[口头报告]Interrelations of Wedge Imbrication, Shale Diapirism, and Incoming Sediment Dynamics: New Insights from the Eastern Makran Subduction Collision Zone

Interrelations of Wedge Imbrication, Shale Diapirism, and Incoming Sediment Dynamics: New Insights from the Eastern Makran Subduction Collision Zone
编号:3152 稿件编号:640 访问权限:仅限参会人 更新:2024-04-12 22:53:29 浏览:438次 口头报告

报告开始:2024年05月19日 15:30 (Asia/Shanghai)

报告时间:10min

所在会议:[S9] 主题9、地球物理与大地测量 » [S9-3] 主题9、地球物理与大地测量 专题9.3、专题9.6、专题9.9(19日下午,305A)

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摘要
Understanding the interrelations between accretionary wedge imbrication, large-scale shale diapirism, and incoming sediment dynamics in subduction collisional environments is crucial for unraveling the intricate processes governing the evolution and deformation of subduction zones. The Makran subduction collisional zone in the Northern Arabian Sea stands as a paradigmatic illustration of low-angle subduction complex worldwide formed by the convergence of Arabian plate underneath Eurasian plate in the Early Cretaceous, followed by Middle Miocene renewed subduction. In this study, we adopted seismic sequence stratigraphic analysis, 3D structural geological modeling, petrophysical evaluation, overburden gradient, overburden pressure, fracture pressure gradient analyses to comprehend the interrelations of wedge imbrication, large-scale shale diapirism, and incoming sediment dynamics. Our results reveal that the substantial tectonic shortening, imbricate thrust faulting triggered by Middle Miocene renewed subduction, coupled with a continuous influx of sediments, synergistically contributed to the remarkable accumulation of sedimentary succession (∼7.5 km) and subsequently generated regional shale diapirs due to high fluid overpressure from under-thrusted sediments. The formation and deformation mechanism of imbricate structure and fluid overpressure within Makran subduction collisional zones are controlled by plate convergence (obliquity and velocity) , the material properties of the wedge and the décollement (friction, cohesion, and deep fluid overpressures), isostatic response (uplift and subsidence), and external surface processes, including erosion and sedimentation. The tectonic reconstruction and deformation mechanisms model shows four phases, e.g. (1) initiation of subduction and accretionary wedge formation in Eocene, (2) N-dipping imbricate thrust faults and large-scale shale diapirs triggered by Middle Miocene renewed subduction, (3) development of large-scale shale diapirs in Middle Miocene to Pliocene together with syn-deposition, (4) thrust deformation ceases, development of post depositional system, large-scale shale diapirs-induced structuration, formation of shallow fluide scape pipes. This research enhances our understanding of subduction zone dynamics shedding light on the complex processes shaping subduction collisional environments.
关键字
Thrust Faults-induced Structuration,Tectonically-induced Fluid Overpressure,Large-scale Shale Diapirs,sediment recycling dynamics,Arabian-Eurasian plates subduction
报告人
KHANUMAIR
博士研究生 Institute of Deep-Sea Science and Engineering, CAS, Sanya, 57200, China

稿件作者
KHANUMAIR Institute of Deep-Sea Science and Engineering, CAS, Sanya, 57200, China
WuShiguo Institute of Deep-Sea Science and Engineering, CAS, Sanya, 57200, China
KhanMajid University of Chinese Academy of Sciences, Beijing 100049, China
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