The Max-Planck-Institute global ocean/sea ice model with orthogonal curvilinear coordinates

Marsland, Simon J.; Haak, Helmuth; Jungclaus, Johann; Latif, Mojib; Röske, Frank

doi:10.1016/s1463-5003(02)00015-x

Cited by 910 publications

(673 citation statements)

References 58 publications

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“…The model configuration included the atmosphere component ECHAM5 (Roeckner et al, 2003) at T31 resolution (~3.75 ) with 19 vertical layers, complemented by a land-surface scheme including dynamical vegetation (JSBACH) (Brovkin et al, 2009). The ocean component MPI-OM (Marsland et al, 2003), including the dynamics of sea ice formulated using viscous-plastic rheology (Hibler, 1979), has an average horizontal resolution of 3 Â 1.8 with 40 uneven vertical layers. The climate model was previously utilized to analyse the climate of the last millennium (Jungclaus et al, 2010), the last glacial (Zhang et al, , 2014 and the last interglacial period (Varma et al, 2012;, as well as warm climates of the Miocene (Knorr et al, 2011;Knorr and Lohmann, 2014) and the Pliocene (Stepanek and Lohmann, 2012;Dowsett et al, 2013).…”

Section: Model Description and Experimental Designmentioning

confidence: 99%

Solar forcing as an important trigger for West Greenland sea-ice variability over the last millennium

Sha

Jiang

Seidenkrantz

et al. 2016

Quaternary Science Reviews

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a b s t r a c tArctic sea ice represents an important component of the climate system, and the present reduction of sea ice in the Arctic is of major concern. Despite its importance, little is known about past changes in sea-ice cover and the underlying forcing mechanisms. Here, we use diatom assemblages from a marine sediment core collected from the West Greenland shelf to reconstruct changes in sea-ice cover over the last millennium. The proxy-based reconstruction demonstrates a generally strong link between changes in sea-ice cover and solar variability during the last millennium. Weaker (or stronger) solar forcing may result in the increase (or decrease) in sea-ice cover west of Greenland. In addition, model simulations show that variations in solar activity not only affect local sea-ice formation, but also control the sea-ice transport from the Arctic Ocean through a sea-iceeoceaneatmosphere feedback mechanism. The role of solar forcing, however, appears to have been more ambiguous during an interval around AD 1500, after the transition from the Medieval Climate Anomaly to the Little Ice Age, likely to be driven by a range of factors.

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Section: Model Description and Experimental Designmentioning

confidence: 99%

Solar forcing as an important trigger for West Greenland sea-ice variability over the last millennium

Sha

Jiang

Seidenkrantz

et al. 2016

Quaternary Science Reviews

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“…There are two different approaches to achieve this goal. One relatively simple 'plumbing' approach is to reduce the spurious mixing by connecting grid cells above and below a topographic step (Beckmann and Döscher 1997;Campin and Goosse 1999;Marsland et al 2003). In the latter scheme for example (see Marsland et al 2003, their Fig.…”

Section: Parameterization Of Dense Outflow and Bottom Boundary Layer mentioning

confidence: 99%

“…The atmospheric part of the model, ECHAM5 (Roeckner et al 2003), has a horizontal resolution of 1.875° by 1.875° (T63) and 31 vertical levels. The ocean/sea ice part of the model, MPIOM (Marsland et al 2003), has a 1.5° by 1.5° horizontal resolution on a curvilinear grid with 40 vertical levels. MPIOM uses a curvilinear orthogonal grid and the two grid poles are placed upon Antarctica and Greenland thus avoiding the pole-singularity problem at the North Pole and providing relatively high resolution in the deep-water formation regions of the Labrador Sea and the Greenland Sea (see Jungclaus et al 2006a, their Fig.…”

Section: The Mean State: Transports Across the Gsr And Water Mass Promentioning

confidence: 99%

“…In MPIOM, a slope convection parameterization was implemented and Marsland et al (2003) showed that the scheme improved the near bottom water mass characteristics to the south of the GSR even though a vertical grid resolution of 100-300 m at 2,000 m depth does not allow for a 'realistic' vertical structure of the plume. Furthermore, the horizontal resolution is far too coarse to allow horizontal eddies with a radius of about 50-100 km to develop (Jiang and Garwood 1996;Jungclaus et al 2001).…”

Section: The Mean State: Transports Across the Gsr And Water Mass Promentioning

confidence: 99%

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Modelling the Overflows Across the Greenland–Scotland Ridge

Jungclaus

Macrander

Käse

2008

Arctic–Subarctic Ocean Fluxes

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“…[61] MPIOM-HAMOCC5 is the MPI ocean model (MPI-OM) [Marsland et al, 2003] and the Hamburg oceanic carbon cycle model HAMOCC5, and was presented in the study of Wetzel et al [2005]. This model was also forced with NCEP-1 reanalysis fluxes, and bulk formulas were used to calculate surface buoyancy fluxes.…”

Section: A2 Mpiom-hamocc5 (The ''Mpi'' Simulation)mentioning

confidence: 99%

Using altimetry to help explain patchy changes in hydrographic carbon measurements

et al. 2009

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[1] Here we use observations and ocean models to identify mechanisms driving large seasonal to interannual variations in dissolved inorganic carbon (DIC) and dissolved oxygen (O 2 ) in the upper ocean. We begin with observations linking variations in upper ocean DIC and O 2 inventories with changes in the physical state of the ocean. Models are subsequently used to address the extent to which the relationships derived from short-timescale (6 months to 2 years) repeat measurements are representative of variations over larger spatial and temporal scales. The main new result is that convergence and divergence (column stretching) attributed to baroclinic Rossby waves can make a first-order contribution to DIC and O 2 variability in the upper ocean. This results in a close correspondence between natural variations in DIC and O 2 column inventory variations and sea surface height (SSH) variations over much of the ocean. Oceanic Rossby wave activity is an intrinsic part of the natural variability in the climate system and is elevated even in the absence of significant interannual variability in climate mode indices. The close correspondence between SSH and both DIC and O 2 column inventories for many regions suggests that SSH changes (inferred from satellite altimetry) may prove useful in reducing uncertainty in separating natural and anthropogenic DIC signals (using measurements from Climate Variability and Predictability's CO 2 /Repeat Hydrography program).

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The Max-Planck-Institute global ocean/sea ice model with orthogonal curvilinear coordinates

Cited by 910 publications

References 58 publications

Solar forcing as an important trigger for West Greenland sea-ice variability over the last millennium

Solar forcing as an important trigger for West Greenland sea-ice variability over the last millennium

Modelling the Overflows Across the Greenland–Scotland Ridge

Using altimetry to help explain patchy changes in hydrographic carbon measurements

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