SEARCH

SEARCH BY CITATION

References

  • Alley, R. B., et al. (1993), Abrupt increase in Greenland snow accumulation at the end of the Younger Dryas event, Nature, 362, 527529.
  • Anderson, D. M., W. L. Prell, and N. J. Barratt (1989), Estimates of sea surface temperature in the Coral Sea at the Last Glacial Maximum, Paleoceanography, 4, 615627.
  • Andres, M. S., S. M. Bernasconi, J. A. Mc Kenzie, and U. Rohl (2003), Southern Ocean deglacial record supports global Younger Dryas, Earth Planet. Sci. Lett., 216, 515524.
  • Andresen, N., J. J. G. Reijmer, and A. W. Droxler (2003), Timing and distribution of calciturbidites around a deeply submerged carbonate platform in a seismically active setting (Pedro Bank, Northern Nicaragua Rise Caribbean Sea), Int. J. Earth Sci., 92, 573592.
  • Bard, E., B. Hamelin, R. G. Fairbanks, and A. Zindler (1990), Calibration of the 14C timescale over the past 30,000 years using mass spectrometric U−Th ages from Barbados corals, Nature, 345, 405410.
  • Bard, E., M. Arnold, J. Mangerud, M. Paterne, L. D. Labeyrie, J. Duprat, E. Melieres, E. Sønstegaard, and J. C. Duplessy (1994), The North Atlantic atmosphere-sea surface 14C gradient during the Younger Dryas climatic event, Earth Planet. Sci. Lett., 126, 257287.
  • Bassett, S. E., G. A. Milne, J. X. Mitrovica, and P. U. Clark (2005), Ice sheet and solid earth influences on far-field sea-level histories, Science, 309, 925928.
  • Belopolsky, A. V., and A. W. Droxler (1999), Uppermost Pleistocene transgressive coralgal reefs on the edge of the South Texas Shelf: Analogs for reefal reservoirs buried in siliciclastic shelves, paper presented, at 19th Annual Research Conference Advanced Reservoir Characterization, Golf Coast Sect. of the Soc. of Econ. Paleontol. and Mineral. Found., Houston, Tex.
  • Bouma, A. H. (1982), Intraslope basins in northwest Gulf of Mexico: A key to ancient submarine canyons and fans, in Studies in Continental Margin Geology, Am. Assoc. of Pet. Geol. Mem. Ser., vol. 34, edited by J. S. Watkins, and C. L. Drake, pp. 567581, Am. Assoc. of Pet. Geol., Tulsa, Okla.
  • Budd, D. A., and P. M. Harris (Eds.) (1990), Carbonate-Siliciclastic Mixtures,, SEMP Reprint Ser., vol. 14, 272 pp., Soc. of Sediment. Geol., Tulsa, Okla.
  • Carson, B., J. Francis, R. Leckie, A. Doxler, G. R. Dickens, S. J. Jorry, S. J. Bentley, L. C. Peterson, and B. Opdyke (2008), Benthic foraminiferal response to sea level change in the mixed siliciclastic-carbonate system of the southern Ashmore Trough (Gulf of Papua), J. Geophys. Res., doi:10.1029/2006JF000629, in press.
  • Chodankar, A. R., V. K. Banakar, and T. Oba (2005), Past 100 ky surface salinity-gradient response in the eastern Arabian Sea to the summer monsoon variation recorded by delta (super 18) O of G. sacculifer, Global Planet. Change, 47, 135142.
  • Clark, P. U., A. Marshall, A. McCabe, A. C. Mix, and A. J. Weaver (2004), Rapid rise of sea level 19000 years ago and its global implications, Science, 304, 11411144.
  • Corrège, T., M. K. Gagan, J. W. Beck, J. S. Burr, G. Cabioch, and F. Le Cornec (2004), Interdecadal variation in the extent of South Pacific tropical waters during the Younger Dryas event, Nature, 428, 927929.
  • de Garidel-Thoron, T., L. Beaufort, B. K. Linsley, and S. Dannenmann (2001), Millennial-scale dynamics of the east Asian winter monsoon during the last 200,000 years, Paleoceanography, 16, 112.
  • de Garidel-Thoron, T., L. Beaufort, F. Bassinot, and P. Henry (2004), Evidence for large methane releases to the atmosphere from deep-sea gas-hydrate dissociation during the last glacial episode, Proc. Natl. Acad. Sci. U. S. A., 101, 91879192.
  • Droxler, A. W., and W. Schlager (1985), Glacial versus interglacial sedimentation rates and turbidite frequency in the Bahamas, Geology, 13, 799802.
  • Droxler, A. W., J. W. Morse, and W. A. Kornicker (1988), Controls on carbonate mineral accumulation in Bahamian basins and adjacent Atlantic Ocean sediments, J. Sediment. Res., 58, 120130.
  • Droxler, A. W., G. Mallarino, J. M. Francis, G. J. Dickens, B. N. Opdyke, L. Beaufort, J. Daniell, S. J. Bentley, and L. C. Peterson (2006), Early transgressive establishment of relict uppermost Pleistocene barrier reefs on LGM coastal siliciclastic deposits in the Gulfs of Papua and Mexico: Clue to understand the Mid-Brunhes origin of modern barrier reefs, in AAPG Meeting:Abstract Book, vol. 55, pp. 3738, Am. Assoc. of Pet. Geol., Tulsa, Okla.
  • Dürkoop, A., W. Hale, S. Mulitza, J. Pätzold, and G. Wefer (1997), Late Quaternary variations of sea surface salinity and temperature in the western tropical Atlantic: Evidence from ä18O of Globigerinoides Sacculifer, Paleoceanography, 12, 764772.
  • Dunbar, G. B., G. R. Dickens, and R. M. Carter (2000), Sediment flux across the Great Barrier Reef Shelf to the Queensland Trough over the last 300 ky, Sediment. Geol., 133, 4992.
  • Duplessy, J.-C., E. Bard, M. Arnold, N. J. Shackleton, J. Duprat, and L. Labeyrie (1991), How fast did the ocean-atmosphere system run during the last deglaciation? Earth Planet. Sci. Lett., 103, 2740.
  • Edwards, R. L., J. W. Beck, G. S. Burr, D. J. Donahue, J. M. A. Chappell, A. L. Bloom, E. R. M. Druffel, and F. W. Taylor (1993), A large drop in atmospheric 14C/12C and reduced melting in the Younger Dryas, documented with 230Th ages of corals, Science, 260, 962968.
  • Fairbanks, R. G. (1989), A 17,000 year glacio-eustatic sea level record; influence of glacial melting rates on the Younger Dryas event and deep ocean circulation, Nature, 342, 637642.
  • Fairbanks, R. G., R. A. Mortlock, T. C. Chiu, L. Cao, A. Kaplan, T. P. Guilderson, T. W. Fairbanks, A. L. Bloom, P. M. Grootes, and M. J. Nadeau (2005), Radiocarbon calibration curve spanning 0 to 50000 years BP based on paired 230Th/ 234U/238U and 14C dates on pristine corals, Quat. Sci. Rev., 24, 17811796.
  • Febo, L. A., S. J. Bentley, J. H. Wrenn, A. W. Droxler, G. R. Dickens, L. C. Peterson, and B. Opdyke (2008), Late Pleistocene and Holocene sedimentation, organic-carbon delivery, and paleoclimatic inferences on the continental slope of the northern Pandora Trough, Gulf of Papua, 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, SEMP Spec. Publ., vol. 63, edited by P. M. Harris, A. H. Saller, and J. A. Simo, pp. 385411, Soc. of Sediment. Geol., Tulsa, Okla.
  • Foreman, J. L., K. R. Walker, L. J. Weber, S. G. Driese, and R.B. Dreier (1991), Slope and basinal carbonate deposition in the Nolichucky Shale (Upper Cambrian), east Tennessee: Effect of carbonate suppression by siliciclastic deposition on basin-margin morphology, in Mixed Carbonate-Siliciclastic Sequences, SEMP Core Workshop Ser., vol. 15, edited by A. J. Lomando, and P. M. Harris, pp. 511539, Tulsa, Okla.
  • Francis, J., J. J. Daniell, A. W. Droxler, G. R. Dickens, S. J. Bentley, L. C. Peterson, B. Opdyke, and L. Beaufort (2008), Deepwater geomorphology of the mixed siliciclastic-carbonate system, Gulf of Papua, J. Geophys. Res., doi:10.1029/2007JF000851, in press.
  • Gibbs, R. J. (1981), Sites of river-derived sedimentation in the ocean, Geology, 9, 7780.
  • Gischler, E. (2003), Holocene lagoonal development in the isolated carbonate platforms off Belize, Sediment. Geol., 159, 113132.
  • Glaser, K. S., and A. W. Droxler (1993), Controls and development of late Quaternary periplatform carbonate stratigraphy in Walton Basin (Northern Nicaragua Rise Caribbean Sea), Paleoceanography, 8, 243274.
  • Goldsmith, J. R., D. L. Graf, and H. C. Heard (1961), Lattice constants of the calcium magnesium carbonates, Am. Mineral., 46, 453457.
  • Grootes, P. M., M. Stuiver, J. W. C. White, S. Johnsen, and J. Jouzel (1993), Comparison of oxygen isotope records from the GISP2 and GRIP Greenland ice cores, Nature, 366, 552554.
  • Guilderson, T., R. G. Fairbanks, and J. Rubenstone (2001), Tropical Atlantic coral oxygen isotopes; glacial-interglacial sea surface temperatures and climate change, Mar. Geol., 172, 7589.
  • Hanebuth, T., K. Stattegger, and P. M. Grootes (2000), Rapid flooding of the Sunda Shelf: A late glacial sea-level record, Science, 288, 10331035.
  • Harris, P. T., E. K. Baker, A. R. Cole, and S. A. Short (1993), A 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, E. K. Baker, A. R. Cole, D. Mitchell, P. Gibbs, and W. W. Schroeder (1996), Late Quaternary deltaic and carbonate sedimentation in the Gulf of Papua foreland basin: Response to sea-level change, J. Sediment. Res., 66, 801819.
  • Holmes, A. E., and N. Christie-Blick (1993), Origin of sedimentary cycles in mixed carbonate-siliciclastic systems: An example from the Canning Basin, Western Autralia, in Carbonate Sequence Stratigraphy: Recent Developments and Applications, Am. Assoc. of Pet. Geol. Mem. Ser., vol. 57, edited by R. G. Loucks, and J. F. Sarg, pp. 181212, Tulsa, Okla.
  • Hughen, K. A., J. R. Southon, S. J. Lehman, and J. T. Overpeck (2000), Synchronous radiocarbon and climate shifts during the last deglaciation, Science, 190, 19511954.
  • Kienast, M., T. J. J. Hanebuth, C. Pelejero, and S. Steinke (2003), Synchroneity of meltwater pulse 1a and the Bølling warming: New evidence from the South China Sea, Geology, 31, 6770.
  • Kudrass, H. R., H. Erlenkeuser, R. Vollbrecht, and W. Weiss (1991), Global nature of the Younger Dryas cooling event inferred from oxygen isotope data from Sulu sea cores, Nature, 349, 406409.
  • Lambeck, K., and J. Chappell (2001), Sea level change through the last glacial cycle, Science, 292, 679686.
  • Lambeck, K., T. M. Esat, and E. K. Potter (2002), Links between climate and sea levels for the past three million years, Nature, 419, 199206.
  • Lea, D. W., D. K. Pak, and H. J. Spero (2000), Climate impact of late Quaternary equatorial Pacific sea surface temperature variations, Science, 289, 17191724.
  • Lea, D. W., P. A. Martin, D. K. Pak, and H. J. Spero (2002), Reconstructing a 350 ky history of sea level using planktic Mg/Ca and oxygen isotope records from a Cocos Ridge core, Quat. Sci. Rev., 21, 283293.
  • Linsley, B. K. (1996), Oxygen-isotope record of climate and sea-level variations in the Sulu Sea over the past 150000 years, Nature, 380, 234237.
  • Linsley, B. K., and R. C. Thunell (1990), The record of deglaciation in the Sulu Sea: Evidence for the Younger Dryas event in the tropical western Pacific, Paleoceanography, 5, 10251039.
  • Liu, J. P., J. D. Milliman, S. Gao, and P. Cheng (2004), Holocene development of the Yellow River's subaqueous delta, North Yellow Sea, Mar. Geol., 209, 4567.
  • MacKinnon, L., and B. Jones (2001), Sedimentological evolution of North Sound, Grand Cayman: A freshwater to marine carbonate succession driven by Holocene sea-level rise, J. Sediment. Res., 71, 568580.
  • Mallarino, G., R. T. Beaubouef, A. W. Droxler, V. Abreu, and L. Labeyrie (2006), Sea-level influence on the nature and timing of a minibasin sedimentary fill (northwestern slope of the Gulf of Mexico), AAPG Bull., 90, 10891119.
  • Mangerud, J., E. Larsen, O. Longva, and E. Sønstegaard (1979), Glacial history of western Norway 15000–10000 BP, Boreas, 8, 179187.
  • Mitchum, R. M. (1977), Seismic stratigraphy and global changes of sea level: Part 11, Glossary of terms used in seismic stratigraphy, in Seismic Stratigraphy: Applications to Hydrocarbon Exploration, Am. Assoc. of Pet. Geol. Mem. Ser., vol. 26, edited by C. E. Payton, pp. 205212, Am. Assoc. of Pet. Geol., Tulsa, Okla.
  • Mount, J. F. (1984), Mixing of siliciclastic and carbonate sediments in shallow shelf environments, Geology, 12, 432435.
  • Müller, G., and M. Gastner (1971), The “karbonat-bombe”: A simple device for the determination of the carbonate content in sediments, soils, and other materials, Neues Jahrb. Mineral. Abh., 10, 466469.
  • Page, M. C., G. R. Dickens, and G. B. Dunbar (2003), Tropical view of Quaternary sequence stratigraphy: Siliciclastic accumulation on slopes east of the Great Barrier Reef since the Last Glacial Maximum, Geology, 31, 10131016.
  • Peltier, W. R., and R. G. Fairbanks (2006), Global glacial ice volume and Last Glacial Maximum duration from an extended Barbados sea level record, Quat. Sci. Rev., 25, 33223337, doi:10.1016/j.quascirev.2006.04.010.
  • Pickup, G., and V. H. Chewings (1983), The hydrology of the Purari and its environmental implications, in The Purari: Tropical Environment of a High Rainfall River Basin, edited by T. Petr, pp. 123140, Springer, New York.
  • Reimer, P. J., and R. W. Reimer (2001), A marine reservoir correction database and on-line interface, Radiocarbon, 43, 461463. (Supplemental material available at http://www.calib.org.).
  • Salomons, W. A. M., and A. M. Eagle (1990), Hydrology, sedimentology, and the fate and distribution of copper in mine-related discharges in the Fly River system, Papua New Guinea, Sci. Total Environ., 97/98, 345513.
  • Schlager, W., J. J. G. Reijmer, and A. W. Droxler (1994), Highstand shedding of carbonate platforms, J. Sediment. Res., 64, 270281.
  • Stott, L., C. Poulsen, S. Lund, and R. Thunell (2002), Super ENSO and global climate oscillations at millennial time scales, Science, 297, 222226.
  • Stuiver, M., and T. F. Braziunas (1993), Modeling atmospheric 14C influences and 14C ages of marine samples to 10000 BC, Radiocarbon, 35, 137189.
  • Stuiver, M., and P. M. Grootes (2000), GISP2 Oxygen Isotope Ratios, Quat. Res., 53, 277284.
  • Tcherepanov, E., A. W. Droxler, P. Lappointe, G. R. Dickens, S. J. Bentley, L. Beaufort, L. C. Peterson, J. J. Daniell, and B. 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.
  • Thunell, R. C., D. M. Anderson, D. Gellar, and Q. Miao (1994), Sea-surface temperature estimates for the tropical western Pacific during the last glaciation and their implications for the Pacific warm pool, Quat. Res., 41, 255264.
  • Vail, P. R. (1987), Seismic stratigraphy interpretation procedure, in Atlas of Seismic Stratigraphy, Am. Assoc. of Pet. Geol. Stud. Geol. Ser., vol. 27, edited by A. W. Bally, pp. 110, Am. Assoc. of Pet. Geol., Tulsa, Okla.
  • Vail, P. R., R. M. Mitchum, and S. Thompson (1977), Global cycles of relative changes of sea level, in Seismic Stratigraphy: Applications to Hydrocarbon Exploration, Am. Assoc. of Pet. Geol. Mem. Ser., vol. 26, edited by C. E. Payton, pp. 8397, Am. Assoc. of Pet. Geol., Tulsa, Okla.
  • Visser, K., R. C. Thunell, and L. Stott (2003), Magnitude and timing of temperature change in the Indo-Pacific warm pool during deglaciation, Nature, 421, 152155.
  • Walsh, J. P., and C. A. Nittrouer (2004), Mangrove-bank sedimentation in a mesotidal environment with large sediment supply, Gulf of Papua, Mar. Geol., 208, 225248.
  • Weaver, A. J., O. A. Saenko, P. U. Clark, and J. X. Mitrovica (2003), Meltwater pulse 1A from Antarctica as a trigger of the Bølling-Allerød warm interval, Science, 299, 17091713.
  • Yokoyama, Y., K. Lambeck, P. De Deckker, P. Johnston, and K. Fifield (2000), Timing of the Last Glacial Maximum from observed sea-level minima, Nature, 406, 713716.