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References

  • Andrews, J. C., and S. Clegg (1989), Coral Sea circulation and transport deduced from modal information models, Deep Sea Res., 36, 957974.
  • Ball, M. M., C. G. A. Harrison, R. J. Hurley, and C. E. Leist (1969), Bathymetry in the vicinity of the northeastern scarp of the Great Bahama Bank and Exuma Sound, Bull. Mar. Sci., 19, 243252.
  • Belopolsky, A. V., and A. W. Droxler (1999), Uppermost Pleistocene transgressive coragal reefs on the edge of the south Texas shelf: Analogs for reefal reservoirs buried in siliciclastic shelves, paper presented at 19th Annual Research Conference, GCSEPM Foundation, Houston, Tex.
  • Bosellini, A., C. Neri, and V. Luciani (1993), Platform margin collapses and sequence stratigraphic organization of carbonate slopes: Cretaceous-Eocene, Gargano Promontory, southern Italy, Terra Nova, 5, 282297.
  • Brunskill, G. J., K. J. Woolfe, and I. Zagorskis (1995), Distribution of riverine sediment chemistry on the shelf, slope and rise of the Gulf of Papua, Geo Mar. Lett., 15, 160165.
  • Carson, B. E., J. M. Francis, R. M. Leckie, A. W. Droxler, G. R. Dickens, S. J. Jorry, S. J. Bentley, L. C. Peterson, and B. N. Opdyke (2008), Benthic foraminiferal response to sea level change in the mixed siliciclastic-carbonate system of southern Ashmore Trough (Gulf of Papua), J. Geophys. Res., doi:10.1029/2006JF000629, in press.
  • Choi, D. R., and C. W. Holmes (1982), Foundations of Quaternary reefs in south-central Belize Lagoon, Central America, AAPG Bull., 66, 26632671.
  • Cooper, M., and B. Taylor (1987), Seismotectonics of New Guinea: A model for arc reversal following arc-continent collision, Tectonics, 6, 5368.
  • Crockett, J. S., C. A. Nittrouer, A. S. Ogston, D. F. Naar, and B. T. Donahue (2008), The morphology and filling of incised submarine valleys on the continental shelf near the mouth of the Fly River, Gulf of Papua, J. Geophys. Res., doi:10.1029/2006JF000674, in press.
  • Daniell, J. J. (2008), The development of a bathymetric grid for the Gulf of Papua and adjacent areas: A note describing its development, J. Geophys. Res., 113, F01S15, doi:10.1029/2006JF000673.
  • Davies, H. L., and I. E. Smith (1971), Geology of Eastern Papua, Geol. Soc. Am. Bull., 82, 32993312.
  • Davies, P. J., P. A. Symonds, D. A. Feary, and C. J. Pigram (1989), The evolution of the carbonate platforms of northeast Australia, in Controls on Carbonate Platform and Basin Development, SEPM Spec. Publ., vol. 44, edited by P. D. Crevello et al., pp. 233258, Soc. for Sediment. Geol., Tulsa, Okla.
  • Dickens, G. R., et al. (2006), Sediment accumulation on the shelf edges, adjacent slopes, and basin floors of the Gulf of Papua: A preliminary late Quaternary view of sedimentary sinks in the Papua New Guinea source-to-sink focus area, MARGINS Newsl., 16, 15.
  • Dingle, R. V. (1977), The anatomy of a large submarine slump on a sheared continental margin (SE Africa), J. Geol. Soc. London, 134, 293310.
  • Droxler, A. W., R. B. Alley, W. R. Howard, R. Z. Poore, and L. H. Burckle (2003), Unique and exceptionally long interglacial marine isotope stage 11: Window into Earth's warm future climate, in Earth's Climate and Orbital Eccentricity: The Marine Isotope Stage 11 Question, Geophys. Monogr. Ser., vol. 137, edited by A. W. Droxler, R. Z. Poore, and L. H. Burckle, AGU, Washington, D.C.
  • Droxler, A. W., G. Mallarino, J. M. Francis, G. R. Dickens, L. Beaufort, S. Bentley, L. Peterson, and B. Opdyke (2006), Early part of last deglaciation: A short interval favorable for the building of coralgal edifices on the edges of modern siliciclastic shelves (Gulf of Papua and Gulf of Mexico), paper presented at Annual Meeting, Am. Assoc. of Petrol. Geol., Houston, Tex.
  • Dunbar, G. B. (2000), Late Quaternary evolution of the northeast Australian continental margin, Ph.D. dissertation, James Cook Univ., Townsville, Queensland, Australia.
  • Dunbar, G. B., and G. R. Dickens (2003), The shedding of shallow marine carbonate over space and time in a tropical mixed siliciclastic-carbonate system: Carbonate components of late Quaternary periplatform ooze east of the Great Barrier Reef, Australia, Sedimentology, 50, 10611077.
  • Emery, K. O. (1948), Submarine geology of Bikini atoll, Geol. Soc. Am. Bull., 59, 855860.
  • Febo, L. A., S. J. Bentley, G. R. Dickens, A. W. Droxler, L. C. Peterson, and B. N. Opdyke (2006), Recent to Late Pleistocene sedimentary organic matter in the Gulf of Papua, Papua-New Guinea, paper presented at Annual Meeting, Am. Assoc. of Petrol. Geol., Houston, Tex.
  • Febo, L. A., S. J. Bentley, A. W. Droxler, G. R. Dickens, L. C. Peterson, and B. N. Opdyke (2008), Late Pleistocene to recent sedimentation, organic carbon delivery, and paleoclimatic inferences in the mid slopes of the northern Pandora Trough, Gulf of Papua, Papua New Guinea, J. Geophys. Res., doi:10.1029/2006JF000677, in press.
  • Ferro, C. E., A. W. Droxler, J. B. Anderson, and D. Mucciarone (1999), Late Quaternary shift of mixed siliciclastic-carbonate environments induced by glacial eustatic sea-level fluctuations in Belize, in Advances in Carbonate Sequence Stratigraphy: Application to Reservoirs, Outcrops and Models, SEPM Spec. Publ., vol. 63, edited by P. M. Harris, A. H. Saller, and J. A. Simo, pp. 385411, Soc. for Sediment. Geol., Tulsa, Okla.
  • Flood, R. D., P. L. Manley, R. O. Kowsmann, C. J. Appi, and C. Pirmez (1991), Seismic facies and late Quaternary growth of Amazon submarine fan, in Seismic Facies and Sedimentary Processes of Submarine Fans and Turbidite Systems, edited by P. Weimer, and M. H. Link, pp. 415433, Springer, New York.
  • Francis, J. M., B. Olson, G. R. Dickens, A. W. Droxler, L. Beaufort, T. De Garidel-Thoron, S. J. Bentley, L. C. Peterson, and B. Opdyke (2006), High siliciclastic flux during the last sea level transgression, Ashmore Trough, Gulf of Papua, paper presented at Annual Meeting, Am. Assoc. of Petrol. Geol., Houston, Tex.
  • Francis, J. M. (2007), Late Quaternary sediment dispersal and accumulation on slopes of the Great Barrier Reef mixed siliciclastic-carbonate depositional system, Gulf of Papua, Papua New Guinea and north Queensland Margin, Australia, Ph.D. dissertation, 304 pp., Rice Univ., Houston, Tex.
  • Franseen, E. K., T. E. Fekete, and L. C. Pray (1989), Evolution and destruction of a carbonate bank at the shelf margin: Grayburg formation (Permian), western escarpment, Guadalupe mountains, Texas, in Controls on Carbonate Platform and Basin Development, SEPM Spec. Publ., vol. 44, edited by P. D. Crevello et al., pp. 289304, Soc. for Sediment. Geol., Tulsa, Okla.
  • Grammer, G. M., R. N. Ginsburg, and P. M. Harris (1993), Timing of deposition, diagenesis, and failure of steep carbonate slopes in response to a high-amplitude/high-frequency fluctuation in sea level, Tongue of the Ocean, Bahamas, in Carbonate Sequence Stratigraphy: Recent Developments and Applications, AAPG Mem., vol. 57, edited by R. G. Loucks, and J. F. Sarg, pp. 107131, Am. Assoc. of Petrol. Geol., Tulsa, Okla.
  • Hamilton, W. (1979), Tectonics of the Indonesian Region, 345 pp., U. S. Geol. Surv., location?.
  • Handford, C. R., and R. G. Loucks (1993), Carbonate depositional sequences and systems tracts - responses of carbonate platforms to relative sea-level changes, in Carbonate Sequence Stratigraphy: Recent Developments and Applications, AAPG Mem., vol. 57, edited by R. G. Loucks, and J. F. Sarg, pp. 341, Am. Assoc. of Petrol. Geol., Tulsa, Okla.
  • Harris, P. T., E. K. Baker, A. R. Cole, and S. A. Short (1993), Preliminary study of sedimentation in the tidally dominated Fly River Delta, Gulf of Papua, Cont. Shelf Res., 13, 441472.
  • Harris, P. T., C. B. Pattiaratchi, J. B. Keene, R. W. Dalrymple, J. V. Gardner, and E. K. Baker (1996), Late Quaternary deltaic and carbonate sedimentation in the Gulf of Papua foreland basin: Response to sea-level change, J. Sed. Res., 66, 801819.
  • Harris, P. T., A. D. Heap, V. Passlow, M. Hughes, J. Daniell, M. Hemer, and O. Anderson (2005), Tidally incised valleys on tropical carbonate shelves: An example from the northern Great Barrier Reef, Australia, Mar. Geol., 220, 181204.
  • Hine, A. C., S. D. Locker, L. P. Tendesco, H. T. Mullins, P. Hallock, D. F. Belknap, J. L. Gonzales, A. C. Neumann, and S. W. Snyder (1992), Megabreccia shedding from modern, low relief carbonate platforms, Nicaraguan rise, Geol. Soc. Am. Bull., 104, 928943.
  • Hutchinson, M. F. (1989), A new procedure for gridding elevation and stream line data with automatic removal of spurious pits, J. Hydrol., 106, 211232.
  • Jablonski, D., S. Pono, and O. A. Larsen (2006), Prospectivity of the deepwater Gulf of Papua and surroundings in Papua New Guinea (PNG) - A new look at a frontier region, Aust. Petrol. Prod. Explor. Assoc. J., 46, 122.
  • Jorry, S. J., A. W. Droxler, G. Mallarino, G. R. Dickens, S. J. Bentley, L. Beaufort, and L. C. Peterson (2008), Bundled turbidite deposition in the central Pandora Trough (Gulf of Papua) since Last Glacial Maximum: Linking sediment nature and accumulation to sea-level fluctuations at millennial time scale, J. Geophys. Res., doi:10.1029/2006JF000649, in press.
  • Keen, T. R., D. S. Ko, R. L. Slingerland, S. Riedlinger, and P. Flynn (2006), Potential transport pathways of terrigenous material in the Gulf of Papua, Geophys. Res. Lett., 33, L04608, doi:10.1029/2005GL025416.
  • Kolla, V., and F. Coumes (1984), Morpho-acoustic and sedimentologic characteristics of the Indus Fan, Geo Mar. Lett., 3, 133139.
  • Labeyrie, L., J. Cole, K. Alverson, and T. Stocker (2003), The history of climate dynamics in the Late Quaternary, in Paleoclimate, Global Change and the Future, edited by K. D. Alverson, R. S. Bradley, and T. F. Pedersen, pp. 3361, Springer, New York.
  • Lea, D. W., P. A. Martin, D. K. Pak, and H. J. Spero (2002), Reconstructing a 350 ky history of sea level using planktonic Mg/Ca and oxygen isotope records from a Cocos Ridge core, Quat. Sci. Rev., 21, 283293.
  • Lewis, K. B. (1971), Slumping on a continental slope inclined at 1°–4°, Sedimentology, 16, 97110.
  • Mallarino, G., J. M. Francis, A. W. Droxler, B. Opdyke, S. Bentley, G. R. Dickens, and L. Peterson (2004), Uppermost Pleistocene sea-level transgression across a Last Glacial Maximum mixed carbonate/siliciclastic coastline, modern Gulf of Papua shelf break in the northern Ashmore Trough, Eos. Trans. AGU, 87(47), Fall Meet. Suppl., Abstract 0S51B-1303.
  • Martinsen, O. J. (1989), Styles of soft-sediment deformation on a Namurian (Carboniferous) delta slope, western Irish Namurian Basin, Ireland, in Deltas: Sites and Traps for Fossil Fuels, edited by M. K. G. Whateley, and K. T. Pickering, Geol. Soc. of London Spec. Publ., 41, 167177.
  • Martinsen, O. J., and B. Bakken (1990), Extensional and compressional zones in slumps and slides in the Namurian of County Clare, Ireland, J. Geol. Soc. London, 147, 153164.
  • McFadden, M. A., L. C. Peterson, S. J. Bentley, G. R. Dickens, A. W. Droxler, and B. Opdyke (2006), Role of paleoclimate and paleoceanography in sediment delivery to the Gulf of Papua over the last ∼300 kyrs based on foraminiferal and organic matter stable isotope records, paper presented at Annual Meeting, Am. Assoc. of Petrol. Geol., Houston, Tex.
  • Milliman, J. D. (1995), Sediment discharge to the ocean from small mountainous rivers: The New Guinea example, Geo Mar. Lett., 15, 127133.
  • Milsom, J. (1985), New Guinea and the western Melanesian arcs, in The Ocean Basins and Margins: The Pacific Ocean, edited by A. E. M. Nairn, F. G. Stehli, and S. Uyeda, pp. 551605, Plenum, New York.
  • Muhammad, Z., S. J. Bentley, A. W. Droxler, G. R. Dickens, B. N. Opdyke, and L. C. Peterson (2008), Excess 210Pb inventories and fluxes along the continental slope and basins of the Gulf of Papua, J. Geophys. Res., doi:10.1029/2006JF000676, in press.
  • Mullins, H. T., A. F. Gardulski, and A. C. Hine (1986), Catastrophic collapse of the west Florida carbonate platform margin, Geology, 14, 167170.
  • Mullins, H. T., and A. C. Hine (1989), Scalloped bank margins: Beginning of the end for carbonate platforms? Geology, 17, 3033.
  • Mutti, E. (1985), Turbidite systems and their relations to depositional sequences, in Provenance of Arenites, edited by G. G. Zuffa, pp. 6593, D. Reidel, Amsterdam.
  • Norvick, M. S., M. A. Smith, and M. R. Power (2001), The plate tectonic evolution of eastern Australasia guided by the stratigraphy of the Gippsland Basin, in Eastern Australasian Basins Symposium 2001: A Refocused Energy Perspective for the Future, edited by K. C. Hill, and T. Bernecker, pp. 1523, Petrol. Explor. Soc. of Aust., Melbourne.
  • NSF MARGINS Office (2004), NSF MARGINS Program Science Plans, pp. 170, Lamont-Doherty Earth Obs., Columbia Univ., Ithaca, N. Y.
  • Patterson, L. J., S. J. Bentley, D. J. Henry, G. R. Dickens, A. W. Droxler, L. C. Peterson, and B. N. Opdyke (2006), Petrological and geochemical investigations of deep sea turbidite sands in the Pandora and Moresby Troughs, source to sink Papua New Guinea focus area, paper presented at Annual Meeting, Am. Assoc. of Petrol. Geol., Houston, Tex.
  • Peckham, S. D. (1998), Efficient extraction of river networks and hydrologic measurements from digital elevation data, in Stochastic Methods in Hydrology: Rain, Landforms, and Floods, edited by O. E. Barndorff-Neilsen et al., pp. 173203, World Sci., Singapore.
  • 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.
  • Porebski, S. J., and R. J. Steel (2003), Shelf-margin deltas: their stratigraphic significance and relation to deepwater sands, Earth Sci. Rev., 62, 283326.
  • Posamentier, H. W., and P. R. Vail (1988), Eustatic controls on clastic deposition II - sequence and systems tract models, in Sea-Level Changes: An Integrated Approach, SEPM Spec. Publ., vol. 42, edited by C. K. Wilgus et al., Soc. for Sediment. Geol., Tulsa, Okla.
  • Quarles van Ufford, A., and M. Cloos (2005), Cenozoic tectonics of New Guinea, AAPG Bull., 89, 119140.
  • Reading, H. G., and M. Richards (1994), Turbidite systems in deep-water basin margins classified by grain size and feeder system, AAPG Bull., 78, 792822.
  • RIVIX (2004), RiverTools 3.0 Topographic and River Network Analysis User's Manual, 218 pp., RIVIX LLC, Broomfield, Colo.
  • Ryan, D. A., B. N. Opdyke, and J. S. Jell (2001), Holocene sediments of Wistari Reef: Towards a global quantification of coral reef related neritic sedimentation in the Holocene, Palaeogeogr. Palaeoclimatol. Palaeoecol., 175, 173184.
  • Sarg, J. F. (1988), Carbonate sequence stratigraphy, in Sea-Level Changes-An Intergrated Approach, SEPM Spec. Publ., vol. 42, edited by C. K. Wilgus et al., pp. 155181, Soc. for Sediment. Geol., Tulsa, Okla.
  • Sarg, J. F., L. J. Weber, J. R. Markello, J. K. Southwell, J. M. Thomson, J. J. Kmeck, M. E. Christal, and Y. Tanaka (1996), Carbonate sequence stratigraphy - A summary and perspective with case history, Neogene, Papua New Guinea, in Proceedings of the International Symposium on Sequence Stratigraphy in SE Asia, edited by C. A. Caughey et al., pp. 137179, Indonesian Petrol. Assoc., Jakarta.
  • Stewart, W. D., O. A. Dixon, and B. R. Rust (1993), Middle cambrian carbonate-platform collapse, southeastern Canadian rocky mountains, Geology, 21, 687690.
  • Stoddart, D. R. (1962), Three Caribbean atolls: Turneffe Islands, Lighthouse Reef, and Glover's Reef, British Honduras, Atoll Res. Bull. 87, 151 pp.
  • Schlager, W., J. A. Austin, W. Corso, C. L. McNulty, E. Fluegel, O. Renz, and J. C. Steinmetz (1984), Early Cretaceous platform re-entrant and escarpment erosion in the Bahamas, Geology, 12, 147150.
  • Stow, D. A. V., H. G. Reading, and J. D. Collinson (1996), Deep seas, in Sedimentary Environments: Processes, Facies and Stratigraphy, edited by H. G. Reading, pp. 395453, John Wiley, Hoboken, N. J.
  • Symonds, P. A., P. J. Davies, C. J. Pigram, D. A. Feary, and G. C. H. Chaproniere (1991), Northeast Australia, Torres Shelf - Pandora Trough, Cont. Margins Progr. Folio, 4, 27 pp.
  • Tcherepanov, E. N., A. W. Droxler, P. Lapointe, G. R. Dickens, S. J. Bentley, L. Beaufort, L. C. Peterson, J. Daniell, and B. N. Opdyke (2008), Neogene evolution of the mixed carbonate-siliciclastic system in the Gulf of Papua, Papua New Guinea, J. Geophys. Res., 113, F01S21, doi:10.1029/2006JF000684.
  • Walsh, J. P., and C. A. Nittrouer (2003), Contrasting styles of off-shelf sediment accumulation in New Guinea, Mar. Geol., 196, 105125.
  • Walsh, J. P., C. A. Nittrouer, C. M. Palinkas, A. S. Ogston, R. W. Sternberg, and G. J. Brunskill (2004), Clinoform mechanics in the Gulf of Papua, New Guinea, Cont. Shelf Res., 24, 24872510.
  • Weimer, P. (1990), Sequence stratigraphy, facies geometries, and depositional history of the Mississippi Fan, Gulf of Mexico, AAPG Bull., 74, 425453.
  • Wessel, P., and W. H. F. Smith (1998), New, improved version of generic mapping tool released, Eos Trans. AGU, 79, 579.
  • Winterer, E. L. (1970), Submarine valley systems around the Coral Sea Basin (Australia), Mar. Geol., 8, 229244.
  • Wolanski, E., and D. M. Alongi (1995), A hypothesis for the formation of a mud bank in the Gulf of Papua, Geo Mar. Lett., 15, 166171.
  • Wolanski, E., A. Norro, and B. King (1995), Water circulation in the Gulf of Papua, Cont. Shelf Res., 15, 185212.
  • Wyrtki, K. (1962), Geopotential topographies and associated circulation in the western South Pacific Ocean, Aust. J. Mar. Freshwater Res., 13, 89105.
  • Zampetti, V., W. Schlager, J. van Konijnenburg, and A. Everts (2004), 3-D seismic characterization of submarine landslides on a Miocene carbonate platform: Luconia Province, Malaysia, J. Sed. Res., 74, 817830.