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2 changes: 1 addition & 1 deletion feed.xml
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<?xml version="1.0" encoding="utf-8"?><feed xmlns="http://www.w3.org/2005/Atom" xml:lang="en"><generator uri="https://jekyllrb.com/" version="3.9.3">Jekyll</generator><link href="https://www.pism.io/feed.xml" rel="self" type="application/atom+xml" /><link href="https://www.pism.io/" rel="alternate" type="text/html" hreflang="en" /><updated>2024-09-05T17:18:46+00:00</updated><id>https://www.pism.io/feed.xml</id><title type="html">PISM</title><subtitle>Website for PISM, the Parallel Ice Sheet Model</subtitle><author><name>The PISM Authors</name><email>[email protected]</email></author><entry><title type="html">PIK Potsdam: PostDoc positions in ice sheet and Earth system modelling</title><link href="https://www.pism.io/news/2024/08/21/postdoc-pik/" rel="alternate" type="text/html" title="PIK Potsdam: PostDoc positions in ice sheet and Earth system modelling" /><published>2024-08-21T00:00:00+00:00</published><updated>2024-08-21T00:00:00+00:00</updated><id>https://www.pism.io/news/2024/08/21/postdoc-pik</id><content type="html" xml:base="https://www.pism.io/news/2024/08/21/postdoc-pik/">&lt;p&gt;A two-year PostDoc positions in ice sheet and Earth system modelling is available in the &lt;a href=&quot;https://pik-potsdam.de/ice&quot;&gt;Ice Dynamics group&lt;/a&gt;, as part of the new Earth Resilience Science Unit (ERSU), at the &lt;a href=&quot;https://pik-potsdam.de/en&quot;&gt;Potsdam Institute for Climate Impact Research (PIK)&lt;/a&gt;.&lt;/p&gt;
<?xml version="1.0" encoding="utf-8"?><feed xmlns="http://www.w3.org/2005/Atom" xml:lang="en"><generator uri="https://jekyllrb.com/" version="3.9.3">Jekyll</generator><link href="https://www.pism.io/feed.xml" rel="self" type="application/atom+xml" /><link href="https://www.pism.io/" rel="alternate" type="text/html" hreflang="en" /><updated>2024-09-05T17:24:30+00:00</updated><id>https://www.pism.io/feed.xml</id><title type="html">PISM</title><subtitle>Website for PISM, the Parallel Ice Sheet Model</subtitle><author><name>The PISM Authors</name><email>[email protected]</email></author><entry><title type="html">PIK Potsdam: PostDoc positions in ice sheet and Earth system modelling</title><link href="https://www.pism.io/news/2024/08/21/postdoc-pik/" rel="alternate" type="text/html" title="PIK Potsdam: PostDoc positions in ice sheet and Earth system modelling" /><published>2024-08-21T00:00:00+00:00</published><updated>2024-08-21T00:00:00+00:00</updated><id>https://www.pism.io/news/2024/08/21/postdoc-pik</id><content type="html" xml:base="https://www.pism.io/news/2024/08/21/postdoc-pik/">&lt;p&gt;A two-year PostDoc positions in ice sheet and Earth system modelling is available in the &lt;a href=&quot;https://pik-potsdam.de/ice&quot;&gt;Ice Dynamics group&lt;/a&gt;, as part of the new Earth Resilience Science Unit (ERSU), at the &lt;a href=&quot;https://pik-potsdam.de/en&quot;&gt;Potsdam Institute for Climate Impact Research (PIK)&lt;/a&gt;.&lt;/p&gt;

&lt;p&gt;The position is part of the German Climate Modeling Initiative PalMod III, with focus on the interaction and possible feedbacks of the Antarctic Ice Sheet with the solid Earth, the global sea level and the climate. Simulations will be performed with the Parallel Ice Sheet Model (PISM) coupled to the global solid Earth and sea level model VILMA, to investigate tipping characteristics and potential interhemispheric interactions, in cooperation with ESM modelers within PalMod (CLIMBER-X, MPI-ESM, AWI-ESM, CESM).&lt;/p&gt;

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12 changes: 12 additions & 0 deletions publications/applications.bib
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@Article{Feldmann2024,
AUTHOR = {Feldmann, J. and Levermann, A. and Winkelmann, R.},
TITLE = {Hysteresis of idealized, instability-prone outlet glaciers in response to pinning-point buttressing variation},
JOURNAL = {The Cryosphere},
VOLUME = {18},
YEAR = {2024},
NUMBER = {9},
PAGES = {4011--4028},
URL = {https://tc.copernicus.org/articles/18/4011/2024/},
DOI = {10.5194/tc-18-4011-2024}
}

@Article{Seroussi2024,
author = {Seroussi, Hélène and Pelle, Tyler and Lipscomb, William H. and Abe‐Ouchi, Ayako and Albrecht, Torsten and Alvarez‐Solas, Jorge and Asay‐Davis, Xylar and Barre, Jean‐Baptiste and Berends, Constantijn J. and Bernales, Jorge and Blasco, Javier and Caillet, Justine and Chandler, David M. and Coulon, Violaine and Cullather, Richard and Dumas, Christophe and Galton‐Fenzi, Benjamin K. and Garbe, Julius and Gillet‐Chaulet, Fabien and Gladstone, Rupert and Goelzer, Heiko and Golledge, Nicholas and Greve, Ralf and Gudmundsson, G. Hilmar and Han, Holly Kyeore and Hillebrand, Trevor R. and Hoffman, Matthew J. and Huybrechts, Philippe and Jourdain, Nicolas C. and Klose, Ann Kristin and Langebroek, Petra M. and Leguy, Gunter R. and Lowry, Daniel P. and Mathiot, Pierre and Montoya, Marisa and Morlighem, Mathieu and Nowicki, Sophie and Pattyn, Frank and Payne, Antony J. and Quiquet, Aurélien and Reese, Ronja and Robinson, Alexander and Saraste, Leopekka and Simon, Erika G. and Sun, Sainan and Twarog, Jake P. and Trusel, Luke D. and Urruty, Benoit and Van Breedam, Jonas and van de Wal, Roderik S. W. and Wang, Yu and Zhao, Chen and Zwinger, Thomas},
journal = {Earth’s Future},
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<li>A. Delhasse, J. Beckmann, C. Kittel, and X. Fettweis. Coupling MAR (Modèle Atmosphérique Régional) with PISM (Parallel Ice Sheet Model) mitigates the positive melt–elevation feedback. <em>The Cryosphere</em>, 18(2):633–651, 2024. URL: <a href="https://tc.copernicus.org/articles/18/633/2024/">https://tc.copernicus.org/articles/18/633/2024/</a>, <a href="https://doi.org/10.5194/tc-18-633-2024">doi:10.5194/tc-18-633-2024</a>.</li>
<li>M. Depolli, M. Žebre, U. Stepišnik, and G. Kosec. Simulation of a former ice field with Parallel Ice Sheet Model – Snežnik study case. <em>Climate of the Past</em>, 20(7):1471–1488, 2024. <a href="https://doi.org/10.5194/cp-20-1471-2024">doi:10.5194/cp-20-1471-2024</a>.</li>
<li>Jeremy C. Ely, Chris D. Clark, Sarah L. Bradley, Lauren Gregoire, Niall Gandy, Ed Gasson, Remy L.J. Veness, and Rosie Archer. Behavioural tendencies of the last British-Irish Ice Sheet revealed by data-model comparison. <em>Journal of Quaternary Science</em>, June 2024. <a href="https://doi.org/10.1002/jqs.3628">doi:10.1002/jqs.3628</a>.</li>
<li>J. Feldmann, A. Levermann, and R. Winkelmann. Hysteresis of idealized, instability-prone outlet glaciers in response to pinning-point buttressing variation. <em>The Cryosphere</em>, 18(9):4011–4028, 2024. URL: <a href="https://tc.copernicus.org/articles/18/4011/2024/">https://tc.copernicus.org/articles/18/4011/2024/</a>, <a href="https://doi.org/10.5194/tc-18-4011-2024">doi:10.5194/tc-18-4011-2024</a>.</li>
<li>J. P. Klages, C.-D. Hillenbrand, S. M. Bohaty, U. Salzmann, T. Bickert, G. Lohmann, H. S. Knahl, P. Gierz, L. Niu, J. Titschack, G. Kuhn, T. Frederichs, J. Müller, T. Bauersachs, R. D. Larter, K. Hochmuth, W. Ehrmann, G. Nehrke, F. J. Rodríguez-Tovar, G. Schmiedl, S. Spezzaferri, A. Läufer, F. Lisker, T. van de Flierdt, A. Eisenhauer, G. Uenzelmann-Neben, O. Esper, J. A. Smith, H. Pälike, C. Spiegel, R. Dziadek, T. A. Ronge, T. Freudenthal, and K. Gohl. Ice sheet–free West Antarctica during peak early Oligocene glaciation. <em>Science</em>, July 2024. <a href="https://doi.org/10.1126/science.adj3931">doi:10.1126/science.adj3931</a>.</li>
<li>A. K. Klose, V. Coulon, F. Pattyn, and R. Winkelmann. The long-term sea-level commitment from Antarctica. <em>The Cryosphere</em>, 2024. URL: <a href="https://tc.copernicus.org/preprints/tc-2023-156/">https://tc.copernicus.org/preprints/tc-2023-156/</a>, <a href="https://doi.org/10.5194/tc-2023-156">doi:10.5194/tc-2023-156</a>.</li>
<li>Daniel P. Lowry, Holly K. Han, Nicholas R. Golledge, Natalya Gomez, Katelyn M. Johnson, and Robert M. McKay. Ocean cavity regime shift reversed West Antarctic grounding line retreat in the late Holocene. <em>Nature Communications</em>, April 2024. <a href="https://doi.org/10.1038/s41467-024-47369-3">doi:10.1038/s41467-024-47369-3</a>.</li>
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2. A\. Delhasse, J\. Beckmann, C\. Kittel, and X\. Fettweis\. Coupling MAR \(Modèle Atmosphérique Régional\) with PISM \(Parallel Ice Sheet Model\) mitigates the positive melt–elevation feedback\. *The Cryosphere*, 18\(2\):633–651, 2024\. URL: [https://tc\.copernicus\.org/articles/18/633/2024/](https://tc.copernicus.org/articles/18/633/2024/), [doi:10\.5194/tc\-18\-633\-2024](https://doi.org/10.5194/tc-18-633-2024)\.
3. M\. Depolli, M\. Žebre, U\. Stepišnik, and G\. Kosec\. Simulation of a former ice field with Parallel Ice Sheet Model – Snežnik study case\. *Climate of the Past*, 20\(7\):1471–1488, 2024\. [doi:10\.5194/cp\-20\-1471\-2024](https://doi.org/10.5194/cp-20-1471-2024)\.
4. Jeremy C\. Ely, Chris D\. Clark, Sarah L\. Bradley, Lauren Gregoire, Niall Gandy, Ed Gasson, Remy L\.J\. Veness, and Rosie Archer\. Behavioural tendencies of the last British\-Irish Ice Sheet revealed by data\-model comparison\. *Journal of Quaternary Science*, June 2024\. [doi:10\.1002/jqs\.3628](https://doi.org/10.1002/jqs.3628)\.
5. J\. P\. Klages, C\.\-D\. Hillenbrand, S\. M\. Bohaty, U\. Salzmann, T\. Bickert, G\. Lohmann, H\. S\. Knahl, P\. Gierz, L\. Niu, J\. Titschack, G\. Kuhn, T\. Frederichs, J\. Müller, T\. Bauersachs, R\. D\. Larter, K\. Hochmuth, W\. Ehrmann, G\. Nehrke, F\. J\. Rodríguez\-Tovar, G\. Schmiedl, S\. Spezzaferri, A\. Läufer, F\. Lisker, T\. van de Flierdt, A\. Eisenhauer, G\. Uenzelmann\-Neben, O\. Esper, J\. A\. Smith, H\. Pälike, C\. Spiegel, R\. Dziadek, T\. A\. Ronge, T\. Freudenthal, and K\. Gohl\. Ice sheet–free West Antarctica during peak early Oligocene glaciation\. *Science*, July 2024\. [doi:10\.1126/science\.adj3931](https://doi.org/10.1126/science.adj3931)\.
6. A\. K\. Klose, V\. Coulon, F\. Pattyn, and R\. Winkelmann\. The long\-term sea\-level commitment from Antarctica\. *The Cryosphere*, 2024\. URL: [https://tc\.copernicus\.org/preprints/tc\-2023\-156/](https://tc.copernicus.org/preprints/tc-2023-156/), [doi:10\.5194/tc\-2023\-156](https://doi.org/10.5194/tc-2023-156)\.
7. Daniel P\. Lowry, Holly K\. Han, Nicholas R\. Golledge, Natalya Gomez, Katelyn M\. Johnson, and Robert M\. McKay\. Ocean cavity regime shift reversed West Antarctic grounding line retreat in the late Holocene\. *Nature Communications*, April 2024\. [doi:10\.1038/s41467\-024\-47369\-3](https://doi.org/10.1038/s41467-024-47369-3)\.
8. Lu Niu, Gregor Knorr, Uta Krebs\-Kanzow, Paul Gierz, and Gerrit Lohmann\. Rapid Laurentide Ice Sheet growth preceding the Last Glacial Maximum due to summer snowfall\. *Nature Geoscience*, April 2024\. [doi:10\.1038/s41561\-024\-01419\-z](https://doi.org/10.1038/s41561-024-01419-z)\.
9. G\. J\. G\. Paxman, S\. S\. R\. Jamieson, A\. M\. Dolan, and M\. J\. Bentley\. Subglacial valleys preserved in the highlands of south and east Greenland record restricted ice extent during past warmer climates\. *The Cryosphere*, 18\(3\):1467–1493, 2024\. URL: [https://tc\.copernicus\.org/articles/18/1467/2024/](https://tc.copernicus.org/articles/18/1467/2024/), [doi:10\.5194/tc\-18\-1467\-2024](https://doi.org/10.5194/tc-18-1467-2024)\.
10. Clemens Schannwell, Uwe Mikolajewicz, Marie\-Luise Kapsch, and Florian Ziemen\. A mechanism for reconciling the synchronisation of Heinrich events and Dansgaard\-Oeschger cycles\. *Nature Communications*, April 2024\. [doi:10\.1038/s41467\-024\-47141\-7](https://doi.org/10.1038/s41467-024-47141-7)\.
11. Hélène Seroussi, Tyler Pelle, William H\. Lipscomb, Ayako Abe‐Ouchi, Torsten Albrecht, Jorge Alvarez‐Solas, Xylar Asay‐Davis, Jean‐Baptiste Barre, Constantijn J\. Berends, Jorge Bernales, Javier Blasco, Justine Caillet, David M\. Chandler, Violaine Coulon, Richard Cullather, Christophe Dumas, Benjamin K\. Galton‐Fenzi, Julius Garbe, Fabien Gillet‐Chaulet, Rupert Gladstone, Heiko Goelzer, Nicholas Golledge, Ralf Greve, G\. Hilmar Gudmundsson, Holly Kyeore Han, Trevor R\. Hillebrand, Matthew J\. Hoffman, Philippe Huybrechts, Nicolas C\. Jourdain, Ann Kristin Klose, Petra M\. Langebroek, Gunter R\. Leguy, Daniel P\. Lowry, Pierre Mathiot, Marisa Montoya, Mathieu Morlighem, Sophie Nowicki, Frank Pattyn, Antony J\. Payne, Aurélien Quiquet, Ronja Reese, Alexander Robinson, Leopekka Saraste, Erika G\. Simon, Sainan Sun, Jake P\. Twarog, Luke D\. Trusel, Benoit Urruty, Jonas Van Breedam, Roderik S\. W\. van de Wal, Yu Wang, Chen Zhao, and Thomas Zwinger\. Evolution of the Antarctic Ice Sheet over the next three centuries from an ISMIP6 model ensemble\. *Earth’s Future*, September 2024\. [doi:10\.1029/2024ef004561](https://doi.org/10.1029/2024ef004561)\.
5. J\. Feldmann, A\. Levermann, and R\. Winkelmann\. Hysteresis of idealized, instability\-prone outlet glaciers in response to pinning\-point buttressing variation\. *The Cryosphere*, 18\(9\):4011–4028, 2024\. URL: [https://tc\.copernicus\.org/articles/18/4011/2024/](https://tc.copernicus.org/articles/18/4011/2024/), [doi:10\.5194/tc\-18\-4011\-2024](https://doi.org/10.5194/tc-18-4011-2024)\.
6. J\. P\. Klages, C\.\-D\. Hillenbrand, S\. M\. Bohaty, U\. Salzmann, T\. Bickert, G\. Lohmann, H\. S\. Knahl, P\. Gierz, L\. Niu, J\. Titschack, G\. Kuhn, T\. Frederichs, J\. Müller, T\. Bauersachs, R\. D\. Larter, K\. Hochmuth, W\. Ehrmann, G\. Nehrke, F\. J\. Rodríguez\-Tovar, G\. Schmiedl, S\. Spezzaferri, A\. Läufer, F\. Lisker, T\. van de Flierdt, A\. Eisenhauer, G\. Uenzelmann\-Neben, O\. Esper, J\. A\. Smith, H\. Pälike, C\. Spiegel, R\. Dziadek, T\. A\. Ronge, T\. Freudenthal, and K\. Gohl\. Ice sheet–free West Antarctica during peak early Oligocene glaciation\. *Science*, July 2024\. [doi:10\.1126/science\.adj3931](https://doi.org/10.1126/science.adj3931)\.
7. A\. K\. Klose, V\. Coulon, F\. Pattyn, and R\. Winkelmann\. The long\-term sea\-level commitment from Antarctica\. *The Cryosphere*, 2024\. URL: [https://tc\.copernicus\.org/preprints/tc\-2023\-156/](https://tc.copernicus.org/preprints/tc-2023-156/), [doi:10\.5194/tc\-2023\-156](https://doi.org/10.5194/tc-2023-156)\.
8. Daniel P\. Lowry, Holly K\. Han, Nicholas R\. Golledge, Natalya Gomez, Katelyn M\. Johnson, and Robert M\. McKay\. Ocean cavity regime shift reversed West Antarctic grounding line retreat in the late Holocene\. *Nature Communications*, April 2024\. [doi:10\.1038/s41467\-024\-47369\-3](https://doi.org/10.1038/s41467-024-47369-3)\.
9. Lu Niu, Gregor Knorr, Uta Krebs\-Kanzow, Paul Gierz, and Gerrit Lohmann\. Rapid Laurentide Ice Sheet growth preceding the Last Glacial Maximum due to summer snowfall\. *Nature Geoscience*, April 2024\. [doi:10\.1038/s41561\-024\-01419\-z](https://doi.org/10.1038/s41561-024-01419-z)\.
10. G\. J\. G\. Paxman, S\. S\. R\. Jamieson, A\. M\. Dolan, and M\. J\. Bentley\. Subglacial valleys preserved in the highlands of south and east Greenland record restricted ice extent during past warmer climates\. *The Cryosphere*, 18\(3\):1467–1493, 2024\. URL: [https://tc\.copernicus\.org/articles/18/1467/2024/](https://tc.copernicus.org/articles/18/1467/2024/), [doi:10\.5194/tc\-18\-1467\-2024](https://doi.org/10.5194/tc-18-1467-2024)\.
11. Clemens Schannwell, Uwe Mikolajewicz, Marie\-Luise Kapsch, and Florian Ziemen\. A mechanism for reconciling the synchronisation of Heinrich events and Dansgaard\-Oeschger cycles\. *Nature Communications*, April 2024\. [doi:10\.1038/s41467\-024\-47141\-7](https://doi.org/10.1038/s41467-024-47141-7)\.
12. Hélène Seroussi, Tyler Pelle, William H\. Lipscomb, Ayako Abe‐Ouchi, Torsten Albrecht, Jorge Alvarez‐Solas, Xylar Asay‐Davis, Jean‐Baptiste Barre, Constantijn J\. Berends, Jorge Bernales, Javier Blasco, Justine Caillet, David M\. Chandler, Violaine Coulon, Richard Cullather, Christophe Dumas, Benjamin K\. Galton‐Fenzi, Julius Garbe, Fabien Gillet‐Chaulet, Rupert Gladstone, Heiko Goelzer, Nicholas Golledge, Ralf Greve, G\. Hilmar Gudmundsson, Holly Kyeore Han, Trevor R\. Hillebrand, Matthew J\. Hoffman, Philippe Huybrechts, Nicolas C\. Jourdain, Ann Kristin Klose, Petra M\. Langebroek, Gunter R\. Leguy, Daniel P\. Lowry, Pierre Mathiot, Marisa Montoya, Mathieu Morlighem, Sophie Nowicki, Frank Pattyn, Antony J\. Payne, Aurélien Quiquet, Ronja Reese, Alexander Robinson, Leopekka Saraste, Erika G\. Simon, Sainan Sun, Jake P\. Twarog, Luke D\. Trusel, Benoit Urruty, Jonas Van Breedam, Roderik S\. W\. van de Wal, Yu Wang, Chen Zhao, and Thomas Zwinger\. Evolution of the Antarctic Ice Sheet over the next three centuries from an ISMIP6 model ensemble\. *Earth’s Future*, September 2024\. [doi:10\.1029/2024ef004561](https://doi.org/10.1029/2024ef004561)\.

### 2023

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publisher = {Copernicus GmbH},
}

@Article{Feldmann2024,
AUTHOR = {Feldmann, J. and Levermann, A. and Winkelmann, R.},
TITLE = {Hysteresis of idealized, instability-prone outlet glaciers under variation of pinning-point buttressing},
JOURNAL = {EGUsphere},
VOLUME = {2024},
YEAR = {2024},
PAGES = {1--23},
DOI = {10.5194/egusphere-2024-457}
}

@Article{Albrecht2023,
AUTHOR = {Albrecht, T. and Bagge, M. and Klemann, V.},
TITLE = {Feedback mechanisms controlling {A}ntarctic glacial cycle dynamics simulated with a coupled ice sheet--solid {E}arth model},
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<h3 id="2024">2024</h3>

<ol>
<li>J. Feldmann, A. Levermann, and R. Winkelmann. Hysteresis of idealized, instability-prone outlet glaciers under variation of pinning-point buttressing. <em>EGUsphere</em>, 2024:1–23, 2024. <a href="https://doi.org/10.5194/egusphere-2024-457">doi:10.5194/egusphere-2024-457</a>.</li>
<li>Mikkel Langgaard Lauritzen, Anne Munck Solgaard, Nicholas Mossor Rathmann, Bo Møllesøe Vinther, Aslak Grindsted, Brice Noël, Guðfinna Aðalgeirsdóttir, and Christine Schøtt Hvidberg. Modeled Greenland Ice Sheet evolution constrained by ice-core-derived Holocene elevation histories. <em>EGUsphere</em>, July 2024. <a href="https://doi.org/10.5194/egusphere-2024-2223">doi:10.5194/egusphere-2024-2223</a>.</li>
<li>Ward van Pelt and Thomas Frank. A new glacier thickness and bed map for Svalbard. <em>EGUsphere</em>, May 2024. <a href="https://doi.org/10.5194/egusphere-2024-1525">doi:10.5194/egusphere-2024-1525</a>.</li>
</ol>
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### 2024

1. J\. Feldmann, A\. Levermann, and R\. Winkelmann\. Hysteresis of idealized, instability\-prone outlet glaciers under variation of pinning\-point buttressing\. *EGUsphere*, 2024:1–23, 2024\. [doi:10\.5194/egusphere\-2024\-457](https://doi.org/10.5194/egusphere-2024-457)\.
2. Mikkel Langgaard Lauritzen, Anne Munck Solgaard, Nicholas Mossor Rathmann, Bo Møllesøe Vinther, Aslak Grindsted, Brice Noël, Guðfinna Aðalgeirsdóttir, and Christine Schøtt Hvidberg\. Modeled Greenland Ice Sheet evolution constrained by ice\-core\-derived Holocene elevation histories\. *EGUsphere*, July 2024\. [doi:10\.5194/egusphere\-2024\-2223](https://doi.org/10.5194/egusphere-2024-2223)\.
3. Ward van Pelt and Thomas Frank\. A new glacier thickness and bed map for Svalbard\. *EGUsphere*, May 2024\. [doi:10\.5194/egusphere\-2024\-1525](https://doi.org/10.5194/egusphere-2024-1525)\.
1. Mikkel Langgaard Lauritzen, Anne Munck Solgaard, Nicholas Mossor Rathmann, Bo Møllesøe Vinther, Aslak Grindsted, Brice Noël, Guðfinna Aðalgeirsdóttir, and Christine Schøtt Hvidberg\. Modeled Greenland Ice Sheet evolution constrained by ice\-core\-derived Holocene elevation histories\. *EGUsphere*, July 2024\. [doi:10\.5194/egusphere\-2024\-2223](https://doi.org/10.5194/egusphere-2024-2223)\.
2. Ward van Pelt and Thomas Frank\. A new glacier thickness and bed map for Svalbard\. *EGUsphere*, May 2024\. [doi:10\.5194/egusphere\-2024\-1525](https://doi.org/10.5194/egusphere-2024-1525)\.

### 2023

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</url>
<url>
<loc>https://www.pism.io/img/news/vuw_phd_advert_nov2015.pdf</loc>
<lastmod>2024-09-05T17:18:43+00:00</lastmod>
<lastmod>2024-09-05T17:24:27+00:00</lastmod>
</url>
<url>
<loc>https://www.pism.io/usersmap/map.html</loc>
<lastmod>2024-09-05T17:18:45+00:00</lastmod>
<lastmod>2024-09-05T17:24:30+00:00</lastmod>
</url>
</urlset>
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