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Atmospheric Δ14C in the northern and southern hemispheres over the past two millennia: Role of production rate, southern hemisphere westerly winds and ocean circulation changes. <i>Quat. Sci. Rev. 326</i>: 108502. <a href=\"https://dx.doi.org/10.1016/j.quascirev.2024.108502\" target=\"_blank\">https://dx.doi.org/10.1016/j.quascirev.2024.108502</a>","AutID":332243,"MonDate":null,"AnaDate":2024,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":367029,"RR":"<b>Allende, S.; Fichefet, T.; Goosse, H.; Treguier, A.M.</b> (2023). On the ability of OMIP models to simulate the ocean mixed layer depth and its seasonal cycle in the Arctic Ocean. <i>Ocean Modelling 184</i>: 102226. <a href=\"https://dx.doi.org/10.1016/j.ocemod.2023.102226\" target=\"_blank\">https://dx.doi.org/10.1016/j.ocemod.2023.102226</a>","AutID":539349,"MonDate":null,"AnaDate":2023,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":367662,"RR":"<b>Bouttes, N.; Lhardy, F.; Quiquet, A.; Paillard, D.; Goosse, H.; Roche, D.M.</b> (2023). Deglacial climate changes as forced by  different ice sheet reconstructions. <i>Clim. Past 19(5)</i>: 1027-1042. <a href=\"https://dx.doi.org/10.5194/cp-19-1027-2023\" target=\"_blank\">https://dx.doi.org/10.5194/cp-19-1027-2023</a>","AutID":332243,"MonDate":null,"AnaDate":2023,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":391444,"RR":"<b>Cavitte, M.G.P.; Goosse, H.; Matsuoka, K.; Wauthy, S.; Goel, V.; Dey, R.; Pratap, B.; Van Liefferinge, B.; Meloth, T.; Tison, J.-L.</b> (2023). Investigating the spatial representativeness of East Antarctic ice cores: a comparison of ice core and radar-derived surface mass balance over coastal ice rises and Dome Fuji. <i>Cryosphere 17(11)</i>: 4779-4795. <a href=\"https://dx.doi.org/10.5194/tc-17-4779-2023\" target=\"_blank\">https://dx.doi.org/10.5194/tc-17-4779-2023</a>","AutID":439095,"MonDate":null,"AnaDate":2023,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":382763,"RR":"<b>Dalaiden, Q.; Rezsohazy, J.; Goosse, H.; Thomas, E.R.; Vladimirova, D.O.; Tetzner, D.</b> (2023). An unprecedented sea ice retreat in the Weddell Sea driving an overall decrease of the Antarctic sea-ice extent over the 20th century. <i>Geophys. Res. Lett. 50(21)</i>: e2023GL104666. <a href=\"https://dx.doi.org/10.1029/2023GL104666\" target=\"_blank\">https://dx.doi.org/10.1029/2023GL104666</a>","AutID":332243,"MonDate":null,"AnaDate":2023,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":363512,"RR":"<b>Goosse, H.; Contador, S.A.; Bitz, C.M.; Blanchard-Wrigglesworth, E.; Eayrs, C.; Fichefet, T.; Himmich, K.; Huot, P.-V.; Klein, F.; Marchi, S.; Massonnet, F.; Mezzina, B.; Pelletier, C.; Roach, L.; Vancoppenolle, M.; van Lipzig, N.P.M.</b> (2023). Modulation of the seasonal cycle of the Antarctic sea ice extent by sea iceprocesses and feedbacks with the ocean and the atmosphere. <i>Cryosphere 17(1)</i>: 407-425. <a href=\"https://dx.doi.org/10.5194/tc-17-407-2023\" target=\"_blank\">https://dx.doi.org/10.5194/tc-17-407-2023</a>","AutID":332243,"MonDate":null,"AnaDate":2023,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":382854,"RR":"<b>Lyu, Z.; Goosse, H.; Dalaiden, Q.; Crosta, X.; Etourneau, J.</b> (2023). Widespread cooling over West Antarctica and adjacent seas over the past millennium. <i>Global Planet. Change 229</i>: 104237. <a href=\"https://dx.doi.org/10.1016/j.gloplacha.2023.104237\" target=\"_blank\">https://dx.doi.org/10.1016/j.gloplacha.2023.104237</a>","AutID":555061,"MonDate":null,"AnaDate":2023,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":367716,"RR":"<b>Schurer, A.P.; Hegerl, G.C.; Goosse, H.; Bollasina, M.A.; England, M.H.; Smith, D.M.; Tett, S.F.B.</b> (2023). Role of multi-decadal variability of the winter North Atlantic Oscillation on Northern Hemisphere climate. <i>Environ. Res. Lett. 18(4)</i>: 044046. <a href=\"https://dx.doi.org/10.1088/1748-9326/acc477\" target=\"_blank\">https://dx.doi.org/10.1088/1748-9326/acc477</a>","AutID":533569,"MonDate":null,"AnaDate":2023,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":367585,"RR":"<b>Thomas, E.R.; Vladimirova, D.O.; Tetzner, D.R.; Emanuelsson, B.D.; Chellman, N.; Dixon, D.A.; Goosse, H.; Grieman, M.M.; King, A.C.F.; Sigl, M.; Udy, D.G.; Vance, T.R.; Winski, D.A.; Winton, V.H.L.; Bertler, N.A.N.; Hori, A.; Laluraj, C.M.; McConnell, J.R.; Motizuki, Y.; Takahashi, K.; Motoyama, H.; Nakai, Y.; Schwanck, F.; Simões, J.C.; Lindau, F.G.L.; Severi, M.; Traversi, R.; Wauthy, S.; Xiao, C.; Yang, J.; Mosely-Thompson, E.; Khodzher, T.V.; Golobokova, L.P.; Ekaykin, A.A.</b> (2023). Ice core chemistry database: an Antarctic compilation of sodium and sulfate records spanning the past 2000 years. <i>ESSD 15(6)</i>: 2517-2532. <a href=\"https://dx.doi.org/10.5194/essd-15-2517-2023\" target=\"_blank\">https://dx.doi.org/10.5194/essd-15-2517-2023</a>","AutID":332243,"MonDate":null,"AnaDate":2023,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":360194,"RR":"<b>Cavitte, M.G.P.; Goosse, H.; Wauthy, S.; Kausch, T.; Tison, J.-L.; Van Liefferinge, B.; Pattyn, F.; Lenaerts, J.T.M.; Claeys, P.</b> (2022). From ice core to ground-penetrating radar: representativeness of SMB at three ice rises along the Princess Ragnhild Coast, East Antarctica. <i>J. Glaciol. 68(272)</i>: 1221-1233. <a href=\"https://dx.doi.org/10.1017/jog.2022.39\" target=\"_blank\">https://dx.doi.org/10.1017/jog.2022.39</a>","AutID":335922,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":362134,"RR":"<b>Charton, J.; Schimmelpfennig, I.; Jomelli, V.; Delpech, G.; Blard, P.-H.; Braucher, R.; Verfaillie, D.; Favier, V.; Rinterknecht, V.; Goosse, H.; Crosta, X.; Chassiot, L.; Martin, L.; Guillaume, D.; Legentil, C.; ASTER Team</b> (2022). New cosmogenic nuclide constraints on Late Glacial and Holocene glacier fluctuations in the sub-Antarctic Indian Ocean (Kerguelen Islands, 49°S). <i>Quat. Sci. Rev. 283</i>: 107461. <a href=\"https://dx.doi.org/10.1016/j.quascirev.2022.107461\" target=\"_blank\">https://dx.doi.org/10.1016/j.quascirev.2022.107461</a>","AutID":332243,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":361727,"RR":"<b>Dalaiden, Q.; Schurer, A.P.; Kirchmeier-Young, M.C.; Goosse, H.; Hegerl, G.C.</b> (2022). West Antarctic surface climate changes since the mid-20th century driven by anthropogenic forcing. <i>Geophys. Res. Lett. 49(16)</i>: e2022GL099543. <a href=\"https://dx.doi.org/10.1029/2022GL099543\" target=\"_blank\">https://dx.doi.org/10.1029/2022GL099543</a>","AutID":518342,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":361534,"RR":"<b>Gangadharan, N.; Goosse, H.; Parkes, D.; Goelzer, H.; Maussion, F.; Marzeion, B.</b> (2022). Process-based estimate of global-mean sea-level changes in me Common Era. <i>Earth System Dynamics 13(4)</i>: 1417-1435. <a href=\"https://dx.doi.org/10.5194/esd-13-1417-2022\" target=\"_blank\">https://dx.doi.org/10.5194/esd-13-1417-2022</a>","AutID":332243,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":352804,"RR":"<b>Goosse, H.; Barriat, P.-Y.; Brovkin, V.; Klein, F.; Meissner, K.J.; Menviel, L.; Mouchet, A.</b> (2022). Changes in atmospheric CO<sub>2</sub> concentration over the past two millennia: contribution of climate variability, land-use and Southern Ocean dynamics. <i>Clim. Dyn. 58(11-12)</i>: 2957-2979. <a href=\"https://dx.doi.org/10.1007/s00382-021-06078-z\" target=\"_blank\">https://dx.doi.org/10.1007/s00382-021-06078-z</a>","AutID":332243,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":352785,"RR":"<b>Pelletier, C.; Fichefet, T.; Goosse, H.; Haubner, K.; Helsen, S.; Huot, P.-V.; Kittel, C.; Klein, F.; Le Clec'h, S.; van Lipzig, N.P.M.; Marchi, S.; Massonnet, F.; Mathiot, P.; Moravveji, E.; Moreno-Chamarro, E.; Ortega, P.; Pattyn, F.; Souverijns, N.; Van Achter, G.; Vanden Broucke, S.; Vanhulle, A.; Verfaillie, D.; Zipf, L.</b> (2022). PARASO, a circum-Antarctic fully coupled ice-sheet-ocean-sea-ice-atmosphere-land model involving f.ETISh1.7, NEMO3.6, LIM3.6, COSM05.0 and CLM4.5. <i>Geosci. Model Dev. 15(2)</i>: 553-594. <a href=\"https://dx.doi.org/10.5194/gmd-15-553-2022\" target=\"_blank\">https://dx.doi.org/10.5194/gmd-15-553-2022</a>","AutID":490452,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":353014,"RR":"<b>Van Achter, G.; Fichefet, T.; Goosse, H.; Pelletier, C.; Sterlin, J.; Huot, P.-V.; Lemieux, J.-F.; Fraser, A.D.; Haubner, K.; Porter-Smith, R.</b> (2022). Modelling landfast sea ice and its influence on ocean-ice interactions in the area of the Totten Glacier, East Antarctica. <i>Ocean Modelling 169</i>: 101920. <a href=\"https://dx.doi.org/10.1016/j.ocemod.2021.101920\" target=\"_blank\">https://dx.doi.org/10.1016/j.ocemod.2021.101920</a>","AutID":491194,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":361433,"RR":"<b>Van Achter, G.; Fichefet, T.; Goosse, H.; Moreno-Chamarro, E.</b> (2022). Influence of fast ice on future ice shelf melting in the Totten Glacier area, East Antarctica. <i>Cryosphere 16(11)</i>: 4745-4761. <a href=\"https://dx.doi.org/10.5194/tc-16-4745-2022\" target=\"_blank\">https://dx.doi.org/10.5194/tc-16-4745-2022</a>","AutID":516548,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":361895,"RR":"<b>Verfaillie, D.; Pelletier, C.; Goosse, H.; Jourdain, N.C.; Bull, C.Y.S.; Dalaiden, Q.; Favier, V.; Fichefet, T.; Wille, J.D.</b> (2022). The circum-Antarctic ice-shelves respond to a more positive Southern Annular Mode with regionally varied melting. <i>Commun. Earth Environ. 3(1)</i>: 139. <a href=\"https://dx.doi.org/10.1038/s43247-022-00458-x\" target=\"_blank\">https://dx.doi.org/10.1038/s43247-022-00458-x</a>","AutID":332243,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":352780,"RR":"<b>Worou, K.; Goosse, H.; Fichefet, T.; Kucharski, F.</b> (2022). Weakened impact of the Atlantic Niño on the future equatorial Atlantic and Guinea Coast rainfall. <i>Earth System Dynamics 13(1)</i>: 231-249. <a href=\"https://dx.doi.org/10.5194/esd-13-231-2022\" target=\"_blank\">https://dx.doi.org/10.5194/esd-13-231-2022</a>","AutID":455029,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":337489,"RR":"<b>Alvera-Azcárate, A.; Troupin, C.; Goosse, H.; McPhaden, M.J.; Beckers, J.-M.</b> (2021). Editorial to the Liège Colloquium Special Issue: long-term studies in oceanography – a celebration of 50 years of science at the Liège Colloquium (1969 – 2018). <i>Ocean Dynamics 71(1)</i>: 119-123. <a href=\"https://hdl.handle.net/10.1007/s10236-020-01421-0\" target=\"_blank\">https://hdl.handle.net/10.1007/s10236-020-01421-0</a>","AutID":332243,"MonDate":null,"AnaDate":2021,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":334824,"RR":"<b>Crosta, X.; Etourneau, J.; Orme, L.C.; Dalaiden, Q.; Campagne, P.; Swingedouw, D.; Goosse, H.; Massé, G.; Miettinen, A.; McKay, R.M.; Dunbar, R.B.; Escutia, C.; Ikehara, M.</b> (2021). Multi-decadal trends in Antarctic sea-ice extent driven by ENSO–SAM over the last 2,000 years. <i>Nature Geoscience 14(3)</i>: 156-160. <a href=\"https://dx.doi.org/10.1038/s41561-021-00697-1\" target=\"_blank\">https://dx.doi.org/10.1038/s41561-021-00697-1</a>","AutID":439095,"MonDate":null,"AnaDate":2021,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":353422,"RR":"<b>Dalaiden, Q.; Goosse, H.; Rezsöhazy, J.; Thomas, E.R.</b> (2021). Reconstructing atmospheric circulation and sea-ice extent in the West Antarctic over the past 200 years using data assimilation. <i>Clim. Dyn. 57(11-12)</i>: 3479-3503. <a href=\"https://dx.doi.org/10.1007/s00382-021-05879-6\" target=\"_blank\">https://dx.doi.org/10.1007/s00382-021-05879-6</a>","AutID":494237,"MonDate":null,"AnaDate":2021,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":337405,"RR":"<b>Goosse, H.; Dalaiden, Q.; Cavitte, M.G.P.; Zhang, L.</b> (2021). Can we reconstruct the formation of large open-ocean polynyas in the Southern Ocean using ice core records? <i>Clim. Past 17(1)</i>: 111-131. <a href=\"https://hdl.handle.net/10.5194/cp-17-111-2021\" target=\"_blank\">https://hdl.handle.net/10.5194/cp-17-111-2021</a>","AutID":332243,"MonDate":null,"AnaDate":2021,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":353273,"RR":"<b>Li, X.; Cai, W.; Meehl, G.A.; Chen, D.; Yuan, X.; Raphael, M.; Holland, D.M.; Ding, Q.; Fogt, R.L.; Markle, B.R.; Wang, G.; Bromwich, D.H.; Turner, J.; Xie, S.-P.; Steig, E.J.; Gille, S.T.; Xiao, C.; Wu, B.; Lazzara, M.A.; Chen, X.; Stammerjohn, S.; Holland, P.R.; Holland, M.M.; Cheng, X.; Price, S.F.; Wang, Z.; Bitz, C.M.; Shi, J.; Gerber, E.P.; Liang, X.; Goosse, H.; Yoo, C.; Ding, M.; Geng, L.; Xin, M.; Li, C.; Dou, T.; Liu, C.; Sun, W.; Wang, X.; Song, C.</b> (2021). Tropical teleconnection impacts on Antarctic climate changes. <i>Nat. Rev. Earth Environ. 2(10)</i>: 680-698. <a href=\"https://dx.doi.org/10.1038/s43017-021-00204-5\" target=\"_blank\">https://dx.doi.org/10.1038/s43017-021-00204-5</a>","AutID":332243,"MonDate":null,"AnaDate":2021,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":383020,"RR":"<b>Lyu, Z.; Goosse, H.; Dalaiden, Q.; Klein, F.; Shi, F.; Wagner, S.; Braconnot, P.</b> (2021). Spatial patterns of multi-centennial surface air temperature trends in Antarctica over 1-1000 CE: Insights from ice core records and modeling. <i>Quat. Sci. Rev. 271</i>: 107205. <a href=\"https://dx.doi.org/10.1016/j.quascirev.2021.107205\" target=\"_blank\">https://dx.doi.org/10.1016/j.quascirev.2021.107205</a>","AutID":335922,"MonDate":null,"AnaDate":2021,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":353569,"RR":"<b>Verfaillie, D.; Charton, J.; Schimmelpfennig, I.; Stroebele, Z.; Jomelli, V.; Bétard, F.; Favier, V.; Cavero, J.; Berthier, E.; Goosse, H.; Rinterknecht, V.; Legentil, C.; Charrassin, R.; Aumaître, G.; Bourlès, D.L.; Keddadouche, K.</b> (2021). Evolution of the Cook Ice Cap (Kerguelen Islands) between the last centuries and 2100 ce based on cosmogenic dating and glacio-climatic modelling. <i>Antarctic Science 33(3)</i>: 301-317. <a href=\"https://dx.doi.org/10.1017/S0954102021000080\" target=\"_blank\">https://dx.doi.org/10.1017/S0954102021000080</a>","AutID":332243,"MonDate":null,"AnaDate":2021,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":344552,"RR":"<b>Yin, Q.Z.; Wu, Z.P.; Berger, A.; Goosse, H.; Hodell, D.</b> (2021). Insolation triggered abrupt weakening of Atlantic circulation at the end of interglacials. <i>Science (Wash.) 373(6558)</i>: 1035-1040. <a href=\"https://dx.doi.org/10.1126/science.abg1737\" target=\"_blank\">https://dx.doi.org/10.1126/science.abg1737</a>","AutID":181928,"MonDate":null,"AnaDate":2021,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":337362,"RR":"<b>Zhang, L.; Delworth, T.L.; Cooke, W.; Goosse, H.; Bushuk, M.; Morioka, Y.; Yang, X.</b> (2021). The dependence of internal multidecadal variability in the Southern Ocean on the ocean background mean state. <i>J. Clim. 34(3)</i>: 1061-1080. <a href=\"https://hdl.handle.net/10.1175/JCLI-D-20-0049.1\" target=\"_blank\">https://hdl.handle.net/10.1175/JCLI-D-20-0049.1</a>","AutID":332243,"MonDate":null,"AnaDate":2021,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":337549,"RR":"<b>Cavitte, M.G.P.; Dalaiden, Q.; Goosse, H.; Lenaerts, J.T.M.; Thomas, E.R.</b> (2020). Reconciling the surface temperature-surface mass balance relationship in models and ice cores in Antarctica over the last 2 centuries. <i>Cryosphere 14(11)</i>: 4083-4102. <a href=\"https://hdl.handle.net/10.5194/tc-14-4083-2020\" target=\"_blank\">https://hdl.handle.net/10.5194/tc-14-4083-2020</a>","AutID":335922,"MonDate":null,"AnaDate":2020,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":337900,"RR":"<b>Dalaiden, Q.; Goosse, H.; Klein, F.; Lenaerts, J.T.M.; Holloway, M.; Sime, L.; Thomas, E.R.</b> (2020). How useful is snow accumulation in reconstructing surface air temperature in Antarctica? A study combining ice core records and climate models. <i>Cryosphere 14(4)</i>: 1187-1207. <a href=\"https://hdl.handle.net/10.5194/tc-14-1187-2020\" target=\"_blank\">https://hdl.handle.net/10.5194/tc-14-1187-2020</a>","AutID":335922,"MonDate":null,"AnaDate":2020,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":337643,"RR":"<b>Hernandez, A.; Martin-Puertas, C.; Moffa-Sanchez, P.; Moreno-Chamarro, E.; Ortega, P.; Blockley, S.; Cobb, K.M.; Comas-Bru, L.; Giralt, S.; Goosse, H.; Luterbacher, J.; Martrat, B.; Muscheler, R.; Parnell, A.; Pla-Rabes, S.; Sjolte, J.; Scaife, A.A.; Swingedouw, D.; Wise, E.; Xu, G.</b> (2020). Modes of climate variability: synthesis and review of proxy-based reconstructions through the Holocene. <i>Earth-Sci. 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Oceans(119)</i>: 4168-4184. <a href=\"http://dx.doi.org/10.1002/2013JC009705\" target=\"_blank\">dx.doi.org/10.1002/2013JC009705</a>","AutID":177968,"MonDate":null,"AnaDate":2014,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":238103,"RR":"<b>Moreau, S.; Vancoppenolle, M.; Zhou, J.; Tison, J.-L.; Delille, B.; Goosse, H.</b> (2014). Modelling argon dynamics in first-year sea ice. <i>Ocean Modelling 73</i>: 1-18. <a href=\"http://dx.doi.org/10.1016/j.ocemod.2013.10.004\" target=\"_blank\">dx.doi.org/10.1016/j.ocemod.2013.10.004</a>","AutID":177968,"MonDate":null,"AnaDate":2014,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":238100,"RR":"<b>Sriver, R.L.; Timmermann, A.; Mann, M.E.; Keller, K.; Goosse, H.</b> (2014). Improved representation of tropical Pacific ocean-atmosphere dynamics in an intermediate complexity climate model. <i>J. 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The spatial and temporal complexity of the Holocene thermal maximum. <i>Nature Geoscience 2(6)</i>: 410-413. <a href=\"https://dx.doi.org/10.1038/NGEO513\" target=\"_blank\">https://dx.doi.org/10.1038/NGEO513</a>","AutID":335930,"MonDate":null,"AnaDate":2009,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":257883,"RR":"<b>Swingedouw, D.; Fichefet, T.; Goosse, H.; Loutre, M.F.</b> (2009). Impact of transient freshwater releases in the Southern Ocean on the AMOC and climate. <i>Clim. Dyn. 33(2-3)</i>: 365-381. <a href=\"https://dx.doi.org/10.1007/s00382-008-0496-1\" target=\"_blank\">https://dx.doi.org/10.1007/s00382-008-0496-1</a>","AutID":136119,"MonDate":null,"AnaDate":2009,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":211408,"RR":"<b>Vancoppenolle, M.; Fichefet, T.; Goosse, H.</b> (2009). Simulating the mass balance and salinity of Arctic and Antarctic sea ice. 2. Importance of sea ice salinity variations. <i>Ocean Modelling 27(1-2)</i>: 54-69. <a href=\"http://dx.doi.org/10.1016/j.ocemod.2008.11.003\" target=\"_blank\">dx.doi.org/10.1016/j.ocemod.2008.11.003</a>","AutID":140849,"MonDate":null,"AnaDate":2009,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":211407,"RR":"<b>Vancoppenolle, M.; Fichefet, T.; Goosse, H.; Bouillon, S.; Madec, G.; Maqueda, M.A.M.</b> (2009). Simulating the mass balance and salinity of Arctic and Antarctic sea ice. 1. Model description and validation. <i>Ocean Modelling 27(1-2)</i>: 33-53. <a href=\"http://dx.doi.org/10.1016/j.ocemod.2008.10.005\" target=\"_blank\">dx.doi.org/10.1016/j.ocemod.2008.10.005</a>","AutID":139737,"MonDate":null,"AnaDate":2009,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":258073,"RR":"<b>Lefebvre, W.; Goosse, H.</b> (2008). Analysis of the projected regional sea-ice changes in the Southern Ocean during the twenty-first century. <i>Clim. Dyn. 30(1)</i>: 59-76. <a href=\"https://dx.doi.org/10.1007/s00382-007-0273-6\" target=\"_blank\">https://dx.doi.org/10.1007/s00382-007-0273-6</a>","AutID":136119,"MonDate":null,"AnaDate":2008,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":211089,"RR":"<b>Lefebvre, W.; Goosse, H.</b> (2008). An analysis of the atmospheric processes driving the large-scale winter sea ice variability in the Southern Ocean. <i>J. Geophys. Res. 113(C2)</i>. <a href=\"http://dx.doi.org/10.1029/2006JC004032\" target=\"_blank\">dx.doi.org/10.1029/2006JC004032</a>","AutID":142294,"MonDate":null,"AnaDate":2008,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":258008,"RR":"<b>Swingedouw, D.; Fichefet, T.; Huybrechts, P.; Goosse, H.; Driesschaert, E.; Loutre, M.-F.</b> (2008). Antarctic ice-sheet melting provides negative feedbacks on future climate warming. <i>Geophys. Res. Lett. 35(17)</i>. <a href=\"https://dx.doi.org/10.1029/2008GL034410\" target=\"_blank\">https://dx.doi.org/10.1029/2008GL034410</a>","AutID":136119,"MonDate":null,"AnaDate":2008,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":296145,"RR":"<b>Wanner, H.; Beer, J.; Bütikofer, J.; Crowley, T.J.; Cubasch, U.; Flückiger, J.; Goosse, H.; Grosjean, M.; Joos, F.; Kaplan, J.O.; Küttel, M.; Prentice, I.C.; Solomina, O.; Stocker, T.F.; Tarasov, P.; Wagner, M.; Widmann, M.</b> (2008). Mid- to Late Holocene climate change: an overview. <i>Quat. Sci. Rev. 27(19-20)</i>: 1791-1828. <a href=\"https://dx.doi.org/10.1016/j.quascirev.2008.06.013\" target=\"_blank\">https://dx.doi.org/10.1016/j.quascirev.2008.06.013</a>","AutID":229380,"MonDate":null,"AnaDate":2008,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":296167,"RR":"<b>Yin, Q.; Berger, A.; Driesschaert, E.; Goosse, H.; Loutre, M.-F.; Crucifix, M.</b> (2008). The Eurasian ice sheet reinforces the East Asian summer monsoon during the interglacial 500 000 years ago. <i>Clim. Past 4(2)</i>: 79-90","AutID":326398,"MonDate":null,"AnaDate":2008,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":211395,"RR":"<b>Arzel, O.; Fichefet, T.; Goosse, H.</b> (2006). Sea ice evolution over the 20th and 21st centuries as simulated by current AOGCMs. <i>Ocean Modelling 12(3-4)</i>: 401-415. <a href=\"http://dx.doi.org/10.1016/j.ocemod.2005.08.002\" target=\"_blank\">dx.doi.org/10.1016/j.ocemod.2005.08.002</a>","AutID":136119,"MonDate":null,"AnaDate":2006,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":69966,"RR":"<b>Pasquer, B.; Laruelle, G.; Becquevort, S.; Schoemann, V.; Goosse, H.; Lancelot, C.</b> (2005). Linking ocean biogeochemical cycles and ecosystem structure and function: results of the complex SWAMCO-4 model. <i>J. Sea Res. 53(1-2)</i>: 93-108. <a href=\"https://dx.doi.org/10.1016/j.seares.2004.07.001\" target=\"_blank\">https://dx.doi.org/10.1016/j.seares.2004.07.001</a>","AutID":136119,"MonDate":null,"AnaDate":2005,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":209848,"RR":"<b>Renssen, H.; Goosse, H.; Fichefet, T.; Brovkin, V.; Driesschaert, E.; Wolk, F.</b> (2005). Simulating the Holocene climate evolution at northern high latitudes using a coupled atmosphere-sea ice-ocean-vegetation model. <i>Clim. Dyn. 24(1)</i>: 23-43. <a href=\"http://dx.doi.org/10.1007/s00382-004-0485-y\" target=\"_blank\">dx.doi.org/10.1007/s00382-004-0485-y</a>","AutID":136119,"MonDate":null,"AnaDate":2005,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":280918,"RR":"<b>Renssen, H.; Goosse, H.; Fichefet, T.; Masson-Delmotte, V.; Koç, N.</b> (2005). Holocene climate evolution in the high-latitude Southern Hemisphere simulated by a coupled atmosphere-sea ice-ocean-vegetation model. <i>Holocene 15(7)</i>: 951-964. <a href=\"http://dx.doi.org/10.1191/0959683605hl869ra\" target=\"_blank\">dx.doi.org/10.1191/0959683605hl869ra</a>","AutID":241832,"MonDate":null,"AnaDate":2005,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":211394,"RR":"<b>Timmermann, R.; Goosse, H.; Madec, G.; Fichefet, T.; Ethe, C.; Dulière, V.</b> (2005). On the representation of high latitude processes in the ORCA-LIM global coupled sea ice-ocean model. <i>Ocean Modelling 8(1-2)</i>: 175-201. <a href=\"http://dx.doi.org/10.1016/j.ocemod.2003.12.009\" target=\"_blank\">dx.doi.org/10.1016/j.ocemod.2003.12.009</a>","AutID":136119,"MonDate":null,"AnaDate":2005,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":211083,"RR":"<b>Lefebvre, W.; Goosse, H.; Timmermann, R.; Fichefet, T.</b> (2004). Influence of the Southern Annular Mode on the sea ice-ocean system. <i>J. Geophys. Res. 109(C9)</i>. <a href=\"http://dx.doi.org/10.1029/2004JC002403\" target=\"_blank\">dx.doi.org/10.1029/2004JC002403</a>","AutID":136119,"MonDate":null,"AnaDate":2004,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":211450,"RR":"<b>Renssen, H.; Beets, C.J.; Fichefet, T.; Goosse, H.; Kroon, D.</b> (2004). Modeling the climate response to a massive methane release from gas hydrates. <i>Paleoceanography 19(2)</i>. <a href=\"http://dx.doi.org/10.1029/2003PA000968\" target=\"_blank\">dx.doi.org/10.1029/2003PA000968</a>","AutID":136119,"MonDate":null,"AnaDate":2004,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":211082,"RR":"<b>Timmermann, R.; Worby, A.; Goosse, H.; Fichefet, T.</b> (2004). Utilizing the ASPeCt sea ice thickness data set to evaluate a global coupled sea ice-ocean model. <i>J. Geophys. Res. 109(C7)</i>. <a href=\"http://dx.doi.org/10.1029/2003JC002242\" target=\"_blank\">dx.doi.org/10.1029/2003JC002242</a>","AutID":136119,"MonDate":null,"AnaDate":2004,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":211389,"RR":"<b>Beckmann, A.; Goosse, H.</b> (2003). A parameterization of ice shelf-ocean interaction for climate models. <i>Ocean Modelling 5(2)</i>: 157-170. <a href=\"http://dx.doi.org/10.1016/S1463-5003(02)00019-7\" target=\"_blank\">dx.doi.org/10.1016/S1463-5003(02)00019-7</a>","AutID":136119,"MonDate":null,"AnaDate":2003,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":211079,"RR":"<b>Fichefet, T.; Tartinville, B.; Goosse, H.</b> (2003). Antarctic sea ice variability during 1958-1999: A simulation with a global ice-ocean model. <i>J. Geophys. Res. 108(C3)</i>. <a href=\"http://dx.doi.org/10.1029/2001JC001148\" target=\"_blank\">dx.doi.org/10.1029/2001JC001148</a>","AutID":136119,"MonDate":null,"AnaDate":2003,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":111324,"RR":"<b>Fichefet, T.; Goosse, H.; Morales Maqueda, M.</b> (2003). A hindcast simulation of Arctic and Antarctic sea ice variability, 1955-2001. <i>Pol. Res. 22(1)</i>: 91-98. <a href=\"http://dx.doi.org/10.1111/j.1751-8369.2003.tb00100.x\" target=\"_blank\">dx.doi.org/10.1111/j.1751-8369.2003.tb00100.x</a>","AutID":136119,"MonDate":null,"AnaDate":2003,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":211492,"RR":"<b>Goosse, H.; Fichefet, T.</b> (2001). Open-ocean convection and polynya formation in a large-scale ice-ocean model. <i>Tellus, Ser. 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An integrated approach to assess carbon dynamics in the Southern Ocean, <b><i>in</i></b>: <i>Belgian Scientific Research programme on the Antarctic, phase 4 (1997-2001), Scientific results: 1. Marine biota and global change.</i> pp. 1-160","AutID":14262,"MonDate":null,"AnaDate":2003,"PeerRev":0,"outputType":"4_BookChap","OpenAcc":0},{"BRefID":10034,"RR":"<b>Berger, A.; Campin, J.M.; Deleersnijder, E.; El Mohajir, M.; Fichefet, T.; Goosse, H.; Morales Maqueda, M.; van Ypersele, J.P.; Foccoroulle, F.; Grenier, H.</b> (1994). Modelling global climate change, <b><i>in</i></b>: Vanderborght, O. <i>et al.</i> (Ed.) <i>IGBP and 'Global Change' related research in Belgium II.</i> pp. 195-196","AutID":14262,"MonDate":null,"AnaDate":1994,"PeerRev":0,"outputType":"4_BookChap","OpenAcc":0}],"Abstr":[{"BRefID":391019,"RR":"<b>Libera, S.; Goosse, H.; Putrasahan, D.</b> (2024). 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Assessing the sensitivity of the Southern Ocean’s biological carbon pump to climate change (BELCANTO II): final report. Belgian Science Policy: Brussel.  130 pp.","AutID":14262,"MonDate":2006,"AnaDate":null,"PeerRev":0,"outputType":"7_Report","OpenAcc":0},{"BRefID":109766,"RR":"<b>Dehairs, F.A.; Lancelot, C.; André, L.; Goosse, H.; Frankignoulle, M.; Becquevort, S.; Borges, A.; Cardinal, D.; de Montety, A.; Delille, B.; Elskens, M.; Jacquet, S.; Lefebvre, W.; Pasquer, B.; Savoye, N.; Schoemann, V.</b> (2006). Assessing the sensitivity of the Southern Ocean’s biological carbon pump to climate change (BELCANTO II): final report. 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