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1.
【研究目的】拉萨地块作为构成青藏高原的最主要陆块之一,其构造格局的划分对深入理解特提斯洋的时空分布格局具有重要科学意义。一般来说,拉萨地块可进一步划分为北拉萨、中拉萨和南拉萨地块,但关于各地块基底属性、漂移历史、增生过程及构造亲缘性等仍不明确。【研究方法】本文报道了笔者等在北拉萨地块北拉地区开展1∶50000专题地质调查期间,在原划定的中—上侏罗统拉贡塘组中发现了大面积出露的典型冰碛岩与震积岩。【研究结果】它们与中拉萨地块申扎地区的上石炭统—下二叠统拉嘎组可对比,是冈瓦纳大陆北缘晚古生代冰期事件的记录。冰碛岩中可见明显冰筏作用形成的冰海相砾石稀散分布在砂质、粉砂质和泥质基质中,具坠石构造。震积岩以震褶岩和震裂岩为主,发育微褶皱、砂(泥)岩脉、同震节理、内碎屑副角砾岩、阶梯状断层和火焰构造等同生或准生地震沉积记录。【结论】北拉地区拉嘎组冰碛岩的发现表明,北拉萨地块与中拉萨地块具有类似的基底,它可能是在陆壳基础上逐渐形成的增生型微陆块,其形成与班公湖—怒江洋的俯冲消减密切相关,这为深入理解北拉萨地块的构造属性提供了关键证据。 相似文献
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拉萨地块西段缺失晚古生代岩浆岩,造成不能从岩浆岩角度探索其晚古生代地质演化,因此沉积岩的对比研究对理解拉萨地块晚古生代的差异演化过程至关重要。本文通过对尼雄地区上石炭统—下二叠统拉嘎组碎屑岩地球化学特征分析,试图揭示其物源特征及源区构造背景,提供拉萨地块晚古生代沉积岩对比分析的基础信息。尼雄地区拉嘎组一段和二段主量和微量元素特征略有差异,二段较一段CaO、Na_2O含量更高,V、Cr、Ni、Co及轻稀土含量也更高,反映二者沉积源区有一定差异。拉嘎组物源区的构造背景兼具被动大陆边缘与活动大陆边缘特征,并且二段较一段显示更强的活动大陆边缘亲缘性。结合区域地质资料,认为拉嘎组碎屑岩主要来自成熟的大陆源区,为冈瓦纳大陆北缘基底岩石及早古生代沉积岩的再旋回沉积,二段源区的少量酸性及基性物质组分对应于冈瓦纳大陆北缘泛非期及寒武纪岩浆活动。 相似文献
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论震积作用和震积岩 总被引:93,自引:2,他引:93
地震是一种灾害性的地质事件。地震及其引发的海啸、重力流可以形成震积岩、海啸岩和震浊积岩。在地震过程中,震积作用可以形成特殊的构造标志(地震断裂层、地裂缝、微同沉积断裂、微褶皱纹理、重力断层等)、沉积和成岩标志(砂岩脉、泥岩脉、泥晶脉,即磨牙(molar tooth)构造、枕状层、砂火山、泥火山、同沉积变形构造、丘状层理等)。地震沉积组合包括原地震积岩(A,包括震裂岩、震褶岩、自碎屑角砾岩、内碎屑副角砾岩等)、海啸岩(B,由具丘状层理、平行层理的碎屑岩或内碎屑灰岩组成)、震浊积岩(C,由具块状层理、递变层理或玻马序列的粗碎屑岩或碎屑灰岩组成)及背景沉积(D)4个单元,它们组合成A-B-C-D、A-B-D、A-C-D、A-D、B-D、C-D等6种类型的沉积序列。 相似文献
4.
北祁连玉门旱峡一带志留系震积岩及其构造意义 总被引:1,自引:0,他引:1
北祁连加里东造山带是一个强烈的古构造活动带。在晚加里东期同造山过程中,北祁连-河西走廊地区处于同造山盆地的构造背景下。响应北祁连造山带的造山过程,玉门旱峡及肃南梨园河、民乐扁都口等地的志留系发育典型的地震事件沉积-震积岩。在震积岩发育最好的玉门旱峡一带,旱峡组背景沉积为碎屑岩潮坪沉积。地震事件沉积以砂泥岩脉、微断裂、微褶皱纹理、负荷构造和火焰构造及地震角砾岩等为特色,形成震裂-震褶-液化砂泥岩脉的复合震积岩、自碎屑角砾岩和内碎屑副角砾岩等不同的震积岩类型。 相似文献
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藏南晚白垩世宗卓组巨型混杂堆积的特征及其地裂-地震成因论证 总被引:11,自引:1,他引:11
藏南晚白垩世宗卓组为超常规模的地裂-地震成因的混杂堆积,主体为一套延伸距离远、厚度巨大的巨震浊积岩。分为基质和岩块两个组成部分,基质为泥、砂质浊积复理石,岩块的岩性有不同时代的砂岩、泥晶灰岩、结晶灰岩、火山岩和硅质岩等,物源主要来自印度板块北缘和洋壳本身。宗卓组中广泛发育有同沉积角砾岩、同沉积塑性变形、微断层、液化脉和砂岩脉等震积标志。依据岩块大小和碎屑沉积物粒径,这套巨震浊积岩可划分为8个“巨浊积旋回”,表现为8个地震周期。宗卓组震积岩形成于会聚板块边缘,是被动伸展构造环境的产物。 相似文献
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西藏当雄九子拉地区石炭系诺错组地层序列中,首次发现了一套非正常沉积的粉砂岩和灰岩的组合.岩系中可识别出非正常的沉积构造,即微同沉积断裂、火焰状构造、同生变形构造及振动液化泄水构造等,这一软沉积变形构造具震积岩的识别标志特征,代表灾变事件震积的地质记录.在剖面结构上大致显示为7个单元的震积序列,自下而上由下伏弱震层(A)—液化脉(B)—震褶岩(C)—震裂岩(D)—阶梯状微断层(E)—火焰状构造(F)—上覆未震层(G)的渐变过程及震积作用逐渐减弱的趋势呈不同形式的组合出现,有ABG、ACDG、AEG、ABCG和ABFG等组合.本研究分析认为晚古生代诺错组早期存在一个强烈的构造活动时期,结合震积岩的分布及区域地质背景研究表明,九子拉北侧一带可能为近东西向同生断裂带,该断裂带的强烈构造活动是本区诺错组震积作用的直接诱发因素.从而佐证了九子拉地区正处于构造转换阶段.本研究对分析晚古生代的构造演化、沉积盆地类型奠定了基础,同时保存完好的震积事件地层记录对推断古断裂、古环境也具有较大意义. 相似文献
7.
作者对浙西寒武系碳酸盐岩做系统调查时发现,在开化裴岭脚产出的大陈岭组碳酸盐岩中含有大量的液化泥晶脉、微同生变形构造、角砾岩及与之伴生的浊积岩等典型的地震-海啸沉积标志。根据震积岩特征及其在剖面上的分布,该地大陈岭期的地震活动可以分为两期:第一期以震积岩(A,液化亮晶脉和泥晶脉)、啸积岩(B,具丘状层理或平行层理的内碎屑白云质灰岩)、震浊积岩(C,具递变层理或鲍马序列且层面上有槽模构造的砾屑白云质灰岩或砂屑白云质灰岩)和背景沉积(D)组成的A-B-C-D沉积序列为特征;第二期为震积岩(A,液化亮晶脉和泥晶脉、震裂岩、震褶岩和内碎屑角砾岩等)和沉积背景(D)组成的A-D沉积序列。而在常山白石和芳村的大陈岭组剖面,上述特征不明显,但局部能看到液化变形构造。往南东至江山的碓边则不见震积岩特征。从震积岩的分布上分析,浙西大陈岭期的地震活动不受控于江绍深断裂,应与开化—淳安大断裂的形成有关,是开化—淳安大断裂形成于早古生代的一个证据。此外,值得一提的是,这是确凿的后震旦纪的“Molartooth”。 相似文献
8.
通过对26口井岩心观察,结合区域构造背景,在鄂尔多斯盆地富县探区三叠系延长组中识别出典型的震积岩。该区震积岩代表性沉积构造有液化砂脉、液化卷曲变形、环状层理、负载构造、球枕构造、微断层、微裂缝、震裂岩与震碎角砾岩,其中液化砂脉和液化卷曲变形是地震引起的主要软沉积变形构造。震积岩垂向序列划分为两类:一种以脆性变形为主,自下向上依次为下伏未震层,扰动层,微断层、微裂缝及震裂岩层段,液化卷曲变形层段,震碎角砾岩层段,液化砂脉层段及上覆未震层;另一种以软沉积变形为主,自下至上依次为下伏未震层,环状层段,扰动层,球枕构造及负载构造层段,液化砂脉及液化卷曲变形层,枕状层及上覆未震层。富县探区延长组中的震积岩说明在该盆地晚三叠世存在一个强地震事件活跃期;震积岩中的微裂缝、微断层、震裂岩及液化砂脉可改善储集层物性,同时震碎角砾岩和网状砂脉也是良好的储集层。 相似文献
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松辽盆地青山口组震积岩的特征、成因及其构造-火山事件 总被引:4,自引:0,他引:4
中国大陆科学钻探松科1井南孔青山口组二、三段岩心中发育有4段深水震积岩,赋存在青二段底部到青三段底部的深湖砂岩薄夹层中。标志性震积构造有阶梯状断层、震裂缝、角砾状构造、重荷构造、砂球-砂枕构造(假结核)、液化扭曲变形构造、肠状构造、液化砂岩脉、假泥裂,均属同生-准同生期的软沉积变形构造,缺少震浊积岩表明是原地震积岩。青山口组震积岩展示了震积岩的一个发育模式和沉积序列,该序列由地震作用强烈时期发育的液化变形下部单元和地震作用衰减时期发育的塑性变形上部单元构成。松科1井南孔青山口组中火山物质与火山灰夹层共生。在金6井、金65井相当层位有橄榄粗安岩、火山角砾岩发育,乾124井、乾109井有玄武岩发育,这些井均位于孙吴-双辽超壳断裂一线,表明在青山口期有构造-火山事件的发生,震积岩是构造-火山事件引发的地震在深水环境中的记录。松辽盆地青山口期有构造-火山事件的发生,显示坳陷阶段也存在相当规模的断裂活动和火山喷发。 相似文献
10.
山东惠民凹陷古近系湖泊地震涌浪记录的新发现 总被引:4,自引:4,他引:4
在陆相湖盆中,地震引起的各种作用力可以对各种先成沉积物进行改造而形成原地震积岩,同样地震可引发涌浪、浊流及碎屑流而形成地震涌浪沉积及震浊积岩.通过大量岩心观察描述和成像测井资料分析,首次提出惠民凹陷中央隆起带沙河街组含有丘状交错层理的碎屑岩与典型的原地震积岩(包括震裂岩、震褶岩、自碎屑角砾岩等)紧密共生,当属于地震作用引发涌浪的沉积产物.本区地震涌浪沉积中发育丘状及洼状层理、包卷层理、平行层理、块状层理、波痕、冲刷及截切面等沉积构造.根据沉积特征和分布位置,本区地震涌浪沉积划分为两种类型,即位于涌浪基面附近的含塑性泥砾的搅动型和涌浪基面与正常浪基面之间的回流型.垂向上地震涌浪沉积一般位于原地震积岩之上,震浊积岩之下,组成完整的原地震积岩—地震涌浪沉积—地震浊积岩序列或原地震积岩—地震涌浪沉积序列.本区地震涌浪沉积的发现和研究,将为地质学家识别陆相湖盆地震事件沉积提供对比标准. 相似文献
11.
冈底斯中部广泛发育的松多岩组因缺少化石依据,其沉积时代一直存在争议,严重制约了对冈底斯古生代构造演化的认识.在详细野外地质调查基础上,利用LA-ICP-MS锆石U-Pb同位素定年对松多岩组中变质砂岩进行了锆石U-Pb同位素测定,获得变质砂岩中最小碎屑锆石年龄值为316 Ma,时代为晚石炭世,代表了松多岩组形成时代的下限.通过碎屑锆石年龄示踪和区域对比研究,松多岩组物源很可能来自拉萨地块内部(南拉萨地块和北拉萨地块),可能是松多古特提斯洋初始洋盆的沉积记录.研究区松多岩组沉积时代下限的厘定,进一步完善了该区晚古生代地层系统,对冈瓦纳大陆北缘晚石炭世-早二叠世岩相古地理研究具有重要意义. 相似文献
12.
藏北羌塘奥陶纪平行不整合面的厘定及其构造意义 总被引:7,自引:5,他引:2
西藏羌塘块体有无变质基底、其前新生代构造属性与演化过程是长期争论的议题。本文报道南羌塘块体北部,中、上奥陶统塔石山组底砾岩平行不整合于浅变质中厚层石英砂岩夹薄层泥灰岩之上。近600粒碎屑锆石测年结果表明浅变质石英砂岩的最大沉积年龄为527±7Ma,300余粒碎屑锆石测年结果表明塔石山组底部石英砂岩的最大沉积年龄为471±6Ma。不整合面上、下石英砂岩最大沉积年龄之差达56Myr,表明这两套石英砂岩之间存在明显的沉积间断,证实了该平行不整合面的时代为奥陶纪早期。另一独立的证据是在邻区发现了早奥陶世花岗岩类岩石(471~477Ma)侵位于该浅变质石英岩,因此将不整合面之下的浅变质石英岩暂命名为荣玛组,归入寒武系地层。阴极发光与年代学研究进一步表明不整合面之上的碎屑锆石主要来源于在"泛非"运动晚期形成的结晶岩,为近源锆石,表明"泛非运动"晚期所形成的结晶岩在奥陶纪早期就已隆升,遭受剥蚀,为区内中上奥陶统沉积岩的形成提供物质来源。该奥陶纪平行不整合面的发现,表明南羌塘块体与喜马拉雅、拉萨等块体相似,同属冈瓦纳大陆体系。南、北羌塘早古生代地层系统之间的显著差异表明在寒武-奥陶纪之交,南、北羌塘块体就已被古大洋盆分隔开,开始各自独立演化。 相似文献
13.
Ming Wang Xiao-wen Zeng Chao-Ming Xie Awang Danzeng Cai Li Jian-Jun Fan 《International Geology Review》2020,62(4):465-478
ABSTRACTTo determine the Late Palaeozoic evolution of the Lhasa terrane, we report the results of field mapping, petrological and fossil investigations, and U–Pb dating of detrital zircon grains (n = 474) from lower-greenschist-facies clastic rocks of the Lagar Formation in the Baruo area, Tibet. Our results indicate that the Lagar Formation was deposited during the Late Carboniferous to Early Permian in a shallow-marine environment on the northern margin of Gondwana. Glacial marine diamictites are common within the Lagar Formation and record glaciation of Gondwana during the Late Palaeozoic. Moreover, the detrital materials of the Lagar formation originated mostly from the collision orogenic belt. The ages of detrital zircon grains from the Lagar Formation make up five main groups with ages of 410–540 Ma, 550–650 Ma, 800–1100 Ma, 1600–1800 Ma, and 2300–2500 Ma, which display three characteristic age peaks at ~1150, 2390 and 2648 Ma. We tentatively suggest that the Lhasa terrane was a shallow-marine basin under the influence of the Gondwanan glaciation during the Late Carboniferous–Early Permian. 相似文献
14.
《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
15.
拉萨地体东南部林芝杂岩形成与变质演化的锆石U-Pb年代学限定 总被引:4,自引:3,他引:1
本文对拉萨地体东南部林芝地区分布的变质岩进行了岩相学和锆石年代学研究。结果表明,林芝杂岩中的变质沉积岩主要由片麻岩和片岩组成,它们经历了中压角闪岩相变质作用。变质岩中的锆石多由继承的碎屑岩浆核和新生的变质边组成。继承锆石核给出了新太古代至晚古生代的年龄范围,其主要年龄峰值在~1560Ma、~1190Ma、~620Ma和~340Ma,而锆石变质边给出了53Ma和27Ma的变质年龄。这一结果表明,林芝杂岩中的变质沉积岩很可能形成在古生代,其物质源区具有Grenville和Pan-Africa期造山作用的构造热事件记录。这一研究和已有的成果进一步证明,拉萨地体起源于Gondwana大陆北缘,在新生代印度与欧亚大陆的碰撞/俯冲过程中,拉萨地体作为俯冲带的上盘经历了多期变质作用改造。本研究为拉萨地体起源与多期构造演化提供了重要信息。 相似文献
16.
Sedimentary chert phases from the Archean to the present are widely used to trace sedimentary environments and tectonic settings. Recently,chert nodules occurring within carbonates have been the subject of possible hydrothermal or biogenic origin,in lieu of a diagenetic origin.However,chert nodules from a vast cratonic basin represent extremely rich silica accumulations but less noted is how they respond to submarine hydrothermal activity (and/or surface siliceous organism productivity). The links between the cratonic-type chert depositions and environmental changes regarding cratonic evolution need to be revisited at a large temporal-spatial scale. The chert nodules are widespread throughout the Lower Permian Taiyuan Formation in the North China Craton (NCC).Several Taiyuan chert-rich successions across the NCC have been selected to study possible links between chert deposition and cratonic evolution in scenario of partial cratonic activation of the northern NCC margin during the Late Paleozoic.Based on stratigraphic correlation,the chert nodules are ubiquitously,evenly distributed throughout the Taiyuan Formation at a large craton-basin scale from the northern to southern interior NCC.Petrological results,elemental abundances,together with silicon and oxygen isotopic compositions of chert samples infer significant hydrothermal contributions for the silica accumulations. Therefore, the cratonic-scale chert depositions of hydrothermal origin infer a giant and remote silica reservoir,linking to the large igneous province and magmatism in the NCC northern margins.The Taiyuan chert nodules could be unique marine sedimentary archives recording the Late Paleozoic NCC partial activation,which also generated continental records of igneous rocks,bauxites and tuffs.The strong tectonics of the northern margin,south-dipping topography and northward transgression of the Early Permian NCC facilitated the chert deposition on the shallow marine platform in the cratonic interior. 相似文献
17.
《Journal of South American Earth Sciences》2000,13(6):511-525
Permian marine sedimentary rocks that crop out in northern Chile are closely related to the development of a Late Paleozoic magmatic arc. A study of Upper Paleozoic units east of Iquique (20°S) identified three members within the Juan de Morales Formation, each of which were deposited in a different sedimentary environment. A coarse-grained terrigenous basal member represents alluvial sedimentation from a local volcanic source. A mixed carbonate-terrigenous middle member represents coastal and proximal shallow marine sedimentation during a relative sea-level rise related with a global transgression. Preliminary foraminifer biostratigraphy of this middle member identified a late Early Permian (late Artinskian–Kungurian) highly impoverished nodosarid–geinitzinid assemblage lacking fusulines and algae, which is characteristic of temperate cold waters and/or disphotic zone. The upper fine-grained terrigenous member represents shallow marine siliciclastic sedimentation under storm influence. The Juan de Morales Formation consists of continental, coastal and shallow marine sediments deposited at the active western margin of Gondwana at mid to low latitudes. A revised late Early Permian age and similar paleogeography and sedimentary environments are also proposed for the Huentelauquén Formation and related units of northern and central Chile, Arizaro Formation of northwestern Argentina, and equivalent units of southernmost Peru. 相似文献
18.
Indosinian Orogenesis in the Lhasa Terrane,Tibet: New Muscovite 40Ar‐39Ar Geochronology and Evolutionary Process 总被引:1,自引:0,他引:1
Muscovite 40Ar-39Ar dating of muscovite-quartz schist, eclogite and retrograde eclogite indicates an Indosinian orogenesis occurred at 220–240 Ma in the Lhasa terrane, which is caused by the closure of Paleo-Tethyan ocean basin and the following collision of the northern Lhasa terrane and southern Gondwana land. This Indosinian orogenesis is further confirmed by the regional sedimentary characteristics, magmatic activity and ophiolite mélange. This evidence suggests that the Indosinian orogenic belt in the Lhasa terrane is widely distributed from the Coqen county in the west, and then extends eastward through the Ningzhong and Sumdo area, finally turning around the eastern Himalayan syntaxis into the Bomi county. Based on the evolutionary process, the geological development of Lhasa terrane from early Paleozoic to early Mesozoic can be divided into seven stages. All of the seven stages make up a whole Wilson circle and reveal a perfect evolutionary process of the Paleo-Tethys ocean between the northern Lhasa terrane and southern Gondwana land. The Indosinian orogenisis is a significant event for the evolution of the Lhasa terrane as well as the Tibetan Plateau. 相似文献
19.
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