SEARCH

SEARCH BY CITATION

References

  • Abers, G. A., A. Ferris, M. Craig, H. Davies, A. Lerner-Lam, J. C. Mutter, and B. Taylor (2002), Mantle compensation of active metamorphic core complexes at Woodlark rift in Papua New Guinea, Nature, 418, 856862.
  • Baldwin, S. L., G. S. Lister, E. J. Hill, D. A. Foster, and I. McDougall (1993), Thermochronologic constraints on the tectonic evolution of active metamorphic core complexes, D'Entrecasteaux Islands, Papua New Guinea, Tectonics, 12, 611628, doi:10.1029/93TC00235.
  • Baldwin, S. L., B. D. Monteleone, L. E. Webb, P. G. Fitzgerald, M. Grove, and J. Hill (2004), Pliocene eclogite exhumation at plate tectonic rates in eastern Papua New Guinea, Nature, 431, 263267.
  • Baldwin, S. L., L. E. Webb, and B. D. Monteleone (2008a), Late Miocene coesite-eclogite exhumed in the Woodlark Rift, Geology, 36, 735738.
  • Baldwin, S. L., T.A. Little, L.E. Webb, P.G. Fitzgerald, A. Zirakparvar, and K. Peters (2008b), Metamorphic core complex formation on Misima island during Miocene-Pliocene rifting and seafloor spreading in the Woodlark Basin, Papua New Guinea, EosTrans, AGU, Fall Meeting Suppl., Abstract #T11b-1867.
  • Daczko, N. R., P. Caffi, J. A. Halpin, and P. Mann (2009), Exhumation of the Dayman dome metamorphic core complex, eastern Papua New Guinea, J. Metamorph. Geol., 27, 405422.
  • Daczko, N. R., P. Caffi, and P. Mann (2011), Structural evolution of the Dayman dome metamorphic core complex, GSA Bulletin, Eastern Papua New Guinea, in press.
  • Davies, H. L. (1971), Peridotite-gabbro-basalt complex in eastern Papua: An overthrust plate of oceanic mantle and crust, Bull. Aust. Bur. Miner. Resour. Geol. Geophys., 128, 48.
  • Davies, H. L., and I. E. Smith (1971), Geology of eastern Papua, Geol. Soc. Am. Bull., 82, 82998312.
  • Davies, H. L., and A. L. Jaques (1984), Emplacement of ophiolite in Papua New Guinea. In: Gass, I. G., Lippard, S. J., and Shelton, A.W. (editors), Ophiolites and Oceanic Lithosphere, Geol. Soc. Spec. Publ., 13, 341350.
  • Davis, M., and N. J. Kusznir (2004), Depth-dependent lithospheric stretching at rifted continental margins, in Rheology and deformation of the lithosphere at continental margins, edited by G.D. Karner, D. Kohlstedt, N. Driscoll, and B. Taylor, pp. 92137, Columbia Univ. Press, New York.
  • Davies, H., J. Lock, D. Tiffin, E. Honza, Y. Okuda, F. Murakami, and K. Kisimoto (1987), Convergent tectonics in the Huon Peninsula region, Papua New Guinea, Geo-Mar. Lett., 7, 143152.
  • Davies, H. L., and R. G. Warren (1988), Origin of eclogite-bearing, domed, layered metamorphic complexes (“core complexes”) in the D'Entrecasteaux islands, Papua New Guinea, Tectonics, 7, 121.
  • Davies, H. L., and R. G. Warren (1992), Eclogites of the D'Entrecasteaux Islandsl, Contrib. Mineralog. Petrol., 112, 463474.
  • Driscoll, N. W., and G. D. Karner (1998), Lower crustal extension across the Northern Carnarvon basin, Australia: Evidence for an eastward dipping detachment, J. Geophys. Res., 103, 49754991.
  • Ellis, S., T. A. Little, L. M. Wallace, B. R. Hacker, and S. J. H. Buiter (2011), Feedback between rifting and diapirism drives UHP exhumation in the Woodlark Basin, Earth Planet. Sci. Lett., 311, 427438.
  • Fang, J. (2000), Styles and distribution of continental extension derived from the rift basins of Eastern Papua New Guinea, Unpublished Ph.D. Dissertation, Columbia University, New York.
  • Ferris, A., G. A. Abers, B. Zelt, B. Taylor, and S. Roecker (2006), Crustal structure across the transition from rifting to spreading: The Woodlark rift system of Papua New Guinea, Geophys. J. Int., 166, 622634.
  • Finlayson, D. M., K. J. Muirhead, J. P. Webb, G. Gibson, A. S. Furumoto, R. J. S. Cooke, and A. J. Russell (1976), Seismic investigation of the Papuan Ultramafic Belt, Geophys. J. R. Astron. Soc., 44, 4559.
  • Fossen, H., J. Hesthammer, T. E. S. Johansen, and T. O. Sygnabere (2003), Structural geology of the Huldra Field, northern North Sea – a major tilted fault block at the eastern edge of the Hordra Platform, Mar. Petrol. Geol., 20, 11051118.
  • Francis, G., J. Lock, and Y. Okudo (1987), Seismic stratigraphy and structure of the area to the southeast of the Trobriand Platform, Geo-Mar. Lett., 7, 121128.
  • Goodliffe, A. M. (1998), The rifting of continental and oceanic lithosphere: observations from the Woodlark Basin, Unpublished PhD Dissertation, University of Hawaii at Manoa, Honolulu, p. 190.
  • Goodliffe, A. M., and B. Taylor. (2007), The boundary between continental rifting and seafloor spreading in the Woodlark Basin, Papua New Guinea, in Imaging, Mapping and Modelling Continental Lithosphere Extension and Breakup, edited by G. D. Karner, G. Manatschal, and L.M. Pinhiero, vol. 282, pp. 213234, Geological Society of London Special Publications, London.
  • Hall, R. (2002), Cenozoic geological and plate tectonic evolution of SE Asia and the SW Pacific: computer-based reconstructions, model and animations, J. Asian Earth Sci., 20, 353431.
  • Hill, E. J. (1994), Geometry and kinematics of shear zones formed during continental extension in eastern Papua New Guinea, J. Struct. Geol., 16, 10931105.
  • Hill, E. J., S. L. Baldwin, and G. S. Lister (1995), Magmatism as an essential driving force for formation of active metamorphic core complexes in eastern Papua New Guinea, J. Geophys. Res., 100, 1044110451.
  • Honza, E., H. L. Davies, J. B. Keene, and D. L. Tiffin (1987), Plate boundaries and evolution of the Solomon Sea region, Geo-Mar. Lett., 7, 61168.
  • Huismans, R., and C. Beaumont (2011), Depth-dependent extension, two-stage breakup and cratonic underplating at rifted margins, Nature, 473, 7478.
  • Johnson, R. W., D. E. McKenzie, and I. E. M. Smith (1978), Delayed partial melting of subduction-modified mantle in Papua New Guinea, Tectonophysics, 46, 197216.
  • Jarvis, G., and D. McKenzie (1980), Sedimentary basin formation with finite extension rates, Earth Planet. Sci. Lett., 48, 4252.
  • Kington, J. D., and A. M. Goodliffe (2008), Plate motions and continental extension at the rifting to spreading transition in Woodlark Basin, Papua New Guinea: Can oceanic plate kinematics be extended into continental rifts?, Tectonophysics, 458, 8295.
  • Klemperer, S. L., T. A. Hauge, E. C. Hauser, J. E. Oliver, and C. J. Potter (1986), The Moho in the northern Basin and Range province, Nevada, along the COCORP 40 degrees N seismic-reflection transect, Geol. Soc. Am. Bull., 97, 603618.
  • Kusznir, N. J., and G. D. Karner (2007), Continental lithospheric thinning and breakup in response to upwelling divergent mantle flow: application to the Woodlark, Newfoundland and Iberia margins, in Imaging, Mapping and Modelling Continental Lithosphere Extension and Breakup, edited by G.D. Karner, G. Manatschal, and L. M. Pinheiro, pp. 389419, vol. 282, Geological Society of London Special Publications, London.
  • Lavier, L. L., and G. Manatschal (2006), A mechanism to thin the continental lithosphere at magma-poor margins, Nature, 440, 324328.
  • Lavier, L. L., M. S. Steckler, and F. Brigaud (2000), An improved method for reconstructing the stratigraphy and bathymetry of continental margins: Application to the Cenozoic tectonic and sedimentary history of the Congo margin, AAPG Bull., 84, 923939.
  • Little, T. A., S. L. Baldwin, P. G. Fitzgerald, and B. Monteleone (2007), Continental rifting and metamorphic core complex formation ahead of the Woodlark spreading ridge, D'Entrecasteaux Islands, Papua New Guinea, Tectonics, 26, 26.
  • Little, T. A., B. R. Hacker, S. M. Gordon, S. L. Baldwin, P. G. Fitzgerald, S. Ellis, and M. Korchinski (2011), Diapiric exhumation of Earth's youngest (UHP) eclogites in the gneiss domes of the D'Entrecasteaux Islands, Papua New Guinea, Tectonophysics, 510, 3968.
  • Lus, W., I. McDougall, and H. Davies (2004), Age of the metamorphic sole of the Papuan Ultramafic Belt Ophiolite, Papua New Guinea, Tectonophysics, 392, 85101.
  • Mann, P., and F. W. Taylor (2002), Emergent late Quaternary coral reefs of eastern Papua New Guinea constrain the regional pattern of oceanic ridge propagation, Eos Trans. AGU, Fall Meeting Suppl., Abstract T52C-1206.
  • Marrett, R. A., and R. W. Allmendinger (1992), The amount of extension on “small” faults: An example from the Viking Graben, Geology, 20, 4750.
  • Martinez, F., and B. Taylor (1996), Backarc spreading, rifting, and microplate rotation, between transform faults in the Manus basin, Mar. Geophys. Res., 18, 203224.
  • Martinez, F., A. M. Goodliffe, and B. Taylor (2001), Metamorphic core complex formation by density inversion and lower-crust extrusion, Nature, 411, 930934.
  • McClay, K. R., and A. D. Scott (1991), Experimental models of hangingwall deformation in ramp listric extensional fault systems, Tectonophysics, 188, 8596.
  • McKenzie, D. (1978), Some remarks on the development of sedimentary basins, Earth Planet. Sci. Lett., 40, 2532.
  • McKenzie, D., F. Nimmo, J. A. Jackson, P. B. Gans, and E. L. Miller (2000), Characteristics and consequences of flow in the lower crust, J. Geophys. Res., 105, 11,02911,046, doi:10.1029/1999JB900446.
  • Monteleone, B., S. L. Baldwin, T. R. Ireland, and P. G. Fitzgerald (2001), Thermochronometric constraints for the evolution of the Moresby Seamount, Woodlark Basin, Papua New Guinea, in Proceedings of ODP Leg 180, Scientific Results, Leg 180, edited by P. Huchon, B. Taylor, and A. Klaus, pp. 1159, Ocean Drilling Program, College Station, TX.
  • Monteleone, B. D., S. L. Baldwin, L. E. Webb, P. G. Fitzgerald, M. Grove, and A. K. Schmitt (2007), Late Miocene-Pliocene eclogite-facies metamorphism, D'Entrecasteaux Islands, SE Papua New Guinea, J. of Metamorphic Geology, 25, 245265.
  • Pigram, C. J., P. J. Davies, D. A. Feary, and P. A. Symonds (1989), Tectonic controls on carbonate platform evolution in southern Papua New Guinea: Passive margin to foreland basin, Geology, 17, 199202.
  • Quarles van Ufford, A., and M. Cloos (2005), Cenozoic tectonics of New Guinea, AAPG Bull., 89, 119140.
  • Reston, T. J. (2009), The extension discrepancy and syn-rift subsidence deficit at rifted margins, Pet. Geosci., 15, 217237.
  • Smith, I. E. M., and H. L. Davies (1976), Geology of the southeastern Papuan Mainland, Bur. Miner. Resour. J. Aust. Geol. Geophys., 165, 1109.
  • Spencer, J. E. (2010), Structural analysis of three extensional detachment faults with data from the 2000 Space-shuttle Rqadar Topography Misssion, GSA Today, 20, 210.
  • Taylor, B. W. (1957), Plant succession on recent volcanoes in Papua, J. Ecol., 45, 233243.
  • Taylor, G.A.M. (1958), The 1951 Eruption of Mount Lamington, Papua, BMR Bulletin 38, 2nd ed, 129 pp., published 1983, Australian Government Publishing Service.
  • Taylor, B., and P. Huchon (2002), Active continental extension in the western Woodlark Basin: a synthesis of Leg 180 results, in Proceedings of ODP Leg 180, Scientific Results, Leg, edited by B. Taylor, et al., vol. 180, pp. 1159, Ocean Drilling Program, College Station, TX.
  • Taylor, B., A. M. Goodliffe, and F. Martinez (1999), How continents break up: insights from Papua New Guinea, J. Geophys. Res., 104, 74977512.
  • Tirel, C., J. Brun, and E. Burov (2004), Thermomechanical modeling of extensional gneiss domes, in D.L. Whitney, C. Teyssier, and C.L. Siddoway, Gneiss Domes in Orogeny, Geol. Soc. Am. Spec. Paper 380, 6778.
  • Tjhin, K. T. (1976), Trobriand Basin Exploration, Papua New Guinea, J. Aust. Petrol. Explor. Assoc., 16, 8190.
  • Turcotte, D. L., and G. Schubert (2002), Geodynamics, Cambridge University Press, New York, 456 pp .
  • Wallace, L. M., C. Stevens, E. Silver, R. McCaffrey, W. Loratung, S. Hasiata, R. Stanaway, R. Curley, R. Rosa, and J. Taugaloidi (2004), GPS and seismological constraints on active tectonics and arc-continent collision in Papua New Guinea: Implications for mechanics of microplate rotations in a plate boundary zone, J. Geophys. Res., 109, 16.
  • Watts, A. B. (2001), Isostasy and Flexure of the Lithosphere, Cambridge University Press, Cambridge, UK, 458 pp.
  • Webb, L. E., S. L. Baldwin, T. A. Little, and P. G. Fitzgerald (2008), Can microplate rotation drive subduction inversion?, Geology, 36, 823826.
  • Weissel, J., B. Taylor, and G. Karner (1982), The opening of theWoodlark Basin, subduction of theWoodlark spreading system, and the evolution of northern Melanesia since mid-Pliocene time, Tectonophysics, 87, 253277.
  • Wernicke, B. (1985), Uniform-sense normal simple shear of the continental lithosphere, Can. J. Earth Sci., 22, 108125.
  • White, N., J. Jackson, and D. McKenzie (1986), The relationship between the geometry of normal faults and that of the sedimentary layers in their hanging walls, J. Struct. Geol., 8, 897909.
  • Yielding, G., T. Needham, and H. Jones (1996), Sampling of fault populations using sub-surface data: a review, J. Struct. Geol., 18, 135146.