IMAU publications 2020


  • Berends, C.J. - 29 January 2020 - Interactions and feedbacks between ice sheets, climate, sea-level and the solid earth - Promotor: Prof.dr. R.S.W. van de Wal ; Co-promotor: Dr. B. de Boer.

Reviewed Scientific Publications

  • Barthel, A., C. Agosta, C.M. Little, T. Hatterman, N.C. Jourdain, H. Goelzer, S. Nowicki, H. Seroussi, F. Straneo, and T.J. Bracegirdle, 2020. CMIP5 model selection for ISMIP6 ice sheet model forcing: Greenland and Antarctica, The Cryosphere, 14, 855–879. Paper doi:10.5194/tc-14-855-2020.
  • Frederikse, T., M.K. Buchanan, E. Lambert, R.E. Kopp, M. Oppenheimer, D.J. Rasmussen, and R.S.W. van de Wal, 2020. Antarctic Ice Sheet and emission scenarios controls on the 21-st century extreme sea-level changes, Nature Commun., 11. Paper doi:10.1038/s41467-019-14049-6.
  • Goelzer, H., 2020 (April 22). hgoelzer/aSMB-remapping v1.0.0 (Version v1.0.0). Data doi:10.5281/zenodo.3762384.
  • Goelzer, H., V. Coulon, F. Pattyn, B. de Boer, and R.S.W. van de Wal, 2020. Brief communication: On calculating the sea-level contribution in marine ice-sheet models, The Cryosphere, 14(3), 833-840. Paper doi:10.5194/tc-14-833-2020. Data doi:10.5281/zenodo.3692702.
  • Goelzer, H., B. Noël, T.L. Edwards, X. Fettweis, J.M. Gregory, W.H. Lipscomb, R.S.W. van de Wal, and M.R. van den Broeke, 2020. Remapping of Greenland ice sheet surface mass balance anomalies for large ensemble sea-level change projections, The Cryosphere, 14, 1747-1762. Paper doi:10.5194/tc-14-1747-2020. Data doi:10.5281/zenodo.3760526.
  • Hanna, E., F. Pattyn, F. Navarro, V. Favier, H. Goelzer, M.R. van de Broeke, M. Vizcaino, P. Whitehouse, C. Ritz, K. Bulthuis, and B. Smith, 2020. Mass balance of the ice sheets and glaciers – progress since AR5 and challenges. Earth Sci. Rev., 201. Paper doi:10.1016/j.earscirev.2019.102976.
  • Jakobs, C.L., C.H. Reijmer, C.J.P.P. Smeets, L.D. Trusel, W.J. van de Berg, M.R. van den Broeke, J. M. van Wessem , 2020. A benchmark dataset of in situ Antarctic surface melt rates and energy balance, J. Glaciol., 66(256), 291-302. Paper doi:10.1017/jog.2020.6. Data doi:10.1594/PANGAEA.910473.
  • Levermann, A., R. Winkelmann, T. Albrecht, H. Goelzer, N.R. Golledge, R. Greve, P. Huybrechts, J. Jordan, G. Leguy, D. Martin, M. Morlighem, F. Pattyn, D. Pollard, A. Quiquet, C. Rodehacke, H. Seroussi, J. Sutter, T. Zhang, J. van Breedam, R. Calov, R. DeConto, C. Dumas, J. Garbe, H. Gudmundsson, M. Hoffman, A. Humbert, T. Kleiner, W. Lipscomb, M. Meinshausen, E. Ng, S.M.J. Nowicki, M. Perego, S.F. Price, F. Saito, N-J. Schlegel, S. Sun, and R.S.W. van de Wal, 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 Syst. Dynam., 11, 35-76. Paper doi:10.5194/esd-11-35-2020.
  • Marzeion, B., R. Hock, B. Anderson, A. Bliss, N. Champollion, K. Fujita, M. Huss, W. Immerzeel, P. Kraaijenbrink, J.-H. Malles, F. Maussion, V. Radic, D.R. Rounce, A. Sakai, S. Shannon, R.S.W. van de Wal, and H. Zekollari, 2020. Partitioning the Uncertainty of Ensemble Projections of Global Glacier Mass Change, Earth's Future Paper doi:10.1029/2019EF001470.
  • Noël, B., L. van Kampenhout, W.J. van de Berg, J.T.M. Lenaerts, B. Wouters, and M.R. van den Broeke, 2020. Brief communication: CESM2 climate forcing (1950-2014) yields realistic Greenland ice sheet surface mass balance. The Cryosphere, 14(4), 1425-1435. Paper doi:10.5194/tc-14-1425-2020.
  • Slater, D.A., D. Felikson, F. Straneo, H. Goelzer, C.M. Little, M. Morlighem, X. Fettweis, and S. Nowicki, 2020. 21st century ocean forcing of the Greenland Ice Sheet for modeling of sea level contribution, The Cryosphere, 14, 985-1008. Paper doi:10.5194/tc-14-985-2020.
  • Velicogna, I., Y. Mohajerani, A. Geruo, F. Landerer, J. Mouginot, B. Noël, E. Rignot, T. Sutterley, M.R. van den Broeke, J.M. van Wessem, and D. Wiese, 2020. Continuity of ice sheet mass loss in Greenland and Antarctica from the GRACE and GRACE Follow-Onmissions. Geophys. Res. Lett., 47(8). Paper doi:10.1029/2020GL087291.
  • Van Kampenhout, L., J.T.M. Lenaerts, W.H. Lipscomb, S. Lhermitte, B. Noël, M. Vizcaíno, W.J. Sacks, and M.R. van den Broeke, 2020. Present-Day Greenland Ice Sheet Climate and Surface Mass Balance in CESM2. J. Geophys. Res., 125(2). Paper doi:10.1029/2019JF005318.
  • Willen, M.O., M. Horwath, L. Schröder, A. Groh, S.R.M. Ligtenberg, P. Kuipers Munneke, and M.R. Van Den Broeke, 2020. Sensitivity of inverse glacial isostatic adjustment estimates over Antarctica. The Cryosphere, 14(1), 349-366. Paper doi:10.5194/tc-14-349-2020.
  • Ypma, S.L., M.A. Spall, E. Lambert, S. Georgiou, J.D. Pietrzak, and C.A. Katsman, 2020. The contrasting dynamics of the buoyancy-forced Lofoten and Greenland Basins. J. Phys. Oceanogr.. Paper doi:10.1175/JPO-D-19-0280.1.
  • Lickley, M., Solomon, S., Fletcher, S., Velders, G.J.M., Daniel, J., Rigbey, M., Montzka, S.A., Kuijpers, L.J.M., Stone, K.: Quantifying contributions of chlorofluocarbon banks to emissions and impacts on the ozone layer and climate , Nature Communications, doi:s41467-020-15162-7, 2020.
  • Fischer, P.H., Marra, M., Ameling, C.B., Velders, G.J.M., Hoogerbrugge, R., Vries, W., Wesseling, J., Janssen, N.A.H., Houthuijs, D.: Particulate air pollution from different sources and mortality ni 7.5 million adults - the Dutch Environmental Longitudinal Study (DUELS) , Sciende of the Total Environment, doi:s48969-719-35773-0, 2020.
  • Velders,G.J.M., Maas, R.J.M., Geilenkirchen, G.P., Leeuw, F.A.A.M., Ligerink, N.E., Ruyssenaars, Vries, W.J., Wesseling, J.: Effects of European emission reductions on air quality in the Netherlands and the associated health effects , Atmospheric Environment., doi:s13522310193074843, 2018.
  • Turney, C. S. M., Fogwill, C. J., Golledge, N. R., McKay, N. P., van Sebille, E., Jones, R. T., Cooper, A. (2020). Early Last Interglacial ocean warming drove substantial ice mass loss from Antarctica. Proceedings of the National Academy of Sciences of the United States of America, 117(8), 3996-4006. DOI: 10.1073/pnas.1902469117, 2020.
  • Jutzeler, M., Marsh, R., van Sebille, E., Mittal, T., Carey, R. J., Fauria, K. E., ... McPhie, J. (2020). Ongoing Dispersal of the 7 August 2019 Pumice Raft From the Tonga Arc in the Southwestern Pacific Ocean. Geophysical Research Letters, 47(5), [e1701121]. DOI: 10.1029/2019GL086768, 2020.
  • Materic, D., Kasper-Giebl, A., Kau, D., Anten, M., Greilinger, M., Ludewig, E., ... Holzinger, R. (2020). Micro- and Nanoplastics in Alpine Snow: A New Method for Chemical Identification and (Semi)Quantification in the Nanogram Range. Environmental Science & Technology, 54(4), 2353-2359. DOI: 10.1021/acs.est.9b07540, 2020.
  • Sterl, M. F., Delandmeter, P., & van Sebille, E. (2020). Influence of Barotropic Tidal Currents on Transport and Accumulation of Floating Microplastics in the Global Open Ocean. Journal of Geophysical Research: Oceans, 125(2), [e2019JC015583]. DOI: 10.1029/2019JC015583, 2020.
  • Van Sebille, E., Aliani, S., Law, K. L., Maximenko, N., Alsina, J. M., Bagaev, A., ... Wichmann, D. (2020). The physical oceanography of the transport of floating marine debris. Environmental Research Letters, 15(2), [023003]. DOI: 10.1088/1748-9326/ab6d7d, 2020.
  • Díez-Minguito, M., & de Swart, H. E. (2020). Relationships Between Chlorophyll-a and Suspended Sediment Concentration in a High-Nutrient Load Estuary: An Observational and Idealized Modeling Approach. Journal of Geophysical Research: Oceans, 125(3), [e2019JC015188]. DOI: 10.1029/2019JC015188, 2020.
  • Coco, G., Calvete, D., Ribas, F., De Swart, H. E., & Falqués, A. (2020). Emerging crescentic patterns in modelled double sandbar systems under normally incident waves. Earth Surface Dynamics, 8(2), 323-334. DOI: 10.5194/esurf-8-323-2020.
  • Van de Berg, W. J., van Meijgaard, E., & van Ulft, L. H. (2020). The added value of high resolution in estimating the surface mass balance in southern Greenland. The Cryosphere, 14, 1809–1827. DOI: 10.5194/tc-14-1809-2020.