Late Quaternary variability of ocean circulation in the southeastern South Atlantic inferred from the terrigenous sediment record of a drift deposit in the southern Cape Basin (ODP Site 1089)

Kuhn, Gerhard; Diekmann, Bernhard

doi:10.1016/s0031-0182(01)00500-4

Cited by 72 publications

(64 citation statements)

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“…Time-series of IRD flux are expressed as clast abundances per area and time unit [# cm-2 kyr-I ] , by integrating counted IRD abundances at equal time increments of 1 kyr. The proportions of non-carbonate silt and clay (referred to as terrigenous mud) were determined by grain-size separation in settling tubes, after sieving the bulk samples through a 63-llm mesh for separation of the sand fraction and dissolution of carbonate with 10-% acetic acid (Brehrne 1992;Kuhn and Diekmann 2002a, b). Silt grain-size analyses were conducted on sediment cores from the southern Cape Basin (Site 1 089/PS2821) and the northwestern Weddell Sea (PS2515).…”

Section: Methodsmentioning

confidence: 99%

“…The non-carbonate silt fraction was dispersed in sodium-polyphosphate solution and measured with a 'Micromeritics SediGraph 5000E' to determine the grain-size distribution in lilO-Phi steps and hence the proportion of sortable silt (particle sizes 63-10 Ilm) in the mud fraction (McCave et al 1995). The bias of the terrigenous grain-size signal caused by biosiliceous particles in the non-carbonate mud fraction is negligible, because of relatively low opal concentrations that range between 3% and 7% in sediment core PS1575 (Bonn et al 1998) and are ~15 % in the record of Site 1989IPS2821 (Kuhn and Diekmann 2002a, b). Moreover, no correlation exists between opal concentrations and grain-size variability for the latter record with the slightly elevated opal concentrations (Kuhn and Diekmann 2002b).…”

Section: Methodsmentioning

confidence: 99%

“…Sediment accumulation is focused and restricted to current-sheltered depressions, like at core locations PS2319 and PS2515. High accumulation rates also ~har acterize drift deposits in the southern Cape Basin (pS28211Site 1089), which are influenced by bottom contour currents (Kuhn and Diekmann 2002a). MARTs in the remote eastern ACC region are variable and mostly low «1.0 g cm-2 kyr-1), with slightly increased values at core location PS2498 (>2.0 g cm-2 kyr-l) on the Mid-Atlantic Ridge.…”

Section: Mass-accumulation Rates Ofterrigenous Sediment (Mart)mentioning

confidence: 99%

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Terrigenous Sediment Supply in the Polar to Temperate South Atlantic: Land-Ocean Links of Environmental Changes during the Late Quaternary

Diekmann

Fütterer

Grobe

et al. 2003

The South Atlantic in the Late Quaternary

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Terrigenous sediment parameters in modem sea-bottom samples and sediment cores of the South Atlantic are used to infer variations in detrital sources and modes of terrigenous sediment supply in response to environmental changes through the late Quaternary climate cycles. Massaccumulation rates of terrigenous sediment and fluxes of ice-rafted detritus are discussed in terms of temporal variations in detrital sediment input from land to sea. Grain-size parameters ofterrigenous mud document the intensity of bottom-water circulation, whereas clay-mineral assemblages constrain the sources and marine transport routes of suspended fine-grained particulates, controlled by the modes of sediment input and patterns of ocean circulation. The results suggest low-frequency East Antarctic ice dynamics with dominant lOO-kyr cycles and high rates of Antarctic Bottom Water formation and iceberg discharge during interglacial times. In contrast, the more subpolar ice masses of the Antarctic Peninsula also respond to short-term climate variability with maximum iceberg discharges during glacial terminations related to the rapid disintegration of advanced ice masses. In the northern Scotia Sea, increased sediment supply from southern South America points to extended ice masses in Patagonia during glacial times. In the southeastern South Atlantic, changes in regional ocean circulation are linked to global thermohaline ocean circulation and are in phase with northern-hemispheric processes of ice build-up and associated formation of North Atlantic Deep Water, which decreased during glacial times and permitted a wider extension of southern-source water masses in the study area.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Mass-accumulation Rates Ofterrigenous Sediment (Mart)mentioning

confidence: 99%

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Terrigenous Sediment Supply in the Polar to Temperate South Atlantic: Land-Ocean Links of Environmental Changes during the Late Quaternary

Diekmann

Fütterer

Grobe

et al. 2003

The South Atlantic in the Late Quaternary

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“…[49] Several studies of the Southeast Atlantic have concluded that the supply of Agulhas water to the Atlantic was reduced substantially during glacial times [Flores et al, 1999;Kuhn and Diekmann, 2002;Peeters et al, 2004;Franzese et al, 2006]. Furthermore, as the Agulhas system and the Drake Passage are the two primary avenues for return flow to the North Atlantic [Gordon et al, 1992], the glacial reduction in supply of Agulhas water may have been compensated for by increased supply via the Drake Passage.…”

Section: Pa4216mentioning

confidence: 99%

Opal burial in the equatorial Atlantic Ocean over the last 30 ka: Implications for glacial‐interglacial changes in the ocean silicon cycle

et al. 2007

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The Silicic Acid Leakage Hypothesis (SALH) suggests that, during glacial periods, excess silicic acid was transported from the Southern Ocean to lower latitudes, which favored diatom production over coccolithophorid production and caused a drawdown of atmospheric CO2. Downcore records of 230Th‐normalized opal fluxes and 231Pa/230Th ratios from seven equatorial Atlantic cores were used to reconstruct diatom productivity over the past 30 ka (where a is years) and to test the SALH. Downcore records of 231Pa/230Th ratios and opal fluxes are highly correlated, suggesting that they constitute a production‐based record of opal flux. Opal flux records support the SALH in that glacial opal burial exceeded Holocene burial by 1.8 Gt opal/ka in the area 0°–40°W and 5°N–5°S. Earlier results from the eastern equatorial Pacific Ocean showed the opposite trend, with greater Holocene than glacial opal burial, but approximately the same magnitude of difference between glacial and interglacial opal burial. We suggest four (nonexclusive) scenarios to explain the data from both basins: (1) Increased upwelling in the equatorial Atlantic and El Niño–like conditions suppressing upwelling in the eastern equatorial Pacific altered the overall nutrient supply to both basins; (2) Si leaked from the Southern Ocean because of Fe fertilization, but was prevented from upwelling in the equatorial Pacific because of El Niño–like conditions during the LGM; (3) Si leaked from the Southern Ocean because diatom productivity was limited by increased sea ice extent and was again prevented from upwelling in the equatorial Pacific; or (4) changes in ocean circulation related to the decreased input of Agulhas water to the glacial South Atlantic provided excess dissolved Si to the equatorial Atlantic Ocean. A deglacial opal pulse is seen in both the Atlantic and Pacific Oceans. All four scenarios and the presence of the common deglacial opal pulse suggest a common driver in the Southern Ocean.

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“…In addition to the elemental analyses of the XRF-scanned data, we use the detrital Al/Ti ratio in discrete XRF bulk sediment samples to reflect changes in terrigenous provenance (Kuhn and Diekmann, 2002;Scher et al, 2015). Al/Ti ratio varies between 17-21, with the highest values found within F1 and the lowest in F2 (Fig.…”

mentioning

confidence: 99%

Late Oligocene obliquity-paced contourite sedimentation in the Wilkes Land margin of East Antarctica: implications for paleoceanographic and ice sheet configurations

Salabarnada

Escutia

Röhl

et al. 2017

Preprint

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The late Oligocene experienced atmospheric concentrations of CO 2 between 400 and 750 ppm, which are within the IPCC projections for this century, assuming unabated CO 2 emissions. However, Antarctic Unlike today, the continental shelf was not over-deepened, and thus marine-based ice sheet expansion was likely limited to coastal regions. Combined, these data suggest that ice sheets in the Wilkes 60 Subglacial Basin were largely land-based, and therefore retreated as a consequence of surface melt during late Oligocene, rather than direct ocean forcing and marine ice sheet instability processes as it did in younger past warm intervals. Spectral analysis on late Oligocene sediments from the eastern Wilkes Land margin show that the glacial-interglacial cyclicity and resulting displacements of the Southern Ocean frontal systems between 26-25 Ma were forced by obliquity. 65Clim. Past Discuss., https://doi

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Late Quaternary variability of ocean circulation in the southeastern South Atlantic inferred from the terrigenous sediment record of a drift deposit in the southern Cape Basin (ODP Site 1089)

Cited by 72 publications

References 64 publications

Terrigenous Sediment Supply in the Polar to Temperate South Atlantic: Land-Ocean Links of Environmental Changes during the Late Quaternary

Terrigenous Sediment Supply in the Polar to Temperate South Atlantic: Land-Ocean Links of Environmental Changes during the Late Quaternary

Opal burial in the equatorial Atlantic Ocean over the last 30 ka: Implications for glacial‐interglacial changes in the ocean silicon cycle

Late Oligocene obliquity-paced contourite sedimentation in the Wilkes Land margin of East Antarctica: implications for paleoceanographic and ice sheet configurations

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