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Sdrolias, M. et al. (2003): Tectonic evolution of the Southwest Pacific using constraints from backarc basins
Leg/Site/Hole:
Related Expeditions:
Identifier:
ID:
2004-037250
Type:
georefid
Creator:
Name:
Sdrolias, M.
Affiliation:
University of Sydney, Division of Geology and Geophysics, Sydney, N.S.W., Australia
Role:
author
Name:
Mueller, R. Dietmar
Affiliation:
University of Sydney, Australia
Role:
author
Name:
Gaina, Carmen
Affiliation:
Role:
author
Identification:
Title:
Tectonic evolution of the Southwest Pacific using constraints from backarc basins
Year:
2003
Source:
In: Hills, R. R. (editor), Mueller, R. Dietmar (editor), Evolution and dynamics of the Australian Plate
Publisher:
Geological Society of America (GSA), Boulder, CO, United States
Volume:
372
Issue:
Pages:
343-359
Abstract:
We present a revised model for the formation of southwest Pacific backarc basins from 120 Ma to the present day. Our aim is to improve our understanding of the tectonic regime operating in the region and its consequences for global plate motions. Such an understanding helps explain present-day structures observed on the continental and oceanic lithosphere and the underlying mantle. Regional plate reconstructions were created using gravity and magnetic data from backarc basins, plate-circuit closure, global tomography and existing geological data. Our model predicts convergence between the Australian and Pacific Plates along the Norfolk Ridge from 120 to 100 Ma, followed by the fragmentation of East Gondwana. East-dipping subduction east of Australia was initiated at ca 90 Ma along the Loyalty-Three Kings Ridge and may have trapped Cretaceous quiet-zone crust in the Norfolk Basin. The inception of this subduction system may have provided a driving mechanism for the opening of the Tasman Sea by means of slab pull. A jump in subduction to the east was subsequently initiated along a west-dipping subduction system at ca 45 Ma driven by the collision of the Loyalty Arc with New Caledonia. Consequently, spreading in the North Loyalty Basin occurred by anticlockwise rotation of the subduction hinge between chrons 20 and 16 (43.8-35.3 Ma). This was concurrent to Norfolk Basin opening and formation of the Cook Fracture Zone. Backarc-basin formation then transferred to the South Fiji Basin where magnetic anomalies from chron 12 to 7N (30.9-25.2 Ma) have been identified as two contemporaneous triple junctions. The complex spreading regime witnessed in the South Fiji Basin appears analogous to the North Fiji Basin and may represent the surface expression of a hot, shallow mantle consistent in character to a superswell. The South Fiji Basin ceased forming at ca 25 Ma in response to a major plate reorganisation coinciding with the inception of the Alpine Fault, docking of the Ontong Java Plateau with the Melanesian Arc and transpressional obduction of the Northland ophiolite. A lull in basin formation throughout most of the Miocene was followed by the reinitiation of backarc basin formation in the Lau Basin (during the past approximately 7 million years) and North Fiji Basin (during the past approximately 10 million years). All these apparent episodes of backarc-basin formation during the past 45 million years are possibly related to mantle-slab interaction at the 670 km discontinuity.
Language:
English
Genre:
Rights:
URL:
Coverage:
Geographic coordinates:
North:-10.0000
West:160.0000
East: 180.0000
South:-40.0000
Keywords:
Solid-earth geophysics; Applied geophysics; back-arc basins; basins; continental lithosphere; Deep Sea Drilling Project; East Pacific; geophysical methods; geophysical profiles; geophysical surveys; gravity methods; Kermadec Trench; lithosphere; magnetic anomalies; mantle; North Loyalty Basin; Ocean Drilling Program; Pacific Ocean; plate tectonics; reconstruction; remote sensing; rotation; satellite methods; South Fiji Basin; South Pacific; Southeast Pacific; Southwest Pacific; subduction; surveys; tectonics; Tonga Trench; West Pacific;
.
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