Collision leading to multiple-stage large-scale extrusion in the Qinling orogen: Insights from the Mianlue suture

The geologic framework of the Phanerozoic Qinling-Dabie orogen was built up through two major suturing events of three blocks. From north to south these include the North China craton (including the north Qinling block), the Qinling-Dabie microblock, and the South China craton (including the Bikou block), separated by the Shangdan and Mianlue sutures. The Mianlue suture zone contains evidence for Mesozoic extrusion tectonics in the form of major strike-slip border faults surrounding basement blocks, a Late Paleozoic ophiolite and a ca. 240-200 Ma thrust belt that reformed by 200-150 Ma thrusts during A-type (intracontinental) subduction. The regional map pattern shows that the blocks are surrounded by complexly deformed Devonian to Early Triassic metasandstones and metapelites, forming a regional-scale block-in-matrix melange fabric. Five distinct tectonic units have been recognized in the belt: (1) basement blocks including two types of Precambrian basement, crystalline and transitional; (2) continental margin slices including Early Paleozoic strata, and Late Paleozoic fluviodeltaic sedimentary rocks, proximal and distal fan clastics, reflecting the development of a north-facing rift margin on the edge of the South China plate; (3) out of sequence oceanic crustal slices including strongly deformed postrift, deep-water sedimentary rocks, sheeted dikes, basalts, and mafic-ultramafic cumulates of a Late Paleozoic ophiolite suite, developing independent of the rift margin in a separate basin; (4) out-of-sequence island-arc slices; (5) accretionary wedge slices. All the tectonic units were deformed during three geometrically distinct deformation episodes (D-1, D-2 and D-3 during 240-200 Ma). Units 2-4 involved southward thrusting and vertical then southward extrusion of about 20 km of horizontal displacement above the autochthonous basement during the D-1 episode. Thrust slices 20 km south of the Mianlue suture are related to this vertical extrusion due to the same rock assemblages, ages and kinematics. The D-2 and D-3 episodes folded all the units in a thick-skinned style about east-west (D-2) and west-northwest (D-3) axes in the Mianlue suture zone. An early foreland propagating sequence of accretion of Late Paleozoic rocks deposited above the Yangtze craton is not involved in D-1 deformation but is temporally equivalent to the D-2 and D-3 deformation in the Mianlue suture. Two stages of strike-slip faulting mainly occurred at the end of D-2 and D-3, respectively. During D-2 deformation, the Bikou block was obliquely indented to the ESE into the Mianlue suture, rather than being thrust over the Mianlue suture from the north as a part of the Qinling-Dabie microblock. During D-3 deformation, however, the Bikou block was bounded by the south boundary fault of the Mianlue suture, and the Yangpingguan fault on the south. These faults are coeval strike-slip faults, but of opposite senses, and accommodated minor southwestward extrusion of the Bikou block into Songpan-Ganze orogen. The other basement blocks north of the Mianlue suture were extruded eastward by about 20 kin of lateral displacement, based on the offset of the Wudang dome, during the D-3 episode due to the northeastward indentation of the Hannan complex of the South China craton. Post-D-3 emplacement of granite, cutting across the strike-slip faults such as the Mianlue suture, provides a minimum age of 200 Ma for (3) deformation. Therefore, based on insights from the evolution of the Mianlue suture, the D-2 and D-3 episodes in the Mianlue suture and its neighbors are not responsible for and associated with the two-stage extrusion of the Dabie UHP-HP terranes from the Foping dome to the present erosional surface (more than 350 km). (c) 2006 International Association for Gondwana Research. Published by Elsevier B.V. All rights reserved.