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    Evolution of arc‐continent collision in the southeastern margin of the South China Sea: insight From the Isugod Basin in Central‐Southern Palawan

    Chen, W-H and Yan, Y and Carter, Andy and Clift, P.D. and Huang, C-Y and Yumul, G.P. and Dimalanta, C.B. and Gabo-Ratio, J.A.S. and Zhang, L. and Wang, M-H and Zhang, X-C (2024) Evolution of arc‐continent collision in the southeastern margin of the South China Sea: insight From the Isugod Basin in Central‐Southern Palawan. Tectonics 43 (6), pp. 1-31. ISSN 0278-7407.

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    Abstract

    The evolution of arc‐continent collision between the Palawan microcontinental block and the Cagayan Ridge in the southeastern margin of the South China Sea (SCS) is vital to understand how this collision correlated with seafloor spreading of the SCS. To address the evolution of arc‐continent collision, we studied the biostratigraphy and provenance of syn‐collisional sediments in the Isugod Basin in central‐southern Palawan. Microfossil analysis indicates a Late Miocene age (11.5–5.6 Ma) for the Isugod and Alfonso XIII Formations and rapid subsidence during initiation of the basin which may have been triggered by local extensional collapse of the wedge in response to forearc uplift. Multidisciplinary provenance analysis reveals that the Isugod and Alfonso XIII Formations were derived from the Middle Eocene–lower Oligocene Panas‐Pandian Formation on the Palawan wedge and the Late Eocene Central Palawan Ophiolite. These results suggest the emergence of both the orogenic wedge and obducted forearc ophiolite at ∼11.5 Ma, implying collision onset before ∼11.5 Ma. The collision initiation in Palawan could be better constrained to ∼18 Ma, based on the drowning of the Nido carbonate platform in the foreland. Therefore, the gravitational collapse of the Palawan wedge and the subsidence/formation of the Isugod Basin might reflect a significant uplift pulse in the hinterland of the wedge beginning within 13.4–11.5 Ma in the late stage of collision. It indicates that although compression originated from spreading of the SCS had ceased at 16–15 Ma, arc‐continent collision in Palawan did not stop and was sustained by compression from the upper plate afterward.

    Metadata

    Item Type: Article
    School: Birkbeck Faculties and Schools > Faculty of Science > School of Natural Sciences
    Research Centres and Institutes: Earth and Planetary Sciences, Institute of
    Depositing User: Andy Carter
    Date Deposited: 03 Jun 2024 12:33
    Last Modified: 03 Jul 2024 00:10
    URI: https://eprints.bbk.ac.uk/id/eprint/53622

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