Intensification of Southern Hemisphere westerly winds 2000-1000 years ago: Evidence from the subantarctic Campbell and Auckland Islands (52-50°S)
Intensification of Southern Hemisphere westerly winds 2000-1000 years ago: Evidence from the subantarctic Campbell and Auckland Islands (52-50°S)
The Southern Ocean plays a significant role in driving global climate-ocean-carbon dynamics. Unfortunately, a relative dearth of datasets across the region limits our ability to understand past and future mechanisms of change. Here we report a new dataset from the south-west Pacific: radiocarbon-dated subfossil tree stumps (Dracophyllum) eroding out from peat exposures on Campbell and Auckland Islands (52-50°S). Dracophyllum are the southernmost growing trees in the south-west Pacific and their growth on exposed sites and at altitude is strongly controlled by the prevailing westerly airflow, providing a unique measure of past changes in zonal wind strength. Here we demonstrate a significant collapse in the altitudinal limit of growth between approximately 2000 and 1000 years ago (hereafter 2-1ka), consistent with other records across the Southern Hemisphere that indicate westerly airflow was significantly enhanced. Importantly, this period in the late Holocene was one of marked change across the broader region, suggesting westerly airflow played a key role in driving Southern Ocean variability at this time.
Southern Hemisphere westerlies, Southern Ocean, Subantarctic islands, Subfossil trees, Tree line
12-19
Turney, Chris S.M.
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McGlone, Matt
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Palmer, Jonathan
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Fogwill, Christopher
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Hogg, Alan
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Thomas, Zoë A.
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Lipson, Mathew
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Wilmshurst, Janet M.
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Fenwick, Pavla
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Jones, Richard T.
f8b5db51-10c7-4b4e-81e3-e5c3833eb2ce
Hines, Ben
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Clark, Graeme F.
ee20731b-300a-48e1-accd-50e8f50ff385
8 January 2016
Turney, Chris S.M.
5149b57c-77c2-4375-97a2-a4f00aa74d97
McGlone, Matt
b84ad1a5-3a14-4f14-a70f-9ee3e386cb48
Palmer, Jonathan
6b327a39-f234-4cdc-ae73-0c48340f05b3
Fogwill, Christopher
3bad6ae9-5a6d-467e-b523-9d5ed0147455
Hogg, Alan
11978083-6632-42e2-ac46-4e0f9cd709c9
Thomas, Zoë A.
4b512d3a-3478-4270-9fdd-61256aa640d3
Lipson, Mathew
f599592a-28ae-4ede-9c7b-e484e3f94c62
Wilmshurst, Janet M.
3738ab11-0f7b-4550-b8d3-f63198b3394e
Fenwick, Pavla
8ce718a6-f147-4eac-9878-f8b67c491a70
Jones, Richard T.
f8b5db51-10c7-4b4e-81e3-e5c3833eb2ce
Hines, Ben
5deb353f-872a-4cfc-9205-417694820df7
Clark, Graeme F.
ee20731b-300a-48e1-accd-50e8f50ff385
Turney, Chris S.M., McGlone, Matt, Palmer, Jonathan, Fogwill, Christopher, Hogg, Alan, Thomas, Zoë A., Lipson, Mathew, Wilmshurst, Janet M., Fenwick, Pavla, Jones, Richard T., Hines, Ben and Clark, Graeme F.
(2016)
Intensification of Southern Hemisphere westerly winds 2000-1000 years ago: Evidence from the subantarctic Campbell and Auckland Islands (52-50°S).
Journal of Quaternary Science, 31 (1), .
(doi:10.1002/jqs.2828).
Abstract
The Southern Ocean plays a significant role in driving global climate-ocean-carbon dynamics. Unfortunately, a relative dearth of datasets across the region limits our ability to understand past and future mechanisms of change. Here we report a new dataset from the south-west Pacific: radiocarbon-dated subfossil tree stumps (Dracophyllum) eroding out from peat exposures on Campbell and Auckland Islands (52-50°S). Dracophyllum are the southernmost growing trees in the south-west Pacific and their growth on exposed sites and at altitude is strongly controlled by the prevailing westerly airflow, providing a unique measure of past changes in zonal wind strength. Here we demonstrate a significant collapse in the altitudinal limit of growth between approximately 2000 and 1000 years ago (hereafter 2-1ka), consistent with other records across the Southern Hemisphere that indicate westerly airflow was significantly enhanced. Importantly, this period in the late Holocene was one of marked change across the broader region, suggesting westerly airflow played a key role in driving Southern Ocean variability at this time.
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Published date: 8 January 2016
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Publisher Copyright:
© 2016 John Wiley & Sons, Ltd.
Keywords:
Southern Hemisphere westerlies, Southern Ocean, Subantarctic islands, Subfossil trees, Tree line
Identifiers
Local EPrints ID: 479325
URI: http://eprints.soton.ac.uk/id/eprint/479325
ISSN: 0267-8179
PURE UUID: b79c4d2a-3bf5-4e07-a2ba-a67351514c06
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Date deposited: 20 Jul 2023 17:09
Last modified: 17 Mar 2024 04:18
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Contributors
Author:
Chris S.M. Turney
Author:
Matt McGlone
Author:
Jonathan Palmer
Author:
Christopher Fogwill
Author:
Alan Hogg
Author:
Zoë A. Thomas
Author:
Mathew Lipson
Author:
Janet M. Wilmshurst
Author:
Pavla Fenwick
Author:
Richard T. Jones
Author:
Ben Hines
Author:
Graeme F. Clark
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