New ice core records on the glacial/interglacial change in atmospheric d13CO2

The reconstruction of δ13CO2 using Antarctic ice cores promises a deeper understanding on the causes of past atmospheric CO2 changes. Previous measurements on the Taylor Dome ice core over the last 30,000 years (Smith et al., 1999) indicated marine processes to be dominating the significant δ13CO2 c...

Full description

Bibliographic Details
Main Authors: Fischer, Hubertus, Schmitt, Jochen, Schneider, Robert, Elsig, J., Lourantou, A., Leuenberger, M., Stocker, T. F., Köhler, Peter, Lavric, J., Raynaud, D., Chappellaz, J.
Format: Conference Object
Language:unknown
Published: 2010
Subjects:
Antarc*
Antarctic
EPICA
ice core
Online Access:https://epic.awi.de/id/eprint/23002/
https://hdl.handle.net/10013/epic.35792
id ftawi:oai:epic.awi.de:23002
record_format openpolar
spelling ftawi:oai:epic.awi.de:23002 2024-09-15T17:46:02+00:00 New ice core records on the glacial/interglacial change in atmospheric d13CO2 Fischer, Hubertus Schmitt, Jochen Schneider, Robert Elsig, J. Lourantou, A. Leuenberger, M. Stocker, T. F. Köhler, Peter Lavric, J. Raynaud, D. Chappellaz, J. 2010 https://epic.awi.de/id/eprint/23002/ https://hdl.handle.net/10013/epic.35792 unknown Fischer, H. , Schmitt, J. , Schneider, R. , Elsig, J. , Lourantou, A. , Leuenberger, M. , Stocker, T. F. , Köhler, P. orcid:0000-0003-0904-8484 , Lavric, J. , Raynaud, D. and Chappellaz, J. (2010) New ice core records on the glacial/interglacial change in atmospheric d13CO2 , AGU,Fall Meet. Suppl., Abstract C23D-06,13-17 Dec 2010, San Francisco, USA. . hdl:10013/epic.35792 EPIC3AGU,Fall Meet. Suppl., Abstract C23D-06,13-17 Dec 2010, San Francisco, USA. Conference notRev 2010 ftawi 2024-06-24T04:02:26Z The reconstruction of δ13CO2 using Antarctic ice cores promises a deeper understanding on the causes of past atmospheric CO2 changes. Previous measurements on the Taylor Dome ice core over the last 30,000 years (Smith et al., 1999) indicated marine processes to be dominating the significant δ13CO2 changes over the transition, whereas glacial δ13CO2 was only slightly depleted relative to the Holocene (Leuenberger et al., 1992; Smith et al., 1999). However, significant uncertainty and the low temporal resolution of the Taylor Dome δ13CO2 data prevented a more detailed interpretation.Recently, substantial improvements have been made in the analysis and the resolution of ice core δ13CO2 records (Elsig et al., 2009; Lourantou et al., 2010). With these and new measurements presented here, three independent δ13CO2 data sets over the last glacial/interglacial transition have now been derived from the two EPICA and the Talos Dome ice cores. Two of the methods use traditional dry extraction techniques with a reproducibility of 0.07-0.1. The third method uses a novel sublimation technique with a reproducibility of 0.05. Here we compare the data sets, their analytical setups and discuss their joint information as well as their differences. The three records provide a more detailed picture on the temporal evolution of δ13CO2 and confirm two pronounced isotope minima between 18-12,000 years BP in parallel to the two major phases of CO2 increase (Lourantou et al., 2010; Smith et al., 1999) as also reflected in marine sediments (Marchitto et al., 2007; Skinner et al., 2010). Accordingly, a release of old carbon from the deep ocean is most likely responsible for a large part of the long-term increase in atmospheric CO2 in this time interval. However, the fast CO2 jumps at a round 12,000 and 14,000 years BP may be partly of terrestrial origin (Elsig, 2009; Köhler et al., 2010b). The new sublimation data set provides also unambiguous δ13CO2 data for clathrate ice in the LGM. This shows a rather constant δ13CO2 level, which is only ... Conference Object Antarc* Antarctic EPICA ice core Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
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 reconstruction of δ13CO2 using Antarctic ice cores promises a deeper understanding on the causes of past atmospheric CO2 changes. Previous measurements on the Taylor Dome ice core over the last 30,000 years (Smith et al., 1999) indicated marine processes to be dominating the significant δ13CO2 changes over the transition, whereas glacial δ13CO2 was only slightly depleted relative to the Holocene (Leuenberger et al., 1992; Smith et al., 1999). However, significant uncertainty and the low temporal resolution of the Taylor Dome δ13CO2 data prevented a more detailed interpretation.Recently, substantial improvements have been made in the analysis and the resolution of ice core δ13CO2 records (Elsig et al., 2009; Lourantou et al., 2010). With these and new measurements presented here, three independent δ13CO2 data sets over the last glacial/interglacial transition have now been derived from the two EPICA and the Talos Dome ice cores. Two of the methods use traditional dry extraction techniques with a reproducibility of 0.07-0.1. The third method uses a novel sublimation technique with a reproducibility of 0.05. Here we compare the data sets, their analytical setups and discuss their joint information as well as their differences. The three records provide a more detailed picture on the temporal evolution of δ13CO2 and confirm two pronounced isotope minima between 18-12,000 years BP in parallel to the two major phases of CO2 increase (Lourantou et al., 2010; Smith et al., 1999) as also reflected in marine sediments (Marchitto et al., 2007; Skinner et al., 2010). Accordingly, a release of old carbon from the deep ocean is most likely responsible for a large part of the long-term increase in atmospheric CO2 in this time interval. However, the fast CO2 jumps at a round 12,000 and 14,000 years BP may be partly of terrestrial origin (Elsig, 2009; Köhler et al., 2010b). The new sublimation data set provides also unambiguous δ13CO2 data for clathrate ice in the LGM. This shows a rather constant δ13CO2 level, which is only ...
format Conference Object
author Fischer, Hubertus
Schmitt, Jochen
Schneider, Robert
Elsig, J.
Lourantou, A.
Leuenberger, M.
Stocker, T. F.
Köhler, Peter
Lavric, J.
Raynaud, D.
Chappellaz, J.
spellingShingle Fischer, Hubertus
Schmitt, Jochen
Schneider, Robert
Elsig, J.
Lourantou, A.
Leuenberger, M.
Stocker, T. F.
Köhler, Peter
Lavric, J.
Raynaud, D.
Chappellaz, J.
New ice core records on the glacial/interglacial change in atmospheric d13CO2
author_facet Fischer, Hubertus
Schmitt, Jochen
Schneider, Robert
Elsig, J.
Lourantou, A.
Leuenberger, M.
Stocker, T. F.
Köhler, Peter
Lavric, J.
Raynaud, D.
Chappellaz, J.
author_sort Fischer, Hubertus
title New ice core records on the glacial/interglacial change in atmospheric d13CO2
title_short New ice core records on the glacial/interglacial change in atmospheric d13CO2
title_full New ice core records on the glacial/interglacial change in atmospheric d13CO2
title_fullStr New ice core records on the glacial/interglacial change in atmospheric d13CO2
title_full_unstemmed New ice core records on the glacial/interglacial change in atmospheric d13CO2
title_sort new ice core records on the glacial/interglacial change in atmospheric d13co2
publishDate 2010
url https://epic.awi.de/id/eprint/23002/
https://hdl.handle.net/10013/epic.35792
genre Antarc*
Antarctic
EPICA
ice core
genre_facet Antarc*
Antarctic
EPICA
ice core
op_source EPIC3AGU,Fall Meet. Suppl., Abstract C23D-06,13-17 Dec 2010, San Francisco, USA.
op_relation Fischer, H. , Schmitt, J. , Schneider, R. , Elsig, J. , Lourantou, A. , Leuenberger, M. , Stocker, T. F. , Köhler, P. orcid:0000-0003-0904-8484 , Lavric, J. , Raynaud, D. and Chappellaz, J. (2010) New ice core records on the glacial/interglacial change in atmospheric d13CO2 , AGU,Fall Meet. Suppl., Abstract C23D-06,13-17 Dec 2010, San Francisco, USA. . hdl:10013/epic.35792
_version_ 1810493985754447872

Similar Items