Southern Ocean sea-ice extent, productivity and iron flux over the past eight glacial cycles

Wolff, Eric W.; Fischer, Hubertus; Fundel, Felix; Ruth, Urs; Twarloh, Birthe; Littot, Geneviève C; Mulvaney, Robert; Röthlisberger, Regine; Angelis, M. de; Boutron, Claude F.; Hansson, Margareta; Jonsell, Ulf; Hutterli, Manuel A.; Lambert, Fabrice; Kaufmann, P.; Stauffer, B.; Stocker, Thomas F.; Steffensen, Jørgen Peder; Bigler, Matthias; Siggaard-Andersen, M.-L.; Udisti, Roberto; Becagli, Silvia; Castellano, E.; Severi, Mirko; Wagenbach, Dietmar; Barbante, Carlo; Gabrielli, Paolo; Gaspari, Vania

doi:10.1038/nature04614

Cited by 533 publications

(571 citation statements)

References 50 publications

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“…Because Phaeocystis is a main producer of dimethylsulphide (DMS) atmospheric concentrations of DMS should have increased during the last glacial period. However, recently published analyses on the EPICA Dome C ice core do not show a glacial increase of DMS flux on the Antarctic continent suggesting that the DMS production south of the APF remained fairly constant during the last glacial period (Wolff et al, 2006).…”

Section: The Late Pliocene Cooling Stepmentioning

confidence: 99%

Polar stratification: A critical view from the Southern Ocean

Hillenbrand

Cortese

2006

Palaeogeography, Palaeoclimatology, Palaeoecology

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Oceanic stratification represents an effective mechanism to reduce vertical mixing of the water column, thereby locking up carbon dioxide (CO 2 ) in the deep sea and preventing air-sea exchange of CO 2 . It has been proposed that enhanced stratification of the upper water column in polar oceans during late Cenozoic cooling episodes limited the upwelling of CO 2 -rich deep waters and thus CO 2 -release to the atmosphere, resulting in a net global drawdown of atmospheric CO 2 . Increased stratification in the Subarctic Northwest Pacific, during both the onset of Northern Hemisphere glaciation at 2.73 Ma and late Quaternary glacial periods, has been recently linked to enhanced ocean stratification south of the Antarctic Polar Front (APF) in the Pacific and Atlantic sectors of the Southern Ocean. Increased stratification of Southern Ocean surface waters was mainly deduced from a reduction of biological production during these cooling episodes, manifested by the decrease of geochemical proxies for productivity, such as biogenic opal and barium, in the marine sediment records. However, the records chosen from the Southern Ocean do not provide evidence for a more stratified upper water column, rather the observed decrease in biological productivity is likely to have resulted from an expansion of annual sea-ice coverage. The sediment records suggest that south of the APF in the Pacific and Atlantic sectors of the Southern Ocean, extensive sea ice may have contributed to the global CO 2 -drawdown during glacial periods, with hypothetical glacial increase of stratification in today's permanent open-ocean zone merely being an "add on" caused by this expansion.

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Section: The Late Pliocene Cooling Stepmentioning

confidence: 99%

Polar stratification: A critical view from the Southern Ocean

Hillenbrand

Cortese

2006

Palaeogeography, Palaeoclimatology, Palaeoecology

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“…They noted the similarity between the ash abundance in South Atlantic sediments and ice core records of dust and sodium concentrations. Studies of Antarctic ice cores also suggest that changes in aerosol content may reflect sea-ice extent [Petit et al, 1999;Wolff et al, 2003Wolff et al, , 2006.…”

Section: Geochemistry Geophysicsmentioning

confidence: 99%

“…For example, the elements Ca and Na have been used to estimate changes in sea-ice cover from ice cores, as these elements are released by brine rejection during sea-ice formation [Wolff et al, 2003[Wolff et al, , 2006. SSI tephra are also rich in Ca and Na, and weathering of tephra may contribute to these elements found in ice cores as well.…”

Section: Implications For the Antarctic Contribution To South Atlantimentioning

confidence: 99%

Origin and significance of ice‐rafted detritus in the Atlantic sector of the Southern Ocean

Nielsen

Hodell

Kamenov

et al. 2007

Geochem Geophys Geosyst

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Piston core TN057‐14 from the eastern Atlantic sector of the Southern Ocean contains several layers rich in volcanic tephra that were deposited during the last glacial period. Comparison with nearby cores (TN057‐13PC4/ODP Site 1094) indicates that these tephra layers are correlative with the South Atlantic (SA) ice‐rafted detritus (IRD) layers identified by Kanfoush et al. (2000, 2002). We analyzed the tephra for major and trace elements as well as isotopic ratios of strontium, neodymium, and lead. The elemental and isotopic composition of all tephra layers examined indicates the South Sandwich Island volcanic arc (SSI) as their dominant source, with minor input from Bouvet Island. Similar analyses of clear mineral grains (mainly feldspars, quartz, and olivine) also point to the SSI as the main source. We conclude that tephra erupted from the SSI was first deposited as air fall on sea ice and multiyear ice and then secondarily rafted to the studied sites. Deposition of the tephra‐rich IRD layers was controlled by changes in sea surface temperature and sea‐ice conditions in the Polar Frontal Zone of the South Atlantic, rather than Antarctic ice sheet dynamics.

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“…Insoluble mineral aerosol (dust) deflated from continental surfaces is an important player in Earth's climate because of its influence on the Earth-atmosphere radiative budget [1]; moreover, records of past dust depositions on the Earth's surface obtained by analysis on insoluble particles trapped in polar ice sheets and temperate glaciers are an important proxy of past continental aridity and atmospheric transport activity [2]. In particular, the identification of the ice core dust source areas is an important tool for the understanding of present day and past pathways of atmospheric transport toward the poles and to infer information on the past environmental conditions of dust source areas.…”

Section: Introductionmentioning

confidence: 99%

PIXE and PIGE techniques for the analysis of Antarctic ice dust and continental sediments

Marino

Calzolai

Caporali

et al. 2008

Nuclear Instruments and Methods in Physics Research Section B:

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An analytical procedure has been implemented in this work for an accurate geochemical characterization and quantitative analysis of the fine dust (particles diameter < 5 lm) trapped in Antarctic ice cores and the fine fraction of potential source areas (PSA) sediments by size selection, filtering and PIXE-PIGE combined measurements. The underestimation of concentrations of the lighter elements, like Na, Mg, Al and Si, due to X-ray self-absorption inside each individual aerosol particle, was also evaluated and the analytical overall accuracy tested by means of measurements performed on size selected certified mineral standards.

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Southern Ocean sea-ice extent, productivity and iron flux over the past eight glacial cycles

Cited by 533 publications

References 50 publications

Polar stratification: A critical view from the Southern Ocean

Polar stratification: A critical view from the Southern Ocean

Origin and significance of ice‐rafted detritus in the Atlantic sector of the Southern Ocean

PIXE and PIGE techniques for the analysis of Antarctic ice dust and continental sediments

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