Where to find 1.5 million yr old ice for the IPICS "Oldest-Ice" ice core

The recovery of a 1.5 million yr long ice core from Antarctica represents a keystone of our understanding of Quaternary climate, the progression of glaciation over this time period and the role of greenhouse gas cycles in this progression. Here we tackle the question of where such ice may still be f...

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Published in:Climate of the Past
Main Authors: Fischer, H., Severinghaus, J., Brook, E., Wolff, E., Albert, M., Alemany, O., Arthern, R., Bentley, C., Blankenship, D., Chappellaz, J., Creyts, T., Dahl-Jensen, D., Dinn, M., Frezzotti, M., Fujita, S., Gallee, H., Hindmarsh, R., Hudspeth, D., Jugie, G., Kawamura, K., Lipenkov, V., Miller, H., Mulvaney, R., Parrenin, F., Pattyn, F., Ritz, C., Schwander, J., Steinhage, D., van Ommen, T., Wilhelms, Frank
Format: Article in Journal/Newspaper
Language:unknown
Published: Copernicus GmbH 2013
Subjects:
Antarc*
Antarctic
Antarctica
EPICA
ice core
Ice Sheet
Online Access:https://epic.awi.de/id/eprint/34455/
https://epic.awi.de/id/eprint/34455/1/cp-9-2489-2013.pdf
https://doi.org/10.5194/cp-9-2489-2013
https://hdl.handle.net/10013/epic.42692
https://hdl.handle.net/10013/epic.42692.d001
id ftawi:oai:epic.awi.de:34455
record_format openpolar
spelling ftawi:oai:epic.awi.de:34455 2024-09-15T17:42:49+00:00 Where to find 1.5 million yr old ice for the IPICS "Oldest-Ice" ice core Fischer, H. Severinghaus, J. Brook, E. Wolff, E. Albert, M. Alemany, O. Arthern, R. Bentley, C. Blankenship, D. Chappellaz, J. Creyts, T. Dahl-Jensen, D. Dinn, M. Frezzotti, M. Fujita, S. Gallee, H. Hindmarsh, R. Hudspeth, D. Jugie, G. Kawamura, K. Lipenkov, V. Miller, H. Mulvaney, R. Parrenin, F. Pattyn, F. Ritz, C. Schwander, J. Steinhage, D. van Ommen, T. Wilhelms, Frank 2013 application/pdf https://epic.awi.de/id/eprint/34455/ https://epic.awi.de/id/eprint/34455/1/cp-9-2489-2013.pdf https://doi.org/10.5194/cp-9-2489-2013 https://hdl.handle.net/10013/epic.42692 https://hdl.handle.net/10013/epic.42692.d001 unknown Copernicus GmbH https://epic.awi.de/id/eprint/34455/1/cp-9-2489-2013.pdf https://hdl.handle.net/10013/epic.42692.d001 Fischer, H. , Severinghaus, J. , Brook, E. , Wolff, E. , Albert, M. , Alemany, O. , Arthern, R. , Bentley, C. , Blankenship, D. , Chappellaz, J. , Creyts, T. , Dahl-Jensen, D. , Dinn, M. , Frezzotti, M. , Fujita, S. , Gallee, H. , Hindmarsh, R. , Hudspeth, D. , Jugie, G. , Kawamura, K. , Lipenkov, V. , Miller, H. , Mulvaney, R. , Parrenin, F. , Pattyn, F. , Ritz, C. , Schwander, J. , Steinhage, D. , van Ommen, T. and Wilhelms, F. orcid:0000-0001-7688-3135 (2013) Where to find 1.5 million yr old ice for the IPICS "Oldest-Ice" ice core , Climate of the Past, 9 (6), pp. 2489-2505 . doi:10.5194/cp-9-2489-2013 <https://doi.org/10.5194/cp-9-2489-2013> , hdl:10013/epic.42692 EPIC3Climate of the Past, Copernicus GmbH, 9(6), pp. 2489-2505, ISSN: 1814-9332 Article isiRev 2013 ftawi https://doi.org/10.5194/cp-9-2489-2013 2024-06-24T04:08:32Z The recovery of a 1.5 million yr long ice core from Antarctica represents a keystone of our understanding of Quaternary climate, the progression of glaciation over this time period and the role of greenhouse gas cycles in this progression. Here we tackle the question of where such ice may still be found in the Antarctic ice sheet. We can show that such old ice is most likely to exist in the plateau area of the East Antarctic ice sheet (EAIS) without stratigraphic disturbance and should be able to be recovered after careful pre-site selection studies. Based on a simple ice and heat flow model and glaciological observations, we conclude that positions in the vicinity of major domes and saddle position on the East Antarctic Plateau will most likely have such old ice in store and represent the best study areas for dedicated reconnaissance studies in the near future. In contrast to previous ice core drill site selections, however, we strongly suggest significantly reduced ice thickness to avoid bottom melting. For example for the geothermal heat flux and accumulation conditions at Dome C, an ice thickness lower than but close to about 2500 m would be required to find 1.5 Myr old ice (i.e., more than 700 m less than at the current EPICA Dome C drill site). Within this constraint, the resolution of an Oldest-Ice record and the distance of such old ice to the bedrock should be maximized to avoid ice flow disturbances, for example, by finding locations with minimum geothermal heat flux. As the geothermal heat flux is largely unknown for the EAIS, this parameter has to be carefully determined beforehand. In addition, detailed bedrock topography and ice flow history has to be reconstructed for candidates of an Oldest-Ice ice coring site. Finally, we argue strongly for rapid access drilling before any full, deep ice coring activity commences to bring datable samples to the surface and to allow an age check of the oldest ice. Article in Journal/Newspaper Antarc* Antarctic Antarctica EPICA ice core Ice Sheet Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center) Climate of the Past 9 6 2489 2505
institution Open Polar
collection Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
op_collection_id ftawi
language unknown
description The recovery of a 1.5 million yr long ice core from Antarctica represents a keystone of our understanding of Quaternary climate, the progression of glaciation over this time period and the role of greenhouse gas cycles in this progression. Here we tackle the question of where such ice may still be found in the Antarctic ice sheet. We can show that such old ice is most likely to exist in the plateau area of the East Antarctic ice sheet (EAIS) without stratigraphic disturbance and should be able to be recovered after careful pre-site selection studies. Based on a simple ice and heat flow model and glaciological observations, we conclude that positions in the vicinity of major domes and saddle position on the East Antarctic Plateau will most likely have such old ice in store and represent the best study areas for dedicated reconnaissance studies in the near future. In contrast to previous ice core drill site selections, however, we strongly suggest significantly reduced ice thickness to avoid bottom melting. For example for the geothermal heat flux and accumulation conditions at Dome C, an ice thickness lower than but close to about 2500 m would be required to find 1.5 Myr old ice (i.e., more than 700 m less than at the current EPICA Dome C drill site). Within this constraint, the resolution of an Oldest-Ice record and the distance of such old ice to the bedrock should be maximized to avoid ice flow disturbances, for example, by finding locations with minimum geothermal heat flux. As the geothermal heat flux is largely unknown for the EAIS, this parameter has to be carefully determined beforehand. In addition, detailed bedrock topography and ice flow history has to be reconstructed for candidates of an Oldest-Ice ice coring site. Finally, we argue strongly for rapid access drilling before any full, deep ice coring activity commences to bring datable samples to the surface and to allow an age check of the oldest ice.
format Article in Journal/Newspaper
author Fischer, H.
Severinghaus, J.
Brook, E.
Wolff, E.
Albert, M.
Alemany, O.
Arthern, R.
Bentley, C.
Blankenship, D.
Chappellaz, J.
Creyts, T.
Dahl-Jensen, D.
Dinn, M.
Frezzotti, M.
Fujita, S.
Gallee, H.
Hindmarsh, R.
Hudspeth, D.
Jugie, G.
Kawamura, K.
Lipenkov, V.
Miller, H.
Mulvaney, R.
Parrenin, F.
Pattyn, F.
Ritz, C.
Schwander, J.
Steinhage, D.
van Ommen, T.
Wilhelms, Frank
spellingShingle Fischer, H.
Severinghaus, J.
Brook, E.
Wolff, E.
Albert, M.
Alemany, O.
Arthern, R.
Bentley, C.
Blankenship, D.
Chappellaz, J.
Creyts, T.
Dahl-Jensen, D.
Dinn, M.
Frezzotti, M.
Fujita, S.
Gallee, H.
Hindmarsh, R.
Hudspeth, D.
Jugie, G.
Kawamura, K.
Lipenkov, V.
Miller, H.
Mulvaney, R.
Parrenin, F.
Pattyn, F.
Ritz, C.
Schwander, J.
Steinhage, D.
van Ommen, T.
Wilhelms, Frank
Where to find 1.5 million yr old ice for the IPICS "Oldest-Ice" ice core
author_facet Fischer, H.
Severinghaus, J.
Brook, E.
Wolff, E.
Albert, M.
Alemany, O.
Arthern, R.
Bentley, C.
Blankenship, D.
Chappellaz, J.
Creyts, T.
Dahl-Jensen, D.
Dinn, M.
Frezzotti, M.
Fujita, S.
Gallee, H.
Hindmarsh, R.
Hudspeth, D.
Jugie, G.
Kawamura, K.
Lipenkov, V.
Miller, H.
Mulvaney, R.
Parrenin, F.
Pattyn, F.
Ritz, C.
Schwander, J.
Steinhage, D.
van Ommen, T.
Wilhelms, Frank
author_sort Fischer, H.
title Where to find 1.5 million yr old ice for the IPICS "Oldest-Ice" ice core
title_short Where to find 1.5 million yr old ice for the IPICS "Oldest-Ice" ice core
title_full Where to find 1.5 million yr old ice for the IPICS "Oldest-Ice" ice core
title_fullStr Where to find 1.5 million yr old ice for the IPICS "Oldest-Ice" ice core
title_full_unstemmed Where to find 1.5 million yr old ice for the IPICS "Oldest-Ice" ice core
title_sort where to find 1.5 million yr old ice for the ipics "oldest-ice" ice core
publisher Copernicus GmbH
publishDate 2013
url https://epic.awi.de/id/eprint/34455/
https://epic.awi.de/id/eprint/34455/1/cp-9-2489-2013.pdf
https://doi.org/10.5194/cp-9-2489-2013
https://hdl.handle.net/10013/epic.42692
https://hdl.handle.net/10013/epic.42692.d001
genre Antarc*
Antarctic
Antarctica
EPICA
ice core
Ice Sheet
genre_facet Antarc*
Antarctic
Antarctica
EPICA
ice core
Ice Sheet
op_source EPIC3Climate of the Past, Copernicus GmbH, 9(6), pp. 2489-2505, ISSN: 1814-9332
op_relation https://epic.awi.de/id/eprint/34455/1/cp-9-2489-2013.pdf
https://hdl.handle.net/10013/epic.42692.d001
Fischer, H. , Severinghaus, J. , Brook, E. , Wolff, E. , Albert, M. , Alemany, O. , Arthern, R. , Bentley, C. , Blankenship, D. , Chappellaz, J. , Creyts, T. , Dahl-Jensen, D. , Dinn, M. , Frezzotti, M. , Fujita, S. , Gallee, H. , Hindmarsh, R. , Hudspeth, D. , Jugie, G. , Kawamura, K. , Lipenkov, V. , Miller, H. , Mulvaney, R. , Parrenin, F. , Pattyn, F. , Ritz, C. , Schwander, J. , Steinhage, D. , van Ommen, T. and Wilhelms, F. orcid:0000-0001-7688-3135 (2013) Where to find 1.5 million yr old ice for the IPICS "Oldest-Ice" ice core , Climate of the Past, 9 (6), pp. 2489-2505 . doi:10.5194/cp-9-2489-2013 <https://doi.org/10.5194/cp-9-2489-2013> , hdl:10013/epic.42692
op_doi https://doi.org/10.5194/cp-9-2489-2013
container_title Climate of the Past
container_volume 9
container_issue 6
container_start_page 2489
op_container_end_page 2505
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