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1.
拉萨地体位于青藏高原南部,其中-新生代构造演化过程与新特提斯洋的俯冲、消亡和印度与欧亚大陆的碰撞密切相关,是揭示青藏高原形成与演化历史的关键之一。本文报道了在拉萨地体东南部林芝岩群中发现的石榴石二辉麻粒岩。这种岩石的共生矿物为石榴石、单斜辉石、斜方辉石、拉长石、富钛角闪石和黑云母,其原岩相当于基性岩,变质作用的温压条件为 T=747~834℃和 P=0.90~1.35GPa,形成深度可达45km。与麻粒岩伴生的石榴石斜长角闪岩和大理岩中锆石的U-Pb定年研究表明,它们的变质作用发生在85~90Ma。结合在林芝岩群中广泛发育的同时代岩浆作用和区域变质作用,我们认为拉萨地体南部在晚中生代发生了强烈的安第斯型造山作用。 相似文献
2.
本文研究揭示,巴颜喀拉-松潘甘孜地体(简称松潘-甘孜地体)中部三叠系复理杂岩中的安山岩块是增生弧岩浆活动的产物,具有高度不均一均匀的岩石组构、地球化学与同位素组成。特别是这些安山岩显示了与松潘-甘孜三叠系海相浊积岩具有高度的Sr-Nd同位素亲缘性,沿亏损地幔和三叠系海相浊积岩混熔曲线分布,且主要分布于三叠系海相浊积岩端元区。这表明该增生弧安山质岩浆主要由增生楔中的海相浊积岩基质部分熔融形成,并受到了增生楔中大洋岩石圈残片等超镁铁/铁镁质组分的不同程度混染。安山岩时代(226.8±1.9Ma~213.7±0.9Ma)以及同时期广泛的S型花岗岩侵入活动(228±2Ma~204±7Ma)揭示增生弧形成于晚三叠世Norian期。前人工作表明,位于松潘-甘孜地体东北隅的诺尔盖-松潘盆地是一个周缘前陆盆地。因此,松潘-甘孜地体并非单一构造成因的地质体,至少由二叠纪-三叠纪演化的古特提斯大洋和中三叠世拉丁期-晚三叠世诺列期周缘前陆盆地两部分构成。前者是松潘-甘孜地体的主体部分,由松潘-甘孜古特提斯洋在三叠纪时期快速收缩形成的增生楔杂岩组成,其上发育增生弧,局部残存古特提斯大洋盆地及被构造移置的洋壳残片;后者为西秦岭弧(248~234Ma)与扬子地块碰撞的产物。 相似文献
3.
羌塘地体东部类乌齐地区是龙木措-双湖古特提斯洋和班公湖-怒江特提斯洋的叠加控制区域,该地区三叠纪的岩浆活动同时受两个大洋演化的影响,导致该地区岩浆岩的构造属性尚不明确。本文对类乌齐地区吉塘岩群内出露的变辉长岩的岩石学、锆石U-Pb年代学和Lu-Hf同位素以及岩石地球化学进行了研究。LA-ICP-MS锆石U-Pb测年结果显示变辉长岩结晶年龄为212~206Ma(晚三叠世)。岩石富集LREEs、Th,亏损Nb、Ta、Zr、Hf和Ti,表现出典型的岛弧火山岩的地球化学特征,较低的 εHf( t)值(-10.6~-3.2)表明岩浆来自中元古代岩石圈地幔部分熔融或富集地幔,较高的Th和LREEs含量以及Th/Yb和Th/Nb比值表明岩浆源区有不同程度俯冲沉积物的加入。结合区域上前人的研究成果,本文认为类乌齐地区变辉长岩是形成在班公湖-怒江特提斯洋向北俯冲在羌塘地体下的大陆弧背景下。 相似文献
4.
报道拉萨地块西段三叠纪古地磁研究的初步结果。古地磁样品来自措勤县敌布错北缘新发现的海相三叠纪地层,共采集6个采点67块独立定向样品。岩石磁学实验表明,样品中含有大量中低矫顽力中等阻挡温度的磁性矿物和一定量的磁铁矿。于4个采点的47块样品中分离出现代地磁场的低温粘滞剩磁(分量A),在6个采点66块样品中获得白垩纪的次生剩磁分量(分量B),5个采点28块样品获得高温特征剩磁分量(分量C)。分量C仅可在少数以磁铁矿为主要载磁矿物的样品高温区间(525~585℃)获得,可通过标准褶皱检验,为岩石形成时期的原生剩磁信息。计算得出拉萨地块三叠纪的古地磁极位置:φρ=17.4°N、λρ=205.9°E、(dp=6.7,dm=3.7),该结果表明拉萨地块三叠纪处于南纬中低纬度地区。结合羌塘古地磁结果推测,羌北地块与拉萨地块之间班公湖—怒江缝合带所代表的特提斯洋盆可能在早三叠世打开,早三叠世—晚三叠世期间快速扩张并推动羌北地块快速北移,促使了羌北地块与欧亚大陆南缘的拼合。 相似文献
5.
The North Lhasa terrane in Tibet is generally interpreted to be paleotectonically unrelated to the East African Orogen (EAO) and is instead thought to have derived from northeastern India or northwestern Australia. In this study, we present petrogenetic and geochronological results pertaining to the analysis of gabbros (ca. 652 Ma), diorites (ca. 658 and 646 Ma), and tonalites (ca. 652 Ma) from the North Lhasa terrane. The gabbros are calc-alkaline and exhibit arc-like geochemical features. Low positive zircon ε Hf(t) values (+1.0 to +3.8), high zircon δ 18O (6.25‰ to 7.94‰), and low negative whole-rock ε Nd(t) values (−3.5 to −1.4) indicate that the gabbros were derived from the lithospheric mantle, with geochemical modification by a subduction component. The diorite suite is characterized by a wide range of whole-rock chemistries (e.g., SiO 2 = 51.33–61.98 wt%) and Hf–O–Sr isotopic compositions (ε Hf(t) = −10.8 to −0.1; δ 18O = 5.17‰ to 7.11‰; I Sr = 0.706 to 0.710), and negative whole-rock ε Nd(t) values (−7.0 to −4.7). These diorites are geochemically similar to OIB and are interpreted to be products of the partial melting of a relatively deep mantle source (>85 km) prior to extensive modification by continental crustal material. The tonalites are adakitic and have moderate Mg # values (47–54), low compatible element abundances, positive zircon ε Hf(t) values (+3.4 to +6.2), high I Sr values (0.714 to 0.715), and small negative whole-rock ε Nd(t) values (−1.6 to −0.4). These tonalites most likely formed by the melting of thickened Mesoproterozoic continental crust. The generation of these ca. 650 Ma magmatic rocks was related to slab break-off in a collision zone. By integrating the findings of previous studies with the data of the present study, we suggest that the North Lhasa terrane was most likely located in the northern segment of the EAO in paleotectonic reconstructions of the Gondwana supercontinent. 相似文献
6.
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
7.
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
8.
西藏中部拉萨地块晚侏罗世花岗岩的岩石成因与源区性质目前尚未得到很好约束。本文报道了中部拉萨地块西段许如错岩体的寄主花岗岩和闪长质包体的锆石U-Pb年龄、元素地球化学和锆石Hf同位素成分。许如错岩体寄主花岗岩年龄为155.1±0.7Ma,闪长质包体与寄主花岗岩同期(155.7±0.7Ma)形成。寄主花岗岩属I型偏铝质-弱过铝质高钾钙碱性系列岩石,富集Rb、K等大离子亲石元素和轻稀土元素,亏损Nb、Ta、P、Ti等高场强元素,锆石εHf(t)值(-16.6~-6.6)指示其可能来源于拉萨地块古老下地壳物质的重熔作用。闪长质包体为准铝质钙碱性系列,锆石εHf(t)值(-8.9~-3.8)具有总体为负但明显高于寄主花岗岩εHf(t)值的特征,表明这些闪长质包体代表了幔源物质组成的加入。许如错晚侏罗世花岗岩可能形成于班公湖-怒江特提斯洋洋壳在中晚侏罗世向南俯冲于拉萨地块之下,引起幔源物质与中部拉萨地块古老基底重熔所产生的酸性岩浆发生岩浆混合作用形成的。 相似文献
9.
冈底斯岩基是新特提斯洋北向俯冲和印度-欧亚大陆碰撞的重要岩浆记录,尼木地区位于冈底斯岩基中部。本文报道了尼木地区寄主二长花岗岩和辉长质包体的锆石U-Pb年代学、元素地球化学和锆石Hf同位素。锆石U-Pb定年结果表明,寄主花岗岩(197~190Ma)和包体(195Ma)同期侵位,形成于早侏罗纪。寄主二长花岗岩为弱过铝质高钾钙碱性系列岩石,富集轻稀土和K、U、Sr等大离子亲石元素,亏损Nb、Ta、Ti等高场强元素,锆石εHf(t)值为+13.9~+16.0,其可能来源于初生地壳的部分熔融;辉长质包体为准铝质钙碱性系列岩石,具有与寄主岩相似的稀土和微量元素分配特征,锆石εHf(t)值为+13.8~+16.0,其可能代表了侏罗纪形成的新生下地壳,即寄主岩石的岩浆源区;结合前人研究,本文认为尼木地区的寄主花岗岩和暗色包体可能与新特提斯洋北向俯冲引起的地幔和初生地壳的部分熔融有关。 相似文献
10.
拉萨地块中北部形成于90~88Ma的拔拉扎含矿斑岩具有明显的埃达克质岩特征:高SiO 2(>69%)、Al 2O 3(平均为15.89%)、Sr (平均为354×10 -6),低Y(平均为12.97×10 -6)、Yb(平均为0.95×10 -6)含量,轻重稀土强烈分异((La/Yb) N平均为19.8);同时它们有着高Mg #(平均为65)、Cr(平均为107×10 -6)、Ni(平均为13×10 -6)含量。研究区这些具有埃达克质岩特征的含矿斑岩并非源于俯冲洋壳、底侵或加厚下地壳部分熔融的产物,也不是玄武质岩浆结晶分异的产物,而很可能是拆沉下地壳部分熔融的结果。另一方面,南向俯冲的Slainajap洋壳或班公湖-怒江洋壳的断离也可能诱发板片窗上部的壳幔物质发生部分熔融而形成研究区的含矿斑岩。 相似文献
11.
We present our new investigation into the depositional environment and provenance of the Yingshuiquan Formation in the central Qiangtang region of northern Tibet, in order to further our understanding of the environment of the Longmu Co–Shuanghu Palaeo–Tethys during the Early Triassic. The Yingshuiquan Formation is composed of oolitic limestone, calcareous sandstone, calcarenite, thin-bedded ribbon limestone, bioclastic limestone, and coarse oolite limestone that were deposited in a shallow-marine basin and contain abundant Lower Triassic conodont fossils (e.g. Hadrodontina anceps, Pachycladina sp., gen. et sp, Pachyclaina oblique, Hibbardelloides sp). We selected detrital zircons from four calcareous sandstone samples for U–Pb dating, yielding minimum age peaks of 263, 269, 275, and 280 Ma, respectively, and a minimum age of 249 Ma, based on several zircons around the same age. Analysis of the conodont biofacies and zircon LA-ICP-MS dating of calcareous sandstone indicates that the data is consistent with deposition in the Early Triassic. The Yingshuiquan Formation records Early Triassic shallow-water sediment in the Longmu Co–Shuanghu Palaeo–Tethys, and has a Southern Qiangtang and Northern Qiangtang terranes provenance. During the Early Triassic, the carbonate sediments of the Yingshuiquan Formation were deposited in an active environment around the Longmu Co–Shuanghu Palaeo–Tethys, which has became a residual sea basin. 相似文献
12.
青藏高原各陆块的前寒武纪演化历史及其在冈瓦纳大陆聚合过程中所处的构造位置目前不清楚。通过青藏高原中部北拉萨地块念青唐古拉岩群中变质辉长岩SHRIMP锆石U-Pb定年和锆石Hf同位素组成研究,锆石U-Pb定年结果为663±7Ma,相当于新元古代中期,代表变质辉长岩的原岩形成时代,这是北拉萨地块首次报道该时代的基性岩浆记录。变质辉长岩中锆石具有较低的εHf(t)值(-1.5~+2.3),表明其原岩的岩浆来自富集的地幔源区。结合北拉萨地块已有的变质记录可知,变质辉长岩的原岩可能形成于造山环境。目前定义的"念青唐古拉岩群"实际上是由时代不同、成因不同,甚至来源不同的构造岩片组成,随着工作的深入,有必要对其进行解体。念青唐古拉岩群中的前寒武纪岩浆和变质记录与东非造山带的活动时限较一致,因而北拉萨地块可能与东非造山带具有亲缘性。 相似文献
13.
Although some porphyry-skarn deposits occur in post-collisional extensional settings, the post-collisional deposits remain poorly understood. Here the authors describe the igneous geology, and mineralization history of Tuolangla, a newly-discovered porphyry-skarn Cu-W-Mo deposit in southern Tibet that belongs to the post-collisional class. The deposit is associated with Lower Cretaceous Bima Formation. It was intruded by granodiorite porphyry intrusions at about 23.1 Ma. Field investigation indicated that mineralization is spatially and temporally associated with granodiorite porphyry. Molybdenite yielded a Re-Os weighted mean age of 23.5 ± 0.3 Ma and is considered to represent the age of skarn mineralization at the deposit. The δ34S values of sulfides, concentrated in a range between 0.6‰ to 3.4‰, show that the sulfur has a homogeneous source with characteristics of magmatic sulfur. The Pb isotopic compositions of sulfides indicate that ore-forming metal materials were derived from the mantle and ancient crust. The granodiorite porphyry displays high SiO 2 (68.78%–69.75%) and K 2O (3.40%–3.56%) contents, and relatively lower Cr (2.4×10 -6–4.09×10 -6), Ni (2.79×10 -6–3.58×10 -6) contents, and positive εHf( t) values (7.7–12.9) indicating that the mineralization porphyry was derived from the partial melting of juvenile lower crust. The Tuolangla deposit is located in the central part of Zedang terrane. This terrane was once considered an ancient terrane. This terrane is in tectonic contact with Cretaceous ophiolitic rocks to its south and Mesozoic continental margin arc volcanics and intrusions of the Gangdese batholith of the Lhasa terrane to its north. Thus, the authors proposed that the Oligocene porphyry skarn Cu-W-Mo mineralization is probably associated with the Zedang terrane. This finding may clarify why the Oligocene (about 23 Ma) deposits are found only in the Zedang area and why mineralization types of the Oligocene mineralization are considerably different from those of the Miocene (17–14 Ma) mineralization. 相似文献
14.
拉萨地块北部阿索地区新发现的晚白垩世晚期基性岩墙对于讨论班公湖-怒江洋盆闭合后的碰撞过程具有重要研究意义。本文报道了阿索地区目思基性岩墙的全岩地球化学组成和LA-ICP-MS锆石U-Pb年龄。研究表明,目思基性岩墙中一组最年轻锆石的U-Pb加权平均年龄为74Ma。岩墙内的辉绿玢岩SiO2含量介于51.90%~53.55%之间,MgO含量介于3.98%~4.97%之间,Mg^#为50.0~57.5,低Cr(51.30×10^-6~79.48×10^-6)和Ni(55.94×10^-6~74.17×10^-6)含量。岩墙具有轻稀土元素富集的特征,明显的负Eu异常。在微量元素方面,富集Ba、Th、U、K等大离子亲石元素富集,亏损Nb、Ta、Ti等高场强元素,并具有Pb的正异常。La/Sm-Sm/Yb投图结果显示基性岩墙来自于尖晶石+石榴石二辉橄榄岩地幔源区1%~5%的部分熔融,并在演化过程中发生了橄榄石、单斜辉石及斜长石的结晶分异,同时在岩浆上升过程中受到地壳混染。结合区域地质背景,拉萨地块与羌塘地块碰撞后下地壳增厚并发生榴辉岩化,导致拆沉作用。目思基性岩墙的锆石U-Pb年龄表明拆沉作用持续到晚白垩世晚期。 相似文献
15.
There is ongoing debate as to the subduction direction of the Bangong–Nujiang Ocean during the Mesozoic (northward, southward or bidirectional subduction). Arc-related intermediate to felsic intrusions could mark the location of the subduction zone and, more importantly, elucidate the dominant geodynamic processes. We report whole rock geochemical and zircon U–Pb and Hf isotopic data for granitoids from the west central Lhasa subterrane (E80° to E86°). All rocks show metaluminous to peraluminous, calc-alkaline signatures, with strong depletion of Nb, Ta and Ti, enrichment of large ion lithophile elements (e.g., Cs, Rb, K), a negative correlation between SiO 2 and P 2O 5, and a positive correlation between Rb and Th. All these features are indicative of I-type arc magmatism. New zircon U–Pb results, together with data from the literature, indicate continuous magmatism from the Late Jurassic to the Early Cretaceous (160 to 130 Ma). Zircon U–Pb ages for samples from the northern part of the west central Lhasa subterrane (E80° to E82°30′) yielded formation ages of 165 to 150 Ma, whereas ages of 142 to 130 Ma were obtained on samples from the south. This suggests flat or low-angle subduction of the Bangong–Nujiang Ocean, consistent with a slight southward decrease in zircon εHf(t) values for Late Jurassic rocks. Considering the crustal shortening, the distance from the Bangong–Nujiang suture zone, and a typical subduction zone melting depth of ~ 100 km, the subduction angle was less than 14° for Late Jurassic magmatism in the central Lhasa interior, consistent with flat or low-angle subduction. Compared with Late Jurassic rocks (main εHf(t) values of − 16 to − 7), Early Cretaceous rocks (145 to 130 Ma) show markedly higher εHf(t) values (mainly − 8 to 0), possibly indicating slab roll-back, likely caused by slab foundering or break-off. Combined with previously published works on arc magmatism in the central Lhasa and west part of the southern Qiangtang subterranes, our results support the bidirectional subduction of the Bangong–Nujiang Ocean along the Bangong–Nujiang Suture Zone, and indicates flat or low-angle southward subduction (165 to 145 Ma) followed by slab roll-back (145 to 130 Ma). 相似文献
16.
The metamorphic belt in the Dongjiu area is located in the eastern segment of the Lhasa terrane in South Tibet. The Dongjiu metamorphic rocks are primarily composed of schist and gneiss, with minor amounts of marble, and the protoliths are sedimentary rocks with Precambrian and early Palaeozoic zircons probably deposited during the Palaeozoic or late Neoproterozoic. On the basis of petrology and phase equilibria modelling, this study shows that the Dongjiu metamorphic belt has experienced a kyanite-grade metamorphism, which is characterized by a decompressional vector with slight cooling from a peak of 9.6 kbar and 745°C to medium-pressure amphibolite-facies metamorphic overprinting at 5–6 kbar and 600–630°C. This P–T path was well recorded and recovered by garnet zoning profiles. Laser ablation inductively coupled plasma mass spectrometry in situ U–Pb analyses on metamorphic zircons and zircon rims yielded concordant 206Pb/ 238U ages of c. 194–192 Ma, suggesting that the Dongjiu metamorphic rocks were formed during the Early Jurassic. Therefore, the Dongjiu metamorphic belt, together with the western Nyainqentanglha, Basongco, and Zhala metamorphic belts, constitutes a nearly continuous tectonic unit with an E–W extension of at least 500 km between the northern and southern Lhasa terranes. The metamorphic ages of these belts, ranging from 230 to 192 Ma, show a younger trend from west to east, indicating that the central segment of the Lhasa terrane experienced an eastward asynchronous collisional orogeny during the Late Triassic to Early Jurassic. 相似文献
17.
针对鄂尔多斯盆地南缘中晚三叠世物源构成转化及盆山耦合机制不清的问题,选取了铜川地区金锁关剖面和周至柳叶河剖面的延长组砂岩为研究对象,运用岩石学、碎屑锆石U-Pb年代学、地球化学的方法,探讨鄂尔多斯盆地南部延长组的物源构成和变化,并探寻其构造耦合机制。结果表明,金锁关剖面上三叠统碎屑锆石可分为5个年龄段,分别是237-330 Ma、390-480 Ma、870-1230 Ma、1740-1980 Ma、2070-2732 Ma,中三叠统碎屑锆石共具有4个年龄段,分别是240-290 Ma、1760-1840 Ma、2250-2300 Ma、2350-2700 Ma;盆地南端柳叶河地区上三叠统碎屑锆石共具有5个年龄段,分别是244-310 Ma、360-600 Ma、800-1300 Ma、1700-2100 Ma和2450-2550 Ma。通过物源对比发现,中三叠世鄂尔多斯盆地南缘的物源来自于华北克拉通、兴蒙造山带和阿拉善地区,晚三叠世沉积砂体的物源来自华北克拉通、阿拉善、兴蒙造山带、西秦岭、北秦岭以及祁连造山带,且岩石学特征和源区构造背景的转变均支持这一认识。这种物源的转变,与中三叠世盆地南部秦岭造山带的活化以及盆地样式的转变有关。 相似文献
18.
运用砂岩碎屑组分、古水流、微量和稀土元素方法对西藏南部仁布地区上三叠统朗杰学群和涅如组的物源进行了分析.碎屑组分和地球化学研究结果显示,盆地中的碎屑物源主要来自再旋回造山带,部分来自造山之前的混合区,少数源于大陆基底,且物源区蕴含有造山前的大陆边缘岛弧过程;物源区母岩主要为沉积再旋回和后太古代再旋回沉积物;古水流测量分... 相似文献
19.
笔者在松潘-甘孜地体下仓界地区发现了晚三叠世基性岩,对其开展了岩相学、地球化学、斜锆石U-Pb年代学等研究。该基性岩由玄武岩和辉绿岩组成,均为钙碱性系列,蚀变较强,形成时代为208.0±7.0 Ma。岩石La/Nb值为1.13~1.95,La/Ta值为7.96~25.79,TiO 2含量为1.51%~2.22%,Zr/Nb值为11.35~16.33,指示岩浆源自岩石圈地幔与软流圈地幔的混合源区。根据(Yb/Sm) P-(Tb/Yb) P模型计算结果,推测下仓界基性岩可能源于软流圈物质诱发岩石圈地幔尖晶石-石榴子石过渡相(石榴子石约占0~25%)发生约5%的部分熔融。岩石中发现捕获的古老斜锆石,轻稀土元素富集,重稀土元素亏损,Nb、Ta和Ti元素弱亏损。结合区域地质资料,认为松潘-甘孜地体应该具有陆壳基底,其晚三叠世(<211 Ma)的构造环境为碰撞后的板内伸展环境。 相似文献
20.
运用Dickinson三角图解、地球化学和阴极发光方法,对西藏山南琼结和贡嘎地区上三叠统深海-半深海郎杰学群砂岩和板岩进行了研究.碎屑成分和地球化学分析结果显示,物源总体来自再旋回造山带,含有大陆基块和混合区(切割弧)成分.阴极发光照射结果反映,物源区石英主要为变质成因(棕色光),次为深成/火山成因(浅紫兰色-绿色光),在一定程度上表明,母源区结晶基底可能已经抬升暴露,并且粘附在大陆块上.这些结果暗示,在拉萨地块与印度次大陆之间的新特提斯洋中可能存在一个含造山带的未名地块. 相似文献
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