Non‐uniform hyper‐extension in advance of seafloor spreading on the vietnam continental margin and the SW South China Sea

Li, L.; Clift, Peter D.; Stephenson, Randell; Nguyen, Hung The

doi:10.1111/bre.12045

Cited by 34 publications

(20 citation statements)

References 89 publications

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“…For these reasons we believe that some Type II margins will be shown to contain core complexes, like those in extended backarc regions, e.g. the Aegean Sea (Lister et al, 1984;Jolivet et al, 2010) and possibly in the South China Sea (Savva et al, 2013;Li et al, 2014).…”

Section: Characteristics Of the Type I And Type Ii Rifted Marginsmentioning

confidence: 99%

Rifted continental margins: The case for depth-dependent extension

Huismans

Beaumont

2014

Earth and Planetary Science Letters

157

149

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Section: Characteristics Of the Type I And Type Ii Rifted Marginsmentioning

confidence: 99%

Rifted continental margins: The case for depth-dependent extension

Huismans

Beaumont

2014

Earth and Planetary Science Letters

157

149

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“…Wu et al (2005) considered the NE margin as the upper-plate in the simple-shear rifting model (Lister et al 1986), and suggested that the HVL originated from asthenospheric underplating. As analog and numerical models show (Huismans et al 2014), continental extension is in general depth-related and strongly depends on interstratified decoupling, which is also proven by detailed geophysical data of the SCS Li et al 2014b). To complicate matters, deep structures detected along several margins are also dependent on initial settings of rifting, such Figure 1.…”

Section: Introductionmentioning

confidence: 81%

Seismic structure of the northwestern margin of the South China Sea: implication for asymmetric continental extension

Huang

Qiu

Pichot

et al. 2019

Geophysical Journal International

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S U M M A R YEvolution of the continental margins of the South China Sea (SCS) is one of the open questions when discussing continental breakup and seafloor spreading. We processed data from a wide-angle seismic profile (OBS2011-1), which passes through the northwestern margin of the SCS, and performed travel time modelling to obtain the seismic velocity structures. The modelling results show a stepwise variation of the crustal thicknesses from continental margin to oceanic basin. Stretching factor of the upper crust is nearly double the estimate of the lower crust along the Zhongsha Trough. The lower crust shows asymmetrical upwelling towards the trough center, accompanied by ∼0.3 km s -1 of the velocity increase due to magmatic addition. The upper and lower crusts have almost the same stretching factor beneath continental blocks, indicating a uniform extension. Crustal structures of the conjugate margins of the Southwest Subbasin show similar velocity range and different thickness distribution, supporting the common origin and asymmetric extension of these two margins. The Ocean-Continent Transition zones (OCT) are much wider in the southern part (∼50 km) than the northern part (∼25 km) crossing the margins. We propose a tectonic model for the asymmetry of both the conjugate margins and the OCTs, favoring the highly stretched upper crust and accompanied by rising of the ductile middle-lower crust controlled by major low-angle faults. The rigid blocks may also act as a kind of hindrance for further evolution of the failed rifts and affect the shape of the OCT.

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“…Seismic and deep borehole data acquired along and near the fossil spreading axis in the NE, Central and SW sub-basins of East Vietnam Sea revealed basalt and pyroclastic deposits interbedded with early Miocene (>16 Ma) sediments (Li et al, 2014(Li et al, , 2015. However, the rate and extent of the synspreading volcanism were modest, corresponding to slower to intermediate spreading rate (20 km to 35 km/Myr); although the spreading rate sometimes reached 70-80 km/Myr (Li et al, 2014;IODP 349 Scientific report, 2014).…”

Section: Decompression Melting: Mantle Dynamics Versus Lithospheric Ementioning

confidence: 99%

“…Plots of MgO (wt.%) against major oxides of Phu Quy basalts; except for SiO 2 which shows two broadly negative correlation trends with MgO for early and later eruptive lavas, the other oxides such as K 2 O, TiO 2 and P 2 O 5 define higher and lower fields, respectively, for late (circle) and early (diamond) lavas. Plotted for comparison are synopening East Vietnam Sea (cross, after Li et al, 2014) showing even lower in MgO, TiO 2 and K 2 O than Phu Quy basalts…”

Section: Major Element Compositionsmentioning

confidence: 99%

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Geochemistry of late miocene-pleistocene basalts in the Phu Quy island area (East Vietnam Sea): Implication for mantle source feature and melt generation

et al. 2017

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The chemical compositions of late Miocene-Pleistocene basalts in Phu Quy island defines two major geochemical groups that reflect the formation and development of the island. The early low alkaline, TiO 2 and P 2 O 5 , and high SiO 2 group, comprising olivine and tholeiitic basalts, forms the base of the island. The later high alkaline, TiO 2 , and P 2 O 5 , and low SiO 2 group, produced by central-type volcanic eruptions consisting of alkaline olivine and olivine basalts, overlies the early eruptive group. Crustal contamination may be expressed by the positive correlation between Ba/Nb and SiO 2 , which are higher in early eruptive basalts, possibly reflecting the involvement of crustal material, either in the source region or interaction of the melt on the way to the surface. However, negative relationship between Ba and SiO 2 , and positive correlation between Nb/Y and Zr/Y observed for two basaltic series may reflect the effect of melting pressures and degrees of partial melting. Methods of calculating the primitive basaltic melts based on the principle of olivine incremental additions to the basalt until the composition is equilibrated with the residual olivine at Fo 89-90 may be used. The computed results show that the early basalts were generated under pressures of about 18-20 Kb (ca. 55-60 km) and the later basalts were formed in the pressure range of 20 to 25 Kb (corresponding to the depths about 60 to 75 km). The close range of melting pressures suggests decompression polybaric melting of a mantle source, which allows for mixing of various melt portions, resulting in the formation of geochemically linear relationship. It has been demonstrated that the post-opening volcanism was unrelated to an important tectonic phase and that the calculated extension factor () for the regional major extension fault systems is not significant (ca. 1.3) to trigger mantle melting. Therefore, the infiltration of asthenospheric flows resulting from the Neo-Tethys closure following the collision between India and Eurasia in the late Tertiary, may not only raise the mantle temperature leading to the melting but also appear to be the major driving force of marginal sea opening in the western Pacific, including the East Vietnam Sea.

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Non‐uniform hyper‐extension in advance of seafloor spreading on the vietnam continental margin and the SW South China Sea

Cited by 34 publications

References 89 publications

Rifted continental margins: The case for depth-dependent extension

Rifted continental margins: The case for depth-dependent extension

Seismic structure of the northwestern margin of the South China Sea: implication for asymmetric continental extension

Geochemistry of late miocene-pleistocene basalts in the Phu Quy island area (East Vietnam Sea): Implication for mantle source feature and melt generation

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