336
Geologic mapping and U–Pb detrital zircon geochronologic studies of (meta)sedimentary rocks in the Damxung area (90 km north of Lhasa) of the southern Lhasa terrane in Tibet provide new insights into the history of deformation and clastic sedimentation prior to late Cenozoic extension. Cretaceous nonmarine clastic rocks 10 km southeast of Damxung are exposed as structural windows in the footwall of a thrust fault (the Damxung thrust) that carries Paleozoic strata in the hanging wall. To the north of Damxung in the southern part of the northern Nyainqentanglha Range (NNQTL), metaclastic rocks of previously inferred Paleozoic age are shown to range in depositional age from Late Cretaceous to Eocene. The metaclastic rocks regionally dip southward and are interpreted to have been structurally buried in the footwall of the Damxung thrust prior to being tectonized during late Cenozoic transtension. Along the northern flank of the NNQTL, Lower Eocene syncontractional redbeds were deposited in a triangle zone structural setting. All detrital zircon samples of Cretaceous–Eocene strata in the Damxung area include Early Cretaceous grains that were likely sourced from the Gangdese arc to the south. We suggest that the that newly recognized Late Cretaceous to Early Eocene (meta)clastic deposits and thrust faults represent the frontal and youngest part of a northward directed and propagating Gangdese retroarc thrust belt and foreland basin system that led to significant crustal thickening and elevation gain in southern Tibet prior to India-Asian collision. 相似文献
5.
Miocene Tectonic Evolution from Dextral-Slip Thrusting to Extension in the Nyainqêntanglha Region of the Tibetan Plateau 下载免费PDF全文
下载免费PDF全文 Dextral-slip in the Nyainqêntanglha region of Tibet resulted in oblique underthrusting and granite generation in the Early to Middle Miocene, but by the end of the epoch uplift and extensional faulting dominated. The east-west dextral-slip Gangdise fault system merges eastward into the north into the dextral-slip North Damxung shear zone and Jiali faults. These faults were took shape system in 18.3-11.0 Ma as the western block drove under the eastern one. The dextral-slip movement ended at ~11 Ma and the batholith rose, as marked by gravitational shearing at 8.6-8.3 Ma, and a new fault system developed. Northwest-trending dextral-slip faults formed to the northwest of the raisen batholith, whereas the northeast-trending South Damxung thrust faults with some sinistral-slip formed to the southeast. The latter are replaced farther to the east by the west-northwest-trending Miocene deposits preserved was followed by a regional uplift and the initiation of a system of generally north-south grabens in the Late Miocene at ~6.5 Ma. The regional uplift of the southern Tibetan Plateau thus appears to have occurred between 8.3 Ma and 6.5 Ma. The Gulu, Damxungcontrolled by the earlier northeast-trending faults. These grabens dominate the subsequent tectonic movement and are still very active as northwest-trending dextral-slip faults northwest of the mountains. The Miocene is a time of great tectonic change that ushered in the modern tectonic regime. 相似文献
6.
拉萨地块晚古生代沉积源区转变——来自措勤地区永珠组碎屑锆石的证据 总被引:2,自引:0,他引:2
晚古生代是拉萨地块地质演化的重要转折期,一些关键地质问题存在争论,如拉萨地块来源问题。选择西藏措勤地区上石炭统永珠组为研究对象,石英砂岩中碎屑锆石U-Pb测年数据显示523Ma、920Ma两个年龄峰值。通过与拉萨地块及其周缘晚石炭世冰期之前地层碎屑锆石对比,认为拉萨地块永珠组920Ma年龄峰值更具有冈瓦纳大陆靠印度一侧的物源特征,其与南羌塘、拉萨、喜马拉雅微陆块在裂离之前具有显著的亲缘关系。而含有冰筏碎屑的拉嘎组和来姑组中包含的西澳大利亚物源信息(约1180Ma年龄峰值),暗示来自西澳大利亚的冰筏可能通过洋流作用漂移至拉萨地块而后沉积冰筏碎屑。 相似文献
7.
Early Cenozoic Tectonics of the Tibetan Plateau 总被引:1,自引:0,他引:1
Geological mapping at a scale of 1:250000 coupled with related researches in recent years reveal well Early Cenozoic paleo-tectonic evolution of the Tibetan Plateau. Marine deposits and foraminifera assemblages indicate that the Tethys-Himalaya Ocean and the Southwest Tarim Sea existed in the south and north of the Tibetan Plateau, respectively, in Paleocene-Eocene. The paleooceanic plate between the Indian continental plate and the Lhasa block had been as wide as 900km at beginning of the Cenozoic Era. Late Paleocene transgressions of the paleo-sea led to the formation of paleo-bays in the southern Lhasa block. Northward subduction of the Tethys-Himalaya Oceanic Plate caused magma emplacement and volcanic eruptions of the Linzizong Group in 64.5-44.3 Ma, which formed the Paleocene-Eocene Gangdise Magmatic Arc in the north of Yalung-Zangbu Suture (YZS), accompanied by intensive thrust in the Lhasa, Qiangtang, Hoh Xil and Kunlun blocks. The Paleocene-Eocene depression of basins reached to a depth of 3500-4800 m along major thrust faults and 680-850 m along the boundary normal faults in central Tibetan Plateau, and the Paleocene-Eocene depression of the Tarim and Qaidam basins without evident contractions were only as deep as 300-580 m and 600-830 m, respectively, far away from central Tibetan Plateau. Low elevation plains formed in the southern continental margin of the Tethy-Himalaya Ocean, the central Tibet and the Tarim basin in Paleocene-Early Eocene. The Tibetan Plateau and Himalaya Mts. mainly uplifted after the Indian-Eurasian continental collision in Early-Middle Eocene. 相似文献
8.
拉萨地块广泛分布中—新生代岩浆活动,研究其对于认识新特提斯洋的演化和理解整个青藏高原的形成过程有着重要意义。对拉萨地块东部尼木—加查地区比马组火山岩进行了年代学与元素地球化学研究,结果显示该比马组火山岩LA-ICP-MS锆石U-Pb年龄为55.2~57.6 Ma,明显晚于已发表的比马组火山岩年龄177~195 Ma,而与林子宗群火山岩年龄(30.4~70.0 Ma)相符。因此,该地区原来认为的比马组火山岩可能需要重新厘定为林子宗群年波组火山岩。研究区火山岩主体为玄武岩、玄武安山岩、安山岩和英安岩,属中、高钾钙碱性系列。地球化学特征显示火山岩整体上富集大离子亲石元素Rb、Th、U等,Nb、Ta、Zr、Ti等高场强元素则表现明显的负异常,具有典型的岛弧火山岩特征。稀土元素配分模式主要表现为轻稀土元素右倾型,Eu表现出无异常到中等的负异常。此外,研究区年波组火山岩年龄晚于拉萨地块中西部年波组形成时代,结合前人的研究成果,可能指示印度与亚洲大陆的碰撞具有西早东晚的特点。 相似文献
9.
In order to reconstruct tectonic evolution history of the southern margin of Asia (i.e., Lhasa terrane) before the India-Asia collision, here we present a comprehensive study on the clastic rocks in the southern Lhasa terrane with new perspectives from sedimentary geochemistry, detrital zircon geochronology and Hf isotope. Clasts from the Jurassic-Early Cretaceous sedimentary sequences (i.e., Yeba and Chumulong Formations) display high compositional maturity and experienced moderate to high degree of chemical weathering, whereas those from the late Early-Late Cretaceous sequences (Ngamring and Shexing Formations) are characterized by low compositional maturity with insignificant chemical weathering. Our results lead to a coherent scenario for the evolution history of the Lhasa terrane. During the Early-Middle Jurassic (∼192-168Ma), the Lhasa terrane was speculated to be an isolated geological block. The Yeba Formation is best understood as being deposited in a back-arc basin induced by northward subduction of the Neo-Tethys ocean with sediments coming from the interiors of the Lhasa terrane. The Middle Jurassic-Early Cretaceous Lhasa-Qiangtang collision resulted in the formation of a composite foreland basin with southward-flowing rivers carrying clastic materials from the uplifted northern Lhasa and/or Qiangtang terranes. During the late Early-Late Cretaceous (∼104-72Ma), the Gangdese magmatic arc was uplifted rapidly above the sea level, forming turbidites (Ngamring Formation) in the Xigaze forearc basin and fluvial red beds (Shexing Formation) on the retro-arc side. At the end of Late Cretaceous, the Lhasa terrane was likely to have been uplifted to high elevation forming an Andean-type margin resembling the modern South America before the India-Asia collision. 相似文献
10.
青藏高原中段古近纪早期古构造演化 总被引:1,自引:0,他引:1
青藏高原古近纪早期发育大量区域逆冲推覆构造系统, 典型实例如冈底斯逆冲断裂系、纳木错西逆冲推覆构造、伦坡拉逆冲推覆构造、唐古拉山北逆冲推覆构造、东昆仑南部左旋斜冲断裂系。古近纪逆冲推覆构造对古新世—始新世沉积盆地具有重要控制和改造作用。冈底斯古新世—始新世早期发育大量中酸性岩浆侵入和多期中酸性火山喷发, 岩石Sr/Y-Y地球化学显示为岛弧岩浆岩, 推断与古近纪早期新特提斯残留古大洋板块俯冲存在成因联系。古近纪早期新特提斯残留大洋板块俯冲向印度大陆板块俯冲的转换时代约为46-45 Ma, 转换期前逆冲推覆构造运动与新特提斯残留古大洋板块俯冲存在密切关系; 转换期后印度大陆板块俯冲导致更为强烈的逆冲推覆构造运动和挤压缩短变形, 不仅使早期很多逆冲推覆构造继续发生构造运动, 还在喜马拉雅、冈底斯、风火山、东昆仑南部形成大量新的逆冲推覆构造系统。 相似文献
11.
青藏高原南部拉萨地体的变质作用与动力学 总被引:3,自引:0,他引:3
拉萨地体位于欧亚板块的最南缘,它在新生代与印度大陆的碰撞形成了青藏高原和喜马拉雅造山带。因此,拉萨地体是揭示青藏高原形成与演化历史的关键之一。拉萨地体中的中、高级变质岩以前被认为是拉萨地体的前寒武纪变质基底。但新近的研究表明,拉萨地体经历了多期和不同类型的变质作用,包括在洋壳俯冲构造体制下发生的新元古代和晚古生代高压变质作用,在陆-陆碰撞环境下发生的早古生代和早中生代中压型变质作用,在洋中脊俯冲过程中发生的晚白垩纪高温/中压变质作用,以及在大陆俯冲带上盘加厚大陆地壳深部发生的两期新生代中压型变质作用。这些变质作用和伴生的岩浆作用表明,拉萨地体经历了从新元古代至新生代的复杂演化过程。(1)北拉萨地体的结晶基底包括新元古代的洋壳岩石,它们很可能是在Rodinia超大陆裂解过程中形成的莫桑比克洋的残余。(2)随着莫桑比克洋的俯冲和东、西冈瓦纳大陆的汇聚,拉萨地体洋壳基底经历了晚新元古代的(~650Ma)的高压变质作用和早古代的(~485Ma)中压型变质作用。这很可能表明北拉萨地体起源于东非造山带的北端。(3)在古特提斯洋向冈瓦纳大陆北缘的俯冲过程中,拉萨地体和羌塘地体经历了中古生代的(~360Ma)岩浆作用。(4)古特提斯洋盆的闭合和南、北拉萨地体的碰撞,导致了晚二叠纪(~260Ma)高压变质带和三叠纪(~220Ma)中压变质带的形成。(5)在新特提斯洋中脊向北的俯冲过程中,拉萨地体经历了晚白垩纪(~90Ma)安第斯型造山作用,形成了高温/中压型变质带和高温的紫苏花岗岩。(6)在早新生代(55~45Ma),印度与欧亚板块的碰撞,导致拉萨地体地壳加厚,形成了中压角闪岩相变质作用和同碰撞岩浆作用。(7)在晚始新世(40~30Ma),随着大陆的继续汇聚,南拉萨地体经历了另一期角闪岩相至麻粒岩相变质作用和深熔作用。拉萨地体的构造演化过程是研究汇聚板块边缘变质作用与动力学的最佳实例。 相似文献
12.
藏南拉萨地块内广泛发育中新世中酸性岩浆岩,为探讨其岩浆源区和岩石成因,进一步了解藏南后碰撞深部过程,本文对拉萨地块东部米拉山地区的中新世火山岩进行了岩石学、年代学和地球化学研究。结果表明,岩石类型主要为英安岩,形成于中新世(16~18 Ma);地球化学组成上表现出高硅、高钾、富铝;高Sr、低Y、高Sr/Y值,富集轻稀土,亏损重稀土,Eu正异常;具有高的87Sri/86Sri值(0.706038~0.707154)和低的εNd(t)值(-1.37~-2.75),表现出一定埃达克质岩特征。结合前人研究成果认为,米拉山地区中新世中酸性火山岩不属于林子宗群,可能是岩石圈拆沉引起幔源物质上涌,导致后碰撞环境下增厚的拉萨地块新生下地壳部分熔融而形成。 相似文献
13.
西藏雅鲁藏布江缝合带(YZSZ)和班公湖-怒江缝合带(BNSZ)蛇绿岩代表了新特提斯洋壳和岩石圈地幔残余,是我国铬铁矿和蛇绿岩型金刚石的重要原产地,目前这两条蛇绿岩带的成因和相互关系还存在着争论。本文总结了YZSZ、BNSZ、狮泉河-纳木错蛇绿混杂岩带(SNMZ)和松多缝合带蛇绿岩的时空分布、组成和构造背景,归纳了拉萨地块晚古生以来的岩浆岩分布,获得以下主要认识:(1)Panjal地幔柱活动可能促使怒江洋和雅江西洋在早二叠世空谷期(283~272Ma)打开;(2)雅江东洋由于松多洋的南向俯冲在晚三叠世打开,与雅江西洋以萨嘎-措勤为界,并形成冈底斯东部245~200Ma岩浆热事件;(3)~140Ma班怒洋闭合以及南羌塘与北拉萨地块碰撞,导致雅江洋扩张速率加快而引发了北向拉萨地块的平板俯冲,进而导致班怒洋的再次裂解形成133~104Ma"红海型"小洋盆;(4)YZSZ缝合带西段南带蛇绿岩为北带的逆冲推覆体;(5)BNSZ和SNMZ蛇绿岩隶属于一个洋盆,后者代表了班怒洋成熟洋盆扩张脊的残余。 相似文献
14.
Late Triassic sedimentary records in the northern Tethyan Himalaya:Tectonic link with Greater India 总被引:2,自引:0,他引:2
Huawen Cao Yong Huang Guangming Li Linkui Zhang Jianyang Wu Lei Dong Zuowen Dai Liu Lu 《地学前缘(英文版)》2018,9(1):273-291
The Upper Triassic flysch sediments(Nieru Formation and Langjiexue Group)exposed in the Eastern Tethyan Himalayan Sequence are crucial for unraveling the controversial paleogeography and paleotectonics of the Himalayan orogen.This work reports new detrital zircon U-Pb ages and whole-rock geochemical data for clastic rocks from flysch strata in the Shannan area.The mineral modal composition data suggest that these units were mainly sourced from recycled orogen provenances.The chemical compositions of the sandstones in the strata are similar to the chemical composition of upper continental crust.These rocks have relatively low Chemical Index of Alteration values(with an average of 62)and Index of Compositional Variability values(0.69),indicating that they experienced weak weathering and were mainly derived from a mature source.The geochemical compositions of the Upper Triassic strata are similar to those of graywackes from continental island arcs and are indicative of an acidicintermediate igneous source.Furthermore,hornblende and feldspar experienced decomposition in the provenance,and the sediment became enriched in zircon and monazite during sediment transport.The detrital zircons in the strata feature two main age peaks at 225-275 Ma and 500-600 Ma,nearly continuous Paleoproterozoic to Neoproterozoic ages,and a broad inconspicuous cluster in the Tonian-Stenian(800-1200 Ma).The detrital zircons from the Upper Triassic sandstones in the study area lack peaks at 300-325 Ma(characteristic of the Lhasa block)and 1150-1200 Ma(characteristic of the Lhasa and West Australia blocks).Therefore,neither the Lhasa block nor the West Australia blocks likely acted as the main provenance of the Upper Triassic strata.Newly discovered Permian-Triassic basalt and mafic dikes in the Himalayas could have provided the 225-275 Ma detrital zircons.Therefore,Indian and Himalayan units were the main provenances of the flysch strata.The Tethyan Himalaya was part of the northern passive margin and was not an exotic terrane separated from India during the Permian to Early Cretaceous.This evidence suggests that the Neo-Tethyan ocean opened prior to the Late Triassic and that the Upper Triassic deposits were derived from continental crustal fragments adjacent to the northern passive continental margin of Greater India. 相似文献
15.
新生代印度板块与欧亚板块的持续碰撞挤压,造成南羌塘地块向南逆冲于拉萨地块之上,并在南羌塘地块内部形成了一系列的由北往南的逆冲推覆构造。然而,到目前为止,我们对这些逆冲推覆构造及夹持其间的褶皱变形的结构组成、构造样式、形成时代以及缩短量分布等问题仍存在很大的争议。本文在详细的野外调查基础上,对赛布错-扎加藏布断裂(SZT),多玛-其香错断裂(DQT),隆鄂尼褶断带(LF)及南羌塘与中央隆起带分界的肖查卡-双湖断裂(XST)进行了几何学、运动学分析,建立了精细的构造框架。我们认为这些断裂为始新世以来形成的同时期的叠瓦状逆冲推覆;并通过野外褶皱形态,结合层面、节理面、断层面滑动矢量的分析,识别出南羌塘盆地4期构造应力场:1) 代表中特提斯俯冲碰撞阶段的近S-N 向的挤压;2) 中特提斯碰撞后,随着班公湖-怒江缝合带的形成,南羌塘地区构造应力场转为S-N 向的伸展;3) 新生代印度板块向欧亚板块俯冲碰撞,青藏高原进入陆内变形阶段,南羌塘盆地内表现为NE-SW 向的挤压,形成本文提及的一系列逆冲推覆构造;4) 随着高原的持续隆升,约14 Ma南北向裂谷开始活动,应力场转为NWW-SEE 向伸展,形成双湖裂谷系。 相似文献
16.
《Gondwana Research》2014,25(1):170-189
The Lhasa terrane in southern Tibet is composed of Precambrian crystalline basement, Paleozoic to Mesozoic sedimentary strata and Paleozoic to Cenozoic magmatic rocks. This terrane has long been accepted as the last crustal block to be accreted with Eurasia prior to its collision with the northward drifting Indian continent in the Cenozoic. Thus, the Lhasa terrane is the key for revealing the origin and evolutionary history of the Himalayan–Tibetan orogen. Although previous models on the tectonic development of the orogen have much evidence from the Lhasa terrane, the metamorphic history of this terrane was rarely considered. This paper provides an overview of the temporal and spatial characteristics of metamorphism in the Lhasa terrane based mostly on the recent results from our group, and evaluates the geodynamic settings and tectonic significance. The Lhasa terrane experienced multistage metamorphism, including the Neoproterozoic and Late Paleozoic HP metamorphism in the oceanic subduction realm, the Early Paleozoic and Early Mesozoic MP metamorphism in the continent–continent collisional zone, the Late Cretaceous HT/MP metamorphism in the mid-oceanic ridge subduction zone, and two stages of Cenozoic MP metamorphism in the thickened crust above the continental subduction zone. These metamorphic and associated magmatic events reveal that the Lhasa terrane experienced a complex tectonic evolution from the Neoproterozoic to Cenozoic. The main conclusions arising from our synthesis are as follows: (1) The Lhasa block consists of the North and South Lhasa terranes, separated by the Paleo-Tethys Ocean and the subsequent Late Paleozoic suture zone. (2) The crystalline basement of the North Lhasa terrane includes Neoproterozoic oceanic crustal rocks, representing probably the remnants of the Mozambique Ocean derived from the break-up of the Rodinia supercontinent. (3) The oceanic crustal basement of North Lhasa witnessed a Late Cryogenian (~ 650 Ma) HP metamorphism and an Early Paleozoic (~ 485 Ma) MP metamorphism in the subduction realm associated with the closure of the Mozambique Ocean and the final amalgamation of Eastern and Western Gondwana, suggesting that the North Lhasa terrane might have been partly derived from the northern segment of the East African Orogen. (4) The northern margin of Indian continent, including the North and South Lhasa, and Qiangtang terranes, experienced Early Paleozoic magmatism, indicating an Andean-type orogeny that resulted from the subduction of the Proto-Tethys Ocean after the final amalgamation of Gondwana. (5) The Lhasa and Qiangtang terranes witnessed Middle Paleozoic (~ 360 Ma) magmatism, suggesting an Andean-type orogeny derived from the subduction of the Paleo-Tethys Ocean. (6) The closure of Paleo-Tethys Ocean between the North and South Lhasa terranes and subsequent terrane collision resulted in the formation of Late Permian (~ 260 Ma) HP metamorphic belt and Triassic (220 Ma) MP metamorphic belt. (7) The South Lhasa terrane experienced Late Cretaceous (~ 90 Ma) Andean-type orogeny, characterized by the regional HT/MP metamorphism and coeval intrusion of the voluminous Gangdese batholith during the northward subduction of the Neo-Tethyan Ocean. (8) During the Early Cenozoic (55–45 Ma), the continent–continent collisional orogeny has led to the thickened crust of the South Lhasa terrane experiencing MP amphibolite-facies metamorphism and syn-collisional magmatism. (9) Following the continuous continent convergence, the South Lhasa terrane also experienced MP metamorphism during Late Eocene (40–30 Ma). (10) During Mesozoic and Cenozoic, two different stages of paired metamorphic belts were formed in the oceanic or continental subduction zones and the middle and lower crust of the hanging wall of the subduction zone. The tectonic imprints from the Lhasa terrane provide excellent examples for understanding metamorphic processes and geodynamics at convergent plate boundaries. 相似文献
17.
西藏浦桑果铜多金属矿床中酸性岩石成因及动力学背景:年代学、地球化学及Sr-Nd-Pb-Hf同位素约束 总被引:3,自引:3,他引:0
浦桑果矿床位于拉萨地块冈底斯成矿带中段,为侵入岩体与钙质围岩接触带内形成的矽卡岩型高品位铜多金属矿床(Cu@1. 42%,Pb+Zn@2. 83%),是冈底斯成矿带目前唯一一个大型富铜铅锌(钴镍)矿床。本文以浦桑果矿床相关中酸性侵入岩体(黑云母花岗闪长岩和闪长玢岩)为主要研究对象,开展LA-ICP-MS锆石U-Pb年代学、全岩主微量元素、全岩SrNd-Pb及锆石Lu-Hf同位素研究,旨在厘定侵入岩体的形成时代、岩石成因及成岩成矿的动力学背景。LA-ICP-MS锆石U-Pb定年结果表明,黑云母花岗闪长岩和闪长玢岩侵位年龄分别为13. 6~14. 4Ma和13. 6~14. 6Ma,岩体形成时代均属中新世。岩石地球化学特征表明,闪长玢岩和黑云母花岗闪长岩均属高钾钙碱性I型花岗质岩石;岩石普遍具高Sr含量(599×10~(-6)~1616×10~(-6))、高Sr/Y(48. 2~132. 3)和高(La/Yb)N(19. 6~25. 4)比值特征,具低Y(10. 38×10~(-6)~12. 70×10~(-6))和Yb含量(0. 79×10~(-6)~1. 17×10~(-6))特征,表现出埃达克质岩的地球化学属性。全岩稀土元素表现为明显富集轻稀土元素(LREEs)和大离子亲石元素(LILEs),而相对亏损重稀土元素(HREEs)和高场强元素Nb、Ta、P、Ti等(HFSE)。全岩Sr-Nd-Pb及锆石Hf同位素分析结果表明,浦桑果矿床相关中酸性岩石与冈底斯成矿带中新世大多斑岩-矽卡岩矿床紧密相关的埃达克质侵入岩体具相似的同位素组成特征,指示岩石具同源岩浆特征且埃达克质岩浆主要起源于拉萨地块加厚新生下地壳。浦桑果矿床中酸性岩体主要形成于后碰撞伸展的构造背景,因碰撞挤压向后碰撞伸展背景的构造转换,引起印度大陆岩石圈发生拆沉(42~25Ma)及拉萨地块中富集岩石圈地幔发生部分熔融,从而形成富含Cu、Co等基性岩浆熔体底侵加厚新生下地壳(25~18Ma),导致拉萨地块加厚新生下地壳中部分石榴子石角闪岩相发生部分熔融,最终形成闪长质熔体于浦桑果矿区有利构造部位形成具埃达克质属性的中酸性侵入岩体(13~14Ma)和矽卡岩型铜多金属矿体。 相似文献
18.
Early Cenozoic Mega Thrusting in the Qiangtang Block of the Northern Tibetan Plateau 总被引:2,自引:0,他引:2
WU Zhenhan YE Peisheng Patrick J. BAROSH HU Daogong LU Lu ZHANG Yaoling 《《地质学报》英文版》2012,86(4):799-809
Recent mapping and seismic survey reveal that intensive compression during the Early Cenozoic in the Qiangtang block of the central Tibetan Plateau formed an extensive complex of thrust sheets that moved relatively southward along several generally north-dipping great thrust systems. Those at the borders of the ~450 km wide block show it overrides the Lhasa block to the south and is overridden by the Hohxil-Bayanhar block to the north. The systems are mostly thin-skinned imbricate thrusts with associated folding. The thrust sheets are chiefly floored by Jurassic limestone that apparently slid over Triassic sandstone and shale, which is locally included, and ramped upward and over Paleocene-Eocene red-beds. Some central thrusts scooped deeper and carried up Paleozoic metamorphic rock, Permian carbonate and granite to form a central uplift that divides the Qiangtang block into two parts. These systems and their associated structures are unconformably overlain by little deformed Late Eocene-Oligocene volcanic rock or capped by Miocene lake beds. A thrust system in the northern part of the block, as well as one in the northern part of the adjacent Lhasa block, dip to the south and appear to be due to secondary adjustments within the thrust sheets. The relative southward displacement across this Early Cenozoic mega thrust system is in excess of 150 km in the Qiangtang block, and the average southward slip-rate of the southern Qiangtang thrusts ranged from 5.6 mm to 7.4 mm/a during the Late Eocene-Oligocene. This Early Cenozoic thrusting ended before the Early Miocene and was followed by Late Cenozoic crustal extension and strike-slip faulting within the Qiangtang block. The revelation and understanding of these thrust systems are very important for the evaluation of the petroleum resources of the region. 相似文献
19.
西藏措勤麦嘎岩基的锆石U-Pb年代学、地球化学和锆石Hf同位素:对中部拉萨地块早白垩世花岗岩类岩石成因的约束 总被引:6,自引:3,他引:3
西藏中部拉萨地块大规模早白垩世花岗岩类的岩浆源区和岩石成因迄今尚未得到很好约束,对这些问题的深入理解将有助于揭示拉萨地块白垩纪时期的岩浆作用过程及成矿背景。本文报道了中部拉萨地块代表性花岗岩基——措勤麦嘎岩基的锆石U-Pb年代学、全岩元素地球化学、Sr-Nd同位素和锆石Hf同位素数据。本文锆石U-Pb定年结果表明,麦嘎岩基花岗质岩主要侵位于122±1Ma和113±2Ma,闪长质包体与后者同期(113±2Ma)。122±1Ma花岗质岩属I型弱过铝质高钾钙碱性系列,(87Sr/86Sr)i值高(0.7147),全岩εNd(t)(-12.0)和锆石εHf(t)(-15.7~-11.1)为较大的负值,表明其很可能来源于古老下地壳物质的重熔。113±2Ma寄主花岗质岩为I型偏铝质-弱过铝质高钾钙碱性系列,相对于122±1Ma花岗质岩石,其(87Sr/86Sr)i比值偏低(0.7094~0.7156)、全岩εNd(t)值(-12.1~-7.3)和锆石εHf(t)值(-11.1~0.1)较高,很可能来源于古老下地壳物质的部分熔融,并含有更多幔源物质。闪长质包体(113±2Ma)为偏铝质中-高钾钙碱性系列,以变化范围大的(87Sr/86Sr)i(0.7058~0.7105)、负的全岩εNd(t)值(-10.7~-9.8)及负的锆石εHf(t)值(-14.0~-5.6)为特征,可能是古老富集岩石圈地幔物质部分熔融的产物或亏损地幔物质经历强烈地壳混染作用的结果。在目前已有资料条件下(缺乏同期基性岩石的相关数据),本文暂将麦嘎岩基113±2Ma寄主花岗质岩及同期闪长质包体解释为镁铁质岩浆与长英质岩浆发生不同程度岩浆混合作用的产物,这一解释可能对中部拉萨地块同期花岗类的岩石成因具普遍意义。麦嘎岩基及中部拉萨地块同期岩浆岩约113Ma幔源物质增加现象,可能是南向俯冲的班公湖-怒江洋壳岩石圈板片断离的结果。 相似文献
20.
桑日群广泛分布于冈底斯火山岩浆弧的中东段,是新特提斯洋俯冲作用的代表性记录。本文对冈底斯中段厅宫地区桑日群比马组开展了碎屑锆石U-Pb同位素测年和地球化学特征研究,结果表明:比马组所含的碎屑锆石具有85.7~143.5Ma、160.2~191.2Ma、334.4~364.1Ma和904Ma四个年龄段,其中最年轻的碎屑锆石年龄为85.7±1.9Ma,结合古生物资料,认为比马组形成于早—晚白垩世,其物源主要来自于拉萨地块,尤其是冈底斯岩基剥蚀源区;岩石地球化学特征显示,比马组沉积主要来源于长英质岩石,是上地壳源区物质经风化剥蚀后搬运沉积形成。 相似文献