Archaeal intact polar lipids in polar waters: a comparison between the Amundsen and Scotia seas

The West Antarctic Ice Sheet (WAIS) is one of the largest potential sources of future sea-level rise, with glaciers draining the WAIS thinning at an accelerating rate over the past 40 years. Due to complexities in calibrating palaeoceanographic proxies for the Southern Ocean, it remains difficult to...

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Published in:Biogeosciences
Main Authors: Spencer-Jones, Charlotte L., McClymont, Erin L., Bale, Nicole J., Hopmans, Ellen C., Schouten, Stefan, Müller, Juliane, Abrahamsen, E. Povl, Allen, Claire, Bickert, Torsten, Hillenbrand, Claus-Dieter, Mawbey, Elaine, Peck, Victoria, Svalova, Aleksandra, Smith, James A.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2021
Subjects:
Antarctic
Southern Ocean
The Antarctic
Scotia Sea
Amundsen Sea
West Antarctic Ice Sheet
Antarc*
Ice Sheet
Online Access:https://epic.awi.de/id/eprint/55950/
https://doi.org/10.5194/bg-18-3485-2021
https://hdl.handle.net/10013/epic.a1a0906f-1b0e-4e53-8ce2-487ba57b84fb
id ftawi:oai:epic.awi.de:55950
record_format openpolar
spelling ftawi:oai:epic.awi.de:55950 2023-05-15T13:23:52+02:00 Archaeal intact polar lipids in polar waters: a comparison between the Amundsen and Scotia seas Spencer-Jones, Charlotte L. McClymont, Erin L. Bale, Nicole J. Hopmans, Ellen C. Schouten, Stefan Müller, Juliane Abrahamsen, E. Povl Allen, Claire Bickert, Torsten Hillenbrand, Claus-Dieter Mawbey, Elaine Peck, Victoria Svalova, Aleksandra Smith, James A. 2021 https://epic.awi.de/id/eprint/55950/ https://doi.org/10.5194/bg-18-3485-2021 https://hdl.handle.net/10013/epic.a1a0906f-1b0e-4e53-8ce2-487ba57b84fb unknown Spencer-Jones, C. L. , McClymont, E. L. , Bale, N. J. , Hopmans, E. C. , Schouten, S. , Müller, J. , Abrahamsen, E. P. , Allen, C. , Bickert, T. , Hillenbrand, C. D. , Mawbey, E. , Peck, V. , Svalova, A. and Smith, J. A. (2021) Archaeal intact polar lipids in polar waters: a comparison between the Amundsen and Scotia seas , Biogeosciences, 18 (11), pp. 3485-3504 . doi:10.5194/bg-18-3485-2021 <https://doi.org/10.5194/bg-18-3485-2021> , hdl:10013/epic.a1a0906f-1b0e-4e53-8ce2-487ba57b84fb EPIC3Biogeosciences, 18(11), pp. 3485-3504, ISSN: 1726-4189 Article isiRev info:eu-repo/semantics/article 2021 ftawi https://doi.org/10.5194/bg-18-3485-2021 2022-04-17T23:12:15Z The West Antarctic Ice Sheet (WAIS) is one of the largest potential sources of future sea-level rise, with glaciers draining the WAIS thinning at an accelerating rate over the past 40 years. Due to complexities in calibrating palaeoceanographic proxies for the Southern Ocean, it remains difficult to assess whether similar changes have occurred earlier during the Holocene or whether there is underlying centennial- to millennial-scale forcing in oceanic variability. Archaeal lipid-based proxies, specifically glycerol dialkyl glycerol tetraether (GDGT; e.g. TEX86 and TEXL86), are powerful tools for reconstructing ocean temperature, but these proxies have been shown previously to be difficult to apply to the Southern Ocean. A greater understanding of the parameters that control Southern Ocean GDGT distributions would improve the application of these biomarker proxies and thus help provide a longer-term perspective on ocean forcing of Antarctic ice sheet changes. In this study, we characterised intact polar lipid (IPL)-GDGTs, representing (recently) living archaeal populations in suspended particulate matter (SPM) from the Amundsen Sea and the Scotia Sea. SPM samples from the Amundsen Sea were collected from up to four water column depths representing the surface waters through to Circumpolar Deep Water (CDW), whereas the Scotia Sea samples were collected along a transect encompassing the sub-Antarctic front through to the southern boundary of the Antarctic Circumpolar Current. IPL-GDGTs with low cyclic diversity were detected throughout the water column with high relative abundances of hydroxylated IPL-GDGTs identified in both the Amundsen and Scotia seas. Results from the Scotia Sea show shifts in IPL-GDGT signatures across well-defined fronts of the Southern Ocean. Indicating that the physicochemical parameters of these water masses determine changes in IPL-GDGT distributions. The Amundsen Sea results identified GDGTs with hexose-phosphohexose head groups in the CDW, suggesting active GDGT synthesis at these depths. These results suggest that GDGTs synthesised at CDW depths may be a significant source of GDGTs exported to the sedimentary record and that temperature reconstructions based on TEX86 or TEXL86 proxies may be significantly influenced by the warmer waters of the CDW. Article in Journal/Newspaper Amundsen Sea Antarc* Antarctic Ice Sheet Scotia Sea Southern Ocean Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center) Antarctic Southern Ocean The Antarctic Scotia Sea Amundsen Sea West Antarctic Ice Sheet Biogeosciences 18 11 3485 3504
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 West Antarctic Ice Sheet (WAIS) is one of the largest potential sources of future sea-level rise, with glaciers draining the WAIS thinning at an accelerating rate over the past 40 years. Due to complexities in calibrating palaeoceanographic proxies for the Southern Ocean, it remains difficult to assess whether similar changes have occurred earlier during the Holocene or whether there is underlying centennial- to millennial-scale forcing in oceanic variability. Archaeal lipid-based proxies, specifically glycerol dialkyl glycerol tetraether (GDGT; e.g. TEX86 and TEXL86), are powerful tools for reconstructing ocean temperature, but these proxies have been shown previously to be difficult to apply to the Southern Ocean. A greater understanding of the parameters that control Southern Ocean GDGT distributions would improve the application of these biomarker proxies and thus help provide a longer-term perspective on ocean forcing of Antarctic ice sheet changes. In this study, we characterised intact polar lipid (IPL)-GDGTs, representing (recently) living archaeal populations in suspended particulate matter (SPM) from the Amundsen Sea and the Scotia Sea. SPM samples from the Amundsen Sea were collected from up to four water column depths representing the surface waters through to Circumpolar Deep Water (CDW), whereas the Scotia Sea samples were collected along a transect encompassing the sub-Antarctic front through to the southern boundary of the Antarctic Circumpolar Current. IPL-GDGTs with low cyclic diversity were detected throughout the water column with high relative abundances of hydroxylated IPL-GDGTs identified in both the Amundsen and Scotia seas. Results from the Scotia Sea show shifts in IPL-GDGT signatures across well-defined fronts of the Southern Ocean. Indicating that the physicochemical parameters of these water masses determine changes in IPL-GDGT distributions. The Amundsen Sea results identified GDGTs with hexose-phosphohexose head groups in the CDW, suggesting active GDGT synthesis at these depths. These results suggest that GDGTs synthesised at CDW depths may be a significant source of GDGTs exported to the sedimentary record and that temperature reconstructions based on TEX86 or TEXL86 proxies may be significantly influenced by the warmer waters of the CDW.
format Article in Journal/Newspaper
author Spencer-Jones, Charlotte L.
McClymont, Erin L.
Bale, Nicole J.
Hopmans, Ellen C.
Schouten, Stefan
Müller, Juliane
Abrahamsen, E. Povl
Allen, Claire
Bickert, Torsten
Hillenbrand, Claus-Dieter
Mawbey, Elaine
Peck, Victoria
Svalova, Aleksandra
Smith, James A.
spellingShingle Spencer-Jones, Charlotte L.
McClymont, Erin L.
Bale, Nicole J.
Hopmans, Ellen C.
Schouten, Stefan
Müller, Juliane
Abrahamsen, E. Povl
Allen, Claire
Bickert, Torsten
Hillenbrand, Claus-Dieter
Mawbey, Elaine
Peck, Victoria
Svalova, Aleksandra
Smith, James A.
Archaeal intact polar lipids in polar waters: a comparison between the Amundsen and Scotia seas
author_facet Spencer-Jones, Charlotte L.
McClymont, Erin L.
Bale, Nicole J.
Hopmans, Ellen C.
Schouten, Stefan
Müller, Juliane
Abrahamsen, E. Povl
Allen, Claire
Bickert, Torsten
Hillenbrand, Claus-Dieter
Mawbey, Elaine
Peck, Victoria
Svalova, Aleksandra
Smith, James A.
author_sort Spencer-Jones, Charlotte L.
title Archaeal intact polar lipids in polar waters: a comparison between the Amundsen and Scotia seas
title_short Archaeal intact polar lipids in polar waters: a comparison between the Amundsen and Scotia seas
title_full Archaeal intact polar lipids in polar waters: a comparison between the Amundsen and Scotia seas
title_fullStr Archaeal intact polar lipids in polar waters: a comparison between the Amundsen and Scotia seas
title_full_unstemmed Archaeal intact polar lipids in polar waters: a comparison between the Amundsen and Scotia seas
title_sort archaeal intact polar lipids in polar waters: a comparison between the amundsen and scotia seas
publishDate 2021
url https://epic.awi.de/id/eprint/55950/
https://doi.org/10.5194/bg-18-3485-2021
https://hdl.handle.net/10013/epic.a1a0906f-1b0e-4e53-8ce2-487ba57b84fb
geographic Antarctic
Southern Ocean
The Antarctic
Scotia Sea
Amundsen Sea
West Antarctic Ice Sheet
geographic_facet Antarctic
Southern Ocean
The Antarctic
Scotia Sea
Amundsen Sea
West Antarctic Ice Sheet
genre Amundsen Sea
Antarc*
Antarctic
Ice Sheet
Scotia Sea
Southern Ocean
genre_facet Amundsen Sea
Antarc*
Antarctic
Ice Sheet
Scotia Sea
Southern Ocean
op_source EPIC3Biogeosciences, 18(11), pp. 3485-3504, ISSN: 1726-4189
op_relation Spencer-Jones, C. L. , McClymont, E. L. , Bale, N. J. , Hopmans, E. C. , Schouten, S. , Müller, J. , Abrahamsen, E. P. , Allen, C. , Bickert, T. , Hillenbrand, C. D. , Mawbey, E. , Peck, V. , Svalova, A. and Smith, J. A. (2021) Archaeal intact polar lipids in polar waters: a comparison between the Amundsen and Scotia seas , Biogeosciences, 18 (11), pp. 3485-3504 . doi:10.5194/bg-18-3485-2021 <https://doi.org/10.5194/bg-18-3485-2021> , hdl:10013/epic.a1a0906f-1b0e-4e53-8ce2-487ba57b84fb
op_doi https://doi.org/10.5194/bg-18-3485-2021
container_title Biogeosciences
container_volume 18
container_issue 11
container_start_page 3485
op_container_end_page 3504
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