Characteristics of the ocean simulations in the Max Planck Institute Ocean Model (MPIOM) the ocean component of the MPI‐Earth system model

Characteristics of the ocean simulations in the Max Planck Institute Ocean Model (MPIOM) the ocean component of the MPI‐Earth system model

MPI‐ESM is a new version of the global Earth system model developed at the Max Planck Institute for Meteorology. This paper describes the ocean state and circulation as well as basic aspects of variability in simulations contributing to the fifth phase of the Coupled Model Intercomparison Project (C...

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Main Authors: J. H. Jungclaus, N. Fischer, H. Haak, K. Lohmann, J. Marotzke, D. Matei, U. Mikolajewicz, D. Notz, J. S. vonStorch
Format: Article
Language:English
Published: American Geophysical Union (AGU) 2013-06-01
Series:Journal of Advances in Modeling Earth Systems
Subjects:
ocean modeling
Earth system models
ocean circulation
Online Access:https://doi.org/10.1002/jame.20023
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spelling doaj-3c115e18954f47fa91c997ee6a7e07b12021-05-17T15:01:17ZengAmerican Geophysical Union (AGU)Journal of Advances in Modeling Earth Systems1942-24662013-06-015242244610.1002/jame.20023Characteristics of the ocean simulations in the Max Planck Institute Ocean Model (MPIOM) the ocean component of the MPI‐Earth system modelJ. H. Jungclaus0N. Fischer1H. Haak2K. Lohmann3J. Marotzke4D. Matei5U. Mikolajewicz6D. Notz7J. S. vonStorch8Max Planck Institute for MeteorologyBundesstrasseHamburg GermanyMax Planck Institute for MeteorologyBundesstrasseHamburg GermanyMax Planck Institute for MeteorologyBundesstrasseHamburg GermanyMax Planck Institute for MeteorologyBundesstrasseHamburg GermanyMax Planck Institute for MeteorologyBundesstrasseHamburg GermanyMax Planck Institute for MeteorologyBundesstrasseHamburg GermanyMax Planck Institute for MeteorologyBundesstrasseHamburg GermanyMax Planck Institute for MeteorologyBundesstrasseHamburg GermanyMax Planck Institute for MeteorologyBundesstrasseHamburg GermanyMPI‐ESM is a new version of the global Earth system model developed at the Max Planck Institute for Meteorology. This paper describes the ocean state and circulation as well as basic aspects of variability in simulations contributing to the fifth phase of the Coupled Model Intercomparison Project (CMIP5). The performance of the ocean/sea‐ice model MPIOM, coupled to a new version of the atmosphere model ECHAM6 and modules for land surface and ocean biogeochemistry, is assessed for two model versions with different grid resolution in the ocean. The low‐resolution configuration has a nominal resolution of 1.5°, whereas the higher resolution version features a quasiuniform, eddy‐permitting global resolution of 0.4°. The paper focuses on important oceanic features, such as surface temperature and salinity, water mass distribution, large‐scale circulation, and heat and freshwater transports. In general, these integral quantities are simulated well in comparison with observational estimates, and improvements in comparison with the predecessor system are documented; for example, for tropical variability and sea ice representation. Introducing an eddy‐permitting grid configuration in the ocean leads to improvements, in particular, in the representation of interior water mass properties in the Atlantic and in the representation of important ocean currents, such as the Agulhas and Equatorial current systems. In general, however, there are more similarities than differences between the two grid configurations, and several shortcomings, known from earlier versions of the coupled model, prevail.https://doi.org/10.1002/jame.20023ocean modelingEarth system modelsocean circulation
collection DOAJ
language English
format Article
sources DOAJ
author J. H. Jungclaus
N. Fischer
H. Haak
K. Lohmann
J. Marotzke
D. Matei
U. Mikolajewicz
D. Notz
J. S. vonStorch
spellingShingle J. H. Jungclaus
N. Fischer
H. Haak
K. Lohmann
J. Marotzke
D. Matei
U. Mikolajewicz
D. Notz
J. S. vonStorch
Characteristics of the ocean simulations in the Max Planck Institute Ocean Model (MPIOM) the ocean component of the MPI‐Earth system model
Journal of Advances in Modeling Earth Systems
ocean modeling
Earth system models
ocean circulation
author_facet J. H. Jungclaus
N. Fischer
H. Haak
K. Lohmann
J. Marotzke
D. Matei
U. Mikolajewicz
D. Notz
J. S. vonStorch
author_sort J. H. Jungclaus
title Characteristics of the ocean simulations in the Max Planck Institute Ocean Model (MPIOM) the ocean component of the MPI‐Earth system model
title_short Characteristics of the ocean simulations in the Max Planck Institute Ocean Model (MPIOM) the ocean component of the MPI‐Earth system model
title_full Characteristics of the ocean simulations in the Max Planck Institute Ocean Model (MPIOM) the ocean component of the MPI‐Earth system model
title_fullStr Characteristics of the ocean simulations in the Max Planck Institute Ocean Model (MPIOM) the ocean component of the MPI‐Earth system model
title_full_unstemmed Characteristics of the ocean simulations in the Max Planck Institute Ocean Model (MPIOM) the ocean component of the MPI‐Earth system model
title_sort characteristics of the ocean simulations in the max planck institute ocean model (mpiom) the ocean component of the mpi‐earth system model
publisher American Geophysical Union (AGU)
series Journal of Advances in Modeling Earth Systems
issn 1942-2466
publishDate 2013-06-01
description MPI‐ESM is a new version of the global Earth system model developed at the Max Planck Institute for Meteorology. This paper describes the ocean state and circulation as well as basic aspects of variability in simulations contributing to the fifth phase of the Coupled Model Intercomparison Project (CMIP5). The performance of the ocean/sea‐ice model MPIOM, coupled to a new version of the atmosphere model ECHAM6 and modules for land surface and ocean biogeochemistry, is assessed for two model versions with different grid resolution in the ocean. The low‐resolution configuration has a nominal resolution of 1.5°, whereas the higher resolution version features a quasiuniform, eddy‐permitting global resolution of 0.4°. The paper focuses on important oceanic features, such as surface temperature and salinity, water mass distribution, large‐scale circulation, and heat and freshwater transports. In general, these integral quantities are simulated well in comparison with observational estimates, and improvements in comparison with the predecessor system are documented; for example, for tropical variability and sea ice representation. Introducing an eddy‐permitting grid configuration in the ocean leads to improvements, in particular, in the representation of interior water mass properties in the Atlantic and in the representation of important ocean currents, such as the Agulhas and Equatorial current systems. In general, however, there are more similarities than differences between the two grid configurations, and several shortcomings, known from earlier versions of the coupled model, prevail.
topic ocean modeling
Earth system models
ocean circulation
url https://doi.org/10.1002/jame.20023
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