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16. Sensitivity of the Atlantic circulation to a hydraulic overflow parameterisation in a coarse resolution model.
A. Born, A. Levermann and J. Mignot
Ocean Modelling, 27, (2009), 130–142.


15. Bistability of the Atlantic subpolar gyre in a coarse resolution climate model.
A. Levermann and A. Born
Geophysical Research Letters, 34, (2007), L24605, doi:10.1029/2007GL031732.


14. Sensitivity of the oceanic heat transport to the strength of the Atlantic overturning circulation
M. Montoya, A. Levermann and J. Mignot
Geophysical Research Abstracts, 9, (2007), 08522.


13. Stratification-dependent Mixing May Decrease Stability of Atlantic Overturning under Global Warming
B. Marzeion, A. Levermann and J. Mignot
Geophysical Research Letters, 9, (2007).


12. The role of stratification-dependent mixing for the stability of the Atlantic overturning in a global climate model.
B. Marzeion, A. Levermann and J. Mignot
Journal of Physical Oceanography, 37, (2007), 2672-2681.


11. The role of northern sea ice cover for the weakening of the thermohaline circulation under global warming.
A. Levermann, J. Mignot, S. Nawrath and S. Rahmstorf
Journal of Climate, 20, (2006), 4160-4171.


10. Tropical versus high latitude freshwater influence on the Atlantic Circulation
H. Goelzer, A. Levermann, J. Mignot and S. Rahmstorf
Climate Dynamics, 27, (2006), 715-725, doi:10.1007/s00382-006-0161-5.


9. Sensitivity of heat transport and its vertical structure to vertical mixing and to a shutdown of the Atlantic overturning circulation
M. Montoya, A. Levermann and J. Mignot
Geophysical Research Abstracts, 8, (2006), 09467.


8. Investigating the Causes of the Response of the Thermohaline Circulation to Past and Future Climate Changes
R.J. Stouffer, J. Yin, J.M. Gregory, K.W. Dixon, M.J. Spelman, W. Hurlin, A.J. Weaver, M. Eby, G.M. Flato, H. Hasumi, A. Hu, J.H. Jungclaus, I.V. Kamenkovich, A.Levermann, M. Montoya, S. Murakami, S. Nawrath, A. Oka, W.R. Peltier, D.Y. Robitaille, A.P. Sokolov, G. Vettoretti, N. Weber
Journal of Climate, 19, (2006), 1365-1387.


7. A decomposition of the Atlantic Meridional Overturning Circulation into physical components using its sensitivity to vertical diffusivity
Mignot, J., A. Levermann and A. Griesel
Journal of Physical Oceanography, 36, (2006), 636-650.


6. The relation of meridional pressure gradients to North Atlantic deep water volume transport in an ocean general circulation model
A. Griesel, M.A. Morales Maqueda
Climate Dynamics, (2006), 26, 781–799.


5. EMIC Intercomparison Project (EMIP-CO2): Comparative analysis of EMIC simulations of climate and of equilibrium and transient responses to atmospheric CO2 doubling
Petoukhov, V., M. Claussen, A. Berger, M. Crucifix, M. Eby, A. Eliseev, T. Fichefet, A. Ganopolski, H. Goose, I. Kamenkovich, I. Mokhov, M. Montoya, L. Mysak, A. Sokolov, P. Stone, Z. Wang and A. Weaver
Climate Dynamics, 25, (2005), 363


4. The Earth System Model of Intermediate Complexity CLIMBER-3α . Part I: description and performance for present day conditions
Montoya, M., A. Griesel, A. Levermann, J. Mignot, M. Hofmann, A. Ganopolski and S. Rahmstorf
Climate Dynamics, 25, (2005), 237-263.


3. A model intercomparison of changes in the Atlantic thermohaline circulation in response to increasing atmospheric CO2 concentration
Gregory, J.M., K.W. Dixon, R. J. Stouffer, A. J.Weaver, E. Driesschaert, M. Eby, T. Fichefet, H. Hasumi, A. Hu, J. H. Jungclaus, I.V. Kamenkovich, A. Levermann, M. Montoya, S. Murakami, S. Nawrath, A. Oka, A. P. Sokolov, R. B. Thorpe
Geophysical Research Letters, 32, (2005),  L12703.


2. Dynamic sea level changes following changes in the thermohaline circulation
Levermann, A., A. Griesel, M. Hofmann, M. Montoya and S. Rahmstorf
Climate Dynamics, 24, (2005), 347.


1. Solution of a Model for the Oceanic Pycnocline Depth: Scaling of Overturning Strength and Meridional Pressure Difference
Levermann, A. and A. Griesel
Geophysical Research Letters, 31, (2004), L17302.

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