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Greening the city: thriving for biodiversity and sustainability. Sci. Total Environ. 817: 153032. https://dx.doi.org/10.1016/j.scitotenv.2022.153032","PeerRev":1},{"BRefID":355847,"RR":"Van Breedam, J.; Huybrechts, P.; Crucifix, M. (2022). Modelling evidence for late Eocene Antarctic glaciations. Earth Planet. Sci. 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(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","PeerRev":1},{"BRefID":353275,"RR":"Payne, A.J.; Nowicki, S.; Abe-Ouchi, A.; Agosta, C.; Alexander, P.; Albrecht, T.; Asay-Davis, X.; Aschwanden, A.; Barthel, A.; Bracegirdle, T.J.; Calov, R.; Chambers, C.; Choi, Y.; Cullather, R.; Cuzzone, J.; Dumas, C.; Edwards, T.L.; Felikson, D.; Fettweis, X.; Galton-Fenzi, B.K.; Goelzer, H.; Gladstone, R.; Golledge, N.R.; Gregory, J.M.; Greve, R.; Hattermann, T.; Hoffman, M.J.; Humbert, A.; Huybrechts, P.; Jourdain, N.C.; Kleiner, T.; Kuipers Munneke, P.; Larour, E.; Le Clec'h, S.; Lee, V.; Leguy, G.; Lipscomb, W.H.; Little, C.M.; Lowry, D.P.; Morlighem, M.; Nias, I.; Pattyn, F.; Pelle, T.; Price, S.F.; Quiquet, A.; Reese, R.; Rückamp, M.; Schlegel, N.-J.; Seroussi, H.; Shepherd, A.; Simon, E.; Slater, D.; 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.; Zhao, C.; Zhang, T.; Zwinger, T. (2021). Future sea level change under coupled model intercomparison project phase 5 and phase 6 scenarios from the Greenland and Antarctic ice sheets. Geophys. Res. Lett. 48(16): e2020GL091741. https://dx.doi.org/10.1029/2020GL091741","PeerRev":1},{"BRefID":354101,"RR":"Quader, M.A.; Khan, A.U.; Kervyn, M. (2021). Spatial variation in household-level risk to natural hazards across the coast of Bangladesh. Geomatics Natural Hazards & Risk 12(1): 1532-1559. https://dx.doi.org/10.1080/19475705.2021.1927205","PeerRev":1},{"BRefID":355809,"RR":"Van Breedam, J.; Huybrechts, P.; Crucifix, M. (2021). A Gaussian process emulator for simulating ice sheet–climate interactions on a multi-million-year timescale: CLISEMv1.0. Geosci. Model Dev. 14(10): 6373-6401. https://dx.doi.org/10.5194/gmd-14-6373-2021","PeerRev":1},{"BRefID":353054,"RR":"Yu, Z.; Chen, L.; Li, L.; Zhang, T.; Yuan, L.; Liu, R.; Wang, Z.; Zang, J.; Shi, S. (2021). Spatiotemporal characterization of the urban expansion patterns in the Yangtze River Delta Region. Remote Sens. 13(21): 4484. https://dx.doi.org/10.3390/rs13214484","PeerRev":1},{"BRefID":355834,"RR":"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","PeerRev":1},{"BRefID":337667,"RR":"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","PeerRev":1},{"BRefID":322728,"RR":"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","PeerRev":1},{"BRefID":337666,"RR":"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","PeerRev":1},{"BRefID":337561,"RR":"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","PeerRev":1},{"BRefID":353704,"RR":"Le Clec'h, S.; Quiquet, A.; Charbit, S.; Dumas, C.; Kageyama, M.; Ritz, C. (2019). A rapidly converging initialisation method to simulate the present-day Greenland ice sheet using the GRISLI ice sheet model (version 1.3). Geosci. Model Dev. 12(6): 2481-2499. https://dx.doi.org/10.5194/gmd-12-2481-2019","PeerRev":1},{"BRefID":353705,"RR":"Le Clec'h, S.; Charbit, S.; Quiquet, A.; Fettweis, X.; Dumas, C.; Kageyama, M.; Wyard, C.; Ritz, C. (2019). Assessment of the Greenland ice sheet–atmosphere feedbacks for the next century with a regional atmospheric model coupled to an ice sheet model. Cryosphere 13(1): 373-395. https://dx.doi.org/10.5194/tc-13-373-2019","PeerRev":1},{"BRefID":311384,"RR":"Marchi, S.; Fichefet, T.; Goosse, H.; Zunz, V.; Tietsche, S.; Day, J.J.; Hawkins, E. (2019). Reemergence of Antarctic sea ice predictability and its link to deep ocean mixing in global climate models. Clim. Dyn. 52(5-6): 2775-2797. https://dx.doi.org/10.1007/s00382-018-4292-2","PeerRev":1},{"BRefID":338077,"RR":"Plach, A.; Nisancioglu, K.H.; Langebroek, P.M.; Born, A.; Le Clec'h, S. (2019). Eemian Greenland ice sheet simulated with a higher-order model shows strong sensitivity to surface mass balance forcing. Cryosphere 13(8): 2133-2148. https://hdl.handle.net/10.5194/tc-13-2133-2019","PeerRev":1},{"BRefID":323171,"RR":"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","PeerRev":1},{"BRefID":331262,"RR":"Plach, A.; Nisancioglu, K.H.; Le Clec'h, S.; Born, A.; Langebroek, P.M.; Guo, C.; Imhof, M.; Stocker, T.F. (2018). Eemian Greenland SMB strongly sensitive to model choice. Clim. Past 14(10): 1463-1485. https://dx.doi.org/10.5194/cp-14-1463-2018","PeerRev":1},{"BRefID":331256,"RR":"Lecavalier, B.S.; Fisher, D.A.; Milne, G.A.; Vinther, B.M.; Tarasov, L.; Huybrechts, P.; Lacelle, D.; Main, B.; Zheng, J.; Bourgeois, J. (2017). High Arctic Holocene temperature record from the Agassiz ice cap and Greenland ice sheet evolution. Proc. Natl. Acad. Sci. U.S.A. 114(23): 5952-5957. https://dx.doi.org/10.1073/pnas.1616287114","PeerRev":1},{"BRefID":291739,"RR":"Meire, L.; Mortensen, J.; Meire, P.; Juul-Pedersen, T.; Sejr, M.K.; Rysgaard, S.; Nygaard, R.; Huybrechts, P.; Meysman, F.J.R. (2017). Marine-terminating glaciers sustain high productivity in Greenland fjords. Glob. Chang. Biol. 23(12): 5344-5357. https://dx.doi.org/10.1111/gcb.13801","PeerRev":1},{"BRefID":331258,"RR":"Quader, M.A.; Agrawal, S.; Kervyn, M. (2017). Multi-decadal land cover evolution in the Sundarban, the largest mangrove forest in the world. Ocean Coast. Manag. 139: 113-124. https://dx.doi.org/10.1016/j.ocecoaman.2017.02.008","PeerRev":1},{"BRefID":285245,"RR":"Turney, C.S.M.; Fogwill, C.J.; Palmer, J.G.; van Sebille, E.; Thomas, Z.; McGlone, M.; Richardson, S.; Wilmshurst, J.M.; Fenwick, P.; Zunz, V.; Goosse, H.; Wilson, K.-J.; Carter, L.; Lipson, M.; Jones, R.T.; Harsch, M.; Clark, G.; Marzinelli, E.; Rogers, T.; Rainsley, E.; Ciasto, L.; Waterman, S.; Thomas, E.R.; Visbeck, M. (2017). Tropical forcing of increased Southern Ocean climate variability revealed by a 140-year subantarctic temperature reconstruction. Clim. Past 13(3): 231-248. https://dx.doi.org/10.5194/cp-13-231-2017","PeerRev":1},{"BRefID":331257,"RR":"Zekollari, H.; Huybrechts, P.; Noël, B.; van de Berg, W.J.; van den Broeke, M.R. (2017). Sensitivity, stability and future evolution of the world's northernmost ice cap, Hans Tausen Iskappe (Greenland). Cryosphere 11(2): 805-825. https://dx.doi.org/10.5194/tc-11-805-2017","PeerRev":1},{"BRefID":285348,"RR":"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","PeerRev":1},{"BRefID":297174,"RR":"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","PeerRev":1},{"BRefID":295864,"RR":"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. 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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","PeerRev":1},{"BRefID":297323,"RR":"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","PeerRev":1},{"BRefID":238671,"RR":"Le, X.Q.; Vu, V.-H.; Hens, L.; Van Heur, B. (2014). Stakeholder perceptions and involvement in the implementation of EMS in ports in Vietnam and Cambodia. J. Clean. 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