GLORIA — GEOMAR Library Ocean Research Information Access

1

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Die thermohaline Zirkulation des Atlantischen Ozeans in wirbelauflösenden Modellen (1995)

Böning, Claus W.

Springer

In: Deutsche Hydrographische Zeitschrift, Suppl. 2 . pp. 13-20.

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Publication Date: 2018-06-15

Type: Article , NonPeerReviewed

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2

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North Atlantic Deep Water Formation in the Labrador Sea, Recirculation through the Subpolar Gyre, and Discharge to the Subtropics (2008)

Haine, T. ; Böning, Claus W. ; Brandt, Peter ; [et al.]

Springer

In: In: Arctic-Subarctic Ocean Fluxes, Defining the Role of the Northern Seas in Climate. , ed. by Dicksen, R. R., Meincke, J. and Rhines, P. Springer, Dordrecht, pp. 653-702. ISBN 978-1-4020-6773-0

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Publication Date: 2012-02-23

Type: Book chapter , PeerReviewed

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3

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The Agulhas system as a key region of the global oceanic circulation (2006)

Biastoch, Arne ; Böning, Claus W. ; Svensson, F.

Springer

In: In: High Performance Computing on Vector Systems. , ed. by Resch, M. Springer, Berlin, pp. 163-169. ISBN 978-3-540-29124-4

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Publication Date: 2017-04-06

Type: Book chapter , PeerReviewed

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4

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Hindcasting the uptake of anthropogenic trace gases with an eddy-permitting model of the Atlantic Ocean (2001)

Redler, René ; Beismann, Jens-Olaf ; Czeschel, Lars ; [et al.]

Springer

In: In: High Performance Computing in Science and Engineering '01. , ed. by Krause, E. and Jäger, W. Springer, Berlin, Germany, pp. 396-405. ISBN 3-540-42675-2

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Publication Date: 2020-05-07

Description: The ocean takes up a large fraction of the pertubation C02 that enters the atmosphere by human activity. A realistic representation of this uptake in numerical models is essential for future climate studies. Uptake of C02 or other atmospheric trace gases is strongly influenced by oceanic physical variability at spatial scales between 20 and 100 km. Our main goal is to study the effect of this mesoscale variability on the cumulative uptake of anthropogenic C02 and chlorofluorocarbons using an existing model of the ocean circulation in the Atlantic that resolves a significant part of that variability explicitly because of its grid spacing of about 20 km. Results are compared with simulated trace gas distribution obtained from a model with coarser resolution.

Type: Book chapter , NonPeerReviewed

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The Agulhas System as a Prime Example for the Use of Nesting Capabilities in Ocean Modelling (2009)

Scheinert, Markus ; Biastoch, Arne ; Böning, Claus W.

Springer

In: In: High Performance Computing on Vector Systems 2009. , ed. by Resch, M., Roller, S., Benkert, K., Galle, M., Bez, W. and Kobayashi, H. Springer, Berlin, pp. 191-198. ISBN 978-3642039126

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Publication Date: 2012-07-05

Type: Book chapter , PeerReviewed

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6

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The Agulhas System as a Key Region of the Global Oceanic Circulation (2008)

Biastoch, Arne ; Böning, Claus W. ; Scheinert, Markus ; [et al.]

Springer

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Publication Date: 2023-11-08

Description: The Agulhas system all the interface between the Indian and Atlantic Ocean is an important region in the global oceanic circulation with a recognized key role in global climate and climate change. The simulation of the Agulhas system was performed by a high-resolution regional model nested in a global coarse-resolution ocean model. It is shown that this model simulates all characteristics of the Agulhas regime in a highly realistic manner. Due to the two-way coupling of both models the importance of the Agulhas leakage on the large-scale thermohaline circulation was demonstrated.

Type: Book chapter , PeerReviewed

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7

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Impact of partial steps and momentum advection schemes in a global ocean circulation model at eddy permitting resolution (2006)

Barnier, B. ; Madec, G. ; Penduff, T. ; [et al.]

Springer

In: Ocean Dynamics, 56 (5/6). pp. 195-230.

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Publication Date: 2017-02-07

Description: Series of sensitivity tests were performed with a z-coordinate, global eddy-permitting (1/4°) ocean/sea-ice model (the ORCA-R025 model configuration developed for the DRAKKAR project) to carefully evaluate the impact of recent state-of-the-art numerical schemes on model solutions. The combination of an energy–enstrophy conserving (EEN) scheme for momentum advection with a partial step (PS) representation of the bottom topography yields significant improvements in the mean circulation. Well known biases in the representation of western boundary currents, such as in the Atlantic the detachment of the Gulf Stream, the path of the North Atlantic Current, the location of the Confluence, and the strength of the Zapiola Eddy in the south Atlantic, are partly corrected. Similar improvements are found in the Pacific, Indian, and Southern Oceans, and characteristics of the mean flow are generally much closer to observations. Comparisons with other state-of-the-art models show that the ORCA-R025 configuration generally performs better at similar resolution. In addition, the model solution is often comparable to solutions obtained at 1/6 or 1/10° resolution in some aspects concerning mean flow patterns and distribution of eddy kinetic energy. Although the reasons for these improvements are not analyzed in detail in this paper, evidence is shown that the combination of EEN with PS reduces numerical noise near the bottom, which is likely to affect current–topography interactions in a systematic way. We conclude that significant corrections of the mean biases presently seen in general circulation model solutions at eddy-permitting resolution can still be expected from the development of numerical methods, which represent an alternative to increasing resolution.

Type: Article , PeerReviewed

Format: text

DOI: 10.1007/s10236-006-0082-1

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8

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Internal and forced variability along a section between Greenland and Portugal in the CLIPPER Atlantic model (2006)

Treguier, A.-M. ; Goureuff, C. ; Lherminier, P. ; [et al.]

Springer

In: Ocean Dynamics, 56 (5/6). pp. 568-580.

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Publication Date: 2017-02-07

Description: Numerical models are used to estimate the meridional overturning and transports along the paths of two hydrographic cruises, carried out in 1997 and 2002 from Greenland to Portugal. We have examined the influence of the different paths of the two cruises and found that it could explain 0.4 to 2 Sv of difference in overturning (the precise value is model-dependent). Models show a decrease in the overturning circulation between 1997 and 2002, with different amplitudes. The CLIPPER ATL6 model reproduces well the observed weakening of the overturning in density coordinates between the cruises; in the model, the change is due to the combination of interannual and high-frequency forcing and internal variability associated with eddies and meanders. Examination of the z-coordinate overturning reveals model–data discrepancies: the vertical structure in the models does not change as much as the observed one. The East Greenland current variability is mainly wind-forced in the ATL6 model, while fluctuations due to eddies and instabilities explain a large part of the North Atlantic Current variability. The time-residual transport of dense water and heat due to eddy correlations between currents and properties is small across this section, which is normal to the direction of the main current.

Type: Article , PeerReviewed

Format: text

DOI: 10.1007/s10236-006-0069-y

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9

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Multidecadal Indian Ocean variability linked to the Pacific and implications for preconditioning Indian Ocean dipole events (2017)

Ummenhofer, Caroline C. ; Biastoch, Arne ; Böning, Claus W.

American Meteorological Society

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Publication Date: 2022-05-25

Description: Author Posting. © American Meteorological Society, 2017. This article is posted here by permission of American Meteorological Society for personal use, not for redistribution. The definitive version was published in Journal of Climate 30 (2017): 1739-1751, doi:10.1175/JCLI-D-16-0200.1.

Description: The Indian Ocean has sustained robust surface warming in recent decades, but the role of multidecadal variability remains unclear. Using ocean model hindcasts, characteristics of low-frequency Indian Ocean temperature variations are explored. Simulated upper-ocean temperature changes across the Indian Ocean in the hindcast are consistent with those recorded in observational products and ocean reanalyses. Indian Ocean temperatures exhibit strong warming trends since the 1950s limited to the surface and south of 30°S, while extensive subsurface cooling occurs over much of the tropical Indian Ocean. Previous work focused on diagnosing causes of these long-term trends in the Indian Ocean over the second half of the twentieth century. Instead, the temporal evolution of Indian Ocean subsurface heat content is shown here to reveal distinct multidecadal variations associated with the Pacific decadal oscillation, and the long-term trends are thus interpreted to result from aliasing of the low-frequency variability. Transmission of the multidecadal signal occurs via an oceanic pathway through the Indonesian Throughflow and is manifest across the Indian Ocean centered along 12°S as westward-propagating Rossby waves modulating thermocline and subsurface heat content variations. Resulting low-frequency changes in the eastern Indian Ocean thermocline depth are associated with decadal variations in the frequency of Indian Ocean dipole (IOD) events, with positive IOD events unusually common in the 1960s and 1990s with a relatively shallow thermocline. In contrast, the deeper thermocline depth in the 1970s and 1980s is associated with frequent negative IOD and rare positive IOD events. Changes in Pacific wind forcing in recent decades and associated rapid increases in Indian Ocean subsurface heat content can thus affect the basin’s leading mode of variability, with implications for regional climate and vulnerable societies in surrounding countries.

Description: This research was supported by a Research Fellowship by the Alexander von Humboldt Foundation, as well as the Ocean Climate Change Institute and the Investment in Science Fund at WHOI.

Description: 2017-08-15

Keywords: Indian Ocean ; Ocean dynamics ; Climate variability ; Multidecadal variability ; Pacific decadal oscillation

Repository Name: Woods Hole Open Access Server

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Annual and semiannual cycle of equatorial Atlantic circulation associated with basin-mode resonance (2016)

Brandt, Peter ; Claus, Martin ; Greatbatch, Richard J. ; [et al.]

American Meteorological Society

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Publication Date: 2022-05-25

Description: Author Posting. © American Meteorological Society, 2016. This article is posted here by permission of American Meteorological Society for personal use, not for redistribution. The definitive version was published in Journal of Physical Oceanography 46 (2016): 3011-3029, doi:10.1175/JPO-D-15-0248.1.

Description: Seasonal variability of the tropical Atlantic circulation is dominated by the annual cycle, but semiannual variability is also pronounced, despite weak forcing at that period. This study uses multiyear, full-depth velocity measurements from the central equatorial Atlantic to analyze the vertical structure of annual and semiannual variations of zonal velocity. A baroclinic modal decomposition finds that the annual cycle is dominated by the fourth mode and the semiannual cycle is dominated by the second mode. Similar local behavior is found in a high-resolution general circulation model. This simulation reveals that the annual and semiannual cycles of the respective dominant baroclinic modes are associated with characteristic basinwide structures. Using an idealized, linear, reduced-gravity model to simulate the dynamics of individual baroclinic modes, it is shown that the observed circulation variability can be explained by resonant equatorial basin modes. Corollary simulations of the reduced-gravity model with varying basin geometry (i.e., square basin vs realistic coastlines) or forcing (i.e., spatially uniform vs spatially variable wind) show a structural robustness of the simulated basin modes. A main focus of this study is the seasonal variability of the Equatorial Undercurrent (EUC) as identified in recent observational studies. Main characteristics of the observed EUC including seasonal variability of transport, core depth, and maximum core velocity can be explained by the linear superposition of the dominant equatorial basin modes as obtained from the reduced-gravity model.

Description: This study was supported by the Deutsche Forschungsgemeinschaft as part of the Sonderforschungsbereich 754 (SFB754) ‘‘Climate–Biogeochemistry Interactions in the Tropical Ocean’’ and through several research cruises with R/V Meteor, R/V Maria S. Merian, andR/VL’Atalante by the German Federal Ministry of Education and Research as part of the cooperative projects RACE (03F0605B) and SACUS (03G0837A) and by European Union 7th Framework Programme (FP7 2007–13) under Grant Agreement 603521 PREFACE project.

Keywords: Atlantic Ocean ; Ocean circulation ; In situ oceanic observations ; Ocean models ; Seasonal cycle ; Tropical variability

Repository Name: Woods Hole Open Access Server

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