Tectonic and oceanographic process interactions archived in Late Cretaceous to Present deep‐marine stratigraphy on the Exmouth Plateau, offshore NW Australia
Deep‐marine deposits provide a valuable archive of process interactions between sediment gravity flows, pelagic sedimentation and thermohaline bottom‐currents. Stratigraphic successions can also record plate‐scale tectonic processes (e.g. continental breakup and shortening) that impact long‐term oce...
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| Format: | Article in Journal/Newspaper |
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Wiley
2019
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| Online Access: | https://eprints.whiterose.ac.uk/138699/ https://eprints.whiterose.ac.uk/138699/1/Nugraha%20et%20al._Exmouth%20Plateau_for%20Basin%20Research.pdf |
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ftleedsuniv:oai:eprints.whiterose.ac.uk:138699 2023-05-15T13:57:46+02:00 Tectonic and oceanographic process interactions archived in Late Cretaceous to Present deep‐marine stratigraphy on the Exmouth Plateau, offshore NW Australia Nugraha, HD Jackson, CA-L Johnson, HD Hodgson, DM Reeve, MT 2019-06 text https://eprints.whiterose.ac.uk/138699/ https://eprints.whiterose.ac.uk/138699/1/Nugraha%20et%20al._Exmouth%20Plateau_for%20Basin%20Research.pdf en eng Wiley https://eprints.whiterose.ac.uk/138699/1/Nugraha%20et%20al._Exmouth%20Plateau_for%20Basin%20Research.pdf Nugraha, HD, Jackson, CA-L, Johnson, HD et al. (2 more authors) (2019) Tectonic and oceanographic process interactions archived in Late Cretaceous to Present deep‐marine stratigraphy on the Exmouth Plateau, offshore NW Australia. Basin Research, 31 (3). pp. 405-430. ISSN 0950-091X Article NonPeerReviewed 2019 ftleedsuniv 2023-01-30T22:12:49Z Deep‐marine deposits provide a valuable archive of process interactions between sediment gravity flows, pelagic sedimentation and thermohaline bottom‐currents. Stratigraphic successions can also record plate‐scale tectonic processes (e.g. continental breakup and shortening) that impact long‐term ocean circulation patterns, including changes in climate and biodiversity. One such setting is the Exmouth Plateau, offshore NW Australia, which has been a relatively stable, fine‐grained carbonate‐dominated continental margin from the Late Cretaceous to Present. We combine extensive 2D (~40,000 km) and 3D (3,627 km2) seismic reflection data with lithologic and biostratigraphic information from wells to reconstruct the tectonic and oceanographic evolution of this margin. We identified three large‐scale seismic units (SUs): (a) SU‐1 (Late Cretaceous)—500 m‐thick, and characterised by NE‐SW‐trending, slope‐normal elongate depocentres (c. 200 km long and 70 km wide), with erosional surfaces at their bases and tops, which are interpreted as the result of contour‐parallel bottom‐currents, coeval with the onset of opening of the Southern Ocean; (b) SU‐2 (Palaeocene—Late Miocene)—800 m‐thick and characterised by: (a) very large (amplitude, c. 40 m and wavelength, c. 3 km), SW‐migrating, NW‐SE‐trending sediment waves, (b) large (4 km‐wide, 100 m‐deep), NE‐trending scours that flank the sediment waves and (c) NW‐trending, 4 km‐wide and 80 m‐deep turbidite channel, infilled by NE‐dipping reflectors, which together may reflect an intensification of NE‐flowing bottom currents during a relative sea‐level fall following the establishment of circumpolar‐ocean current around Antarctica; and (c) SU‐3 (Late Miocene—Present)—1,000 m‐thick and is dominated by large (up to 100 km3) mass‐transport complexes (MTCs) derived from the continental margin (to the east) and the Exmouth Plateau Arch (to the west), and accumulated mainly in the adjacent Kangaroo Syncline. This change in depositional style may be linked to tectonically‐induced seabed ... Article in Journal/Newspaper Antarc* Antarctica Southern Ocean White Rose Research Online (Universities of Leeds, Sheffield & York) Southern Ocean |
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Open Polar |
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White Rose Research Online (Universities of Leeds, Sheffield & York) |
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ftleedsuniv |
| language |
English |
| description |
Deep‐marine deposits provide a valuable archive of process interactions between sediment gravity flows, pelagic sedimentation and thermohaline bottom‐currents. Stratigraphic successions can also record plate‐scale tectonic processes (e.g. continental breakup and shortening) that impact long‐term ocean circulation patterns, including changes in climate and biodiversity. One such setting is the Exmouth Plateau, offshore NW Australia, which has been a relatively stable, fine‐grained carbonate‐dominated continental margin from the Late Cretaceous to Present. We combine extensive 2D (~40,000 km) and 3D (3,627 km2) seismic reflection data with lithologic and biostratigraphic information from wells to reconstruct the tectonic and oceanographic evolution of this margin. We identified three large‐scale seismic units (SUs): (a) SU‐1 (Late Cretaceous)—500 m‐thick, and characterised by NE‐SW‐trending, slope‐normal elongate depocentres (c. 200 km long and 70 km wide), with erosional surfaces at their bases and tops, which are interpreted as the result of contour‐parallel bottom‐currents, coeval with the onset of opening of the Southern Ocean; (b) SU‐2 (Palaeocene—Late Miocene)—800 m‐thick and characterised by: (a) very large (amplitude, c. 40 m and wavelength, c. 3 km), SW‐migrating, NW‐SE‐trending sediment waves, (b) large (4 km‐wide, 100 m‐deep), NE‐trending scours that flank the sediment waves and (c) NW‐trending, 4 km‐wide and 80 m‐deep turbidite channel, infilled by NE‐dipping reflectors, which together may reflect an intensification of NE‐flowing bottom currents during a relative sea‐level fall following the establishment of circumpolar‐ocean current around Antarctica; and (c) SU‐3 (Late Miocene—Present)—1,000 m‐thick and is dominated by large (up to 100 km3) mass‐transport complexes (MTCs) derived from the continental margin (to the east) and the Exmouth Plateau Arch (to the west), and accumulated mainly in the adjacent Kangaroo Syncline. This change in depositional style may be linked to tectonically‐induced seabed ... |
| format |
Article in Journal/Newspaper |
| author |
Nugraha, HD Jackson, CA-L Johnson, HD Hodgson, DM Reeve, MT |
| spellingShingle |
Nugraha, HD Jackson, CA-L Johnson, HD Hodgson, DM Reeve, MT Tectonic and oceanographic process interactions archived in Late Cretaceous to Present deep‐marine stratigraphy on the Exmouth Plateau, offshore NW Australia |
| author_facet |
Nugraha, HD Jackson, CA-L Johnson, HD Hodgson, DM Reeve, MT |
| author_sort |
Nugraha, HD |
| title |
Tectonic and oceanographic process interactions archived in Late Cretaceous to Present deep‐marine stratigraphy on the Exmouth Plateau, offshore NW Australia |
| title_short |
Tectonic and oceanographic process interactions archived in Late Cretaceous to Present deep‐marine stratigraphy on the Exmouth Plateau, offshore NW Australia |
| title_full |
Tectonic and oceanographic process interactions archived in Late Cretaceous to Present deep‐marine stratigraphy on the Exmouth Plateau, offshore NW Australia |
| title_fullStr |
Tectonic and oceanographic process interactions archived in Late Cretaceous to Present deep‐marine stratigraphy on the Exmouth Plateau, offshore NW Australia |
| title_full_unstemmed |
Tectonic and oceanographic process interactions archived in Late Cretaceous to Present deep‐marine stratigraphy on the Exmouth Plateau, offshore NW Australia |
| title_sort |
tectonic and oceanographic process interactions archived in late cretaceous to present deep‐marine stratigraphy on the exmouth plateau, offshore nw australia |
| publisher |
Wiley |
| publishDate |
2019 |
| url |
https://eprints.whiterose.ac.uk/138699/ https://eprints.whiterose.ac.uk/138699/1/Nugraha%20et%20al._Exmouth%20Plateau_for%20Basin%20Research.pdf |
| geographic |
Southern Ocean |
| geographic_facet |
Southern Ocean |
| genre |
Antarc* Antarctica Southern Ocean |
| genre_facet |
Antarc* Antarctica Southern Ocean |
| op_relation |
https://eprints.whiterose.ac.uk/138699/1/Nugraha%20et%20al._Exmouth%20Plateau_for%20Basin%20Research.pdf Nugraha, HD, Jackson, CA-L, Johnson, HD et al. (2 more authors) (2019) Tectonic and oceanographic process interactions archived in Late Cretaceous to Present deep‐marine stratigraphy on the Exmouth Plateau, offshore NW Australia. Basin Research, 31 (3). pp. 405-430. ISSN 0950-091X |
| _version_ |
1766265664738164736 |