1999
DOI: 10.1029/1998jb900115
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How continents break up: Insights from Papua New Guinea

Abstract: Abstract. The Woodlark Basin in the western Pacific forms a continuous system of active continental rifting evolving to well-developed seafloor spreading. Thin sediment cover in the basin and a dominantly nonvolcanic rift phase permit basement fabric and structures to be imaged by swath mapping and seismic reflection data in the continental and oceanic parts of the basin. Magnetic isochrons indicate a single Euler pole of opening for most of the basin history and allow us to infer the opening kinematics along … Show more

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Cited by 220 publications
(419 citation statements)
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References 62 publications
(47 reference statements)
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“…The elimination of the Corinth Rift as an example of a rift that deforms predominantly by low-angle normal faulting brings into question the importance of LANFs at early rift zones generally. LANFs are observed in continental rifts that (1) have undergone significant stretching and are close to breakup (e.g., Woodlark Rift, Papua New Guinea; Taylor et al 1999), (2) exhibit significant magmatic activity or base-crustal shear stress to rotate stress tensors (e.g., Basin and Range and central Apennines), or (3) have preexisting thrust faults optimally orientated for reactivation (e.g., central Apennines). The Corinth Rift is an example of a mildly stretched rift, which is amagmatic, and normal faulting is perpendicular to the Hellenide orogeny; thus none of these conditions apply.…”
Section: Discussionmentioning
confidence: 99%
“…The elimination of the Corinth Rift as an example of a rift that deforms predominantly by low-angle normal faulting brings into question the importance of LANFs at early rift zones generally. LANFs are observed in continental rifts that (1) have undergone significant stretching and are close to breakup (e.g., Woodlark Rift, Papua New Guinea; Taylor et al 1999), (2) exhibit significant magmatic activity or base-crustal shear stress to rotate stress tensors (e.g., Basin and Range and central Apennines), or (3) have preexisting thrust faults optimally orientated for reactivation (e.g., central Apennines). The Corinth Rift is an example of a mildly stretched rift, which is amagmatic, and normal faulting is perpendicular to the Hellenide orogeny; thus none of these conditions apply.…”
Section: Discussionmentioning
confidence: 99%
“…Dunbar & Sawyer (1989) use numerical models to demonstrate the role of zones of pre-existing lithosphetic weakness in the localization of strain at break-up, with or without the development of lithospheric-scale detachments. Taylor et al (1999) andHebert et al (2001) document the along-axis propagation of oceanic tiffing into the continental lithosphere through the emplacement of discrete mantle upwellings and ridge jumps, while Kusznir & Tymms (2003) have recently introduced models of depth-dependent stretching in which upper crustal extension is much less than that of the lower crust and lithospheric mantle, to…”
Section: Models Of Continental Break-upmentioning
confidence: 99%
“…The detachment concept is now widely applied in extensional and passive margin settings (e.g. Froitzheim & Eberli 1990;Lister et al 1991;Reston et al 1996;Driscoll & Karner 1998;Hodges et al 1998;Osmundsen et al 1998;Taylor et al 1999;Boncio et al 2000;Manatschal et al 2001;Canales et al 2004). However, the apparent conflict between generally accepted geological interpretations and rock mechanical and seismological considerations has yet to be resolved satisfactorily (Sibson 1985;Jackson 1987;Jackson & White 1989;Collettini & Sibson 2001;Scholz & Hanks 2004;cf.…”
mentioning
confidence: 99%