Publikationen Griesel
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- : Titel
A decomposition of the Atlantic Meridional Overturning Circulation into physical components using its sensitivity to vertical diffusivity
Mignot, J.; Levermann, A.; Griesel, A.. “A decomposition of the Atlantic Meridional Overturning Circulation into physical components using its sensitivity to vertical diffusivity”. Journal of Physical Oceanography 36 (4). (2006): S. 636-650.doi:10.1175/JPO2891.1
A Multiwavenumber Theory for Eddy Diffusivities and Its Application to the Southeast Pacific (DIMES) Region
Chen, R.; Gille, S.T.; McClean, J.L.; Flierl, G.R.; Griesel, A.. “A Multiwavenumber Theory for Eddy Diffusivities and Its Application to the Southeast Pacific (DIMES) Region”. Journal of Physical Oceanography 45 (7). (2015): S. 1877–1896.doi:10.1175/JPO-D-14-0229.1
A Rosenbrock- Solver in chemistry transport modeling: what about its speed in 3-D?
Kessler, C.; Griesel, A.; Verwer, J.. “A Rosenbrock- Solver in chemistry transport modeling: what about its speed in 3-D?”. EUROTRAC Symposium 98 (2). (1998): S. 554-559.
Assessing eddy heat flux and its parameterization: A wavenumber perspective from a 1/10° ocean simulation
Griesel, A.; Gille, S.T.; Sprintall, J.; McClean, J.L.; Maltrud, M.E.. “Assessing eddy heat flux and its parameterization: A wavenumber perspective from a 1/10° ocean simulation”. Ocean Modelling 29 (4). (2009): S. 248-260.doi:10.1016/j.ocemod.2009.05.004
Comparing isopycnal eddy diffusivities in the Southern Ocean with predictions from linear theory
Griesel, A.; Eden, C.; Koopmann, N.; Yulaeva, E.. “Comparing isopycnal eddy diffusivities in the Southern Ocean with predictions from linear theory”. Ocean Modelling 94. (2015): S. 33-45.doi: 10.1016/j.ocemod.2015.08.001
Dynamic sea level changes following changes in the thermohaline circulation
Levermann, A.; Griesel, A.; Hofmann, M.; Montoya, M.; Rahmstof, S.. “Dynamic sea level changes following changes in the thermohaline circulation”. Climate Dynamics 24 (4). (2005): S. 347-354.doi:10.1007/s00382-004-0505-y
Eddy Fluxes and Jet-Scale Overturning Circulations in the Indo-Western Pacific Southern Ocean
Li, Q.; Lee, S.; Griesel, A.. “Eddy Fluxes and Jet-Scale Overturning Circulations in the Indo-Western Pacific Southern Ocean”. Journal of Physical Oceanography 46 (10). (2016): S. 2943-2959.doi: 10.1175/JPO-D-15-0241.1
Ein Lösungsalgorithmus für chemische Umsetzungen der Gas- und Flüssigphase im EURAD CTM2. (A numerical solver for gas- and aqueous-phase reactions in the EURAD CTM2 chemistry transport model)
Griesel, A.. Ein Lösungsalgorithmus für chemische Umsetzungen der Gas- und Flüssigphase im EURAD CTM2. (A numerical solver for gas- and aqueous-phase reactions in the EURAD CTM2 chemistry transport model). 1999. Diplom Thesis, University of Cologne, EURAD project, Institute for Geophysics and Metrology
Erratum to: The earth system model of intermediate complexity CLIMBER-3α. Part I: description and performance for present-day conditions
Montoya, M.; Griesel, A.; Levermann, A.; Mignot, J.; Hofmann, A.; Ganopolski, A.; Rahmstorf, S.. “Erratum to: The earth system model of intermediate complexity CLIMBER-3α. Part I: description and performance for present-day conditions”. Climate Dynamics 34 (1). (2010): S. 151.doi:10.1007/s00382-009-0677-6
Eulerian and Lagrangian isopycnal eddy diffusivities in the Southern Ocean of an eddying model
Griesel, A.; McClean, J.L.; Gille, S.T.; Sprintall, J.; Eden, C. . “Eulerian and Lagrangian isopycnal eddy diffusivities in the Southern Ocean of an eddying model”. Journal of Physical Oceanography 44 (2). (2014): S. 644-661.doi: 10.1175/JPO-D-13-039.1
Isopycnal Diffusivities in the Antarctic Circumpolar Current Inferred from Lagrangian Floats in an Eddying Model
Griesel, A.; Gille, S.T.; Sprintall, J.; McClean, J.L.; LaCasce, J.H.; Maltrud, M.E.. “Isopycnal Diffusivities in the Antarctic Circumpolar Current Inferred from Lagrangian Floats in an Eddying Model”. Journal of Geophysical Research: Oceans 115 (C6). (2010): S. C06006.doi:10.1029/2009JC005821
Isopycnal Eddy Diffusivities and Critical Layers in the Kuroshio Extension from an Eddying Ocean Model
Chen, R.; McClean, J.L.; Gille, S.T.; Griesel, A.. “Isopycnal Eddy Diffusivities and Critical Layers in the Kuroshio Extension from an Eddying Ocean Model”. Journal of Physical Oceanography 44 (8). (2014): S. 2191–2211.doi:10.1175/JPO-D-13-0258.1
Mean Dynamic Topography in the Southern Ocean: Evaluating Antarctic Circumpolar Current Transport
Griesel, A.; Mazloff, M.R.; Gille, S.T. . “Mean Dynamic Topography in the Southern Ocean: Evaluating Antarctic Circumpolar Current Transport”. Journal of Geophysical Research: Oceans 117 (C1). (2012): S. C01020.doi:10.1029/2011JC007573
Modelling large scale ocean circulation: The role of mixing location and meridional pressure gradients for the Atlantic overturning dynamics
Griesel, A.. Modelling large scale ocean circulation: The role of mixing location and meridional pressure gradients for the Atlantic overturning dynamics. 2005. PhD Thesis, Potsdam Institute for Climate Impact Research, Potsdam University
On the driving processes of the Atlantic meridional overturning circulation
Kuhlbrodt, T. A.; Griesel, A.; Montoya, M.; Levermann, A.; Hofmann, M.; Rahmstorf, S.. “On the driving processes of the Atlantic meridional overturning circulation”. Reviews of Geophysics 45 (2). (2006): S. RG2001.doi:10.1029/2004RG000166
Relative Dispersion of Surface Drifters in the Benguela Upwelling Region
Dräger-Dietel, J.; Jochumsen,K.; Griesel, A.; Badin, G.. “Relative Dispersion of Surface Drifters in the Benguela Upwelling Region”. American Meteorological Society 48 (10). (2018): S. 2325-2341.doi: 10.1175/JPO-D-18-0027.1
Solution of a model for the oceanic pycnocline depth: Scaling of overturning strength and meridional pressure difference
Levermann, A.; Griesel, A.. “Solution of a model for the oceanic pycnocline depth: Scaling of overturning strength and meridional pressure difference”. Geophysical Research Letters 31 (17). (2004): S. L17302.doi:10.1029/2004GL020678
The Diapycnal and Isopycnal Mixing Experiment: A First Assessment
Gille, S. T.; Ledwell, J.; Naveira-Garabato, A.; Speer, K.; Balwada, D.; Brearley, A.; Girton, J. B.; Griesel, A.; Ferrari, R.; Klocker, A.; LaCasce, J.; Lazarevich, P.; Mackay, N.; Meredith, M. P.; Messias, M.-J.; Owens, B.; Sallée, J.-B.; Sheen, K.; Shuckburgh, E.; Smeed, D. A.; Laurent, L. C. St.; Toole, J. M.; Watson, A. J.; Wienders, N.; Zajaczkovski, U.. “The Diapycnal and Isopycnal Mixing Experiment: A First Assessment”. CLIVAR Exchanges 17 (1). (2012): S. 46-48.
The Earth System Model of Intermediate Complexity CLIMBER-3α. Part I: description and performance for present day conditions
Montoya, M.; Griesel, A.; Levermann, A.; Mignot, J.; Hofmann, A.; Ganopolski, A.; Rahmstorf, S.. “The Earth System Model of Intermediate Complexity CLIMBER-3α. Part I: description and performance for present day conditions”. Climate Dynamics 25 (2-3). (2005): S. 237-263.doi:10.1007/s00382-005-0044-1
The relation of meridional pressure gradients to North Atlantic Deep Water volume transport in an Ocean General Circulation Model
Griesel, A.; Morales Maqueda, M.A. . “The relation of meridional pressure gradients to North Atlantic Deep Water volume transport in an Ocean General Circulation Model”. Climate Dynamics 26 (7-8). (2006): S. 781-799.doi:10.1007/s00382-006-0122-z