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  • WenAi Hou, Chun-Feng Li, XiaoLi Wan, MingHui Zhao, XueLin Qiu. 2019: Crustal S-wave velocity structure across the northeastern South China Sea continental margin: implications for lithology and mantle exhumation. Earth and Planetary Physics, 3(4): 314-329. DOI: 10.26464/epp2019033
    Citation: WenAi Hou, Chun-Feng Li, XiaoLi Wan, MingHui Zhao, XueLin Qiu. 2019: Crustal S-wave velocity structure across the northeastern South China Sea continental margin: implications for lithology and mantle exhumation. Earth and Planetary Physics, 3(4): 314-329. DOI: 10.26464/epp2019033
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Crustal S-wave velocity structure across the northeastern South China Sea continental margin: implications for lithology and mantle exhumation

  • The northeastern margin of the South China Sea (SCS), developed from continental rifting and breakup, is usually thought of as a non-volcanic margin. However, post-spreading volcanism is massive and lower crustal high-velocity anomalies are widespread, which complicate the nature of the margin here. To better understand crustal seismic velocities, lithology, and geophysical properties, we present an S-wave velocity (VS) model and a VP/VS model for the northeastern margin by using an existing P-wave velocity (VP) model as the starting model for 2-D kinematic S-wave forward ray tracing. The Mesozoic sedimentary sequence has lower VP/VS ratios than the Cenozoic sequence; in between is a main interface of P-S conversion. Two isolated high-velocity zones (HVZ) are found in the lower crust of the continental slope, showing S-wave velocities of 4.0–4.2 km/s and VP/VS ratios of 1.73–1.78. These values indicate a mafic composition, most likely of amphibolite facies. Also, a VP/VS versus VP plot indicates a magnesium-rich gabbro facies from post-spreading mantle melting at temperatures higher than normal. A third high-velocity zone (VP : 7.0–7.8 km/s; VP/VS: 1.85–1.96), 70-km wide and 4-km thick in the continent-ocean transition zone, is most likely to be a consequence of serpentinization of upwelled upper mantle. Seismic velocity structures and also gravity anomalies indicate that mantle upwelling/ serpentinization could be the most severe in the northeasternmost continent-ocean boundary of the SCS. Empirical relationships between seismic velocity and degree of serpentinization suggest that serpentinite content decreases with depth, from 43% in the lower crust to 37% into the mantle.
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