Extension modes and breakup processes of the southeast China-Northwest Palawan conjugate rifted margins

Our understanding of continent-ocean transition structures and magmatism in the absence of excessive magmatic additions has been guided by the observations and models developed at the magma-poor Iberia-Newfoundland conjugate margins. Recently these models have been challenged in the South China Sea...

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Published in:Marine and Petroleum Geology
Main Authors: Nirrengarten, M, Mohn, G, Kusznir, NJ, Sapin, F, Despinois, F, Pubellier, M, Chang, SP, Larsen, HC, Ringenbach, JC
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier BV 2020
Subjects:
Newfoundland
Online Access:http://livrepository.liverpool.ac.uk/3107648/
https://doi.org/10.1016/j.marpetgeo.2019.104123
http://livrepository.liverpool.ac.uk/3107648/1/Nirrengarten_etal_JMPG_2019_accepted.pdf
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spelling ftunivliverpool:oai:livrepository.liverpool.ac.uk:3107648 2023-05-15T17:22:45+02:00 Extension modes and breakup processes of the southeast China-Northwest Palawan conjugate rifted margins Nirrengarten, M Mohn, G Kusznir, NJ Sapin, F Despinois, F Pubellier, M Chang, SP Larsen, HC Ringenbach, JC 2020 text http://livrepository.liverpool.ac.uk/3107648/ https://doi.org/10.1016/j.marpetgeo.2019.104123 http://livrepository.liverpool.ac.uk/3107648/1/Nirrengarten_etal_JMPG_2019_accepted.pdf en eng Elsevier BV http://livrepository.liverpool.ac.uk/3107648/1/Nirrengarten_etal_JMPG_2019_accepted.pdf Nirrengarten, M, Mohn, G, Kusznir, NJ, Sapin, F, Despinois, F, Pubellier, M, Chang, SP, Larsen, HC and Ringenbach, JC (2020) Extension modes and breakup processes of the southeast China-Northwest Palawan conjugate rifted margins. MARINE AND PETROLEUM GEOLOGY, 113. p. 104123. Article NonPeerReviewed 2020 ftunivliverpool https://doi.org/10.1016/j.marpetgeo.2019.104123 2023-01-19T23:59:27Z Our understanding of continent-ocean transition structures and magmatism in the absence of excessive magmatic additions has been guided by the observations and models developed at the magma-poor Iberia-Newfoundland conjugate margins. Recently these models have been challenged in the South China Sea in light of new IODP Expeditions 367-368-368X. We have used an integrated analysis of high quality seismic reflection and gravity anomaly data, calibrated against recent deep sea drilling results, to investigate margin structure and tectono-magmatic interplay during continental breakup and early seafloor spreading between the SE China-NW Palawan conjugate margins. The Eocene-Oligocene South China Sea rifting initiates in a heterogeneous and likely thermally un-equilibrated lithosphere formed by the Mesozoic Yenshanian orogeny. Gravity and joint inversion methods confirm lateral variation of basement densities across the conjugate margins. Lithospheric and basement heterogeneities induced a rifting style characterized by a series of highly thinned rift basins associated with extensional faulting soling out at various crustal levels. Final rifting in late Eocene triggered decompression melting forming mid-ocean ridge type magmatism, which emplaced within thinned continental crust as deep intrusions and shallow extrusive rocks. This initial magmatic activity was concomitant with continued deformation of continental crust by extensional faulting. Integrated analysis of seismic reflection profiles and gravity anomaly data combined with deep-sea boreholes accurately locate the continent-ocean boundary. We show that the initial igneous crust, continentward of oceanic magnetic anomaly C10n, is asymmetric in width and in morphology for the conjugate margins. The wider and faulted newly accreted domain on the SE China side indicates that magmatic accretion is associated with tectonic faulting during the formation of initial oceanic lithosphere. We suggest that deformation was not symmetrically distributed between the conjugate ... Article in Journal/Newspaper Newfoundland The University of Liverpool Repository Marine and Petroleum Geology 113 104123
institution Open Polar
collection The University of Liverpool Repository
op_collection_id ftunivliverpool
language English
description Our understanding of continent-ocean transition structures and magmatism in the absence of excessive magmatic additions has been guided by the observations and models developed at the magma-poor Iberia-Newfoundland conjugate margins. Recently these models have been challenged in the South China Sea in light of new IODP Expeditions 367-368-368X. We have used an integrated analysis of high quality seismic reflection and gravity anomaly data, calibrated against recent deep sea drilling results, to investigate margin structure and tectono-magmatic interplay during continental breakup and early seafloor spreading between the SE China-NW Palawan conjugate margins. The Eocene-Oligocene South China Sea rifting initiates in a heterogeneous and likely thermally un-equilibrated lithosphere formed by the Mesozoic Yenshanian orogeny. Gravity and joint inversion methods confirm lateral variation of basement densities across the conjugate margins. Lithospheric and basement heterogeneities induced a rifting style characterized by a series of highly thinned rift basins associated with extensional faulting soling out at various crustal levels. Final rifting in late Eocene triggered decompression melting forming mid-ocean ridge type magmatism, which emplaced within thinned continental crust as deep intrusions and shallow extrusive rocks. This initial magmatic activity was concomitant with continued deformation of continental crust by extensional faulting. Integrated analysis of seismic reflection profiles and gravity anomaly data combined with deep-sea boreholes accurately locate the continent-ocean boundary. We show that the initial igneous crust, continentward of oceanic magnetic anomaly C10n, is asymmetric in width and in morphology for the conjugate margins. The wider and faulted newly accreted domain on the SE China side indicates that magmatic accretion is associated with tectonic faulting during the formation of initial oceanic lithosphere. We suggest that deformation was not symmetrically distributed between the conjugate ...
format Article in Journal/Newspaper
author Nirrengarten, M
Mohn, G
Kusznir, NJ
Sapin, F
Despinois, F
Pubellier, M
Chang, SP
Larsen, HC
Ringenbach, JC
spellingShingle Nirrengarten, M
Mohn, G
Kusznir, NJ
Sapin, F
Despinois, F
Pubellier, M
Chang, SP
Larsen, HC
Ringenbach, JC
Extension modes and breakup processes of the southeast China-Northwest Palawan conjugate rifted margins
author_facet Nirrengarten, M
Mohn, G
Kusznir, NJ
Sapin, F
Despinois, F
Pubellier, M
Chang, SP
Larsen, HC
Ringenbach, JC
author_sort Nirrengarten, M
title Extension modes and breakup processes of the southeast China-Northwest Palawan conjugate rifted margins
title_short Extension modes and breakup processes of the southeast China-Northwest Palawan conjugate rifted margins
title_full Extension modes and breakup processes of the southeast China-Northwest Palawan conjugate rifted margins
title_fullStr Extension modes and breakup processes of the southeast China-Northwest Palawan conjugate rifted margins
title_full_unstemmed Extension modes and breakup processes of the southeast China-Northwest Palawan conjugate rifted margins
title_sort extension modes and breakup processes of the southeast china-northwest palawan conjugate rifted margins
publisher Elsevier BV
publishDate 2020
url http://livrepository.liverpool.ac.uk/3107648/
https://doi.org/10.1016/j.marpetgeo.2019.104123
http://livrepository.liverpool.ac.uk/3107648/1/Nirrengarten_etal_JMPG_2019_accepted.pdf
genre Newfoundland
genre_facet Newfoundland
op_relation http://livrepository.liverpool.ac.uk/3107648/1/Nirrengarten_etal_JMPG_2019_accepted.pdf
Nirrengarten, M, Mohn, G, Kusznir, NJ, Sapin, F, Despinois, F, Pubellier, M, Chang, SP, Larsen, HC and Ringenbach, JC (2020) Extension modes and breakup processes of the southeast China-Northwest Palawan conjugate rifted margins. MARINE AND PETROLEUM GEOLOGY, 113. p. 104123.
op_doi https://doi.org/10.1016/j.marpetgeo.2019.104123
container_title Marine and Petroleum Geology
container_volume 113
container_start_page 104123
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