Crustal architecture and evolution of the southwestern South China Sea: Implications to continental breakup

Abstract During extension, the continental lithosphere thins and breaks up, forming either wide or narrow rifts depending on the thermo-mechanical state of the extending lithosphere. Wide continental rifts, which can reach 1,000 km across, have been extensively studied in the North American Cordillera and in the Aegean domain. Yet, the evolutionary process from wide continental rift to continental breakup remains enigmatic due to the lack of seismically resolvable data on the distal passive margin and an absence of onshore natural exposures. Here, we show that Eocene extension across the northern margin of the South China Sea records the transition between a wide continental rift and highly extended (<15 km) continental margin. On the basis of high-resolution seismic data, we document the presence of dome structures, a corrugated and grooved detachment fault, and subdetachment deformation involving crustal-scale nappe folds and magmatic intrusions, which are coeval with supradetachment basins. The thermal and mechanical weakening of this broad continental domain allowed for the formation of metamorphic core complexes, boudinage of the upper crust and exhumation of middle/lower crust through detachment faulting. The structural architecture of the northern South China Sea continental margin is strikingly similar to the broad continental rifts in the North American Cordillera and in the Aegean domain, and reflects the transition from wide rift to continental breakup.

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3D structures and sedimentary infill across the continent-ocean transition of the northern South China Sea: constraint by the drilling results from IODP Expeditions 367, 368 and 368X

10.5194/egusphere-egu2020-378 ◽

2020 ◽

Author(s):

Chao Lei ◽

Jianye Ren ◽

Geoffroy Mohn ◽

Michael Nirrengarten ◽

Xiong Pang ◽

...

Keyword(s):

South China Sea ◽

Continental Crust ◽

Oceanic Crust ◽

South China ◽

Lower Boundary ◽

Seismic Survey ◽

High Angle ◽

Seismic Profiles ◽

Continental Breakup ◽

China Sea

Apart from the Iberia-Newfoundland margins, the South China Sea (SCS) represents &#160;another passive margin where continent-ocean transition basement was sampled by deep drilling. Drilling data from IODP Expedition 367-368 and 368X combined with seismic profiles revealed a narrow continent-ocean transition (COT) between the Distal High sampled at Site U1501 and the Ridge B sampled at Site U1500. Results suggested that major Eocene lithospheric thinning triggered Mid-Ocean Ridge type melt production which emplaced within hyperextended continental crust leading eventually to continental breakup. &#160;Because of available dense seismic survey consisting of deep-penetrated seismic data imaging as deep as 12 s TWT, as well as drilling results from IODP Expeditions 367-368 and 368X, the COT in the northern SCS enables us to investigate the 3D propagation of continental breakup and the interactions between tectonic extension and magmatism. The top of acoustic basement can be consistently interpreted through all of our seismic survey and reveal various types of reliefs and nature from hyperextended continental crust to oceanic crust. In the basement, deep-penetrated seismic profiles present series of densely sub-parallel high-amplitude reflections that occurred within the lower crust. The lower boundary of these reflections is often characterized by double continual and high reflections interpreted as the Moho. Across the COT, the basement structure is characterized by: 1) Series of tilted blocks bounded by high angle faults on the Distal High and filled by syn-tectonic sedimentary wedges, 2) Rounded mounds of the basement with chaotic seismic reflection and sedimentary onlaps on these structures, 3) Series of ridges delimited by high-angle normal faults with no sedimentary wedge on the first oceanic crust.Based on the detail stratigraphic framework constraint by drilling results from IODP Expeditions, the nature and timing of formation of these basement highs can be investigated. Some of these highs are limited by extensional faults while the nature of mounded structures located on the thinnest continental crust remain mysterious. &#160;Our detailed analyses emphasize the occurrence and local control of syn-rift magmatism in order to build such structures. At larger scale, the hyperextended continental crust is characterized by significant 3D morphological variations both observed on dip and strike profiles. In contrast, the initial oceanic crust is characterized by a more homogenous structure and consistently juxtaposed to continental crust over a sharp and narrow zone.&#160;

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Rapid transition from continental breakup to igneous oceanic crust in the South China Sea

Nature Geoscience ◽

10.1038/s41561-018-0198-1 ◽

2018 ◽

Vol 11 (10) ◽

pp. 782-789 ◽

Cited By ~ 59

Author(s):

H. C. Larsen ◽

G. Mohn ◽

M. Nirrengarten ◽

Z. Sun ◽

J. Stock ◽

...

Keyword(s):

South China Sea ◽

Oceanic Crust ◽

South China ◽

The South China Sea ◽

The South ◽

Continental Breakup ◽

China Sea ◽

Rapid Transition

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The thermal imprint of continental breakup during the formation of the South China Sea

Earth and Planetary Science Letters ◽

10.1016/j.epsl.2019.115972 ◽

2020 ◽

Vol 531 ◽

pp. 115972 ◽

Cited By ~ 3

Author(s):

Michael Nirrengarten ◽

Geoffroy Mohn ◽

Andrea Schito ◽

Sveva Corrado ◽

Laura Gutiérrez-García ◽

...

Keyword(s):

South China Sea ◽

South China ◽

The South China Sea ◽

The South ◽

Continental Breakup ◽

China Sea

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Depositional architecture and structural evolution of a region immediately inboard of the locus of continental breakup (Liwan Sub-basin, South China Sea)

Geological Society of America Bulletin ◽

10.1130/b35001.1 ◽

2019 ◽

Vol 131 (7-8) ◽

pp. 1059-1074 ◽

Cited By ~ 13

Author(s):

Chao Lei ◽

Tiago M. Alves ◽

Jianye Ren ◽

Xiong Pang ◽

Linlong Yang ◽

...

Keyword(s):

South China Sea ◽

Continental Crust ◽

South China ◽

Seismic Data ◽

Fault System ◽

The South ◽

Data Set ◽

Continental Breakup ◽

China Sea ◽

The World

Abstract New 3-D seismic data and regional 2-D seismic profiles from the northern South China Sea, the most extensive data set imaging a distal rifted margin in the world, are used to characterize a region located immediately inboard of the locus of Cenozoic continental breakup. The interpreted data set images a ∼6-km-thick continental crust in which the Moho and the base of syn-rift sediment are observed as clear, well-resolved seismic reflections. This extremely thinned continental crust was offset at its base by a complex detachment fault system from which oceanward-dipping listric faults propagated vertically to bound six separate tilted blocks, in a style akin to tectonic rafts. The seismic reflection data allowed us to investigate the thickness of syn- and post-rift strata above tilt blocks, revealing that the early-middle Eocene syn-rift topography was gradually blanketed in the late Eocene (ca. 38 Ma). After 33 Ma (earliest Oligocene), the main depocenter on the margin migrated to the south of the Liwan Sub-basin, i.e., oceanwards, as recorded by the thickening of strata within a breakup sequence. This work is important as it demonstrates how closely structures and sedimentation within the Liwan Sub-basin were controlled by a basal, rift-related detachment system, which is imaged in detail by 3-D seismic data for the first time on a rifted continental margin. Continental breakup was marked by a shift in the locus of subsidence (and crustal stretching) toward ocean crust, within a time period spanning ∼16 m.y. We extrapolate our findings from the South China Sea to the development of asymmetric passive margins across the world.

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