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    浙江南部丽水盆地地层时代及构造演化

    Geochronological and structural constraints on the litho-stratigraphic units of the Lishui Basin, southeastern China

    • 摘要: 位于浙江南部的丽水盆地是华南东部典型的白垩纪火山岩盆地。对盆地中5个凝灰岩夹层样品进行了锆石LA-MC-ICPMS U-Pb同位素年代学分析,结果给出了(114±1) Ma, (114±2) Ma,(118±1) Ma, (122±1) Ma和(112±1)Ma的主体谐和年龄。结合区域沉积-构造接触关系,本文将盆地内火山-沉积序列分为上、下2个组合:下火山-沉积组合包括馆头组和朝川组,其形成时代在124~112 Ma;上火山-沉积组合以方岩组为代表,其时代在104~91 Ma。这两套岩石组合的形成记录了盆地两期伸展断陷事件。结合区域构造变形和古构造应力场反演结果,本文认为丽水盆地早白垩世经历了两个伸展-挤压旋回的构造演化过程,每一旋回的古构造应力场均以NW-SE伸展和NWSE挤压应力场的交替演化为特征。NW-SE伸展事件控制了盆地的初始张开、断陷和沉积物充填作用,其产生的动力背景与古太平洋板块俯冲过程中因俯冲板片后撤(roll-back)诱发的弧后扩张作用有关。NW-SE挤压事件导致盆地的构造反转,下白垩统普遍褶皱,并形成区域角度不整合面,其形成与俯冲板片的深部几何学变化或大陆碰撞的远程效应有关。丽水盆地伸展-挤压事件的幕式交替反映了弧后扩张过程中复杂的深部动力学背景。

       

      Abstract: The Lishui Basin is a typical Cretaceous volcanic basin developed in Zhejiang Province of southeastern China. Five rock samples collected from interbedded volcanic tuffs of this basin were analyzed by using LA-MC-ICPMS zircon U-Pb method, which yielded weighted mean 206Pb/238U ages of (114±1) Ma, (114±2) Ma, (118±1) Ma, (122±1) Ma and (112±1) Ma, respectively.These dating results, in conjunction with regional sedimentary and structural contact relationships, led the authors to divide the volcano-sedimentary sequences into two rock suites:the lower rock suite, consisting of Guantou and Chaochuan Formations, was deposited in 124-112 Ma, whereas the upper rock suite, corresponding to Chaochuan Formation, was deposited in 104-91 Ma. Their generations resulted from two stages of crustal extensional events during the Early Cretaceous. These sedimentary data, coupled with structural analysis and tectonic stress field inversion, support the argument that the Lishui basin underwent two cycles of tectonic evolution, and each was dominated by alternate stress episodes of NW-SE extension and NW-SE compression. The NW-SE extension accommodated the initial opening and sediment infilling of the basin, which might have originated from the back-arc extension induced by the rollback of the subducted Paleo-Pacific slab during the Early Cretaceous. The NW-SE compression led to tectonic inversion, and was responsible for the unconformity between the Upper and Lower Cretaceous strata, which was probably associated with the variations of the subducted slab dynamics or the collision between the eastern Asian margin and the West Philippine Block. The alternate extensional and compressional episodes reflect variation of geometries and dynamics of subducted slab in a back-arc extensional setting.

       

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