GLORIA — GEOMAR Library Ocean Research Information Access

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A glimpse on ParaView - visualisation of 4D gridded simulation output (2022)

Getzlaff, Klaus ; Schulzki, Tobias

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Publication Date: 2022-11-14

Description: Contribution to the interactive lecture series "Visualisation in Ocean Research" at GEOMAR Short introduction into the open-source visualization software ParaView with examples and informations on support.

Type: Conference or Workshop Item , NonPeerReviewed

Format: slideshow

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2

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VIKING20X_SST_5day_2000_2009 (2018)

Getzlaff, Klaus ; Schulzki, Tobias

GEOMAR Theory and Modelling

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Publication Date: 2022-02-25

Description: Sea Surface Temperature (5-daily average) with shading from Sea Surface Height overlayed with Sea Ice coverage from the high-resolution VIKING20X simulation for the period 2000 to 2009 (GEOMAR Ocean modelling group; contact: Klaus Getzlaff)

Type: Video , NonPeerReviewed

Format: video

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3

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Simulated near-surface speed combined with ice cover from VIKING20X simulation (2022)

Getzlaff, Klaus ; Schulzki, Tobias ; Schwarzkopf, Franziska U.

GEOMAR Ocean Dynamics

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Publication Date: 2022-02-25

Description: Visualisation of 5-daily near-surface speed (100m depth) projected on surface elevation combined with sea ice cover from the high-resolution VIKING20X simulation for the period 2000 to 2009

Type: Video , NonPeerReviewed

Format: video

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Simulierte Obeflächentemperatur im Nordatlantik (VIKING20X) (2019)

Getzlaff, Klaus ; Schulzki, Tobias

GEOMAR Ocean Dynamics

In: [Video]

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Publication Date: 2022-01-18

Description: Animation der simulierten 5-tägigen Oberflächentemperatur (SST) im Atlantik projeziert auf die Oberflächenauslenkung (SSH), zusätzlich überlagert mit der Eisdicke. Die Daten basieren auf den simulierten Jahren 2012 bis 2018 der hochauflösenden VIKING20X-Konfiguration. Die Animation wurde mit der Visualisierungssoftware Paraview (www.paraview.org) im Rahmen eines Rechenzeitprojektes am Deutschen Klimarechenzentrum (www.dkrz.de) erstellt.

Type: Video , NonPeerReviewed

Format: video

DOI: 10.3289/RACE_VIKING20X-JRA_SST_2012_2018

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Animation of pathways of the upper limb of the overturning circulation in the South Atlantic, realized by tracking virtual fluid particles in an eddy-rich ocean model (2018)

Rühs, Siren ; Schulzki, Tobias G. ; Schwarzkopf, Franziska U.

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Publication Date: 2024-01-30

Description: The animation visualizes pathways of the upper limb of the overturning circulation in the South Atlantic by means of virtual fluid particle trajectories. The animation has been created with ParaView. The trajectories present a subset of the trajectories evaluated in Rühs et al. (2019). They have been calculated by using the ARIANE tool (version 2.2.6; Blanke and Raynauld, 1997; Blanke et al., 1999) in qualitative mode and 5-day mean 3D velocity output from the eddy-rich ocean-sea-ice model configuration INALT20 (experiment KFS044; Schwarzkopf et al., 2019). Specifically, particles were released over the full depth and width of the northward flowing North Brazil current at 6S and were then advected backwards in time until they reach the Pacific Ocean through Drake Passage or the Indian Ocean through the Agulhas Current system. Along-track temperatures were recorded and are visualized by the color of the trajectories (red=warm, blue=cold). The animation shows that water particles flowing from the Indian Ocean to the tropical Atlantic are relative warm, while particles entering from the Pacific Ocean tend to colder – the reason for the frequently used terminology “warm water route” and “cold water route”.

Type: Video , NonPeerReviewed , info:eu-repo/semantics/other

Format: video

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6

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Robust estimates for the decadal evolution of Agulhas leakage from the 1960s to the 2010s (2022)

Rühs, Siren ; Schmidt, Christina ; Schubert, René ; [et al.]

Nature Research

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Publication Date: 2024-02-07

Description: Agulhas leakage, the transport of warm and salty waters from the Indian Ocean into the South Atlantic, has been suggested to increase under anthropogenic climate change, due to strengthening Southern Hemisphere westerly winds. The resulting enhanced salt transport into the South Atlantic may counteract the projected weakening of the Atlantic overturning circulation through warming and ice melting. Here we combine existing and new observation- and model-based Agulhas leakage estimates to robustly quantify its decadal evolution since the 1960s. We find that Agulhas leakage very likely increased between the mid-1960s and mid-1980s, in agreement with strengthening winds. Our models further suggest that increased leakage was related to enhanced transport outside eddies and coincided with strengthened Atlantic overturning circulation. Yet, it appears unlikely that Agulhas leakage substantially increased since the 1990s, despite continuously strengthening winds. Our results stress the need to better understand decadal leakage variability to detect and predict anthropogenic trends.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

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7

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Regional Imprints of Changes in the Atlantic Meridional Overturning Circulation in the Eddy-rich Ocean Model VIKING20X (2021)

Biastoch, Arne ; Schwarzkopf, Franziska U. ; Getzlaff, Klaus ; [et al.]

Copernicus Publications (EGU)

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Publication Date: 2024-02-07

Description: A hierarchy of global 1/4° (ORCA025) and Atlantic Ocean 1/20° nested (VIKING20X) ocean/sea-ice models is described. It is shown that the eddy-rich configurations performed in hindcasts of the past 50–60 years under CORE and JRA55-do atmospheric forcings realistically simulate the large-scale horizontal circulation, the distribution of the mesoscale, overflow and convective processes, and the representation of regional current systems in the North and South Atlantic. The representation, and in particular the long-term temporal evolution, of the Atlantic Meridional Overturning Circulation (AMOC) strongly depends on numerical choices for the application of freshwater fluxes. The interannual variability of the AMOC instead is highly correlated among the model experiments and also with observations, including the 2010 minimum observed by RAPID at 26.5° N pointing at a dominant role of the forcing. Regional observations in western boundary current systems at 53° N, 26.5° N and 11° S are explored in respect to their ability to represent the AMOC and to monitor the temporal evolution of the AMOC. Apart from the basin-scale measurements at 26.5° N, it is shown that in particular the outflow of North Atlantic Deepwater at 53° N is a good indicator of the subpolar AMOC trend during the recent decades, if the latter is provided in density coordinates. The good reproduction of observed AMOC and WBC trends in the most reasonable simulations indicate that the eddy-rich VIKING20X is capable in representing realistic forcing-related and ocean-intrinsic trends.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

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8

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Toward ocean hindcasts in earth system models: AMOC variability in a partially coupled model at eddying resolution (2022)

Schulzki, Tobias ; Harlaß, Jan ; Schwarzkopf, Franziska U. ; [et al.]

AGU (American Geophysical Union) | Wiley

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Publication Date: 2024-02-07

Description: While forced ocean hindcast simulations are useful for a wide range of applications, a key limitation is their inability to simulate ocean-atmosphere feedbacks. As a consequence, they need to rely on artificial choices such as sea surface salinity restoring and other corrections affecting the surface freshwater fluxes. Fully coupled models overcome these limitations, but lack the correct timing of variability due to weaker observational constraints. This leads to a mismatch between forced and coupled models on interannual to decadal timescales. A possibility to combine the advantages of both modelling strategies is to apply a partial coupling (PCPL), i.e. replacing the surface winds stress in the ocean component by wind stress derived from reanalysis. To identify the capabilities, limitations and possible use cases of partial coupling, we perform a fully coupled, two partially coupled and an ocean-only experiment using an all-Atlantic nested ocean configuration at eddying resolution in a global climate model. We show that the correct timing of Atlantic Meridional Overturning Circulation (AMOC) variability in PCPL experiments is robust on timescales below 5 years. Mid-latitude wind stress curl changes contribute to decadal AMOC variability, but North Atlantic buoyancy fluxes are not significantly altered by incorporating reanalysed wind stress anomalies, limiting the success of PCPL on this timescale. Long term trends of the AMOC in PCPL mode are consistent with fully coupled model experiments under historic atmospheric boundary conditions, suggesting that a partially coupled model is still able to simulate the important ocean-atmosphere feedbacks necessary to maintain a stable AMOC.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

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9

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Regional to Interhemispheric Connectivity of the Atlantic Ocean Circulation (2023)

Schulzki, Tobias G.

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Publication Date: 2024-02-07

Description: This thesis investigates the connectivity and interaction of remote regions in the Atlantic Ocean based on high-resolution model experiments. Connectivity between remote regions has important implications on a range of spatial and temporal scales. It can affect global climate variability, the coherence of circulation changes on regional scales and the spreading of marine organisms. Based on several advancements in modelling, it is demonstrated how interhemispheric connectivity contributes to changes of the Atlantic Meridional Overturning Circulation (AMOC) on climate timescales. At the same time, the effect of wind-forcing and the interaction of individual AMOC pathways with eddies on regional scales are shown to be highly important to understand AMOC variability on sub-decadal timescales, with further implications on interdisciplinary research questions.

Type: Thesis , NonPeerReviewed

Format: text

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10

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On the Variability of the DWBC Transport Between 26.5°N and 16°N in an Eddy‐Rich Ocean Model (2021)

Schulzki, Tobias ; Getzlaff, Klaus ; Biastoch, Arne

Wiley | AGU (American Geophysical Union)

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Publication Date: 2024-02-07

Description: The southward flow of North Atlantic Deep Water makes up the major component of the deepwater limb of the Atlantic Meridional Overturning Circulation (AMOC). In the subtropical North Atlantic, it's flow is concentrated along the continental slope, forming a coherent Deep Western Boundary Current (DWBC). Both, observations and models show a high variability of the flow in this region. Here we use an eddy-rich ocean model to show that this variability is mainly caused by eddies and meanders. Their formation process involves an important contribution from energy transfer by barotropic instability. They occur along the entire DWBC pathway and introduce several recirculation gyres that result in a decorrelation of the DWBC transport at 26.5°N and 16°N, despite the fact that a considerable mean transport of 20 Sv connects the two latitudes. Water in the DWBC at 26.5°N is partly returned northward. Because the amount of water returned depends on the DWBC transport itself, a stronger DWBC does not necessarily lead to an increased amount of water that reaches 16°N. Along the pathway to 16°N, the transport signal is altered by a broad and temporally variable transit time distribution. Thus, advection in the DWBC cannot account for coherent AMOC changes on interannual timescales seen in the model.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

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