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East Pacific Rise Core PS75/059‐2: Glacial‐to‐Deglacial Stratigraphy Revisited (2019)

Ronge, Thomas ; Sarnthein, Michael ; Roberts, Jenny ; [et al.]

Wiley

In: EPIC3Paleoceanography and Paleoclimatology, Wiley, 34, pp. 432-435

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Publication Date: 2019-06-23

Description: Age control and paleoceanographic evidence of marine sediment records might be challenged if authors solely build their stratigraphy on visual correlation to apparently well‐dated records from the same ocean basin, using, for example, highly resolved X‐ray fluorescence‐based element‐count records and correlation tools such as AnalySeries. While per se perfectly reasonable, this approach bears the risk of missing stratigraphic gaps in the sedimentary record and thus might result in imprecise and/or flawed interpretations. Here we present a unique series of 14 planktic 14C ages from a 7‐cm section of East Pacific Rise core PS75/059‐2. The ages suggest a 14‐ky‐long period of low‐to‐zero deposition during Last Glacial Maximum, mainly marked by continuous redistribution of winnowed foraminifers, probably the result of enhanced bottom currents, moreover, by some bioturbational mixing. On the basis of this data we demonstrate the impact of the hiatus on a South Pacific transect of apparent benthic ventilation ages (ΔΔ14C values) and their meaning for estimates of CO2 stored in Last Glacial Maximum Pacific deep waters.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Pacific-Atlantic Circumpolar Deep Water coupling during the last 500 ka (2016)

Ullermann, Johannes ; Lamy, Frank ; Ninnemann, Ulysses ; [et al.]

Wiley

In: EPIC3Paleoceanography, Wiley, 31(6), pp. 639-650, ISSN: 0883-8305

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Publication Date: 2019-07-17

Description: Investigating the interbasin deepwater exchange between the Pacific and Atlantic Oceans over glacial-interglacial climate cycles is important for understanding circum-Antarctic Southern Ocean circulation changes and their impact on the global Meridional Overturning Circulation. We use benthic foraminiferal δ13C records from the southern East Pacific Rise to characterize the δ13C composition of Circumpolar Deep Water in the South Pacific, prior to its transit through the Drake Passage into the South Atlantic. A comparison with published South Atlantic deepwater records from the northern Cape Basin suggests a continuous water mass exchange throughout the past 500 ka. Almost identical glacial-interglacial δ13C variations imply a common deepwater evolution in both basins suggesting persistent Circumpolar Deep Water exchange and homogenization. By contrast, deeper abyssal waters occupying the more southern Cape Basin and the southernmost South Atlantic have lower δ13C values during most, but not all, stadial periods. We conclude that these values represent the influence of a more southern water mass, perhaps Antarctic Bottom Water (AABW). During many interglacials and some glacial periods, the gradient between Circumpolar Deep Water and the deeper southern Cape Basin bottom water disappears suggesting either no presence of AABW or indistinguishable δ13C values of both water masses.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Increased dust deposition in the Pacific Southern Ocean during glacial periods (2014)

Lamy, Frank ; Gersonde, Rainer ; Winckler, Gisela ; [et al.]

AAAS

In: EPIC3Science, AAAS, 343(6169), pp. 403-407, ISSN: 0036-8075

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Publication Date: 2018-08-10

Description: Dust deposition in the Southern Ocean constitutes a critical modulator of past global climate variability, but how it has varied temporally and geographically is underdetermined. Here, we present data sets of glacial-interglacial dust-supply cycles from the largest Southern Ocean sector, the polar South Pacific, indicating three times higher dust deposition during glacial periods than during interglacials for the past million years. Although the most likely dust source for the South Pacific is Australia and New Zealand, the glacial-interglacial pattern and timing of lithogenic sediment deposition is similar to dust records from Antarctica and the South Atlantic dominated by Patagonian sources. These similarities imply large-scale common climate forcings, such as latitudinal shifts of the southern westerlies and regionally enhanced glaciogenic dust mobilization in New Zealand and Patagonia.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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