User menu

Accès à distance ? S'identifier sur le proxy UCLouvain | Saint-Louis

Melting and refreezing beneath Roi Baudouin Ice Shelf (East Antarctica) inferred from radar, GPS, and ice core data

  • Open access
  • PDF
  • 1.94 M
  1. Bamber J. L., Gomez-Dans J. L., Griggs J. A., A new 1 km digital elevation model of the Antarctic derived from combined satellite radar and laser data – Part 1: Data and methods, 10.5194/tc-3-101-2009
  2. Bindschadler , R. A. H. Choi ASAID Collaborators 2011 High-Resolution Image-derived Grounding and Hydrostatic Lines for the Antarctic Ice Sheet Natl. Snow and Ice Data Cent. Boulder, Colo.
  3. Catania G. A., Conway H., Raymond C. F., Scambos T. A., Evidence for floatation or near floatation in the mouth of Kamb Ice Stream, West Antarctica, prior to stagnation, 10.1029/2005jf000355
  4. Catania Ginny, Hulbe Christina, Conway Howard, Grounding-line basal melt rates determined using radar-derived internal stratigraphy, 10.3189/002214310792447842
  5. Corr , H. M. Popple A. Robinson 1995 Airborne radio echo investigations of a marine ice body 14 17 Alfred Wegener Inst. for Polar and Mar. Res. Bremerhaven, Germany
  6. Corr H. F. J., Jenkins A., Nicholls K. W., Doake C. S. M., Precise measurement of changes in ice-shelf thickness by phase-sensitive radar to determine basal melt rates : ICE MELT RATES REVEALED BY RADAR, 10.1029/2001gl014618
  7. Dupont T. K., Alley R. B., Assessment of the importance of ice-shelf buttressing to ice-sheet flow : BUTTRESSING SENSITIVITY, 10.1029/2004gl022024
  8. Fricker Helen Amanda, Popov Sergey, Allison Ian, Young Neal, Distribution of marine ice beneath the Amery Ice Shelf, 10.1029/2000gl012461
  9. Fujita Shuji, Maeno Hideo, Uratsuka Seiho, Furukawa Teruo, Mae Shinji, Fujii Yoshiyuki, Watanabe Okitsugu, Nature of radio echo layering in the Antarctic Ice Sheet detected by a two-frequency experiment, 10.1029/1999jb900034
  10. Gagliardini O., Durand G., Zwinger T., Hindmarsh R. C. A., Le Meur E., Coupling of ice-shelf melting and buttressing is a key process in ice-sheets dynamics : ICE-SHELF MELTING AND BUTTRESSING, 10.1029/2010gl043334
  11. Gow Anthony J., Epstein Samuel, On the use of stable isotopes to trace the origins of ice in a floating ice tongue, 10.1029/jc077i033p06552
  12. Greve, J. Glaciol., 43, 307 (1997)
  13. Haefeli, IAHS Publ., 61, 253 (1963)
  14. Hattermann Tore, Nøst Ole Anders, Lilly Jonathan M., Smedsrud Lars H., Two years of oceanic observations below the Fimbul Ice Shelf, Antarctica : OBSERVING 2 YEARS BELOW FIMBUL ICE SHELF, 10.1029/2012gl051012
  15. Hellmer, Antarct. Sci., 3, 433 (1989)
  16. Hindmarsh, J. Glaciol., 45, 568 (1999)
  17. Holland Paul R., A model of tidally dominated ocean processes near ice shelf grounding lines, 10.1029/2007jc004576
  18. Hubbard Bryn, Roberson Sam, Samyn Denis, Merton-Lyn Derek, Digital optical televiewing of ice boreholes, 10.3189/002214308787779988
  19. Hubbard Bryn, Tison Jean-Louis, Pattyn Frank, Dierckx Marie, Boereboom Thierry, Samyn Denis, Optical-televiewer-based identification and characterization of material facies associated with an Antarctic ice-shelf rift, 10.3189/2012aog60a045
  20. Huybrechts Philippe, Formation and disintegration of the Antarctic ice sheet, 10.3189/172756494794587221
  21. Jacobs, J. Glaciol., 38, 357 (1992)
  22. Jacobs Stanley S., Jenkins Adrian, Giulivi Claudia F., Dutrieux Pierre, Stronger ocean circulation and increased melting under Pine Island Glacier ice shelf, 10.1038/ngeo1188
  23. Jenkins Adrian, Corr Hugh F.J., Nicholls Keith W., Stewart Craig L., Doake Christopher S.M., Interactions between ice and ocean observed with phase-sensitive radar near an Antarctic ice-shelf grounding line, 10.3189/172756506781828502
  24. Jenkins Adrian, Dutrieux Pierre, Jacobs Stanley S., McPhail Stephen D., Perrett James R., Webb Andrew T., White David, Observations beneath Pine Island Glacier in West Antarctica and implications for its retreat, 10.1038/ngeo890
  25. Khazendar , A. 2000 Marine ice formation in rifts of Antarctic ice shelves: A combined laboratory and modeling approach Brussels
  26. Khazendar Ala, A model of marine ice formation within Antarctic ice shelf rifts, 10.1029/2002jc001673
  27. Khazendar A., Tison J.-L., Stenni B., Dini M., Bondesan A., Significant marine-ice accumulation in the ablation zone beneath an Antarctic ice shelf, 10.3189/172756501781832160
  28. Lane-Serff G. F., On meltwater under ice shelves, 10.1029/94jc03244
  29. Lewis E. L., Perkin R. G., Ice pumps and their rates, 10.1029/jc091ic10p11756
  30. MacAyeal Douglas Reed, Thermohaline circulation below the Ross Ice Shelf: A consequence of tidally induced vertical mixing and basal melting, 10.1029/jc089ic01p00597
  31. Makinson Keith, Holland Paul R., Jenkins Adrian, Nicholls Keith W., Holland David M., Influence of tides on melting and freezing beneath Filchner-Ronne Ice Shelf, Antarctica : SUB-ICE SHELF MELTING AND FREEZING, 10.1029/2010gl046462
  32. Martin S, Frazil Ice in Rivers and Oceans, 10.1146/annurev.fl.13.010181.002115
  33. Matsuoka Kenichi, Pattyn Frank, Callens Denis, Conway Howard, Radar characterization of the basal interface across the grounding zone of an ice-rise promontory in East Antarctica, 10.3189/2012aog60a106
  34. MORGAN V. I., Oxygen Isotope Evidence for Bottom Freezing on the Amery Ice Shelf, 10.1038/238393a0
  35. Mügge Bernd, Savvin Alexey, Calov Reinhard, Greve Ralf, Numerical age computation of the antarctic ice sheet for dating deep ice cores, Lecture Notes in Physics ISBN:9783540663331 p.307-318, 10.1007/bfb0104191
  36. Nicholls K. W., Abrahamsen E. P., Buck J. J. H., Dodd P. A., Goldblatt C., Griffiths G., Heywood K. J., Hughes N. E., Kaletzky A., Lane-Serff G. F., McPhail S. D., Millard N. W., Oliver K. I. C., Perrett J., Price M. R., Pudsey C. J., Saw K., Stansfield K., Stott M. J., Wadhams P., Webb A. T., Wilkinson J. P., Measurements beneath an Antarctic ice shelf using an autonomous underwater vehicle, 10.1029/2006gl025998
  37. Nicholls Keith W., Abrahamsen E. Povl, Heywood Karen J., Stansfield Kate, østerhus Svein, High-latitude oceanography using the Autosub autonomous underwater vehicle, 10.4319/lo.2008.53.5_part_2.2309
  38. Nishio, Nankyoku Shiryô, 83, 11 (1984)
  39. Nøst O. A., Biuw M., Tverberg V., Lydersen C., Hattermann T., Zhou Q., Smedsrud L. H., Kovacs K. M., Eddy overturning of the Antarctic Slope Front controls glacial melting in the Eastern Weddell Sea, 10.1029/2011jc006965
  40. Oerter H., Kipfstuhl J., Determann J., Miller H., Wagenbach D., Minikin A., Graft W., Evidence for basal marine ice in the Filchner–Ronne ice shelf, 10.1038/358399a0
  41. Padman Laurie, Fricker Helen A., Coleman Richard, Howard Susan, Erofeeva Lana, A new tide model for the Antarctic ice shelves and seas, 10.3189/172756402781817752
  42. Pattyn Frank, Transient glacier response with a higher-order numerical ice-flow model, 10.3189/172756502781831278
  43. Pattyn, Polar Meteorol. Glaciol., 16, 42 (2002)
  44. Pattyn Frank, A new three-dimensional higher-order thermomechanical ice sheet model: Basic sensitivity, ice stream development, and ice flow across subglacial lakes, 10.1029/2002jb002329
  45. Pattyn Frank, Antarctic subglacial conditions inferred from a hybrid ice sheet/ice stream model, 10.1016/j.epsl.2010.04.025
  46. Pattyn Frank, Huyghe Ann, De Brabander Sang, De Smedt Bert, Role of transition zones in marine ice sheet dynamics, 10.1029/2005jf000394
  47. Pattyn Frank, Matsuoka Kenichi, Berte Johan, Glacio-meteorological conditions in the vicinity of the Belgian Princess Elisabeth Station, Antarctica, 10.1017/s0954102009990344
  48. Payne Antony J., Holland Paul R., Shepherd Andrew P., Rutt Ian C., Jenkins Adrian, Joughin Ian, Numerical modeling of ocean-ice interactions under Pine Island Bay's ice shelf, 10.1029/2006jc003733
  49. Potter J. R., Paren J. G., Interaction between ice shelf and ocean in George VI Sound, Antarctica, Oceanology of the Antarctic Continental Shelf (1985) ISBN:0875901964 p.35-58, 10.1029/ar043p0035
  50. Pritchard H. D., Ligtenberg S. R. M., Fricker H. A., Vaughan D. G., van den Broeke M. R., Padman L., Antarctic ice-sheet loss driven by basal melting of ice shelves, 10.1038/nature10968
  51. Reeh, J. Glaciol., 34, 46 (1988)
  52. Rignot E. J., Fast Recession of a West Antarctic Glacier, 10.1126/science.281.5376.549
  53. Rignot E., Rapid Bottom Melting Widespread near Antarctic Ice Sheet Grounding Lines, 10.1126/science.1070942
  54. Rignot Eric, Bamber Jonathan L., van den Broeke Michiel R., Davis Curt, Li Yonghong, van de Berg Willem Jan, van Meijgaard Erik, Recent Antarctic ice mass loss from radar interferometry and regional climate modelling, 10.1038/ngeo102
  55. Rignot E., Mouginot J., Scheuchl B., Ice Flow of the Antarctic Ice Sheet, 10.1126/science.1208336
  56. Schoof Christian, Ice sheet grounding line dynamics: Steady states, stability, and hysteresis, 10.1029/2006jf000664
  57. Shepherd Andrew, Wingham Duncan, Rignot Eric, Warm ocean is eroding West Antarctic Ice Sheet : WARM OCEAN IS ERODING WAIS, 10.1029/2004gl021106
  58. Shibuya, Earth Planets Space, 51, 159 (1999)
  59. Smedsrud Lars H., Jenkins Adrian, Holland David M., Nøst Ole A., Modeling ocean processes below Fimbulisen, Antarctica, 10.1029/2005jc002915
  60. Souchez R., Meneghel M., Tison J.-L., Lorrain R., Ronveaux D., Baroni C., Lozej A., Tabacco I., Jouzel J., Ice composition evidence of marine ice transfer along the bottom of a small Antarctic Ice Shelf, 10.1029/91gl01077
  61. Thoma Malte, Jenkins Adrian, Holland David, Jacobs Stan, Modelling Circumpolar Deep Water intrusions on the Amundsen Sea continental shelf, Antarctica, 10.1029/2008gl034939
  62. Timmermann R., Le Brocq A., Deen T., Domack E., Dutrieux P., Galton-Fenzi B., Hellmer H., Humbert A., Jansen D., Jenkins A., Lambrecht A., Makinson K., Niederjasper F., Nitsche F., Nøst O. A., Smedsrud L. H., Smith W. H. F., A consistent dataset of Antarctic ice sheet topography, cavity geometry, and global bathymetry, 10.5194/essdd-3-231-2010
  63. Tison, J. Geophys. Res., 106, 31,387 (2001)
  64. Tison J.-L., Ronveaux D., Lorrain R. D., Low salinity frazil ice generation at the base of a small Antarctic ice shelf, 10.1017/s0954102093000409
  65. Tison J.-L., Lorrain R. D., Bouzette A., Dini M., Bondesan A., StiéVenard M., Linking Landfast Sea Ice Variability to Marine Ice Accretion at Hells Gate Ice Shelf, Ross Sea, Antarctic Sea Ice: Physical Processes, Interactions and Variability ISBN:9781118668245 p.375-407, 10.1029/ar074p0375
  66. van de Berg W. J., van den Broeke M. R., Reijmer C. H., van Meijgaard E., Reassessment of the Antarctic surface mass balance using calibrated output of a regional atmospheric climate model, 10.1029/2005jd006495
  67. Waddington Edwin D., Neumann Thomas A., Koutnik Michelle R., Marshall Hans-Peter, Morse David L., Inference of accumulation-rate patterns from deep layers in glaciers and ice sheets, 10.3189/002214307784409351
  68. Weertman, J. Glaciol., 13, 3 (1974)
  69. Whitworth T., Orsi A. H., Kim S.-J., Nowlin W. D., Locarnini R. A., Water masses and mixing near the Antarctic slope front, Ocean, Ice, and Atmosphere: Interactions at the Antarctic Continental Margin (1998) ISBN:0875909108 p.1-27, 10.1029/ar075p0001
Bibliographic reference Pattyn, F. ; Matsuoka, K. ; Callens, D. ; Conway, H. ; Depoorter, M. ; et. al. Melting and refreezing beneath Roi Baudouin Ice Shelf (East Antarctica) inferred from radar, GPS, and ice core data. In: Journal of Geophysical Research, Vol. 117, no.F4, p. F04008 (2012)
Permanent URL