Evidence for warmer interglacials in East Antarctic ice cores

Stable isotope ratios of oxygen and hydrogen in the Antarctic ice core record have revolutionized our understanding of Pleistocene climate variations and have allowed reconstructions of Antarctic temperature over the past 800,000 years (800 kyr; refs 1, 2). The relationship between the D/H ratio of...

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Published in:Nature
Main Authors: Sime, L.C., Wolff, E.W., Oliver, K.I.C., Tindall, J.C.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2009
Subjects:
Antarctic
The Antarctic
Antarc*
ice core
Online Access:https://eprints.soton.ac.uk/69637/
http://www.nature.com/nature/journal/v462/n7271/full/nature08564.html
id ftsouthampton:oai:eprints.soton.ac.uk:69637
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spelling ftsouthampton:oai:eprints.soton.ac.uk:69637 2023-07-30T03:57:24+02:00 Evidence for warmer interglacials in East Antarctic ice cores Sime, L.C. Wolff, E.W. Oliver, K.I.C. Tindall, J.C. 2009-11-19 https://eprints.soton.ac.uk/69637/ http://www.nature.com/nature/journal/v462/n7271/full/nature08564.html unknown Sime, L.C., Wolff, E.W., Oliver, K.I.C. and Tindall, J.C. (2009) Evidence for warmer interglacials in East Antarctic ice cores. Nature, 462 (7271), 342-345. (doi:10.1038/nature08564 <http://dx.doi.org/10.1038/nature08564>). Article PeerReviewed 2009 ftsouthampton https://doi.org/10.1038/nature08564 2023-07-09T21:06:49Z Stable isotope ratios of oxygen and hydrogen in the Antarctic ice core record have revolutionized our understanding of Pleistocene climate variations and have allowed reconstructions of Antarctic temperature over the past 800,000 years (800 kyr; refs 1, 2). The relationship between the D/H ratio of mean annual precipitation and mean annual surface air temperature is said to be uniform 10% over East Antarctica3 and constant with time 20% (refs 3–5). In the absence of strong independent temperature proxy evidence allowing us to calibrate individual ice cores, prior general circulation model (GCM) studies have supported the assumption of constant uniform conversion for climates cooler than that of the present day3, 5. Here we analyse the three available 340 kyr East Antarctic ice core records alongside input from GCM modelling. We show that for warmer interglacial periods the relationship between temperature and the isotopic signature varies among ice core sites, and that therefore the conversions must be nonlinear for at least some sites. Model results indicate that the isotopic composition of East Antarctic ice is less sensitive to temperature changes during warmer climates. We conclude that previous temperature estimates from interglacial climates are likely to be too low. The available evidence is consistent with a peak Antarctic interglacial temperature that was at least 6 K higher than that of the present day —approximately double the widely quoted 3 1.5 K (refs 5, 6). Article in Journal/Newspaper Antarc* Antarctic ice core University of Southampton: e-Prints Soton Antarctic The Antarctic Nature 462 7271 342 345
institution Open Polar
collection University of Southampton: e-Prints Soton
op_collection_id ftsouthampton
language unknown
description Stable isotope ratios of oxygen and hydrogen in the Antarctic ice core record have revolutionized our understanding of Pleistocene climate variations and have allowed reconstructions of Antarctic temperature over the past 800,000 years (800 kyr; refs 1, 2). The relationship between the D/H ratio of mean annual precipitation and mean annual surface air temperature is said to be uniform 10% over East Antarctica3 and constant with time 20% (refs 3–5). In the absence of strong independent temperature proxy evidence allowing us to calibrate individual ice cores, prior general circulation model (GCM) studies have supported the assumption of constant uniform conversion for climates cooler than that of the present day3, 5. Here we analyse the three available 340 kyr East Antarctic ice core records alongside input from GCM modelling. We show that for warmer interglacial periods the relationship between temperature and the isotopic signature varies among ice core sites, and that therefore the conversions must be nonlinear for at least some sites. Model results indicate that the isotopic composition of East Antarctic ice is less sensitive to temperature changes during warmer climates. We conclude that previous temperature estimates from interglacial climates are likely to be too low. The available evidence is consistent with a peak Antarctic interglacial temperature that was at least 6 K higher than that of the present day —approximately double the widely quoted 3 1.5 K (refs 5, 6).
format Article in Journal/Newspaper
author Sime, L.C.
Wolff, E.W.
Oliver, K.I.C.
Tindall, J.C.
spellingShingle Sime, L.C.
Wolff, E.W.
Oliver, K.I.C.
Tindall, J.C.
Evidence for warmer interglacials in East Antarctic ice cores
author_facet Sime, L.C.
Wolff, E.W.
Oliver, K.I.C.
Tindall, J.C.
author_sort Sime, L.C.
title Evidence for warmer interglacials in East Antarctic ice cores
title_short Evidence for warmer interglacials in East Antarctic ice cores
title_full Evidence for warmer interglacials in East Antarctic ice cores
title_fullStr Evidence for warmer interglacials in East Antarctic ice cores
title_full_unstemmed Evidence for warmer interglacials in East Antarctic ice cores
title_sort evidence for warmer interglacials in east antarctic ice cores
publishDate 2009
url https://eprints.soton.ac.uk/69637/
http://www.nature.com/nature/journal/v462/n7271/full/nature08564.html
geographic Antarctic
The Antarctic
geographic_facet Antarctic
The Antarctic
genre Antarc*
Antarctic
ice core
genre_facet Antarc*
Antarctic
ice core
op_relation Sime, L.C., Wolff, E.W., Oliver, K.I.C. and Tindall, J.C. (2009) Evidence for warmer interglacials in East Antarctic ice cores. Nature, 462 (7271), 342-345. (doi:10.1038/nature08564 <http://dx.doi.org/10.1038/nature08564>).
op_doi https://doi.org/10.1038/nature08564
container_title Nature
container_volume 462
container_issue 7271
container_start_page 342
op_container_end_page 345
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