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Sensitivity of the current Antarctic surface mass balance to sea surface conditions using MAR

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  1. Agosta Cécile, Favier Vincent, Genthon Christophe, Gallée Hubert, Krinner Gerhard, Lenaerts Jan T. M., van den Broeke Michiel R., A 40-year accumulation dataset for Adelie Land, Antarctica and its application for model validation, 10.1007/s00382-011-1103-4
  2. Agosta C., Fettweis X., Datta R., Evaluation of the CMIP5 models in the aim of regional modelling of the Antarctic surface mass balance, 10.5194/tc-9-2311-2015
  3. Agosta, C., Amory, C., Kittel, C., Orsi, A., Favier, V., Gallée, H., van den Broeke, M. R., Lenaerts, J. T. M., van Wessem, J. M., and Fettweis, X.: Estimation of the Antarctic surface mass balance using MAR (1979–2015) and identification of dominant processes, The Cryosphere Discuss.,, in review, 2018. a, b, c, d, e, f, g, h, i, j, k, l
  4. Amory C., Trouvilliez A., Gallée H., Favier V., Naaim-Bouvet F., Genthon C., Agosta C., Piard L., Bellot H., Comparison between observed and simulated aeolian snow mass fluxes in Adélie Land, East Antarctica, 10.5194/tc-9-1373-2015
  5. Amory Charles, Gallée Hubert, Naaim-Bouvet Florence, Favier Vincent, Vignon Etienne, Picard Ghislain, Trouvilliez Alexandre, Piard Luc, Genthon Christophe, Bellot Hervé, Seasonal Variations in Drag Coefficient over a Sastrugi-Covered Snowfield in Coastal East Antarctica, 10.1007/s10546-017-0242-5
  6. Andreas, E. L.: A bulk air-sea flux algorithm for high-wind, spray conditions, version 2.0, in: Preprints, 13th Conference on Interactions of the Sea and Atmosphere, Portland, ME, 9–13 August 2004. a
  7. Bailey, D. A. and Lynch, A. H.: Development of an Antarctic Regional Climate System Model. Part I: Sea Ice and Large-Scale Circulation, J. Climate, 13, 1337–1350, 2000. a
  8. Beaumet Julien, Krinner Gerhard, Déqué Michel, Haarsma Rein, Li Laurent, Assessing bias-corrections of oceanic surface conditions for atmospheric models, 10.5194/gmd-2017-247
  9. Bentsen M., Bethke I., Debernard J. B., Iversen T., Kirkevåg A., Seland Ø., Drange H., Roelandt C., Seierstad I. A., Hoose C., Kristjánsson J. E., The Norwegian Earth System Model, NorESM1-M – Part 1: Description and basic evaluation of the physical climate, 10.5194/gmd-6-687-2013
  10. Bevan Suzanne L., Luckman Adrian, Hubbard Bryn, Kulessa Bernd, Ashmore David, Kuipers Munneke Peter, O'Leary Martin, Booth Adam, Sevestre Heidi, McGrath Daniel, Centuries of intense surface melt on Larsen C Ice Shelf, 10.5194/tc-11-2743-2017
  11. Bracegirdle Thomas J., Marshall Gareth J., The Reliability of Antarctic Tropospheric Pressure and Temperature in the Latest Global Reanalyses, 10.1175/jcli-d-11-00685.1
  12. Bromwich David H., Chen Biao, Hines Keith M., Global atmospheric impacts induced by year-round open water adjacent to Antarctica, 10.1029/98jd00624
  13. Bromwich David H., Nicolas Julien P., Monaghan Andrew J., An Assessment of Precipitation Changes over Antarctica and the Southern Ocean since 1989 in Contemporary Global Reanalyses*, 10.1175/2011jcli4074.1
  14. Brun, E., David, P., Subul, M., and Brunot, G.: A numerical model to simulate snow-cover stratigraphy for operational avalanche forescating, J. Glaciol., 38, 13–22, 1992. a
  15. Cavalieri D. J., Parkinson C. L., Arctic sea ice variability and trends, 1979–2010, 10.5194/tc-6-881-2012
  16. Dee D. P., Uppala S. M., Simmons A. J., Berrisford P., Poli P., Kobayashi S., Andrae U., Balmaseda M. A., Balsamo G., Bauer P., Bechtold P., Beljaars A. C. M., van de Berg L., Bidlot J., Bormann N., Delsol C., Dragani R., Fuentes M., Geer A. J., Haimberger L., Healy S. B., Hersbach H., Hólm E. V., Isaksen L., Kållberg P., Köhler M., Matricardi M., McNally A. P., Monge-Sanz B. M., Morcrette J.-J., Park B.-K., Peubey C., de Rosnay P., Tavolato C., Thépaut J.-N., Vitart F., The ERA-Interim reanalysis: configuration and performance of the data assimilation system, 10.1002/qj.828
  17. De Ridder, K. and Gallée, H.: Land surface-induce regional climate change in Southern Israel, J. Appl. Meteorol., 37, 1470–1485, 1998. a
  18. Feder Gershon, Just Richard E., Zilberman David, Adoption of Agricultural Innovations in Developing Countries: A Survey, 10.1086/451461
  19. Donlon Craig J., Martin Matthew, Stark John, Roberts-Jones Jonah, Fiedler Emma, Wimmer Werenfrid, The Operational Sea Surface Temperature and Sea Ice Analysis (OSTIA) system, 10.1016/j.rse.2010.10.017
  20. Favier V., Agosta C., Parouty S., Durand G., Delaygue G., Gallée H., Drouet A.-S., Trouvilliez A., Krinner G., An updated and quality controlled surface mass balance dataset for Antarctica, 10.5194/tc-7-583-2013
  21. Favier Vincent, Krinner Gerhard, Amory Charles, Gallée Hubert, Beaumet Julien, Agosta Cécile, Antarctica-Regional Climate and Surface Mass Budget, 10.1007/s40641-017-0072-z
  22. Fettweis Xavier, Box Jason E., Agosta Cécile, Amory Charles, Kittel Christoph, Lang Charlotte, van As Dirk, Machguth Horst, Gallée Hubert, Reconstructions of the 1900–2015 Greenland ice sheet surface mass balance using the regional climate MAR model, 10.5194/tc-11-1015-2017
  23. Fiorino, M.: A multi-decadal daily sea surface temperature and sea ice concentration data set for the ERA-40 reanalysis, ECMWF, Reading, UK, ERA-40 Project Report Series No. 12, 1–22, 2004. a
  24. Franco B., Fettweis X., Lang C., Erpicum M., Impact of spatial resolution on the modelling of the Greenland ice sheet surface mass balance between 1990–2010, using the regional climate model MAR, 10.5194/tc-6-695-2012
  25. Fretwell P., Pritchard H. D., Vaughan D. G., Bamber J. L., Barrand N. E., Bell R., Bianchi C., Bingham R. G., Blankenship D. D., Casassa G., Catania G., Callens D., Conway H., Cook A. J., Corr H. F. J., Damaske D., Damm V., Ferraccioli F., Forsberg R., Fujita S., Gim Y., Gogineni P., Griggs J. A., Hindmarsh R. C. A., Holmlund P., Holt J. W., Jacobel R. W., Jenkins A., Jokat W., Jordan T., King E. C., Kohler J., Krabill W., Riger-Kusk M., Langley K. A., Leitchenkov G., Leuschen C., Luyendyk B. P., Matsuoka K., Mouginot J., Nitsche F. O., Nogi Y., Nost O. A., Popov S. V., Rignot E., Rippin D. M., Rivera A., Roberts J., Ross N., Siegert M. J., Smith A. M., Steinhage D., Studinger M., Sun B., Tinto B. K., Welch B. C., Wilson D., Young D. A., Xiangbin C., Zirizzotti A., Bedmap2: improved ice bed, surface and thickness datasets for Antarctica, 10.5194/tc-7-375-2013
  26. Frezzotti M., Scarchilli C., Becagli S., Proposito M., Urbini S., A synthesis of the Antarctic surface mass balance during the last 800 yr, 10.5194/tc-7-303-2013
  27. Gallée, H.: Simulation of the Mesocyclonic Activity in the Ross Sea, Antarctica, Mon. Weather Rev., 123, 2051–2069,<2051:SOTMAI>2.0.CO;2, 1995. a, b, c
  28. Gallée, H.: Mesoscale Atmospheric Circulations over the Southwestern Ross Sea Sector, Antarctica, J. Appl. Meteorol., 35, 1129–1141, 1996. a, b, c, d, e, f
  29. Gallée Hubert, Duynkerke Peter G., Air-snow interactions and the surface energy and mass balance over the melting zone of west Greenland during the Greenland Ice Margin Experiment, 10.1029/96jd03358
  30. Gallée, H. and Schayes, G.: Development of a Three-Dimensional Meso-γ Primitive Equation Model: Katabatic Winds Simulation in the Area of Terra Nova Bay, Antarctica, Mon. Weather Rev., 122, 671–685,<0671:DOATDM>2.0.CO;2, 1994. a
  31. Gallée Hubert, Guyomarc'h Gilbert, Brun Eric, Impact Of Snow Drift On The Antarctic Ice Sheet Surface Mass Balance: Possible Sensitivity To Snow-Surface Properties, 10.1023/a:1018776422809
  32. Gallée H., Preunkert S., Argentini S., Frey M. M., Genthon C., Jourdain B., Pietroni I., Casasanta G., Barral H., Vignon E., Amory C., Legrand M., Characterization of the boundary layer at Dome C (East Antarctica) during the OPALE summer campaign, 10.5194/acp-15-6225-2015
  33. Krinner Gerhard, Guicherd Bérangère, Ox Katia, Genthon Christophe, Magand Olivier, Influence of Oceanic Boundary Conditions in Simulations of Antarctic Climate and Surface Mass Balance Change during the Coming Century, 10.1175/2007jcli1690.1
  34. Krinner Gerhard, Largeron Chloé, Ménégoz Martin, Agosta Cécile, Brutel-Vuilmet Claire, Oceanic Forcing of Antarctic Climate Change: A Study Using a Stretched-Grid Atmospheric General Circulation Model, 10.1175/jcli-d-13-00367.1
  35. Lang C., Fettweis X., Erpicum M., Stable climate and surface mass balance in Svalbard over 1979–2013 despite the Arctic warming, 10.5194/tc-9-83-2015
  36. Lefebre Filip, Modeling of snow and ice melt at ETH Camp (West Greenland): A study of surface albedo, 10.1029/2001jd001160
  37. Lenaerts J. T. M., van den Broeke M. R., van de Berg W. J., van Meijgaard E., Kuipers Munneke P., A new, high-resolution surface mass balance map of Antarctica (1979-2010) based on regional atmospheric climate modeling : SMB ANTARCTICA, 10.1029/2011gl050713
  38. Li, L. and Pomeroy, J. W.: Estimates of threshold wind speeds for snow transport using meteorological data, J. Appl. Meteorol., 36, 205–213,<0205:EOTWSF>2.0.CO;2, 1997. a
  39. Ligtenberg S. R. M., van de Berg W. J., van den Broeke M. R., Rae J. G. L., van Meijgaard E., Future surface mass balance of the Antarctic ice sheet and its influence on sea level change, simulated by a regional atmospheric climate model, 10.1007/s00382-013-1749-1
  40. Mahlstein Irina, Gent Peter R., Solomon Susan, Historical Antarctic mean sea ice area, sea ice trends, and winds in CMIP5 simulations : ANTARCTIC SEA ICE IN CMIP5 SIMULATIONS, 10.1002/jgrd.50443
  41. Massonnet François, Mathiot Pierre, Fichefet Thierry, Goosse Hugues, König Beatty Christof, Vancoppenolle Martin, Lavergne Thomas, A model reconstruction of the Antarctic sea ice thickness and volume changes over 1980–2008 using data assimilation, 10.1016/j.ocemod.2013.01.003
  42. Messager C., Gall�e H., Brasseur O., Precipitation sensitivity to regional SST in a regional climate simulation during the West African monsoon for two dry years, 10.1007/s00382-003-0381-x
  43. Noone David, Sea ice control of water isotope transport to Antarctica and implications for ice core interpretation, 10.1029/2003jd004228
  44. Parkinson C. L., Cavalieri D. J., Antarctic sea ice variability and trends, 1979–2010, 10.5194/tc-6-871-2012
  45. Roach Lettie A., Dean Samuel M., Renwick James A., Consistent biases in Antarctic sea ice concentration simulated by climate models, 10.5194/tc-12-365-2018
  46. Roach, L. A., Dean, S. M., and Renwick, J. A.: Consistent biases in Antarctic sea ice concentration simulated by climate models, The Cryosphere, 12, 365–383,, 2018. a, b
  47. Shu Q., Song Z., Qiao F., Assessment of sea ice simulations in the CMIP5 models, 10.5194/tc-9-399-2015
  48. Simmondsxs Ian, Budd W. F., Sensitivity of the southern hemisphere circulation to leads in the Antarctic pack ice, 10.1002/qj.49711750107
  49. Simmonds, I. and Budd, W. F.: Sensitivity of the southern hemisphere circulation to leads in the Antarctic pack ice, Q. J. Roy. Meteor. Soc., 117, 1003–1024,, 1991. a
  50. Simmonds Ian, Wu Xingren, Cyclone behaviour response to changes in winter southern hemisphere sea-ice concentration, 10.1002/qj.49711951313
  51. Sodemann Harald, Stohl Andreas, Asymmetries in the moisture origin of Antarctic precipitation, 10.1029/2009gl040242
  52. Stark John D., Donlon Craig J., Martin Matthew J., McCulloch Michael E., OSTIA : An operational, high resolution, real time, global sea surface temperature analysis system, 10.1109/oceanse.2007.4302251
  53. Stark, J. D., Donlon, C. J., Martin, M. J., and McCulloch, M. E.: OSTIA: An operational, high resolution, real time, global sea surface temperature analysis system, in: Oceans 2007 – Europe, Aberdeen, UK, 18–21 June 2007, IEEE, 1–4,, 2007. a
  54. Turner John, Bracegirdle Thomas J., Phillips Tony, Marshall Gareth J., Hosking J. Scott, An Initial Assessment of Antarctic Sea Ice Extent in the CMIP5 Models, 10.1175/jcli-d-12-00068.1
  55. Turner John, Hosking J. Scott, Marshall Gareth J., Phillips Tony, Bracegirdle Thomas J., Antarctic sea ice increase consistent with intrinsic variability of the Amundsen Sea Low, 10.1007/s00382-015-2708-9
  56. Uppala S. M., KÅllberg P. W., Simmons A. J., Andrae U., Bechtold V. Da Costa, Fiorino M., Gibson J. K., Haseler J., Hernandez A., Kelly G. A., Li X., Onogi K., Saarinen S., Sokka N., Allan R. P., Andersson E., Arpe K., Balmaseda M. A., Beljaars A. C. M., Berg L. Van De, Bidlot J., Bormann N., Caires S., Chevallier F., Dethof A., Dragosavac M., Fisher M., Fuentes M., Hagemann S., Hólm E., Hoskins B. J., Isaksen L., Janssen P. A. E. M., Jenne R., Mcnally A. P., Mahfouf J.-F., Morcrette J.-J., Rayner N. A., Saunders R. W., Simon P., Sterl A., Trenberth K. E., Untch A., Vasiljevic D., Viterbo P., Woollen J., The ERA-40 re-analysis, 10.1256/qj.04.176
  57. van de Berg Willem Jan, Medley Brooke, Brief Communication: Upper-air relaxation in RACMO2 significantly improves modelled interannual surface mass balance variability in Antarctica, 10.5194/tc-10-459-2016
  58. van de Berg, W. J. and Medley, B.: Brief Communication: Upper-air relaxation in RACMO2 significantly improves modelled interannual surface mass balance variability in Antarctica, The Cryosphere, 10, 459–463,, 2016. a
  59. van Wessem Jan Melchior, van de Berg Willem Jan, Noël Brice P. Y., van Meijgaard Erik, Amory Charles, Birnbaum Gerit, Jakobs Constantijn L., Krüger Konstantin, Lenaerts Jan T. M., Lhermitte Stef, Ligtenberg Stefan R. M., Medley Brooke, Reijmer Carleen H., van Tricht Kristof, Trusel Luke D., van Ulft Lambertus H., Wouters Bert, Wuite Jan, van den Broeke Michiel R., Modelling the climate and surface mass balance of polar ice sheets using RACMO2 – Part 2: Antarctica (1979–2016), 10.5194/tc-12-1479-2018
  60. van Wessem, J. M., van de Berg, W. J., Noël, B. P. Y., van Meijgaard, E., Amory, C., Birnbaum, G., Jakobs, C. L., Krüger, K., Lenaerts, J. T. M., Lhermitte, S., Ligtenberg, S. R. M., Medley, B., Reijmer, C. H., van Tricht, K., Trusel, L. D., van Ulft, L. H., Wouters, B., Wuite, J., and van den Broeke, M. R.: Modelling the climate and surface mass balance of polar ice sheets using RACMO2 – Part 2: Antarctica (1979–2016), The Cryosphere, 12, 1479–1498,, 2018. a
  61. Wang, Y.: An Explicit Simulation of Tropical Cyclones with a Triply Nested Movable Mesh Primitive Equation Model: TCM3. Part I: Model Description and Control Experiment, Mon. Weather Rev., 1129, 1370–1394,<3022:AESOTC>2.0.CO;2, 2001. a
  62. Weatherly, J.: Sensitivity of Antarctic Precipitation to Sea Ice Concentrations in a General Circulation Model, J. Climate, 17, 3214–3223, 2004. a, b
  63. Wu, X. G., Simmonds, I., and Budd, W. F.: Southern hemisphere climate system recovery from 'instantaneous' sea-ice removal, Q. J. Roy. Meteor. Soc., 122, 1501–1520, 1996. a
Bibliographic reference Kittel, Christoph ; Amory, Charles ; Agosta, Cécile ; Delhasse, Alison ; Doutreloup, Sébastien ; et. al. Sensitivity of the current Antarctic surface mass balance to sea surface conditions using MAR. In: The Cryosphere, Vol. 12, no.12, p. 3827-3839 (2018)
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