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Die Vermessung der Atlantikzirkulation (2021)

Brandt, Peter ; Hummels, Rebecca ; Jochumsen, Kerstin ; [et al.]

Deutsches Klima-Konsortium e. V. (DKK)

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Publication Date: 2022-11-11

Description: Die Meeresströmungen im Atlantik spielen für unser Klima eine wichtige Rolle. Klimamodelle zeigen, dass bei weiter steigenden Treibhausgas-Emissionen die Stärke der Strömungen abnimmt und sich ihr Verlauf ändert. Dies hat weitreichende Folgen für die regionale Erwärmung, Niederschläge, Meeresspiegel, Landwirtschaft und Fischerei auch in Deutschland. Deshalb haben die führenden deutschen Meeresforschungsinstitute Langzeitbeobachtungen der Meeresströmungen an Schlüsselstellen im Atlantik installiert. Durch sie kennen wir nun die Strömungsstärken und ihre Schwankungen über Zeiträume von Stunden bis Jahrzehnte und können Klimatrends frühzeitig erkennen. Die Messungen haben auch gezeigt, dass selbst in den aktuellsten Klimamodellen noch immer große Unterschiede zwischen den simulierten und den beobachteten Strömungen bestehen und auch die vorhersagte Abschwächung der Strömungen bis ins Jahr 2100 in den Modellen unterschiedlich ausfällt. Um die Ergebnisse der Klimamodelle auch in Zukunft durch Beobachtungen bewerten zu können, müssen die Langzeitbeobachtungen der Atlantikzirkulation aufrechterhalten werden. Diese Broschüre knüpft an die bereits erschienenen Bände „Zukunft der Golfstromzirkulation“ (2016) und „Zukunft der Meeresspiegel“ (2019) an, in die ebenfalls Resultate aus den Langzeit-Beobachtungssystemen eingeflossen sind.

Type: Report , NonPeerReviewed

Format: text

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Transports and Pathways of the Tropical AMOC Return Flow From Argo Data and Shipboard Velocity Measurements (2022)

Tuchen, Franz Philip ; Brandt, Peter ; Lübbecke, Joke F. ; [et al.]

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Publication Date: 2022-08-09

Description: The upper‐ocean circulation of the tropical Atlantic is a complex superposition of thermohaline and wind‐driven flow components. The resulting zonally and vertically integrated upper‐ocean meridional flow is referred to as the upper branch of the Atlantic Meridional Overturning Circulation (AMOC)—a major component and potential tipping element of the global climate system. Here, we investigate the tropical part of the northward AMOC branch, that is, the return flow covering the upper 1,200 m, based on Argo data and repeated shipboard velocity measurements. The western boundary mean circulation at 11°S is realistically reproduced from high‐resolution Argo data showing a remarkably good representation of the volume transport of the return flow water mass layers when compared to results from direct velocity measurements along a repeated ship section. The AMOC return flow through the inner tropics (11°S–10°N) is found to be associated with a diapycnal upwelling of lower central water into the thermocline layer of ∼2 Sv. This is less than half the magnitude of previous estimates, likely due to improved horizontal resolution. The total AMOC return flow at 11°S and 10°N is derived to be similar in strength with 16–17 Sv. At 11°S, northward transport is concentrated at the western boundary, where the AMOC return flow enters the inner tropics at all vertical levels above 1,200 m. At 10°N, northward transport is observed both at the western boundary and in the interior predominantly in the surface and intermediate layer indicating recirculation and transformation of thermocline and lower central water within the inner tropics.

Description: Plain Language Summary: The Atlantic Meridional Overturning Circulation (AMOC) is one of the major components of the global climate system. In the upper 1,200 m, the northward branch of the AMOC transports large amounts of heat, salt, and biogeochemical tracers across the equator from the South Atlantic through the tropics to the North Atlantic. In this study, we show that a realistic reconstruction of the upper‐ocean circulation at the southern hemisphere western boundary—a bottleneck for the AMOC—is possible based on high‐resolution Argo float data, further enabling transport and pathway estimates for the upper and intermediate water mass layers of the inner tropical Atlantic (11°S–10°N). At 11°S, the northward AMOC branch is largely concentrated at the western boundary, whereas, at 10°N, it preferably exits the inner tropics through the western boundary, but also through the interior basin after recirculating in the equatorial current system. When crossing the inner tropics, the water masses forming the AMOC return flow change their characteristics and the associated upwelling of water into the subsurface layer is found here to be less than half as large as previously estimated, likely due to improved horizontal resolution.

Description: Key Points: Observed Atlantic western boundary mean transport of the upper 1,200 m at 11°S is realistically reproduced from high‐resolution Argo data. Diapycnal transport estimates from high‐resolution Argo data show upwelling of ∼2 Sv into the tropical Atlantic thermocline layer. By combining shipboard measurements with Argo data, we provide an overview of the individual water mass pathways within the Atlantic Meridional Overturning Circulation return flow.

Description: European Union Horizon H2020 (TRIATLAS)

Description: Bundesministerium fuer Bildung und Forschung (BANINO)

Description: https://agupubs.onlinelibrary.wiley.com/action/downloadSupplement?doi=10.1029%2F2021JC018115&file=2021JC018115-sup-0001-Supporting+Information+SI-S01.docx

Description: https://www.aoml.noaa.gov/phod/gdp/mean_velocity.php

Description: ftp://ftp-icdc.cen.uni-hamburg.de/EASYInit/ORA-S4/monthly_1x1/

Description: https://doi.pangaea.de/10.1594/PANGAEA.937809

Description: https://doi.org/10.5281/zenodo.5772272

Description: http://sio-argo.ucsd.edu/RG_Climatology.html

Keywords: ddc:551.462

Language: English

Type: doc-type:article

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Two decades of full-depth current velocity observations from a moored observatory in the central equatorial Atlantic at 0°N, 23°W (2022)

Tuchen, Franz Philip ; Brandt, Peter ; Hahn, Johannes ; [et al.]

Frontiers Media

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Publication Date: 2022-11-04

Description: © The Author(s), 2022. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Tuchen, F., Brandt, P., Hahn, J., Hummels, R., Krahmann, G., Bourlès, B., Provost, C., McPhaden, M., & Toole, J. Two decades of full-depth current velocity observations from a moored observatory in the central equatorial Atlantic at 0°N, 23°W. Frontiers in Marine Science, 9, (2022): 910979, https://doi.org/10.3389/fmars.2022.910979.

Description: Regional climate variability in the tropical Atlantic, from interannual to decadal time scales, is inevitably connected to changes in the strength and position of the individual components of the tropical current system with impacts on societally relevant climate hazards such as anomalous rainfall or droughts over the surrounding continents (Bourlès et al., 2019; Foltz et al., 2019). Furthermore, the lateral supply of dissolved oxygen in the tropical Atlantic upper-ocean is closely linked to the zonal current bands (Brandt et al., 2008; Brandt et al., 2012; Burmeister et al., 2020) and especially to the Equatorial Undercurrent (EUC) and its long-term variations with potential implications for regional marine ecosystems (Brandt et al., 2021). The eastward flowing EUC is located between 70 to 200 m depth and forms one of the strongest tropical currents with maximum velocities of up to 1 m s-1 and maximum variability on seasonal time scales (Brandt et al., 2014; Johns et al., 2014). In the intermediate to deep equatorial Atlantic, variability on longer time scales is mainly governed by alternating, vertically-stacked, zonal currents (equatorial deep jets (EDJs); Johnson and Zhang, 2003). At a fixed location, the phases of these jets are propagating downward with time, implying that parts of their energy must propagate upward towards the surface (Brandt et al., 2011). In fact, a pronounced interannual cycle of about 4.5 years, that is associated with EDJs, is projected onto surface parameters such as sea surface temperature or precipitation (Brandt et al., 2011) further demonstrating the importance of understanding equatorial circulation variability and its role in tropical climate variability.

Description: This study was funded by EU H2020 under grant agreement 817578 TRIATLAS project, by the Deutsche Forschungsgemeinschaft as part of the Sonderforschungsbereich754 “Climate–Biogeochemistry Interactions in the Tropical Ocean” and through several research cruises with RV Meteor, RV Maria S. Merian, RV L'Atalante, and RV Sonne and by the Deutsche Bundesministerium für Bildung und Forschung (BMBF) as part of the projects RACE (03F06518) and by the European Union 7th Framework Programme (FP7) under Grant Agreement 603521. Moored velocity observations were acquired in cooperation with the PIRATA project supported by NOAA (USA), IRD and Meteo-France (France), INPE (Brazil) and the Brazil Navy. This research was performed while FPT held an NRC Research Associateship Award at NOAA’s Atlantic Oceanographic and Meteorological Laboratory. FPT, PB, JH, RH, and GK are grateful for continuing support from GEOMAR Helmholtz Centre for Ocean Research Kiel. MM acknowledges the support of NOAA; PMEL contribution no. 5359. JT's contributions to this study were supported by the U.S. National Science Foundation.

Keywords: Ocean observations ; Physical oceanography ; Equatorial Atlantic circulation ; Ocean currents ; Moored observations ; Climate variability

Repository Name: Woods Hole Open Access Server

Type: Article

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