SEARCH

SEARCH BY CITATION

References

  • Andrews, J. T., E. W. Domack, W. L. Cunningham, A. Leventer, K. J. Licht, A. J. T. Jull, D. J. DeMaster, and A. E. Jennings (1999), Problems and possible solutions concerning radiocarbon dating of surface marine sediments, Ross Sea, Antarctica, Quat. Res., 52, 206216.
  • Backman, E., and E. W. Domack (2003), Depositional architecture and seafloor mapping of the Vega Drift, Erebus and Terror Gulf, Antarctic Peninsula, Eos Trans. AGU, 84(46), Abstract PP31B-0256.
  • Bard, E. (2001), Paleoceanographic implications of the difference in deep-sea sediment mixing between large and fine particles, Paleoceanography, 16(3), 235239.
  • Berger, W. H., and G. R. Heath (1968), Vertical mixing in pelagic sediments, J. Mar. Res., 26(2), 134143.
  • Camerlenghi, A., E. Domack, M. Rebesco, R. Gilbert, S. Ishman, A. Leventer, S. Brachfeld, and A. Drake (2001), Glacial morphology and post-glacial contourites in northern Prince Gustav Channel (NW Weddell Sea, Antarctica), Mar. Geophys. Res., 22, 417443.
  • Cramer, B. (2004), Methane generation from coal during open system pyrolysis investigated by isotope specific, Gaussian distributed reaction kinetics, Org. Geochem., 35, 379392.
  • Darwin, C. (1881), The Formation of Vegetable Mould Through the Action of Worms With Observation of Their Habits, 328 pp., John Murray, London.
  • DeMaster, D. J., O. Ragueneau, and C. A. Nittrouer (1996), Preservation efficiencies and accumulation rates for biogenic silica and organic C, N, and P in high-latitude sediments: The Ross Sea, J. Geophys. Res., 101(C8), 501518.
  • Domack, E. W. (1999), Late Pleistocene-Holocene retreat of the West Antarctic Ice-Sheet system in the Ross Sea: Part 2 — Sedimentologic and stratigraphic signature, Geol. Soc. Am. Bull., 111(10), 15171536.
  • Domack, E. W., A. Leventer, R. B. Dunbar, F. W. Taylor, S. Brachfeld, C. Sjunneskog, and ODP Leg 178 Science Party (2001), Chronology of the Palmer Deep site, Antarctic Peninsula: A Holocene palaeoenvironmental reference for the circum-Antarctic, Holocene, 11(1), 19.
  • Eglinton, T. I., L. I. Aluwihare, J. E. Bauer, E. R. M. Druffel, and A. P. McNichol (1996), Gas chromatographic isolation of individual compounds from complex matrices for radiocarbon dating, Anal. Chem., 68, 904912.
  • Kellogg, T. B., R. S. Truesdale, and L. E. Osterman (1979), Later Quaternary extent of the West Antarctic ice sheet: New evidence from Ross Sea cores, Geology, 7, 249253.
  • Licht, K. J., A. E. Jennings, J. T. Andrews, and K. M. Williams (1996), Chronology of the late Wisconsin ice retreat from the western Ross Sea, Antarctica, Geology, 24, 223226.
  • Licht, K. J., W. L. Cunningham, J. T. Andrews, E. W. Domack, and A. E. Jennings (1998), Establishing chronologies from acid-insoluble organic 14C dates on Antarctic (Ross Sea) and Arctic (North Atlantic) marine sediments, Pol. Res., 17, 203216.
  • McGeehin, J., G. S. Burr, A. J. T. Jull, D. Reines, J. Gosse, P. T. Davis, D. Muhs, and J. Southon (2001), Stepped-combustion 14C dating of sediment: A comparison with established techniques, Radiocarbon, 43(2A), 255261.
  • McGeehin, J., G. S. Burr, G. Hodgins, S. J. Bennett, J. A. Robbins, N. Morehead, and H. Markewich (2004), Stepped-combustion 14C dating of bomb carbon in lake sediment, Radiocarbon, 46(2), 893900.
  • Mollenhauer, G., and T. I. Eglinton (2007), Diagenetic and sedimentological controls on the composition of organic matter preserved in California Borderland Basin sediments, Limnol. Oceanogr., 52(2), 558576.
  • Mollenhauer, G., G. Eglinton, N. Ohkouchi, R. R. Schneider, P. J. Müller, P. M. Grootes, and J. Rullkötter (2003), Asynchronous alkenone and foraminifera records from the Benguela Upwelling System, Geochim. Cosmochim. Acta, 67(12), 21572171.
  • Mollenhauer, G., M. Kienast, F. Lamy, H. Meggers, R. R. Schneider, J. M. Hayes, and T. I. Eglinton (2005), An evaluation of 14C age relationships between co-occurring foraminifera, alkenones, and total organic carbon in continental margin sediments, Paleoceanography, 20, PA1016, doi:10.1029/2004PA001103.
  • Mollenhauer, G., J. F. McManus, A. Benthien, P. J. Müller, and G. Eglinton (2006), Rapid lateral particle transport in the Argentine Basin: Molecular 14C and 230Thxs evidence, Deep Sea Res., Part I, 53, 12241243.
  • Ohkouchi, N. (2003), Radiocarbon dating of individual fatty acids as a tool for refining Antarctic margin sediment chronologies, Radiocarbon, 45(1), 1723.
  • Ohkouchi, N., and T. I. Eglinton (2006), Radiocarbon constraint on relict organic carbon contributions to Ross Sea sediments, Geochem. Geophys. Geosyst., 7, Q04012, doi:10.1029/2005GC001097.
  • Ohkouchi, N., T. I. Eglinton, S. P. Sylva, C. Thornton, E. Domack, and J. M. Hayes (2000), New approaches to radiocarbon dates in Antarctic coastal sediments, Eos Trans. AGU, 81(48), Fall Meet. Suppl., Abstract U22B-02.
  • Roberts, M., A. Benthien, R. J. Schneider, K. F. von Reden, and J. M. Hayes (2003), Continuous-flow accelerator Mass Spectrometry, paper presented at 1st International Symposium on Radiation Physics, pp. 7, Int. Radiat. Phys. Soc., Mexico City.
  • Roberts, M. L., R. J. Schneider, K. F. von Reden, J. S. C. Wills, B. X. Han, J. M. Hayes, B. E. Rosenheim, and W. J. Jenkins (2007), Progress on a gas-accepting ion source for continuous-flow accelerator mass spectrometry, Nucl. Instrum. Methods Phys. Res., Sect. B, 259(1), 8387.
  • Roe, K. M., S. Sylva, and E. W. Domack (2006), Particulate carbon distribution and composition beneath ice shelves: Examples from the Larsen system, Antarctica, Geol. Soc. Am. Abstr. Programs, 38, 482.
  • Villinski, J. C., J. M. Hayes, S. C. Brassell, V. L. Riggert, and R. B. Dunbar (2008), Sedimentary sterols as biogeochemical indicators, Organic Geochemistry, in press.