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华北东部早白垩世A型花岗岩与克拉通破坏 总被引:9,自引:0,他引:9
A型花岗岩是非造山的、无水的碱性花岗岩, 具有独特的矿物学、岩石学和地球化学特征, 形成于造山后、板内非造山或者地幔热柱等伸展动力学背景, 蕴涵着大陆地壳生长、岩石圈演化及区域构造发展等大陆动力学的重要信息.在华北东部广泛分布着一期中生代A型花岗岩及伴生的碱性岩, 结合前人的研究成果以及笔者近年来的研究发现: 它们主要侵位于早白垩世(130~110Ma), 来源于上地壳、下地壳和地幔等多元源区, 是不同成分的岩浆经过分离结晶、岩浆混合作用形成; 综合区域地球动力学研究和A型花岗岩本身的地球化学特征, 认为华北东部早白垩世A型花岗岩形成于地壳伸展背景之下, 是岩石圈减薄和克拉通破坏的浅部地质响应, 标志着华北东部岩石圈减薄和克拉通破坏作用的峰期. 相似文献
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华北是全球古老克拉通遭受破坏最明显和最典型的地区,其去克拉通化作用的时间、范围和机制等重要科学问题是国内外研究的热点。大规模岩浆作用是去克拉通化作用的地质表现之一,通过对华北地区侵入岩侵位时代、源区、成岩过程的研究,可有效反演其去克拉通化作用的时空范围、过程及可能的动力学机制。华北东部广泛发育大面积的中生代侵入岩,本文在作者近十年研究的基础上,通过总结华北东部中生代侵入岩的锆石U-Pb年代学资料,厘定了华北东部中生代岩浆活动主要分为三叠纪、侏罗纪和早白垩世三期;通过岩浆源区、岩石成因研究,探讨不同时期岩石圈(地幔和大陆地壳)性质和厚度的转变及破坏的空间范围;在此基础上,结合区域地质特征初步探讨了华北去克拉通化的地球动力学机制。 相似文献
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《International Geology Review》2012,54(13):1630-1657
New geological, geochronological, and geochemical results on volcanic rocks and cobbles from early Mesozoic sedimentary rocks identify two contrasting latest Permian–Triassic volcanic rock suites in the northern North China Craton (NCC). The early rock suite erupted during the latest Permian–Early Triassic at ca. 255–245 Ma and was probably widely distributed in the northern NCC prior to the Early Jurassic. It comprises rhyolitic welded tuff, rhyolite, and tuffaceous sandstone and is characterized by high contents of SiO2 and K2O, moderate initial 87Sr/86Sr, low negative εNd(t) and εHf(t) values, and old Nd-Hf isotopic model ages. It was likely produced by fractional crystallization of lower crustal-derived magmas due to underplating by lithospheric mantle-derived magmas near the crust–mantle boundary in syncollisional to post-collisional/post-orogenic tectonic settings. The late rock suite, erupted during the Middle–Late Triassic at ca. 238–228 Ma, displays adakitic geochemical signatures and consists of intermediate volcanic rocks such as andesite, trachyandesite, and autoclastic trachyandesite breccia, with minor felsic rocks. This suite is characterized by high Al2O3, MgO, Sr, Ba, Cr, V, and Ni concentrations; high Mg# values; low Y and Yb concentrations and high Sr/Y ratios; low initial 87Sr/86Sr; high negative εNd(t) and εHf(t) values; and young Nd-Hf isotopic model ages. The younger suite was generated by mixing of magmas derived from melting of upwelling asthenosphere, with melts of ancient lower crust induced by underplating of basaltic magmas in an intraplate extensional setting. Strong upwelling of asthenospheric mantle and significant involvement of the asthenospheric mantle materials indicate that the lithospheric mantle beneath the northern NCC was partially delaminated during Middle–Late Triassic time, representing the initial destruction and lithospheric thinning of the northern NCC. Lithospheric thinning and delamination are likely the most important reasons for the Triassic tectonic transition and change of magmatism and deformation patterns in the northern NCC. 相似文献
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Triassic magmatism and its relation to decratonization in the eastern North China Craton 总被引:5,自引:0,他引:5
Lithospheric removal and destruction of the North China Craton have been hotly discussed recently. It has been confirmed that the timing of a strong lithospheric removal took place in Late Mesozoic; however, little is known about when the lithospheric removal was initiated and how the Late Permian to Early Triassic deep subduction of Yangtze continental crust affected the cratonic destruction. This paper presents an overview on the temporal and spatial framework and geochemical characteristics of the Triass... 相似文献
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