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由于印度洋板块向亚欧板块俯冲使青藏高原不断隆起,其形成不仅导致了亚洲大陆内部强烈的晚新生代构造变形,还对其边缘地区的地貌格局产生重大影响.青藏高原东北缘是青藏高原向北东方向扩展的前缘部位,是印度与欧亚两大板块碰撞作用由近南北方向向北东、东方向转换的重要场所.本文利用2004年和2008年完成的深地震反射剖面资料,采用关键处理技术和参数开展唐克-合作剖面与合作-临夏剖面联线处理,获得总长约400 km的深地震反射剖面,完整揭示了西秦岭造山带及其两侧盆地的地壳结构和构造变形样式.结果显示西秦岭造山带下地壳向若尔盖逆冲推覆的深部构造特征;西秦岭下地壳北倾的强反射及其北侧南倾的强反射特征揭示出扬子与华北两个大陆板块在西秦岭造山带下的汇聚行为.Moho的埋深和起伏形态表明青藏高原东北缘地壳经历了高原隆升后强烈的伸展减薄作用. 相似文献
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本文研究了1976年松潘7.2级地震前,几个台站记录到的异常地震波形的形态特征及时空分布特征。异常波形可分为4种形态;震中距小于80km的台站都不同程度地记录到了异常波形;临近地震时,记录中出现的波形数量增多,振幅增大;临震前10天波形密集,呈现明显的突跳变化。根据异常波形的特征,本文还对异常波形的物理机制进行了初步的研究,认为异常波形的出现是地震前孕震区岩石产生微破裂的结果。 相似文献
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松潘地块与西秦岭造山带下地壳的性质和关系——深地震反射剖面的揭露 总被引:28,自引:1,他引:28
松潘地块位于青藏高原的东缘,处于中国大陆东西向构造与南北向构造的结合部位,特殊的构造环境使其长期控制并影响着中国大陆的形成与演化。探测松潘地块的岩石圈细结构,揭示其与东昆仑-西秦岭造山带的关系,既可为研究青藏高原东北缘板块碰撞的深部过程奠定基础,同时又关联着松潘地块的油气远景评价。2004年完成了第一条横过松潘地块北缘若尔盖盆地和西秦岭造山带的长约257km的深地震反射剖面,首次揭露出若尔盖盆地和西秦岭造山带岩石圈的细结构。发现若尔盖盆地和西秦岭造山带同属统一的稳定的大陆地块,并且下地壳均以北倾的强反射为主要特征。这种北倾的反射为松潘地块向西秦岭下地壳俯冲提供了地震学证据。近于平坦的Moho反射特征反映出西秦岭造山带在造山后又经历了强烈的伸展作用。 相似文献
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Chris J.L. Wilson Brenton A. Worley Shefa Chen Mathew J. Harrowfield Liu Shugen Luo Zhili WT ”BX 《地学前缘》2000,(Z1)
DEFORMATIONAL AND METAMORPHIC HISTORY OF THE CENTRAL LONGMEN MOUNTAINS, SICHUAN CHINA1 ArneDC ,WorleyBA ,WilsonCJL ,etal.Differentialexhumationinresponsetoepisodicthrustingalongtheeasternmar ginoftheTibetanPlateau[J] .Tectonophysics,1997,2 80 :2 39~ 2 56 .
2 ChenSF ,WilsonCJL ,WorleyBA .TectonictransitionfromtheSongpan GarzeFoldBelttotheSichuanBasin,south westernChina[J] .BasinResearch ,1995,7:2 35~ 2 53.
3 ChenSF ,WilsonCJL .Emplaceme… 相似文献
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《International Geology Review》2012,54(16):2008-2015
Growing geologic evidence documents incremental Mesozoic and early Cenozoic shortening and thickening of the Tibetan crust prior to the onset of the main Cenozoic orogenic event. The Tibetan crust shows spatial and temporal variability in thickness, style, and timing of thickening, and in plateau-forming processes. The Songpan–Ganzi area of northeastern Tibet provides evidence for shortening and thickening of the crust in Late Triassic time. An oil exploratory well (HC-1) of 7012.4 m located in the area shows at least six tectonic repetitions, resulting in more than ~46% thickening of the Triassic sequence. It indicates that the true thickness of the Songpan–Ganzi Triassic flysch is not 10–15 km as previously assumed, but not more than 3–5 km. Based on this evidence, combined with prior tectonostratigraphic studies, we propose that substantial crustal shortening and thickening, leading to initial plateau formation in the northeastern Tibetan Plateau, had already occurred during the Late Triassic. 相似文献
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《International Geology Review》2012,54(1):29-56
We conducted in situ U–Pb and Lu–Hf isotope analyses of 401 detrital zircons collected from the Songpan–Ganzi Triassic turbidite complex in an attempt to understand the provenance variations of the siliciclastic rocks and the crustal growth history of central China. These detrital zircons exhibit a wide age spectrum with three major peaks at 1.7–2.0 Ga, 750–1050 Ma, and 210–500 Ma. They are dominated by negative ?Hf(t) values with a large range. Synthesis of the zircon U–Pb and Lu–Hf isotopic data indicate that the Triassic Songpan–Ganzi turbiditic succession could have been derived dominantly from the Tibetan terrains + the Kunlun and Qinling orogens. Our samples are characterized by a common, prominent group of Hf crust formation model ages at 0.8–4.1 Ga with a peak at 2.7–3.4 Ga. This fact indicates that (1) Phanerozoic magmatism in central China could have been predominantly products of crustal reworking with insignificant formation of juvenile crust and (2) the Neoarchaean was an important period of continental growth in central China. In addition, our data set also reveal that three widespread tectonothermal events could have occurred in the region during the late Mesoproterzoic, Palaeozoic, and early Mesozoic, respectively. 相似文献
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