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- Gangadharan, N.; Goosse, H.; Parkes, D.; Goelzer, H.; Maussion, F.; Marzeion, B. (2022). Process-based estimate of global-mean sea-level changes in me Common Era. Earth System Dynamics 13(4): 1417-1435. https://dx.doi.org/10.5194/esd-13-1417-2022, meer
- Rohmer, J.; Thieblemont, R.; le Cozannet, G.; Goelzer, H.; Durand, G. (2022). Improving interpretation of sea-level projections through a machine-learning-based local explanation approach. Cryosphere 16(11): 4637-4657. https://dx.doi.org/10.5194/tc-16-4637-2022, meer
- van de Wal, R.S.W.; Nicholls, R.J.; Behar, D.; McInnes, K.; Stammer, D.; Lowe, J.A.; Church, J.A.; Deconto, R.; Fettweis, X.; Goelzer, H.; Haasnoot, M.; Haigh, I.D.; Hinkel, J.; Horton, B.P.; James, T.S.; Jenkins, A.; LeCozannet, G.; Levermann, A.; Lipscomb, W.H.; Marzeion, B.; Pattyn, F.; Payne, A.J.; Pfeffer, W.T.; Price, S.F.; Seroussi, H.; Sun, S.; Veatch, W.; White, K. (2022). A high-end estimate of sea level rise for practitioners. Earth's Future 10(11): e2022EF002751. https://dx.doi.org/10.1029/2022EF002751, meer
- Berends, C.J.; Goelzer, H.; van de Wal, R.S.W. (2021). The Utrecht Finite Volume Ice-Sheet Model: UFEMISM (version 1.0). Geosci. Model Dev. 14(5): 2443-2470. https://dx.doi.org/10.5194/gmd-14-2443-2021, meer
- Edwards, T.L.; Nowicki, S.; Marzeion, B.; Hock, R.; Goelzer, H.; Seroussi, H.; Jourdain, N.C.; Slater, D.A.; Turner, F.E.; Smith, C.J.; McKenna, C.M.; Simon, E.; Abe-Ouchi, A.; Gregory, J.M.; Larour, E.; Lipscomb, W.H.; Payne, A.J.; Shepherd, A.; Agosta, C.; Alexander, P.; Albrecht, T.; Anderson, B.; Asay-Davis, X.; Aschwanden, A.; Barthel, A.; Bliss, A.; Calov, R.; Chambers, C.; Champollion, N.; Choi, Y.; Cullather, R.; Cuzzone, J.; Dumas, C.; Felikson, D.; Fettweis, X.; Fujita, K.; Galton-Fenzi, B.K.; Gladstone, R.; Golledge, N.R.; Greve, R.; Hattermann, T.; Hoffman, M.J.; Humbert, A.; Huss, M.; Huybrechts, P.; Immerzeel, W.; Kleiner, T.; Kraaijenbrink, P.; Le Clec'h, S.; Lee, V.; Leguy, G.R.; Little, C.M.; Lowry, D.P.; Malles, J.-H.; Martin, D.F.; Maussion, F.; Morlighem, M.; O’Neill, J.F.; Nias, I.; Pattyn, F.; Pelle, T.; Price, S.F.; Quiquet, A.; Radic, V.; Reese, R.; Rounce, D.R.; Rückamp, M.; Sakai, A.; Shafer, C.; Schlegel, N.-J.; Shannon, S.; Smith, R.S.; Straneo, F.; Sun, S.; Tarasov, L.; Trusel, L.D.; Van Breedam, J.; van de Wal, R.; van den Broeke, M.; Winkelmann, R.; Zekollari, H.; Zhao, C.; Zhang, T.; Zwinger, T. (2021). Projected land ice contributions to twenty-first-century sea level rise. Nature (Lond.) 593(7857): 74-82. https://hdl.handle.net/10.1038/s41586-021-03302-y, meer
- Lambert, E.; Le Bars, D.; Goelzer, H.; van de Wal, R.S.W (2021). Correlations between sea-level components are driven by regional climate change. Earth's Future 9(2): e2020EF001825. https://hdl.handle.net/10.1029/2020EF001825, meer
- Mulder, T.E.; Goelzer, H.; Wubs, F.W.; Dijkstra, H.A. (2021). Snowball earth bifurcations in a fully-implicit earth system model. International Journal of Bifurcation and Chaos 31(06): 2130017. https://dx.doi.org/10.1142/S0218127421300172, meer
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- Barthel, A.; Agosta, C.; Little, C.M.; Hattermann, T.; Jourdain, N.C.; Goelzer, H.; Nowicki, S.; Seroussi, H.; Straneo, F.; Bracegirdle, T.J. (2020). CMIP5 model selection for ISMIP6 ice sheet model forcing: Greenland and Antarctica. Cryosphere 14(3): 855-879. https://hdl.handle.net/10.5194/tc-14-855-2020, meer
- Fettweis, X.; Hofer, S.; Krebs-Kanzow, U.; Amory, C.; Aoki, T.; Berends, C.J.; Born, A.; Box, J.E.; Delhasse, A.; Fujita, K.; Gierz, P.; Goelzer, H.; Hanna, E.; Hashimoto, A.; Huybrechts, P.; Kapsch, M.-L.; King, M.D.; Kittel, C.; Lang, C.; Langen, P.L.; Lenaerts, J.T.M.; Liston, G.E.; Lohmann, G.; Mernild, S.H.; Mikolajewicz, U.; Modali, K.; Mottram, R.H.; Niwano, M.; Noël, B.; Ryan, J.C.; Smith, A.; Streffing, J.; Tedesco, M.; van de Berg, W.J.; van den Broeke, M.; van de Wal, R.S.W.; van Kampenhout, L.; Wilton, D.; Wouters, B.; Ziemen, F.; Zolles, T. (2020). GrSMBMIP: intercomparison of the modelled 1980–2012 surface mass balance over the Greenland Ice Sheet. Cryosphere 14(11): 3935-3958. https://dx.doi.org/10.5194/tc-14-3935-2020, meer
- Goelzer, H.; Coulon, V.; Pattyn, F.; de Boer, B.; van de Wal, R.S.W. (2020). Brief communication: on calculating the sea-level contribution in marine ice-sheet models. Cryosphere 14(3): 833-840. https://hdl.handle.net/10.5194/tc-14-833-2020, meer
- Goelzer, H.; Nowicki, S.; Payne, A.; Larour, E.; Seroussi, H.; Lipscomb, W.H.; Gregory, J.; Abe-Ouchi, A.; Shepherd, A.; Simon, E.; Agosta, C.; Alexander, P.; Aschwanden, A.; Barthel, A.; Calov, R.; Chambers, C.R.; Choi, Y.; Cuzzone, J.; Dumas, C.; Edwards, T.; Felikson, D.; Fettweis, X.; Golledge, N.R.; Greve, R.; Humbert, A.; Huybrechts, P.; Le Clec'h, S.; Lee, V.; Leguy, G.; Little, C.; Lowry, D.P.; Morlighem, M.; Nias, I.; Quiquet, A.; Rückamp, M.; Schlegel, N.-J.; Slater, D.A.; Smith, R.S.; Straneo, F.; Tarasov, L.; van de Wal, R.; van den Broeke, M. (2020). The future sea-level contribution of the Greenland ice sheet: a multi-model ensemble study of ISMIP6. Cryosphere 14(9): 3071-3096. https://hdl.handle.net/10.5194/tc-14-3071-2020, meer
- Goelzer, H.; Noël, B.P.Y.; Edwards, T.L.; Fettweis, X.; Gregory, J.M.; Lipscomb, W.H.; van de Wal, R.S.W.; van den Broeke, M.R. (2020). Remapping of Greenland ice sheet surface mass balance anomalies for large ensemble sea-level change projections. Cryosphere 14(6): 1747-1762. https://hdl.handle.net/10.5194/tc-14-1747-2020, meer
- Hanna, E.; Pattyn, F.; Navarro, F.; Favier, V.; Goelzer, H.; van den Broeke, M.R.; Whitehouse, P.L.; Ritz, C.; Bulthuis, K.; Smith, B. (2020). Mass balance of the ice sheets and glaciers - Progress since AR5 and challenges. Earth-Sci. Rev. 201: 102976. https://hdl.handle.net/10.1016/j.earscirev.2019.102976, meer
- Levermann, A.; Winkelmann, R.; Albrecht, T.; Goelzer, H.; Golledge, N.R.; Greve, R.; Huybrechts, P.; Jordan, J.; Leguy, G.; Martin, D.; Morlighem, M.; Pattyn, F.; Pollard, D.; Quiquet, A.; Rodehacke, C.; Seroussi, H.; Sutter, J.; Zhang, T.; Van Breedam, J.; Calov, R.; DeConto, R.; Dumas, C.; Garbe, J.; Gudmundsson, G.H.; Hoffman, M.J.; Humbert, A.; Kleiner, T.; Lipscomb, W.H.; Meinshausen, M.; Ng, E.; Nowicki, S.M.J.; Perego, M.; Price, S.F.; Saito, F.; Schlegel, N.-J.; Sun, S.; van de Wal, R.S.W (2020). Projecting Antarctica's contribution to future sea level rise from basal ice shelf melt using linear response functions of 16 ice sheet models (LARMIP-2). Earth System Dynamics 11(1): 35-76. https://dx.doi.org/10.5194/esd-11-35-2020, meer
- Nowicki, S.; Goelzer, H.; Seroussi, H.; Payne, A.J.; Lipscomb, W.H.; Abe-Ouchi, A.; Agosta, C.; Alexander, P.; Asay-Davis, X.S.; Barthel, A.; Bracegirdle, T.J.; Cullather, R.; Felikson, D.; Fettweis, X.; Gregory, J.M.; Hattermann, T.; Jourdain, N.C.; Munneke, P.K.; Larour, E.; Little, C.M.; Morlighem, M.; Nias, I.; Shepherd, A.; Simon, E.; Slater, D.; Smith, R.S.; Straneo, F.; Trusel, L.D.; van den Broeke, M.R.; van de Wal, R. (2020). Experimental protocol for sea level projections from ISMIP6 stand-alone ice sheet models. Cryosphere 14(7): 2331-2368. https://hdl.handle.net/10.5194/tc-14-2331-2020, meer
- Rückamp, M.; Goelzer, H.; Humbert, A. (2020). Sensitivity of Greenland ice sheet projections to spatial resolution in higher-order simulations: the Alfred Wegener Institute (AWI) contribution to ISMIP6 Greenland using the Ice-sheet and Sea-level System Model (ISSM). Cryosphere 14(10): 3309-3327. https://hdl.handle.net/10.5194/tc-14-3309-2020, meer
- Seroussi, H.; Nowicki, S.; Payne, A.J.; Goelzer, H.; Lipscomb, W.H.; Abe-Ouchi, A.; Agosta, C.; Albrecht, T.; Asay-Davis, X.; Barthel, A.; Calov, R.; Cullather, R.; Dumas, C.; Galton-Fenzi, B.K.; Gladstone, R.; Golledge, N.R.; Gregory, J.M.; Greve, R.; Hattermann, T.; Hoffman, M.J.; Humbert, A.; Huybrechts, P.; Jourdain, N.C.; Kleiner, T.; Larour, E.; Leguy, G.R.; Lowry, D.P.; Little, C.M.; Morlighem, M.; Pattyn, F.; Pelle, T.; Price, S.F.; Quiquet, A.; Reese, R.; Schlegel, N.-J.; Shepherd, A.; Simon, E.; Smith, R.S.; Straneo, F.; Sun, S.; Trusel, L.D.; Van Breedam, J.; van de Wal, R.S.W; Winkelmann, R.; Zhao, C.; Zhang, T.; Zwinger, T. (2020). ISMIP6 Antarctica: a multi-model ensemble of the Antarctic ice sheet evolution over the 21st century. Cryosphere 14(9): 3033-3070. https://hdl.handle.net/10.5194/tc-14-3033-2020, meer
- Slater, D.A.; Felikson, D.; Straneo, F.; Goelzer, H.; Little, C.M.; Morlighem, M.; Fettweis, X.; Nowicki, S. (2020). Twenty-first century ocean forcing of the Greenland ice sheet for modelling of sea level contribution. Cryosphere 14(3): 985-1008. https://hdl.handle.net/10.5194/tc-14-985-2020, meer
- Sun, S.; Pattyn, F.; Simon, E.G.; Albrecht, T.; Cornford, S.; Calov, R.; Dumas, C.; Gillet-Chaulet, F.; Goelzer, H.; Golledge, N.R.; Greve, R.; Hoffman, M.J.; Humbert, A.; Kazmierczak, E.; Kleiner, T.; Leguy, G.R.; Lipscomb, W.H.; Martin, D.; Morlighem, M.; Nowicki, S.; Pollard, D.; Price, S.; Quiquet, A.; Seroussi, H.; Schlemm, T.; Sutter, J.; van de Wal, R.S.W; Winkelmann, R.; Zhang, T. (2020). Antarctic ice sheet response to sudden and sustained ice-shelf collapse (ABUMIP). J. Glaciol. 66(260): 891-904. https://hdl.handle.net/10.1017/jog.2020.67, meer
- Van Breedam, J.; Goelzer, H.; Huybrechts, P. (2020). Semi-equilibrated global sea-level change projections tor the next 10 000 years. Earth System Dynamics 11(4): 953-976. https://hdl.handle.net/10.5194/esd-11-953-2020, meer
- Seroussi, H.; Nowicki, S.; Simon, E.; Abe-Ouchi, A.; Albrecht, T.; Brondex, J.; Cornford, S.; Dumas, C.; Gillet-Chaulet, F.; Goelzer, H.; Golledge, N.R.; Gregory, J.M.; Greve, R.; Hoffman, M.J.; Humbert, A.; Huybrechts, P.; Kleiner, T.; Larour, E.; Leguy, G.; Lipscomb, W.H.; Lowry, D.; Mengel, M.; Morlighem, M.; Pattyn, F.; Payne, A.J.; Pollard, D.; Price, S.F.; Quiquet, A.; Reerink, T.J.; Reese, R.; Rodehacke, C.B.; Schlegel, N.-J.; Shepherd, A.; Sun, S.; Sutter, J.; Van Breedam, J.; van de Wal, R.S.W; Winkelmann, R.; Zhang, T. (2019). initMIP-Antarctica: an ice sheet model initialization experiment of ISMIP6. Cryosphere 13(5): 1441-1471. https://dx.doi.org/10.5194/tc-13-1441-2019, meer
- Slater, D.A.; Straneo, F.; Felikson, D.; Little, C.M.; Goelzer, H.; Fettweis, X.; Holte, J. (2019). Estimating Greenland tidewater glacier retreat driven by submarine melting. Cryosphere 13(9): 2489-2509. https://dx.doi.org/10.5194/tc-13-2489-2019, meer
- Goelzer, H.; Nowicki, S.; Edwards, T.; Beckley, M.; Abe-Ouchi, A.; Aschwanden, A.; Calov, R.; Gagliardini, O.; Gillet-Chaulet, F.; Golledge, N.R.; Gregory, J.; Greve, R.; Humbert, A.; Huybrechts, P.; Kennedy, J.H.; Larour, E.; Lipscomb, W.H.; Le Clec'h, S.; Lee, V.; Morlighem, M.; Pattyn, F.; Payne, A.J.; Rodehacke, C.; Rückamp, M.; Saito, F.; Schlegel, N.; Seroussi, H.; Shepherd, A.; Sun, S.; van de Wal, R.; Ziemen, F.A. (2018). Design and results of the ice sheet model initialisation initMIP-Greenland: an ISMIP6 intercomparison. Cryosphere 12(4): 1433-1460. https://dx.doi.org/10.5194/tc-12-1433-2018, meer
- Moon, T.; Ahlstrom, A.; Goelzer, H.; Lipscomb, W.; Nowicki, S. (2018). Rising oceans guaranteed: Arctic land ice loss and sea level rise. Current Climate Change Reports 4(3): 211-222. https://dx.doi.org/10.1007/s40641-018-0107-0, meer
- Pattyn, F.; Ritz, C.; Hanna, E.; Asay-Davis, X.S.; DeConto, R.; Durand, G.; Favier, L.; Fettweis, X.; Goelzer, H.; Golledge, N.R.; Kuipers Munneke, P.; Lenaerts, J.T.M.; Nowicki, S.; Payne, A.J.; Robinson, A.; Seroussi, H.; Trusel, L.D.; van den Broeke, M.R. (2018). The Greenland and Antarctic ice sheets under 1.5 °C global warming. Nat. Clim. Chang. 8(12): 1053-1061. https://dx.doi.org/10.1038/s41558-018-0305-8, meer
- Goelzer, H.; Robinson, A.; Seroussi, H.; van de Wal, R.S.W (2017). Recent progress in Greenland ice sheet modelling. Current Climate Change Reports 3(4): 291-302. https://dx.doi.org/10.1007/s40641-017-0073-y, meer
- Goelzer, H.; Huybrechts, P.; Loutre, M.-F.; Fichefet, T. (2016). Last Interglacial climate and sea-level evolution from a coupled ice sheet-climate model. Clim. Past 12(12): 2195-2213. https://dx.doi.org/10.5194/cp-12-2195-2016, meer
- Goelzer, H.; Huybrechts, P.; Loutre, M.-F.; Fichefet, T. (2016). Impact of ice sheet meltwater fluxes on the climate evolution at the onset of the Last Interglacial. Clim. Past 12(8): 1721-1737. https://dx.doi.org/10.5194/cp-12-1721-2016, meer
- Nowicki, S.M.J.; Payne, A.; Larour, E.; Seroussi, H.; Goelzer, H.; Lipscomb, W.; Gregory, J.; Abe-Ouchi, A.; Shepherd, A. (2016). Ice Sheet Model Intercomparison Project (ISMIP6) contribution to CMIP6. Geosci. Model Dev. 9(12): 4521-4545. https://dx.doi.org/10.5194/gmd-9-4521-2016, meer
- de Boer, B.; Dolan, A.M.; Bernales, J.; Gasson, E.; Goelzer, H.; Golledge, N.R.; Sutter, J.; Huybrechts, P.; Lohmann, G.; Rogozhina, I.; Abe-Ouchi, A.; Saito, F.; van de Wal, R.S.W. (2015). Simulating the Antarctic ice sheet in the late-Pliocene warm period: PLISMIP-ANT, an ice-sheet model intercomparison project. Cryosphere 9(3): 881-903. https://dx.doi.org/10.5194/tc-9-881-2015, meer
- Fürst, J.J.; Goelzer, H.; Huybrechts, P. (2015). Ice-dynamic projections of the Greenland ice sheet in response to atmospheric and oceanic warming. Cryosphere 9(3): 1039-1062. https://dx.doi.org/10.5194/tc-9-1039-2015, meer
- Edwards, L; Fettweis, X.; Gagliardini, O; Gillet-Chaulet, F; Goelzer, H.; Gregory, M; Hoffman, M; Huybrechts, P.; Payne, J; Perego, M; Price, S; Quiquet, A; Ritz, C (2014). Effect of uncertainty in surface mass balance-elevation feedback on projections of the future sea level contribution of the Greenland ice sheet. Cryosphere 8(1): 195-208. dx.doi.org/10.5194/tc-8-195-2014, meer
- Edwards, T.L.; Fettweis, X.; Gagliardini, O.; Gillet-Chaulet, F.; Goelzer, H.; Gregory, J.M.; Hoffmann, M.; Huybrechts, P.; Payne, A.J.; Perego, M.; Quiquet, A.; Ritz, C. (2014). Probabilistic parameterisation of the surface mass balance–elevation feedback in regional climate model simulations of the Greenland ice sheet. Cryosphere 8(1): 181-194. https://dx.doi.org/10.5194/tc-8-181-2014, meer
- Loutre, M.-F.; Fichefet, T.; Goosse, H.; Huybrechts, P.; Goelzer, H.; Capron, E. (2014). Factors controlling the last interglacial climate as simulated by LOVECLIM1.3. Clim. Past 10(4): 1541-1565. https://dx.doi.org/10.5194/cp-10-1541-2014, meer
- Fürst, J.J.; Goelzer, H.; Huybrechts, P. (2013). Effect of higher-order stress gradients on the centennial mass evolution of the Greenland ice sheet. Cryosphere 7(1): 183-199. https://dx.doi.org/10.5194/tc-7-183-2013, meer
- Goelzer, H.; Huybrechts, P.; Fürst, J.J.; Nick, F.M.; Andersen, M.L.; Edwards, T.L.; Fettweis, X.; Payne, A.J.; Shannon, S. (2013). Sensitivity of Greenland ice sheet projections to model formulations. J. Glaciol. 59(216): 733-749. https://dx.doi.org/10.3189/2013JoG12J182, meer
- Shannon, S.R.; Payne, A.J.; Bartholomew, I.D.; van den Broeke, M.R.; Edwards, T.L.; Fettweis, X.; Gagliardini, O.; Gillet-Chaulet, F.; Goelzer, H.; Hoffman, M.J.; Huybrechts, P.; Mair, D.W.F.; Nienow, P.W.; Perego, M.; Price, S.F.; Smeets, C.J.P.P.; Sole, A.J.; van de Wal, R.S.W.; Zwinger, T. (2013). Enhanced basal lubrication and the contribution of the Greenland ice sheet to future sea-level rise. Proc. Natl. Acad. Sci. U.S.A. 110(35): 14156-14161. dx.doi.org/10.1073/pnas.1212647110, meer
- Goelzer, H.; Huybrechts, P.; Raper, S.C.B.; Loutre, M.-F.; Goosse, H.; Fichefet, T. (2012). Millennial total sea-level commitments projected with the Earth system model of intermediate complexity LOVECLIM. Environ. Res. Lett. 7(4): 045401. http://dx.doi.org/10.1088/1748-9326/7/4/045401, meer
- Goelzer, H.; Huybrechts, P.; Loutre, M.-F.; Goosse, H.; Fichefet, T.; Mouchet, A. (2011). Impact of Greenland and Antarctic ice sheet interactions on climate sensitivity. Clim. Dyn. 37(5-6): 1005-1018. https://dx.doi.org/10.1007/s00382-010-0885-0, meer
- Huybrechts, P.; Goelzer, H.; Janssens, I.; Driesschaert, E.; Fichefet, T.; Goosse, H.; Loutre, M.F. (2011). Response of the Greenland and Antarctic ice sheets to multi-millennial greenhouse warming in the earth system model of intermediate complexity LOVECLIM. Surveys in Geophysics 32(4-5): 397-416. https://dx.doi.org/10.1007/s10712-011-9131-5, meer
- Loutre, M.-F.; Mouchet, A.; Fichefet, T.; Goosse, H.; Goelzer, H.; Huybrechts, P. (2011). Evaluating climate model performance with various parameter sets using observations over the recent past. Clim. Past 7(2): 511-526. https://dx.doi.org/10.5194/cp-7-511-2011, meer
- Goosse, H.; Brovkin, V.; Fichefet, T.; Haarsma, R.; Huybrechts, P.; Jongma, J.; Mouchet, A.; Selten, F.; Barriat, P.-Y.; Campin, J.-M.; Deleersnijder, E.; Driesschaert, E.; Goelzer, H.; Janssens, I.; Loutre, M.-F.; Morales Maqueda, M.A.; Opsteegh, T.; Mathieu, P.; Munhoven, G.; Pettersson, E.J.; Renssen, H.; Roche, D.M.; Schaeffer, M.; Tartinville, B.; Timmermann, A.; Weber, S.L. (2010). Description of the Earth system model of intermediate complexity LOVECLIM version 1.2. Geosci. Model Dev. 3(2): 603-633. https://dx.doi.org/10.5194/gmd-3-603-2010, meer
- Goelzer, H.; Levermann, A.; Rahmstorf, S. (2009). Two-way coupling of an ENSO model to the global climate model CLIMBER-3a. Ocean Modelling 29(1): 94-101. dx.doi.org/10.1016/j.ocemod.2009.03.004, meer
- Goelzer, H.; Mignot, J.; Levermann, A.; Rahmstorf, S. (2006). Tropical versus high latitude freshwater influence on the Atlantic circulation. Clim. Dyn. 27(7-8): 715-725. http://dx.doi.org/10.1007/s00382-006-0161-5, meer
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