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How Pre-Existing Strength Heterogeneities and Differential Extension Shaped Rift Initiation and Propagation in the South China Sea: An Analog Perspective

How Pre-Existing Strength Heterogeneities and Differential Extension Shaped Rift Initiation and Propagation in the South China Sea: An Analog Perspective

This is a Preprint and has not been peer reviewed. The published version of this Preprint is available: https://doi.org/10.1029/2025JB033244. This is version 1 of this Preprint.

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Authors

Gengxiong Yang, Matthias Rosenau, hongwei yin, Shuxin Pan, Yangwen Pei

Abstract

Continental rifting rarely occurs synchronously along strike and with uniform width. Instead, it commonly involves diachronous, progressive opening and rift propagation resulting in V-shaped rifts. Rotational, scissor‐like opening is a common model explaining V‐shaped rifts near plate tectonic rotational poles with steep extension gradients along-strike. However, the mechanisms driving V‐shaped rifts located far from such poles, such as the South-China Sea (SCS), remain less well understood. Here, we use crustal-scale analog modeling to investigate the processes and mechanisms of V‐shaped rift formation in regions distant from rotational poles, taking the SCS as a prototype. Our results demonstrate that the V‐shaped opening of basins can be governed by the combined effects of differential extension and inherited strength heterogeneities in the lithosphere. Applied to the SCS, our models indicate that along-strike variations in Proto-SCS subduction drove spatially variable extension, producing east-to-west diachronous rift initiation and contrasting crustal-thinning patterns between the eastern and western segments. In addition, weak remnants of Mesozoic magmatic arcs in the eastern segment and strong, pre‐existing continental basement blocks in the western segment acted as key structural-rheologic controls on strain localization, shaping the geometry of the basin and regulating the degree of necking along the continent–ocean boundary. Collectively, these processes produced the east‐ward younging and narrowing V‐shaped rift represented by the SCS today. These findings provide new insights into the debated origin of the SCS in particular and broadens our understanding of rift propagation in settings distant from rotational poles in general.

DOI

https://doi.org/10.31223/X5QR41

Subjects

Earth Sciences

Keywords

V-shaped basins, rift propagation, crustal heterogeneity, differential extension, analog modeling, South China Sea

Dates

Published: 2026-07-02 14:30

Last Updated: 2026-07-03 09:27

License

No Creative Commons license

Additional Metadata

Data Availability:
All data, including 3D scanning datasets from the final experimental results (3D DEMs of surface deformation and the 2D DEM profiles extracted from western segment and eastern segment) and particle image velocimetry (PIV) products at four extension states (25 mm, 50 mm, 75 mm, and 100 mm), together with the plotting codes used to generate the figures, are available open access in (G. X. Yang et al., 2025b) provided by GFZ Data Services (https://doi.org/10.5880/fidgeo.2025.093)

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