Please find here the list of publications by PalMod staff, which have a strong connection to PalMod:


(12) Wassenburg, J. A., S. Dietrich, J. Fietzke, J. Fohlmeister, K. P. Jochum, D. Scholz, D. K. Richter, A. Sabaoui, C. Spötl, G. Lohmann, M. O. Andreae, A. Immenhauser, 2016: Major reorganization of the North Atlantic Oscillation during Early Holocene deglaciation. Nature Geo, 9, 602 - 605. doi:10.1038/ngeo2767 (link)

(11) Lohmann, G., X. Zhang, and G. Knorr, 2016: Abrupt climate change experiments: The role of freshwater, ice sheet and deglacial warming for the Atlantic meridional overturning circulation. Polarforschung 85 (2), 161–170. doi:10.2312/polfor.2016.013 (link

(10) Lohmann, G., 2016: Atmospheric bridge on orbital time scales. Theoretical and Applied Climatology, DOI: 10.1007/s00704-015-1725-2 (link)

(9) Sutter, J., P. Gierz, K. Grosfeld, M. Thoma, and G. Lohmann, 2016: Ocean temperature thresholds for Last Interglacial West Antarctic Ice Sheet collapse. Geophysical Research Letters, 43 (6), 2675–2682. doi: 10.1002/2016GL067818 (link

(8) Stärz, M., G. Lohmann, and G. Knorr, 2016: The effect of a dynamic soil scheme on the climate of the mid-Holocene and the Last Glacial Maximum. Clim. Past 12, 151-170. doi:10.5194/cp-12-151-2016 (link)

(7) Abelmann, A., R. Gersonde, G. Knorr, X. Zhang, B. Chapligin, E. Maier, O. Esper, H. Friedrichsen, G. Lohmann, H. Meyer, and R. Tiedemann, 2015: The seasonal sea ice zone in the glacial Southern Ocean as a carbon sink. Nature comm. 6, 8136. DOI: 10.1038/ncomms9136 (link)

(6) Latif, M., M. Claussen, M. Schulz, and T. Brücher (2016), Comprehensive Earth system models of the last glacial cycle, Eos, 97, doi:10.1029/2016EO059587. Published on 23 September 2016. (link)

(5) Düsterhus, A., Rovere, A., Carlson, A. E., Horton, B. P., Klemann, V., Tarasov, L., Barlow, N. L. M., Bradwell, T., Clark, J., Dutton, A., Gehrels, W. R., Hibbert, F. D., Hijma, M. P., Khan, N., Kopp, R. E., Sivan, D., and Törnqvist, T. E.: Palaeo-sea-level and palaeo-ice-sheet databases: problems, strategies, and perspectives, Clim. Past, 12, 911-921, doi:10.5194/cp-12-911-2016, 2016. (link

(4) Pedro*, J. B., T. Martin*, E. J. Steig, M. Jochum, W. Park, and S. O. Rasmussen (2016), Southern Ocean deep convection as a driver of Antarctic warming events, Geophys. Res. Lett., 43, 2192-2199, doi:10.1002/2016GL067861. (* joint first authors) (link)

(3) Wallmann, K., Schneider, B., and Sarnthein, M.: Effects of eustatic sea-level change, ocean dynamics, and nutrient utilization on atmospheric pCO2 and seawater composition over the last 130 000 years: a model study, Clim. Past, 12, 339-375, doi:10.5194/cp-12-339-2016, 2016. (link)

(2) Irina Rogozhina, Alexey G. Petrunin, Alan P. M. Vaughan, Bernhard Steinberger, Jesse V. Johnson, Mikhail K. Kaban, Reinhard Calov, Florian Rickers, Maik Thomas & Ivan Koulakov: Melting at the base of the Greenland ice sheet explained by Iceland hotspot history, Nature Geoscience, doi:10.1038/ngeo2689, 2016. (link)

(1) Seguinot, J., Rogozhina, I., Stroeven, A. P., Margold, M., and Kleman, J.: Numerical simulations of the Cordilleran ice sheet through the last glacial cycle, The Cryosphere, 10, 639-664, doi:10.5194/tc-10-639-2016, 2016. (link)