Glimmer-CISM-Publications

From CSDMS
References Glimmer-CISM

Publication(s)YearTypeCited
Payne, A. J.; Baldwin, D.J.; 1999. Thermomechanical modelling of the Scandinavian ice sheet: implications for ice-stream formation. Annals of Glaciology, 28, 83–89. 10.3189/172756499781821733
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1999Model overview 36
Pattyn, Frank; 2003. A new three-dimensional higher-order thermomechanical ice sheet model: Basic sensitivity, ice stream development, and ice flow across subglacial lakes. Journal of Geophysical Research, 108, 2382. 10.1029/2002JB002329
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2003Model overview 403
Rutt, I. C.; Hagdorn, M.; Hulton, N. R. J.; Payne, A. J.; 2009. The Glimmer community ice sheet model. Journal of Geophysical Research, 114, F02004. 10.1029/2008JF001015
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2009Model overview 191
Lipscomb, William H.; Fyke, Jeremy G.; Vizcaíno, Miren; Sacks, William J.; Wolfe, Jon; Vertenstein, Mariana; Craig, Anthony; Kluzek, Erik; Lawrence, David M.; 2013. Implementation and Initial Evaluation of the Glimmer Community Ice Sheet Model in the Community Earth System Model. Journal of Climate, 26, 7352–7371. 10.1175/JCLI-D-12-00557.1
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2013Model application 99
Stone, E. J.; Lunt, D. J.; Annan, J. D.; Hargreaves, J. C.; 2013. Quantification of the Greenland ice sheet contribution to Last Interglacial sea level rise. Climate of the Past, 9, 621–639. 10.5194/cp-9-621-2013
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2013Model application 94
Stone, E. J.; Lunt, D. J.; Rutt, I. C.; Hanna, E.; 2010. Investigating the sensitivity of numerical model simulations of the modern state of the Greenland ice-sheet and its future response to climate change. The Cryosphere, 4, 397–417. 10.5194/tc-4-397-2010
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2010Model application 91
Lemieux, Jean-François; Price, Stephen F.; Evans, Katherine J.; Knoll, Dana; Salinger, Andrew G.; Holland, David M.; Payne, Antony J.; 2011. Implementation of the Jacobian-free Newton–Krylov method for solving the first-order ice sheet momentum balance. Journal of Computational Physics, 230, 6531–6545. 10.1016/j.jcp.2011.04.037
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2011

Model application

28
Jamieson, Stewart S.R.; Hulton, Nicholas R.J.; Hagdorn, Magnus; 2008. Modelling landscape evolution under ice sheets. Geomorphology, 97, 91–108. 10.1016/j.geomorph.2007.02.047
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2008

Model application

69
Gregory, J. M.; Browne, O. J. H.; Payne, A. J.; Ridley, J. K.; Rutt, I. C.; 2012. Modelling large-scale ice-sheet–climate interactions following glacial inception. Climate of the Past, 8, 1565–1580. 10.5194/cp-8-1565-2012
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2012Model application 39
Smith, Robin S.; George, Steve; Gregory, Jonathan M.; 2020. FAMOUS version xotzb (FAMOUS-ice): a GCM capable of energy- and water- conserving coupling to an ice sheet model. Geoscientific Model Development Discussions.
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2020Model application 3
Gregory, Jonathan M.; George, Steven E.; Smith, Robin S.; 2020. Large and irreversible future decline of the Greenland ice sheet. The Cryosphere, 14, 4299–4322. 10.5194/tc-14-4299-2020
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2020Model application 3
McNeall, D. J.; Challenor, P. G.; Gattiker, J. R.; Stone, E. J.; 2013. The potential of an observational data set for calibration of a computationally expensive computer model. Geoscientific Model Development, 6, 1715–1728. 10.5194/gmd-6-1715-2013
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2013Model application 30
Gregoire, Lauren J.; Valdes, Paul J.; Payne, Antony J.; 2015. The relative contribution of orbital forcing and greenhouse gases to the North American deglaciation. Geophysical Research Letters, 42, 9970–9979. 10.1002/2015GL066005
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2015Model application 22
Rachmayani, Rima; Prange, Matthias; Lunt, Daniel J.; Stone, Emma J.; Schulz, Michael; 2017. Sensitivity of the Greenland Ice Sheet to Interglacial Climate Forcing: MIS 5e Versus MIS 11. Paleoceanography, 32, 1089–1101. 10.1002/2017PA003149
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2017Model application 9
Evans, Katherine J.; Salinger, Andrew G.; Worley, Patrick H.; Price, Stephen F.; Lipscomb, William H.; Nichols, Jeffrey A.; White, James B.; Perego, Mauro; Vertenstein, Mariana; Edwards, James; Lemieux, Jean-François; 2012. A modern solver interface to manage solution algorithms in the Community Earth System Model. The International Journal of High Performance Computing Applications, 26, 54–62. 10.1177/1094342011435159
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2012

Model application

16
Roberts, William H. G.; Payne, Antony J.; Valdes, Paul J.; 2016. The role of basal hydrology in the surging of the Laurentide Ice Sheet. Climate of the Past, 12, 1601–1617. 10.5194/cp-12-1601-2016
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2016Model application 7
Hebeler, Felix; Purves, Ross S.; Jamieson, Stewart S.R.; 2008. The impact of parametric uncertainty and topographic error in ice-sheet modelling. Journal of Glaciology, 54, 899–919. 10.3189/002214308787779852
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2008Model application 24
Tang, Xueyuan; Zhang, Zhanhai; Sun, Bo; Li, Yuansheng; Li, Na; Wang, Bangbing; Zhang, Xiangpei; 2008. Antarctic ice sheet GLIMMER model test and its simplified model on 2-dimensional ice flow. Progress in Natural Science, 18, 173–180. 10.1016/j.pnsc.2007.07.014
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2008

Model application

5
Hebeler, F; 2008. Modelling topographic uncertainty: Impacts on large scale environmental modelling.. , , . 10.5167/UZH-3712
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2008Model application 0
Smith, Robin S.; George, Steve; Gregory, Jonathan M.; 2021. FAMOUS version xotzt (FAMOUS-ice): a general circulation model (GCM) capable of energy- and water-conserving coupling to an ice sheet model. Geoscientific Model Development, 14, 5769–5787. 10.5194/gmd-14-5769-2021
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2021

Model application

1
Gregory, Jonathan M.; George, Steven E.; Smith, Robin S.; 2020. Large and irreversible future decline of the Greenland ice-sheet. .
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2020

Model application

9

Model application

0
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Nr. of publications: 21
Total citations: 1179
h-index: 13
m-quotient: 0.54

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