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Anti-cyclonic eddy imprint on calcite geochemistry of several planktonic foraminiferal species in the Mozambique Channel (2014)

Steinhardt, Juliane ; Cléroux, Caroline ; Ullgren, Jenny ; [et al.]

Elsevier

In: Marine Micropaleontology, 113 . pp. 20-33.

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Publication Date: 2017-06-21

Description: Highlights: • We coupled LA-ICP-MS Me/Ca single-chamber composition of four planktonic foraminifera with eddy induced hydrographic changes • The Mg/Ca-based temperature difference between N. dutertrei and G. scitula are likely to be an eddy proxy suitable for down-core application • Near-surface dwelling species inhabit well oxygenated surface waters and show lower test Mn/Ca values, compared to deeper dwelling species • Planktonic foraminifera Mn/Ca test values are in line with water column variability in dissolved Mn concentrations Hydrographic conditions in the Mozambique Channel are dominated by the passing of large anticyclonic eddies, propagating poleward into the upstream Agulhas area. Further south, these eddies have been found to control the shedding of Agulhas rings into the Atlantic ocean, thereby playing a key role in Indo-Atlantic Ocean exchange. The element composition of several planktonic foraminifera species collected from sediment trap samples, was compared to in situ water column data from the Mozambique Channel. Single-chamber trace element composition of these foraminifera reveals a close coupling with hydrographic changes induced by anticyclonic eddies. Obtained Mg/Ca values for the surface dwelling Globigerinoides ruber as well as the thermocline dwelling Neogloboquadrina dutertrei follow temperature changes and reduced temperature stratification during eddy conditions. At greater depth. Globorotalia scitula and Pulleniatina obliquiloculata record stable temperatures and thus respond to hydrographic changes with a deepening in habitat depth. Furthermore, test Mn/Ca values indicate a close relationship between water column oxygenation and Mn incorporation in these planktonic foraminiferal species

Type: Article , PeerReviewed

Format: other

Format: text

DOI: 10.1016/j.marmicro.2014.09.001

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The Agulhas System in a Global Context (2013)

Durgadoo, Jonathan V. ; Roth, Christina ; Biastoch, Arne

Springer

In: In: High Performance Computing in Science and Engineering '13. , ed. by Nagel, W. E., Kröner, D. B. and Resch, M. M. Springer, Heidelberg u.a., pp. 569-576. ISBN 978-3-319-02164-5

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Publication Date: 2014-05-12

Description: The Agulhas is a convoluted and multifarious system [1]. It consists of a western boundary current, the Agulhas Current, which is arguably one of the most prominent current systems of the Southern Hemisphere (Fig.1). The Agulhas Current, roughly on par with its Northern Hemisphere counterpart, the Gulf Stream, carries vast amount of heat and salt towards the pole [2].

Type: Book chapter , PeerReviewed

DOI: 10.1007/978-3-319-02165-2_40

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The Agulhas System as a Key Region of the Global Oceanic Circulation (2012)

Durgadoo, Jonathan V. ; Biastoch, Arne

Springer

In: In: High Performance Computing in Science and Engineering '12. , ed. by Nagel, W. E., Kröner, D. H. and Resch, M. M. Springer, Heidelberg u.a., pp. 407-414. ISBN 978-3-642-33373-6

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Publication Date: 2014-05-12

Description: The oceans around southern Africa form a unique system, impacting the regional and global climate [1]. From the Indian Ocean to the Atlantic Ocean vigorous interoceanic exchange of warm and saline waters takes place that is subject to a complicated interplay between local dynamics and global embedment. Central element of the circulation around South Africa is the Agulhas Current [2] that flows poleward along the east coast, closely bound to the shelf at first, and subsequently overshoots the southern tip of Africa to abruptly turn back into the Indian Ocean. Part of the warm and saline waters with tropical Indian Ocean origin, the “Agulhas leakage” [3], flows into the Atlantic and forms the surface return flow of the global thermohaline circulation towards the North Atlantic [4]. The exchange takes place in a highly nonlinear manner, with mesoscale eddies being separated from the retroflecting Agulhas Current, which then strongly interact in the Cape Basin [5]. West of the Cape Basin, large Agulhas rings that have been formed [6] transport the anomalous warm and saline waters into the South Atlantic. In addition to its own dynamics, the Agulhas Current system is influenced by nonlinearities in the source regions: mesoscale eddies originating from the Mozambique Channel and east of Madagascar [7, 8] drift southward and cause the Agulhas Current to be displaced offshore of its mean position by more than 100 km. These solitary meanders (a.k.a. “Natal Pulses”) [9] rapidly propagate downstream triggering the timing of Agulhas rings [10, 11]

Type: Book chapter , PeerReviewed

DOI: 10.1007/978-3-642-33374-3_30

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