Changes in environment over the last 800,000 years from chemical analysis of the EPICA Dome C ice core

The EPICA ice core from Dome C extends 3259 m in depth, and encompasses 800 ka of datable and sequential ice. Numerous chemical species have been measured along the length of the cores. Here we concentrate on interpreting the main low-resolution patterns of major ions. We extend the published record...

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Published in:Quaternary Science Reviews
Main Authors: Wolff, E.W., Barbante, C., Becagli, S., Bigler, M., Boutron, C.F., Castellano, E., de Angelis, M., Federer, U., Fischer, H., Fundel, F., Hansson, M., Hutterli, Manuel, Jonsell, U., Karlin, T., Kaufmann, P., Lambert, F., Littot, G.C., Mulvaney, Robert, Rothlisberger, Regine, Ruth, U., Severi, M., Siggard-Andersen, M.L., Sime, Louise, Steffensen, J.P., Stocker, T.F., Traversi, R., Twarloh, B., Udisti, R., Wagenbach, D., Wegner, A.
Format: Article in Journal/Newspaper
Language:unknown
Published: Pergamon-Elsevier 2010
Subjects:
Meteorology and Climatology
Glaciology
Chemistry
Antarctic
Southern Ocean
Antarc*
EPICA
ice core
Sea ice
Online Access:http://nora.nerc.ac.uk/id/eprint/10547/
https://doi.org/10.1016/j.quascirev.2009.06.013
id ftnerc:oai:nora.nerc.ac.uk:10547
record_format openpolar
spelling ftnerc:oai:nora.nerc.ac.uk:10547 2023-05-15T13:45:10+02:00 Changes in environment over the last 800,000 years from chemical analysis of the EPICA Dome C ice core Wolff, E.W. Barbante, C. Becagli, S. Bigler, M. Boutron, C.F. Castellano, E. de Angelis, M. Federer, U. Fischer, H. Fundel, F. Hansson, M. Hutterli, Manuel Jonsell, U. Karlin, T. Kaufmann, P. Lambert, F. Littot, G.C. Mulvaney, Robert Rothlisberger, Regine Ruth, U. Severi, M. Siggard-Andersen, M.L. Sime, Louise Steffensen, J.P. Stocker, T.F. Traversi, R. Twarloh, B. Udisti, R. Wagenbach, D. Wegner, A. 2010 http://nora.nerc.ac.uk/id/eprint/10547/ https://doi.org/10.1016/j.quascirev.2009.06.013 unknown Pergamon-Elsevier Wolff, E.W.; Barbante, C.; Becagli, S.; Bigler, M.; Boutron, C.F.; Castellano, E.; de Angelis, M.; Federer, U.; Fischer, H.; Fundel, F.; Hansson, M.; Hutterli, Manuel; Jonsell, U.; Karlin, T.; Kaufmann, P.; Lambert, F.; Littot, G.C.; Mulvaney, Robert orcid:0000-0002-5372-8148 Rothlisberger, Regine; Ruth, U.; Severi, M.; Siggard-Andersen, M.L.; Sime, Louise orcid:0000-0002-9093-7926 Steffensen, J.P.; Stocker, T.F.; Traversi, R.; Twarloh, B.; Udisti, R.; Wagenbach, D.; Wegner, A. 2010 Changes in environment over the last 800,000 years from chemical analysis of the EPICA Dome C ice core. Quaternary Science Reviews, 29 (1-2). 285-295. https://doi.org/10.1016/j.quascirev.2009.06.013 <https://doi.org/10.1016/j.quascirev.2009.06.013> Meteorology and Climatology Glaciology Chemistry Publication - Article PeerReviewed 2010 ftnerc https://doi.org/10.1016/j.quascirev.2009.06.013 2023-02-04T19:26:45Z The EPICA ice core from Dome C extends 3259 m in depth, and encompasses 800 ka of datable and sequential ice. Numerous chemical species have been measured along the length of the cores. Here we concentrate on interpreting the main low-resolution patterns of major ions. We extend the published record for non-sea-salt calcium, sea-salt sodium and non-sea-salt sulfate flux to 800 ka. The non-sea-salt calcium record confirms that terrestrial dust originating from South America closely mirrored Antarctic climate, both at orbital and millennial timescales. A major cause of the main trends is most likely climate in southern South America, which could be sensitive to subtle changes in atmospheric circulation. Sea-salt sodium also follows temperature, but with a threshold at low temperature. We re-examine the use of sodium as a sea ice proxy, concluding that it is probably reflecting extent, with high salt concentrations reflecting larger ice extents. With this interpretation, the sodium flux record indicates low ice extent operating as an amplifier in warm interglacials. Non-sea-salt sulfate flux is almost constant along the core, confirming the lack of change in marine productivity (for sulfur-producing organisms) in the areas of the Southern Ocean contributing to the flux at Dome C. For the first time we also present long records of reversible species such as nitrate and chloride, and show that the pattern of post-depositional losses described for shallower ice is maintained in older ice. It appears possible to use these concentrations to constrain snow accumulation rates in interglacial ice at this site, and the results suggest a possible correction to accumulation rates in one early interglacial. Taken together the chemistry records offer a number of constraints on the way the Earth system combined to give the major climate fluctuations of the late Quaternary period. Article in Journal/Newspaper Antarc* Antarctic EPICA ice core Sea ice Southern Ocean Natural Environment Research Council: NERC Open Research Archive Antarctic Southern Ocean Quaternary Science Reviews 29 1-2 285 295
institution Open Polar
collection Natural Environment Research Council: NERC Open Research Archive
op_collection_id ftnerc
language unknown
topic Meteorology and Climatology
Glaciology
Chemistry
spellingShingle Meteorology and Climatology
Glaciology
Chemistry
Wolff, E.W.
Barbante, C.
Becagli, S.
Bigler, M.
Boutron, C.F.
Castellano, E.
de Angelis, M.
Federer, U.
Fischer, H.
Fundel, F.
Hansson, M.
Hutterli, Manuel
Jonsell, U.
Karlin, T.
Kaufmann, P.
Lambert, F.
Littot, G.C.
Mulvaney, Robert
Rothlisberger, Regine
Ruth, U.
Severi, M.
Siggard-Andersen, M.L.
Sime, Louise
Steffensen, J.P.
Stocker, T.F.
Traversi, R.
Twarloh, B.
Udisti, R.
Wagenbach, D.
Wegner, A.
Changes in environment over the last 800,000 years from chemical analysis of the EPICA Dome C ice core
topic_facet Meteorology and Climatology
Glaciology
Chemistry
description The EPICA ice core from Dome C extends 3259 m in depth, and encompasses 800 ka of datable and sequential ice. Numerous chemical species have been measured along the length of the cores. Here we concentrate on interpreting the main low-resolution patterns of major ions. We extend the published record for non-sea-salt calcium, sea-salt sodium and non-sea-salt sulfate flux to 800 ka. The non-sea-salt calcium record confirms that terrestrial dust originating from South America closely mirrored Antarctic climate, both at orbital and millennial timescales. A major cause of the main trends is most likely climate in southern South America, which could be sensitive to subtle changes in atmospheric circulation. Sea-salt sodium also follows temperature, but with a threshold at low temperature. We re-examine the use of sodium as a sea ice proxy, concluding that it is probably reflecting extent, with high salt concentrations reflecting larger ice extents. With this interpretation, the sodium flux record indicates low ice extent operating as an amplifier in warm interglacials. Non-sea-salt sulfate flux is almost constant along the core, confirming the lack of change in marine productivity (for sulfur-producing organisms) in the areas of the Southern Ocean contributing to the flux at Dome C. For the first time we also present long records of reversible species such as nitrate and chloride, and show that the pattern of post-depositional losses described for shallower ice is maintained in older ice. It appears possible to use these concentrations to constrain snow accumulation rates in interglacial ice at this site, and the results suggest a possible correction to accumulation rates in one early interglacial. Taken together the chemistry records offer a number of constraints on the way the Earth system combined to give the major climate fluctuations of the late Quaternary period.
format Article in Journal/Newspaper
author Wolff, E.W.
Barbante, C.
Becagli, S.
Bigler, M.
Boutron, C.F.
Castellano, E.
de Angelis, M.
Federer, U.
Fischer, H.
Fundel, F.
Hansson, M.
Hutterli, Manuel
Jonsell, U.
Karlin, T.
Kaufmann, P.
Lambert, F.
Littot, G.C.
Mulvaney, Robert
Rothlisberger, Regine
Ruth, U.
Severi, M.
Siggard-Andersen, M.L.
Sime, Louise
Steffensen, J.P.
Stocker, T.F.
Traversi, R.
Twarloh, B.
Udisti, R.
Wagenbach, D.
Wegner, A.
author_facet Wolff, E.W.
Barbante, C.
Becagli, S.
Bigler, M.
Boutron, C.F.
Castellano, E.
de Angelis, M.
Federer, U.
Fischer, H.
Fundel, F.
Hansson, M.
Hutterli, Manuel
Jonsell, U.
Karlin, T.
Kaufmann, P.
Lambert, F.
Littot, G.C.
Mulvaney, Robert
Rothlisberger, Regine
Ruth, U.
Severi, M.
Siggard-Andersen, M.L.
Sime, Louise
Steffensen, J.P.
Stocker, T.F.
Traversi, R.
Twarloh, B.
Udisti, R.
Wagenbach, D.
Wegner, A.
author_sort Wolff, E.W.
title Changes in environment over the last 800,000 years from chemical analysis of the EPICA Dome C ice core
title_short Changes in environment over the last 800,000 years from chemical analysis of the EPICA Dome C ice core
title_full Changes in environment over the last 800,000 years from chemical analysis of the EPICA Dome C ice core
title_fullStr Changes in environment over the last 800,000 years from chemical analysis of the EPICA Dome C ice core
title_full_unstemmed Changes in environment over the last 800,000 years from chemical analysis of the EPICA Dome C ice core
title_sort changes in environment over the last 800,000 years from chemical analysis of the epica dome c ice core
publisher Pergamon-Elsevier
publishDate 2010
url http://nora.nerc.ac.uk/id/eprint/10547/
https://doi.org/10.1016/j.quascirev.2009.06.013
geographic Antarctic
Southern Ocean
geographic_facet Antarctic
Southern Ocean
genre Antarc*
Antarctic
EPICA
ice core
Sea ice
Southern Ocean
genre_facet Antarc*
Antarctic
EPICA
ice core
Sea ice
Southern Ocean
op_relation Wolff, E.W.; Barbante, C.; Becagli, S.; Bigler, M.; Boutron, C.F.; Castellano, E.; de Angelis, M.; Federer, U.; Fischer, H.; Fundel, F.; Hansson, M.; Hutterli, Manuel; Jonsell, U.; Karlin, T.; Kaufmann, P.; Lambert, F.; Littot, G.C.; Mulvaney, Robert orcid:0000-0002-5372-8148
Rothlisberger, Regine; Ruth, U.; Severi, M.; Siggard-Andersen, M.L.; Sime, Louise orcid:0000-0002-9093-7926
Steffensen, J.P.; Stocker, T.F.; Traversi, R.; Twarloh, B.; Udisti, R.; Wagenbach, D.; Wegner, A. 2010 Changes in environment over the last 800,000 years from chemical analysis of the EPICA Dome C ice core. Quaternary Science Reviews, 29 (1-2). 285-295. https://doi.org/10.1016/j.quascirev.2009.06.013 <https://doi.org/10.1016/j.quascirev.2009.06.013>
op_doi https://doi.org/10.1016/j.quascirev.2009.06.013
container_title Quaternary Science Reviews
container_volume 29
container_issue 1-2
container_start_page 285
op_container_end_page 295
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