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11.
This paper presents new zircon U–Pb geochronological, Hf isotopic and whole-rock geochemical data for the granitic plutons in the Xing'an Massif, Northeast China, to constrain the Late Mesozoic tectonic evolution of the Mongol-Okhotsk Ocean and the Paleo-Pacific Ocean. The zircon U–Pb ages indicate that the granitoids emplaced during the Late Jurassic–Early Cretaceous. The granodiorites show an adakitic affinity with high Sr/Y ratios and low Yb (< 1.30 μg/g) contents. The monzogranites exhibit high SiO2, low MgO contents, enrichment in LILEs (Rb, K, and Th), and depletion in HSFEs (Ta, Nb, Zr, P, and Ti). Petrological and geochemical features of these monzogranites suggest that they are highly fractionated I-type granitoids. In addition, the zircon εHf(t) values and two-stage model ages (TDM2 ) are in the range of +2.6 to +8.1 and 669–1011 Ma, respectively, indicating that primary magma was generated by partial melting of juvenile lower-crustal materials, and there was a significant crustal growth in the Phanerozoic in the Northeast China. Combined with the coeval granitoids widely exposed in the Xing'an Massif, we conclude that the Late Jurassic magma in Northeast China was generated in an extensional setting related to the closure of the Mongol-Okhotsk Ocean, but the Early Cretaceous magma was related to the subduction of the Paleo-Pacific Plate. 相似文献
12.
为了进一步理解南海地区前新生代的构造演化过程,明确古南海构造属性及其与特提斯和古太平洋构造域的关系,通过对古南海遗迹(蛇绿岩、蛇绿混杂岩以及俯冲增生带)的研究,结合周围陆区地质及古生物资料,将古南海的演化划分为4个阶段。①古特提斯残留海阶段(T1-T2):古南海是在早-中三叠世的古特提斯残余海基础上发展而来,与古特提斯残余海是一个连续的演化过程。②古太平洋边缘海阶段(T3):晚三叠世,由于古特提斯洋的全面关闭,古南海主要受古太平洋的影响。③中特提斯与古太平洋叠加影响阶段(J-K1):早侏罗世,古南海开始扩张,并受中特提斯和古太平洋叠加影响;晚侏罗世,南沙地块向华南大陆开始漂移,古南海进一步强烈扩张。④俯冲消亡阶段(K2末期-E):晚白垩世,南沙地块开始裂离华南大陆,古南海开始向南俯冲;至始新世,伴随着新南海的扩张,古南海加速消亡于巽他地块之下,并在南海南部地区形成了卢帕尔线蛇绿岩带以及一系列的俯冲增生带。 相似文献
13.
The West Qinling Orogen (WQO) in Central China Orogenic Belt contains numerous metasedimentary rock-hosted gold deposits (>2000 t Au), which mainly formed during two pulses: one previously recognized in the Late Triassic to Early Jurassic (T3–J1) and one only recently identified in the Late Jurassic to Early Cretaceous (J3–K1). Few studies have focused on the origin and geotectonic setting of the J3–K1 gold deposits.Textural relationships, LA-ICP-MS trace element and sulfur isotope compositions of pyrites in hydrothermally altered T3 dykes within the J3–K1 Daqiao deposit were used to constrain relative timing relationships between mineralization and pyrite growth in the dykes, and to characterize the source of ore fluid. These results are integrated with an overview of the regional geodynamic setting, to advance understanding of the tectonic driver for J3–K1 hydrothermal gold systems. Pyrite in breccia- and dyke-hosted gold ores at Daqiao have similar chemical and isotopic compositions and are considered to be representative of J3–K1 gold deposits in WQO. Co/Ni and sulfur isotope ratios suggest that ore fluids were derived from underlying Paleozoic Ni- and Se-rich carbonaceous sedimentary rocks. The geochemical data do not support the involvement of magmatic fluids. However, in the EQO (East Qinling Orogen), J3–K1 deposits are genetically related to magmatism. Gold mineralization in WQO is contemporaneous with magmatic deposits in the EQO and both are mainly controlled by NE- and EW-trending structures produced by changes in plate motion of the Paleo-Pacific plate as it was subducted beneath the Eurasian continent. We therefore infer that the J3–K1 structural regime facilitated the ascent of magma in the EQO and metamorphic fluids in the WQO with consequent differences in the character of contemporaneous ore deposits. If this is correct, then the far-field effects of subduction along the eastern margin of NE Asia extended 1000's of km into the continental interior. 相似文献
14.
Early Cretaceous arc volcanic rocks, diorite intrusions and an associated large porphyry deposit occur in the Cebu Island, Central Philippines. In this paper, we studied the diorite porphyries associated with Cu-Au mineralization in the Kansi region, where Early Cretaceous arc volcanic rocks are widely distributed. Zircon U-Pb age reveals that the diorites were formed at ca. 110 Ma, close to the formation age of Lutopan diorites in the famous Atlas porphyry Cu-Au deposit (109–101 Ma), and younger than those of the arc volcanics in this region (126–118 Ma). The Kansi diorites and Lutopan diorites are both calc-alkaline high-Mg adakites with high Sr/Y ratios. Their major elements define similar variation trends in Harker diagrams, suggesting that they were probably generated from a uniform source but experienced different degree of partial melting or fractional crystallization. The Kansi diorites are characterized by LREE enrichment, HREE depletion, no Eu negative anomaly, with enrichment of Pb, Sr, Zr and Hf and depletion of Nb, Ta, and Ti. They are probably generated by the partial melting of subducted oceanic crust, followed by a certain degree of mantle interaction and crustal contamination. The highly depleted Sr-Nd-Pb-Hf isotopes of the Kansi diorites are close to the Amami Plateau basalt and tonalite, indicating the dominance of a Pacific-type MORB in the source. The Cu-Au mineralization-related Kansi diorites are characterized by high oxygen fugacities more than ΔFMQ +2, indicating quite a good potential for porphyry Cu-Au mineralization in the region. Finally, in our tectonic model, the successive generation of arc volcanic rocks and adakites in the Cebu Island are responses to the subduction and rollback of the paleo-Pacific Plate to the proto-Philippine Sea Plate (PSP) in the Early Cretaceous. 相似文献
15.
The study presents the results of U-Pb dating of zircons and whole-rock geochemical analyses of syenogranite in Angeer Yinwula area, China, with the aim of determining its formation time, petrogenesis and regional setting. Zircon U-Pb data obtained by LA-ICP-MS indicate that the syenogranite formed in the Early Cretaceous(136.1±0.9 Ma). Geochemically, the rock is characterized by high SiO_2(76.63%--77.58%) and Na_2O+K_2O(8.00%--8.32%), low MgO(0.02%--0.04%) and TFe_2O_3(0.51%--0.84%), and is enriched in LREEs and LILEs, depleted in HREEs and HFSEs. It belongs to high-K calc-alkaline, metaluminous-weakly peraluminous, exhibiting an affinity to I-type granite. All these characteristics implied that the syenogranite in this region derived from crust-mantle mixed source. Overall, the regional geology, geochronology and geochemical features suggest that the formation of the syenogranite was related to the subduction of the Paleo-Pacific Ocean. 相似文献
16.
长江中下游燕山期逆冲推覆构造及成因机制 总被引:8,自引:5,他引:3
长江中下游地区为我国著名铜、铁多金属成矿带之一.本文根据长江中下游及邻近地区构造等特征,将该区构造单元自北向南划分为华北地块、大别造山带、长江中下游前陆构造带、扬子地块、华夏地块;并进一步将长江中下游前陆构造带细分为保康-武汉-宿松-巢湖褶冲带、长江中下游中生代坳陷带、通山-瑞昌-石台-宁国褶冲带三个次级构造带.在燕山早期,长江以北的保康-武汉-宿松-巢湖褶冲带逆冲构造极性指向SE,而长江以南的通山-瑞昌-石台-宁国褶冲带逆冲构造极性指向NW.长江以南褶皱样式在岳阳-通山-瑞昌一线以南由隔挡式变为隔槽式,叠瓦式逆冲断裂更发育.在九岭-幕阜山隆起及南部的白垩纪红色盆地基底中逆冲断裂多为高角度,褶皱多为隔槽式,元古宇的浅变质岩卷入逆冲作用,为典型的厚皮构造.长江以北的紧闭同斜褶皱主体形成在印支期,随后被早燕山期的逆冲推覆作用改造.结合野外地质调查,通过对已有跨长江中下游地区的深地震剖面重新解释,发现以长江为界,长江中下游地区北侧深部、浅部构造处于耦合状态;而南侧深部、浅部构造已经脱藕,形成上下地壳的“鱼骨刺”结构,深部构造可能是是印支期扬子地块向华北地块下俯冲的残余结构.长江中下游地区浅部从北向南的逆冲作用应该与大别造山带超高压变质岩挤出有关,而从东南向北西的逆冲推覆作用可能同中侏罗世古太平洋板块向亚洲大陆俯冲有关. 相似文献
17.
中国东北古亚洲与古太平洋构造域演化与转换 总被引:6,自引:0,他引:6
现今分布于中朝、塔里木古陆与西伯利亚古陆之间的古亚洲构造域,既存在于前中生代,也存在于中新生代.古亚洲构造域不能等同于古亚洲洋及其构造域.作为古亚洲构造域一部分的古亚洲洋开始于晚寒武世-奥陶纪,结束于中三叠世.古太平洋及其构造域形成于晚古生代,印支期后,成为滨太平洋构造域.在晚三叠世-侏罗纪时期与古亚洲构造域并存,形成两个构造域的板内造山带、局部盆山构造和东北高原.早白垩世形成以滨太平洋构造域为主体的北北东向盆山体系. 相似文献
18.
Seung-Ik Park Jungrae Noh Hee Jun Cheong Sanghoon Kwon Yungoo Song Sung Won Kim M.Santosh 《地学前缘(英文版)》2019,10(3):909-925
During subduction, continental margins experience shortening along with inversion of extensional sedimentary basins. Here we explore a tectonic scenario for the inversion of two-phase extensional basin systems, where the Early-Middle Jurassic intra-arc volcano-sedimentary Oseosan Volcanic Complex was developed on top of the Late Triassic-Early Jurassic post-collisional sequences, namely the Chungnam Basin. The basin shortening was accommodated mostly by contractional faults and related folds. In the basement, regional high-angle reverse faults as well as low-angle thrusts accommodate the overall shortening, and are compatible with those preserved in the cover. This suggests that their spatial and temporal development is strongly dependent on the initial basin geometry and inherited structures.Changes in transport direction observed along the basement-sedimentary cover interface is a characteristic structural feature, reflecting sequential kinematic evolution during basin inversion. Propagation of basement faults also enhanced shortening of the overlying sedimentary cover sequences. We constrain timing of the Late Jurassic-Early Cretaceous(ca. 158-110 Ma) inversion from altered K-feldspar 40 Ar/39 Ar ages in stacked thrust sheets and K-Ar illite ages of fault gouges, along with previously reported geochronological data from the area. This "non-magmatic phase" of the Daebo Orogeny is contemporaneous with the timing of magmatic quiescence across the Korean Peninsula. We propose the role of flat/low-angle subduction of the Paleo-Pacific Plate for the development of the "Laramide-style" basement-involved orogenic event along East Asian continental margin. 相似文献
19.
华南腹地白垩纪A型花岗岩类或碱性侵入岩年代学及其对华南晚中生代构造演化的制约 总被引:33,自引:14,他引:33
华南腹地存在多个白垩纪的A型花岗岩类或碱性侵入岩,如安徽花山霓辉石钠闪石花岗岩、福建大沅村霓辉石钠铁闪石花岗岩、广东恶鸡脑霞石方钠石正长岩以及浙江大和山辉石石英正长斑岩、苏村晶洞钾长花岗岩。锆石SHRIMP和矿物的40Ar-39Ar年代学研究表明,这些岩石主要形成于137-86Ma。以本文的年代学研究为基础,并结合前人大量研究成果, 将华南晚中生代的A型花岗岩类或碱性侵入岩大致分成三期:(1)侏罗纪(184-152Ma)A型花岗岩类或碱性侵入岩,主要沿“十-杭裂谷带”南段分布,在赣南也有分布,可能与古太平洋板块低速斜向俯冲或平移所导致的走滑伸展或与不受古太平洋板块运动影响的岩石圈伸展有关;(2)早白垩世(139-123Ma)A型花岗岩类或碱性侵入岩,分布于政和-大埔断裂带以西,可能与古太平洋板块快速斜向俯冲所导致的弧后伸展或岩石圈减薄有关;(3)晚白垩世(101-86Ma)A型花岗岩类或碱性侵入岩,主要沿闽浙沿海地区分布,同时在华南腹地也有零星分布,可能与大陆边缘弧的塌陷(collapse)或俯冲洋壳反转(roll- back)后的岩石圈伸展有关。 相似文献
20.
那丹哈达地体是中国境内唯一保存的古太平洋板块俯冲-增生的直接记录,包括跃进山杂岩和饶河增生杂岩。跃进山杂岩出露于那丹哈达地体的西缘,属于地体早期阶段的增生产物,对揭示古太平洋板块的俯冲-增生历史以及古亚洲洋构造域、泛大洋和古太平洋构造域之间的转换过程具有重要意义。本文通过野外地质调查明确了跃进山杂岩是一套构造混杂岩,主要由硅质岩、石英片岩、大理岩、二云母片岩、石英-云母片岩、变玄武岩、辉长岩、纯橄榄岩、异剥橄榄岩和单斜辉石岩组成。LA-MC-ICPMS锆石年代学测试结果表明变玄武岩原岩和辉长岩的形成时代分别为303±2Ma和278±2Ma,此外前人报道了跃进山杂岩中最年轻的玄武岩形成于232±5Ma,这些年代学研究成果限定了镁铁质-超镁铁质岩形成于303~232Ma。大量地球化学研究数据证实了跃进山杂岩中的玄武岩为洋中脊玄武岩(MORB)和洋岛玄武岩(OIB)。糜棱岩化绿泥石-绢云母板岩的绢云母^(40)Ar/^(39)Ar测试结果为193±1Ma,根据跃进山杂岩中最年轻的原岩时代为~220Ma,本文限定了跃进山杂岩的最终就位时代为220~193Ma。结合中国东北地区中生代增生杂岩及佳木斯地块和松辽地块东缘晚古生代至中生代的岩浆弧,本文揭示了中国东北地区古亚洲洋和泛大洋构造域向古太平洋构造域的转换发生在晚三叠世至早侏罗世。 相似文献